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8 | process next etching process and or chemical mechanical polishing cmp process could be conducted to remove part of the dielectric layer 30 for forming a shallow trench isolation sti transistor elements including gate structure and source drain regions could also be formed thereafter depending on the demand of product and the details of which are not explained herein for the sake of brevity it should be noted that the aforementioned annealing process not only drives dopants from the doped layer 24 into the bottom portion 20 of fin shaped structures 14 and or substrate 12 it also solidifies the originally flowable and viscous dielectric layer 30 formed through fcvd process into a much more solid and concrete structure removes part of impurities such as nitrogen and hydrogen from the dielectric layer 30 and repairs layer defect thereby increasing isolation effectiveness it should be noted that instead of performing annealing process to drive dopants from the doped layer 24 into bottom portion 20 and or substrate 12 after depositing the dielectric layer 30 it would also be desirable to perform annealing process before the formation of dielectric layer 30 such as after removing liner 26 and doped layer 24 not protected by the dielectric layer 28 and before removing the dielectric. |
5 | the slotted backing boards 11 include a rear face 15 a molding receiving face 17 and a slotted portion 19 the rear face 15 is designed to be attached to the wall surface 6 preferably double sided tape 21 is used so that the tape can be first applied to the surface 15 and then applied to the wall 6 of course the reverse order could also be used for installing the backing boards other means for securing the boards 11 to a wall can also be utilized as are known in the art the slotted portion 19 includes a lip 23 the slotted portion 19 is sized to receive a terminal end of the panel 1 with the lip 23 acting as a retainer to keep the panel 1 in place for further installation once the backing boards 11 are attached to the wall and the panels 1 secured thereto the top and bottom moldings 5 and 7 respectively can be attached to the backing boards at face 17 the moldings 5 and 7 can be attached to the backing boards in any conventional fashion such as using adhesives or fasteners it is preferred when using fasteners that the fasteners only penetrate into the backing boards 11 and not into the wall surface 6 with fasteners of this size the backing boards 11 can be removed from the wall surface with the panel system intact for use in another location referring now to fig3 the wall panel system also includes a plurality of mounting boards 25 which are attached to the wall 6 in the same manner as the slotted backing boards 11 in fig3 a double sided tape 21 is shown for attachment purposes when installing the wall. |
9 | thereto see angle a fig1 first end 36 a of cable housing is attached fixedly with respect to the lever here attached to cable base 32 as seen in fig1 illustrated in fig1 it is seen that two cable house end 36 b may be attached to a laterally mounted foot bar 46 turning back to a twist grip assemblies it is seen that an end cap 38 may be provided that will typically include inner sleeve 38 a a cap portion 38 b which has a hole 38 c on a removed wall thereof for receipt of hold down bolt 39 there through it is seen that inner sleeve 38 a is dimensioned to butt up against upper perimeter 22 b of push lever 22 as the hold down bolt is tightened to the blind nut 22 a it is seen that perimeter 34 a will be able to ride on this fixed sleeve as twist grip member 34 is rotated and longitudinal movement of twist grip 34 will be limited by coupler base 32 and coupler 33 on a lower end and by cap member 38 on an upper end this typically is about u215b to 1 16 of. |
7 | voltage value anin is also reduced the a d converter 64 converts under the control of the cpu 3 the variable analog voltage value anin to a digital value in accordance with the magnitude of the analog voltage value anin the resulting digital value is read by the cpu 3 and the cpu 3 in turn gives the voltage specifying signal to the d a converter 25 with the above constitution an automatic contrast controlling function can be realized fig1 is a flow chart showing the procedure performed in the cpu 3 at this time at first the reference value of the a d converter 64 and the reference value of the d a converter 25 in normal conditions are set step s1 then the analog voltage value anin outputted from the temperature detector 66 at a specified period is subjected to the a d conversion step s2 so as to judge whether or not the value resulting from the a d conversion is same as the above reference value set value of the a d converter 64 step s3 when it is judged to be same the set value of the d a converter 25 is reset to the original set value step 4 thereby returning to step s2 when it is judged that the resultant value is not same as the set value in step s3 it is further judged whether or not the resultant value is larger than the set value step s5 when the resultant value is larger than the set value the set value of the d a converter 25 is reduced. |
6 | at step 123 the ecu 30 executes throttle angle control for stratified charge combustion the throttle valve is substantially completely opened and temporarily terminates subsequent processing if it is determined that the engine 1 is performing uniform charge combustion the ecu 30 proceeds to step 103 and determines whether or not the present air fuel ratio a f is greater than the stoichiometric air fuel ratio when the present air fuel ratio a f is greater than the stoichiometric air fuel ratio that is when the air fuel mixture is lean the ecu 30 proceeds to step 104 and determines whether or not the rich flag xrich is presently set at zero the rich flag xrich indicates whether the air fuel mixture was rich or lean in the previous cycle of the routine if the air fuel mixture was rich the flag xrich was set at one if the air fuel mixture is lean the flag xrich is set at zero when it is determined that the rich flag xrich is set at zero this indicates that the air fuel mixture was lean in the previous cycle in addition to the present cycle in this case the ecu 30 proceeds to step 105 and sets the. |
8 | c in accordance with an embodiment not only are the chlorine atoms all on the same side of the polymer i e the top but all the chlorine atoms are in the same position on their respective benzene rings this is sometimes referred to as a head tail configuration of the monomers this configuration may be difficult to achieve from the unpoled parylene c of fig6 fig7 c is a molecular structure diagram of parylene c designating a head tail configuration i e u201c ht u201d the molecular structure diagram of fig7 c is essentially a shorthand for the expanded molecular structure diagram of fig7 b fig8 10b illustrate the preparation of a parylene c film for electrical poling to impart piezoelectric properties to it fig8 illustrates a peeled and cut film of parylene c film in accordance with an embodiment parylene c film 811 has been chemical vapor deposited on a surface as a film peeled from the surface and cut into a rectangular shape fig9 a 9b illustrate electrodes painted on the parylene c film of fig8 in accordance with an embodiment conductive silver ink is painted onto both top 914 and bottom 915 of parylene c film 811 to form top electrode 912 and bottom electrode 913 in alternate embodiments the electrodes are other metals conducting polymer conducting inorganic material or conducting ink both electrodes can be the same material or be composed of different materials fig1 a 10b illustrate wires attached to the electrodes of the parylene c film of fig9 a 9b in accordance with an embodiment wire 1016 is soldered to top electrode 912 and wire 1017 is soldered to bottom electrode 913 both. |
2 | panel 56 seat element 60 and backrest element 62 in some embodiments additional input for the control logic of the jump seat supplemental heat system may be provided by the aircraft environmental control systems ecs 210 for example the ecs 210 may provide as indicated at 212 an analog discreet signal e g from an ecs 210 misc pca card or the like that indicates that a predetermined number of air conditioning packs are operating that signal may then be used to energize the heated jump seat control relays 208 in some embodiments the predetermined number of air conditioning packs may be one or two or more packs in some embodiments it may be preferable to also include other control logic criteria 214 as part of control logic 200 embodiments may include some or all of the following criteria 214 in addition other control logic criteria 214 are possible for example some embodiments may comprise checking at 216 an internal temperature set point of the heated seat to ensure that the seat is operating within design parameters temperatures within the set point may result in a jump seat on signal and temperatures outside the set point may result in a jump seat off signal for example in some embodiments the seat internal temperature set point may be set to 100 u00b0 f and for internal seat temperatures below that set point the control logic process 216 will deliver a seat on. |
9 | second base forming polymer 50 onto the surface of the mold roll or onto any of polymer 38 left on the surface of the roll by blade 44 a gear pump 36 48 is positioned at the outlet of each extruder to accurately control the rate of polymer delivered to the mold roll the final thickness of the base of the product is then adjusted by roll 52 rotating in the direction of arrow c and the finished fastener product 60 is stripped from the mold roll 40 by passing it around exit roll 54 for forming a fastener product having a relatively stretchable base and relatively stiff fastener elements a urethane may be employed for the hook forming polymer 38 and a rubber filled polyethylene or polyester based thermoplastic may be employed for the base forming polymer 50 an example of such a base forming material is arnitel em400 available from dsm examples of various fasteners that can be formed using the process shown in fig4 or modifications of this process are shown in fig5 5d fig5 shows a fastener 62 in which the hooks 64 are formed of a first polymer and the base 66 is formed of a second polymer using the process shown in fig4 such a fastener can be formed by scraping substantially all of the first polymer off of the surface of the mold roll prior to applying the second polymer fig5 a shows a fastener 68 in which the hooks 70 and the upper portion 72 of the base 74 are formed of a first polymer and. |
2 | this operation the rotary movement of the shaft 13 is followed only by the pulleys 6a and sleeves 6 this is because the pressure of the fork 12 on the flange of the wheel 8 and the possible resting of the head of the extension 2b of the shaft 2a against a fixed stop 11 lock the shaft 2a and prevent it being dragged by the rotation of the sleeve 6 consequently the sleeve 6 changes its position relative to the shaft 2a to arrive at the position shown in fig2 and 4 in this second position the eccentricity of the pin 2 is much less as seen heretofore in relation to the description of fig4 so that each of the wire guides is now able to make a rotation over a circular trajectory of a much smaller diameter this rotation in a circle of very small diameter enables each of the individual wire guides to twist or wind the end of the winding on the respective coil terminal after positioning means not shown have moved the coil support to bring the relative terminal into a position coinciding with the axis of rotation of the wire guide without interfering with the end of the coil a new twisting operation is carried out with the same reduced eccentricity after again moving the coil supports to make the initial terminal of a new coil coincide with the axis of rotation of the wire guide the. |
9 | membrane 2 and effectively prevents the porous filter membrane 2 from being blocked in this embodiment the maximum pore diameter of the restricting orifice of the flow restrictor 3 is preferably larger than that of the porous filter membrane 2 thus the restricting orifice of the flow restrictor 3 will not be blocked during the infiltration irrigation since the maximum pore diameter of the restricting orifice of the flow restrictor 3 is larger than that of the porous filter membrane 2 in this embodiment the porous filter membrane 2 may be directly disposed on the inner wall of the water passing chamber 1 by welding or compression joint so that the water stream flows on the porous filter membrane 2 and the wash effect is the optimum as illustrated in fig1 and 3 the flow restrictor 3 may be composed of one or more restricting orifices the flow restrictor 3 may be directly opened on the pipe wall in the range covered by the porous filter membrane 2 or the restricting orifice may be extended outside the infiltration irrigation apparatus by appropriately extending the flow restrictor 3 as illustrated in fig1 in this embodiment the sidewall of the water passing chamber 1 may be disposed with an opening. |
8 | s computer all of the information that the client might wish to view in this way the information is as readily available as is possible that would be a true push service for the reasons discussed above however this is not a viable approach therefore in accordance with the approach disclosed herein instead of pushing information to a client 39 s computer the provider pushes information to a nearby cache server that is associated with the client 39 s computer typically such a cache server is located in the vicinity of the client which in the context of this disclosure means a location to which the client can connect with the least burden on the internet network a u201c vicinity u201d would correspond to a small number of internet nodes between the client and the cache server some practitioners might also account for the bandwidth that may be available thus a cache server that is two nodes away with very high bandwidth links might be selected over a cache server that is one node away but which has a relatively narrow band link although the approach disclosed herein is more of a u201c push u201d service than the one currently available it is still not a truly u201c push u201d service for sake of accuracy the following refers to the disclosed service as u201c push pull u201d service the provider of such a service is nevertheless referred to as a u201c push service provider u201d as stated above because that is the impression that such providers wish to leave with their clients in accordance with the disclosed approach the push service provider multicasts or broadcasts to cache servers all of the files that the cache servers need in order to fulfill. |
3 | and may be either d or l amino acid unless otherwise indicated with the exception of the n terminal amino acid all amino acid abbreviations e g ala in this disclosure have the structure u2014 nh u2014 ci r u2032 u2014 co u2014 wherein r and r u2032 each is independently hydrogen or the side chain of an amino acid e g r u2550 ch 3 and r u2032 u2550 h for ala or r and r u2032 may be joined to form a ring system a peptide of this invention is also denoted by another format e g pro 34 hnpy 1 36 u2014 nh 2 seq id no 83 with the substituted amino acids from the natural sequence placed between the brackets e g pro for gln in hnpy the designation u201c nh 2 u201d in hnpy 1 36 nh 2 seq id no 1 indicates that the c terminus of the peptide is amidated whereas hnpy 1 36 oh seq id no 1 indicates the free acid form the following list of some of the abbreviations used in the present application is provided for ease of reference however any abbreviation used in the instant application not defined herein are not used contrary to the recognized meanings thereof abu u03b1 aminobutyric acid acc 1 amino 1 cyclo c 3 9 alkyl carboxylic acid wherein. |
6 | into the sliding cord 2 a the end of the cord 2 is compressed further by the lengthwise taper of the sliding cord cavity 15 which therefore interferes with the sliding cord 2 a increasing the tension of the slide as also indicated in the cross hatched portion of fig1 a the end stop 11 positions the cord 2 for assembly of the catch mechanism and encloses and encapsulates an end of the anchored cord 2 fig3 a shows the longitudinal taper in the cord enclosures fig4 shows the end elevated view of the top portion 3 of the catch mechanism the raised section 12 is inserted into the lower section 4 filling the cord cavity upon assembly the top portion of the sliding cavity 10 a is shown as well as the radiused ends of the keyway pins 9 a and 9 b the position of the upper compression ledge 8 b is shown in relation to the sliding cavity 10 a the relationship of the size and the location of the anchor hold down pin 6 to the front prong 5 a which centers the anchored cord 2 as it leaves the mechanism are shown in this view the end view of the top and bottom portions of the catch mechanism prior to assembly is shown in fig5 the anchored cord 2 and the sliding cord 2 a are shown in place for assembly into the extended cord cavity 17 the relative location of the anchor pin is shown prior to piercing the anchored cord 2 the cords will be compressed into the vertical tapered cord cavity 17 and the longitudinal taper 15 as shown in fig1 a the compression ledges 8 a and 8 b also act to compact. |
2 | 34 the transport unit may be lifted via a vertical lift device and translated over to an interior designated portion of or an assigned slot of the stowage unit in step 206 the object is inserted into the stowage unit in step 206 a the object is aligned with the assigned slot in step 206 b the object is released from the transport unit one or more of the retention devices are actuated to allow for removal of the object from the transport unit in step 206 c a portion of the object is inserted into the stowage unit this insertion may be performed manually or through use of the transfer drive system located on the transport unit the transport unit is extracted partially from the transport unit and inserted into the stowage unit in step 206 d the object engages with a second transfer drive system mounted within the stowage unit such as the transfer drive system 64 u2032 the first drive system is activated and is used to extract the object from the transport unit and into the slot upon engagement with the second transfer drive system the first transfer drive system is deactivated note that the transfer drive systems of the transport unit and of the stowage unit may be activated in response to information received from contact or position sensors which indicate position of the object in step 206 e the second transfer drive system is activated in step 206 f. |
6 | a central bore 62 which has a pair of longitudinal key ways 63 and 64 which guide two pairs of pins 65 which prevent the turning of piston 61 with respect to steering column 66 a central bore 67 is intersected by two openings 68 and 69 and provide a restricted fluid passageway analogous to that described above instead of threading the outside of the piston the inside of the steering column could be threaded and the threads followed by thread followers 70 and 71 shown on the exterior of piston 72 in fig8 piston 72 has a central bore 73 and key ways 74 and 75 analogous to those shown in fig7 yet another possible combination is shown in exploded perspective view in fig9 where piston 76 has a threaded bore 77 in which thread followers 78 on steering column 79 ride like piston 13 piston 76 should have a key way 80 or other means for preventing the piston from turning when the steering column 79 is turned an approach not using a hollow piston is shown in fig1 where steering column housing 81 has a hollow cylindrical bore 82 to which a fixed vane 83 is welded or otherwise held a steering column 84 may be turned within steering column housing 81 and has a movable vane 85 welded or otherwise affixed thereto preferably movable vane 85 has a teflon seal 86 along its outer surface movable vane 85 divides the hollow cylindrical bore 82 into a first compartment 87 and a second compartment. |
2 | a tree limb a first flexible cord attached to the grasping element at a spacing from the hook portion for throwing the grasping element over a tree limb and pulling the element into hooked engagement with the tree limb and a second flexible cord attached to the grasping element adjacent the hook portion for use in disengaging the grasping element from a tree limb application_number US 25544094 A description referring now to the accompanying drawings and initially to fig1 a tree limb bending and securing device according to the present invention is shown generally at 10 and basically includes a grasping element 12 having manipulating cords 14 16 attached at spaced locations for use in engaging and disengaging the grasping element 12 to and from a tree limb as more fully described hereinafter the grasping cords 14 16 extend to and are wrapped about a storage implement 18 the grasping element 12 basically has a shank portion 20 merging with a generally curved hook shaped portion 22 terminating at a free end 22 39 the grasping element 12 is preferably fabricated as a unitary body of material e g an integrally molded plastic body in cross section the shank portion 20 of the grasping element 12 has a generally flat. |
7 | of a line line of action along which the pressing forces of the press maneuver parts 24 25 are directed accordingly the stoppers 72 74 are subjected to the pressing forces of the press maneuver parts 24 25 at the proximity of the line of action therefore in a case where the engagement levers 44 46 are rotated in a direction for disengaging releasing engagement the stoppers 72 74 restrict the rotation of the engagement levers 44 46 by making contact against the arcuate groove portions 76 78 respectively in such a case the engagement levers 44 46 are positively restricted from rotating without being bent since the stoppers 72 74 are situated at the proximity of the line along which the pressing forces upon the press maneuver parts 24 25 are directed the torsion springs 48 50 are attached to the engagement levers 44 46 in a manner so that coil portions 48 a 50 a are housed in the groove portions 56 58 respectively of the engagement levers 44 46 in addition since the torsion springs 48 50 are coiled around the outer periphery of the shafts 64 66 the torsion springs 48 50 are attached to the engagement levers 44 46 in a compact. |
2 | locking pins 55 55 are passed through the holes to hold the legs and the beams in assembly a hole is provided in each leg and beam to permit them to be aligned within the bracket the vertical member contains a series of spaced pin receiving holes which enables the length of the leg to be adjusted in assembly so that the height of the frame can be set at a desired elevation an angularly disposed notch 57 is formed in each corner bracket for slidably receiving therein the distal end of a beam connected at its other end in a second bracket the notch has a width slightly larger than the width of the beam and is passed downwardly through the top wall 58 of the bracket to a depth about equal to the depth of the beam the notch is set at an angle of about 60 degrees fig7 with one of the side walls of the bracket and is positioned at the back of the horizontal member adjacent to the vertical member as best seen in fig4 and 5 the three sections making up the frame are easily assembled by simply slipping the distal end of one beam into a notch provided in the bracket of a second section when the frame is assembled a flat panel 59 is laid over the beams and clamped in place to complete the bench assembly here again the bench can be easily broken down and the sections easily stacked for storage or transporting removal of the legs and beams from the corner bracket will further reduce the amount. |
3 | zone 6 on the basis of the wide cut liquid of about 2 20 wt more preferably about 5 10 wt the hydrocracking reaction is preferably carried out within the hydrocracking zone 6 under typical hydrocracking conditions preferably the hydrocracking zone 6 will operate at a temperature of about 700 u00b0 900 u00b0 f and a residence time of about 5 minutes to 6 hours the hydrogen gas can be molecular hydrogen or a hydrogen donating gas such as hydrogen sulfide and is preferably added to the hydrocracking zone 6 through a line 8 at a hydrogen partial pressure of about 1000 3000 psig the hydrocracked reaction products are removed from the hydrocracking zone 6 and sent to a separation zone 9 for separation into separate component product streams the hydrocracked reaction products comprise some gas as well as low and high boiling point liquid components as a result of the hydrocracking reaction the gas and low boiling point liquids can be separated within the separation zone 9 as desired the separation zone 9 can be operated under flash conditions or under vacuum depending upon the specific composition of the component streams that is desired preferably the gas and liquids which have a boiling point of less than about 350 u00b0 f are removed together as a light ends distillate fraction the liquid portion of the light ends fraction typically includes naphtha if desired a middle distillate stream can also be recovered from the separation zone 9 this middle distillate is preferably a distillate stream having a boiling point of about 350 u00b0 650 u00b0 f such. |
3 | a vacuum oven over drying agent for 4 days to give 2 2 chloro 3 methoxy phenyl 4 4 5 5 tetramethyl 1 3 2 dioxaborolane 7a as a white powder 746 7 g 2 78 mol 85 compound 1b 80 g 0 19 mol 7a 60 22 g 0 22 mol hp t bu 3 bf 4 13 01 g 44 85 mmol and pd 2 dba 3 13 69 g 14 95 mmol were charged to the reaction vessel and purged with an inert atmosphere degassed thf 560 ml was added followed by naoh 31 45 g 0 56 mol in degassed water 128 8 ml and the reaction warmed to 45 u00b0 c after 2 hours acetic acid 56 ml was added and stirred for 15 minutes after settling the layers were separated and the organic layer was filtered through celite rinsing with hot thf 2 u00d7 160 ml the filtrate was concentrated in vacuo to a slurry to which was added n acetyl cysteine 15 84 g as a solution in water 160 ml and ethanol 640 ml and stirred for 2 hours at 75 u00b0 c under an inert atmosphere the slurry was cooled to rt and the solids filtered off washed with ethanol water 8 2 2 u00d7 160 ml to give 5 2 chloro 3 methoxy phenyl 1 2 fluoro 6 methyl benzyl 6 methyl 1h pyrimidine 2 4 dione 7b as a. |
4 | and form a soft resinous coating that is durable to cleaning procedures this polymeric coating imparts durable anti microbial activity and renewable control of certain odors application_number US 53454705 A description as used herein and in the appended claims u201c a u201d and u201c an u201d mean one or more unless otherwise indicated the terms u201c durable u201d and u201c durability u201d as used herein describe a finished fibrous substrate in which the desired properties imparted to the substrate by the finish are observed after multiple launderings or dry cleanings the u201c cellulose containing u201d or u201c cellulosic u201d fibrous substrates to be treated according to the present invention include any cellulosic fiber and any blend of fibers that contains a cellulosic whether as a majority or a minority component cellulosic based substrates include paper cotton rayon and other regenerated cellulosics and cellulose containing materials linen jute ramie industrial hemp and the like in a presently preferred embodiment the cellulose containing fiber or fibrous substrate is cotton the hydroxyl containing amines for use in the invention may be primary secondary or tertiary amines or mixtures thereof and may come from natural sources or from synthetic preparation tertiary amines are preferred because of their greatly reduced tendency to yellow compared to primary and secondary amines which in turn exhibit reduced yellowing than that experienced with prior art amine treatments presently preferred embodiments of the invention include alkanol amines and preferably are selected from the tertiary amines of formula a wherein each of r 1 r 2 and r 3 is independently selected from lower alkyl groups unsubstituted or substituted with one or more hydroxyl groups and each of x 1 x 2 and x 3 is independently u2014 oh. |
4 | area and with a cup shape in the area of the heel section 31 in a typical sock for adult use the sock in its unstretched condition may have a sole width of about 3 u00bd u2033 inches and be about 6 u2033 inches long i prefer to have a fairly dense concentration of high friction buttons 37 disposed about the entire sole area and particularly in the heel ball and toe section i have found that by applying a generally uniform concentration of small diameter buttons about the sole area i can be assured that the working foot area of the athlete in contact with the underlying floor surface will always have several buttons in contact with the floor surface to maintain a high friction resistance to unwanted slippage in my preferred embodiment i array the buttons in a diagonal spaced apart rows underneath the sole and arranged in checker board fashion so as to also form approximately 27 to 29 longitudinal columns spaced laterally apart and about 33 lateral rows spaced longitudinally apart i array about 13 to 15 buttons in the section underneath the big toe and about 8 to 9 under the second toe 7 to 9 under the third toe about 7 on the fourth toe and about 5 under the little toe. |
5 | to respond negatively and for this purpose the checked person has first to remove small metal objects such as keys watch mobile phone or the like and put them on conveyer 333 through opening 332 after removing such metal objects the person may pass the metal detector 322 and the door 335 can then be opened when the door is opened the small objects being conveyed by the conveyer 333 from the opening 332 are protected from above by a transparent plate the content of the small objects is thus visible to a guard in the guard tower 271 either directly or through a camera and monitor system or the guard tower 270 and in case a suspected object is identified e g a small pistol a knife etc the guard may halt the conveyer before the object reaches the outlet opening 334 of the conveyer 333 in the case that the conveyor is halted by a guard the person is captured between the doors 335 and 336 until reached by guards for further treatment under normal conditions the door 336 can be opened and the person can pass through and enter the protected region only after removing his small objects from the conveyer through the outlet opening 334 this can be recognized automatically e g by a load cell that weighs the load on the conveyer or e g by photocells which detect interruptions in a light beam scanning the conveyer this ensures that such objects will not be forgotten by their owners another final. |
5 | with an instruction execution system apparatus or device a computer readable signal medium may include a propagated data signal with computer readable program code embodied therein for example in baseband or as part of a carrier wave such a propagated signal may take any of a variety of forms including but not limited to electro magnetic optical or any suitable combination thereof a computer readable signal medium may be any computer readable medium that is not a computer readable storage medium and that can communicate propagate or transport a program for use by or in connection with an instruction execution system apparatus or device program code embodied on a computer readable medium may be transmitted using any appropriate medium including but not limited to wireless wireline optical fiber cable rf etc or any suitable combination of the foregoing computer program code for carrying out operations for aspects of the present invention may be written in any combination of one or more programming languages including an object oriented programming language such as java smalltalk c or the like and conventional procedural programming languages such as the u201c c u201d programming language or similar programming languages the program code may execute entirely on the user 39 s computer. |
5 | packer deswells if the solvent is not present anymore for example water in the case of water swellables also the swollen material loses mechanical properties therefore lowering the maximum differential pressure the swollen packer can withstand fig2 a and 2b show a conventional oil swellable material the graphs are of volume change and modulus ratio as a function of time for an oil swell material oil swellable elastomers swell by fluid absorption in the rubber matrix and as can be seen in fig2 b their modulus tends to decrease as they swell and this affects the amount of differential pressure the packer is able to sustain after setting embodiments of the subject disclosure relate to downhole swellable fixtures composed of a swellable matrix comprising a reactive filler which reinforces the swellable matrix after swelling or setting further embodiments of the subject disclosure relate to downhole swellable fixtures composed of a swellable matrix which remains swollen after the swelling fluid is removed for example water the swellable matrix disclosed in the subject disclosure may be used for sealing applications for example packers the material is initially a compliant material after the filler reacts for example the cement sets the material becomes a stiffer and swollen material with hydration increasing volume the base material of the seal is generally selected from any suitable material known in the industry for forming seals preferably the base material is a polymer more preferably the base material is an elastomer elastomers that are particularly useful in the present invention include nitrile rubber nbr hydrogenated nitrile rubber hnbr carboxylated nitrile rubber xnbr carboxylated hydrogenated nitrile rubber xhnbr silicone rubber ethylene propylene diene copolymer epdm fluoroelastomer fkm fepm and perfluoroelastomer ffkm and any mixture or blends of the above u201c elastomer u201d as used herein is. |
2 | a heating atmosphere of 60 u00b0 to 100 u00b0 c by this method the reaction of urethanation explosively proceeds and the time for curing the coating can be notably cut because the optimum catalyst for the polyurethane coating can be selected without restriction and the catalyst in a highly concentrated state can be brought into contact with the polyurethane coating application_number US 75882885 A description on an extrusion molded substrate 1 surface position 12 exposed to sliding against glass in the case of weather strip polyurethane paint is applied to form an uncured polyurethane coating 2 a catalyst cure accelerator is applied on this uncured polyurethane coating the composition so produced was then heated to cure the coating 2 a the material for the substrate is not specifically limited examples of the material usable for the substrate include rubber materials such as epdm and cr chloroprene rubber thermoplastic elastomers such as pvc and po general purpose plastic materials metal and wood b the polyurethane paint is not limited to the polyol curing type coating compositions shown below as disclosed in japanese patent application no sho 58 1973 200 084 for example but may embrace moisture curing type coating compositions on the sole condition that they contain isocyanate prepolymer optionally the following coating compositions may incorporate inorganic or organic fillers such as carbon talc silica calcium carbonate chlorinated polypropylene and chlorinated polyethylene 1 hydroxyl prepolymer obtained by the reaction of polyester polyol with organic diisocyanate 100 parts by weight 3 isocyanate prepolymer obtained by the reaction of low molecular polyol with organic diisocyanate 1 to 100 parts by weight c the aforementioned polyurethane paint is generally diluted to suitable viscosity with one of the organic solvents enumerated. |
5 | glasses 201 202 to form a gap 22 therebetween gap 22 is sealed off by seal element 23 formed of transparent material therefore cooling efficiency of the refrigeration unit is greatly improved while at the same time the formation of condensation on the display case windows is prevented a plurality of shelves 24 are disposed within display chamber 12 shelves 24 may be supported respectively on a plurality of supporting elements 25 attached to an inner surface of the inner glass of each window in the display case shown in fig4 and 5 outer glass 201 of front and side windows 13 14 15 have and extended portion 201a which completely covers the front and side edges 161 of top window 16 as shown in fig4 and 5 where top window 16 is also of multi windowpane construction as shown in fig4 outer glass 201 of top window 16 is formed with an extended portion which covers the top edge of front and side windows 13 14 and 15 as shown in fig5 coupling elements 18 which have an l shaped cross section are disposed in each corner of front right and left side windows 13 14 and 15 between inner and outer glasses 201 202 a drying element or agent may be inserted in coupling elements 18 for treating the air trapped inside gap 22 alternatively a drying element or agent may be enclosed in both terminal ends of spacer 203 pins 181 are formed on a side surface of coupling element 18 pins 181 engage respective holes 201b and are held in position by fastening elements 19 fastening elements 19 comprises a cylindrical portion 191 in which a correspond pin 181 is closely fitted and a head portion 192 which seats against the outer surface of extended. |
4 | process the water is led through a non illustrated injection device into which detergent can be put either in powdered and or liquid form in the process the detergent is injected into the housing 1 as soon as a desired level of liquid in the housing has been reached or a specific predefined quantity of liquid has run in the generator 5 stops the supply of fresh water and begins to remove water from the sump 18 and lead it to the liquid nozzles 8 the water being heated up to an intended temperature the water to which the detergent has been added in the meantime is in this way circulated as washing liquid and can additionally be sprayed onto the clothing 2 from the inside through the hanging devices 4 in such a pass dirt is washed out of the clothing 2 then in a rinsing phase the discharge pump 12 pumps the washing liquid away into a wastewater connection the clothing 2 is then rinsed to remove the washing liquid from it for such a purpose in a number of rinsing passes fresh water is pumped to the liquid nozzles 8 and the water together with the washing liquid rinsed out is pumped away by the discharge pump 12 the rinsing action is intensified in that at the end of each rinsing pass the liquid supply to the liquid nozzles 8 is interrupted and the compressed air nozzles 7 are supplied with compressed air if the clothing 2 is moved through between the compressed air nozzles 7 it is pressed together by the compressed air jets as a result the. |
5 | a to 6c several configurations for the containers 12 are shown different configurations of both the shape of the containers 12 and configuration of the extraction manifolds 24 are shown fig6 a i and 6 a ii show an embodiment of the system in an empty state and a full state respectively with the extraction manifolds 24 positioned within the container 12 a vertical support 34 projects from the rigid base 36 of the container 12 and in use supports a flexible membrane 38 of the container 12 when the container 12 is in an empty state each of the manifolds 24 are attached to an attachment mechanism 32 which is integrated into the support 34 the positioning of the manifolds 24 on the support 34 with the attachment mechanism 32 assists in maintaining the flow of water by preventing the flexible membrane 38 from obscuring the water ports on the extraction manifolds 24 the container 12 is also provided with a pressure relief valve 44 the pressure relief valve 44 prevents damage to the container 12 if excess water pressure builds up within the container 12 an alternate embodiment of the system in both an empty and full states is shown in fig6 b i and 6 b ii in this embodiment four extraction manifolds 24 two inlet and two outlet manifolds float at a distal end 40 of a vertical support member 34 which projects from a rigid base 36 of the container 12 in this embodiment as the container 12 moves towards an empty state a. |
1 | panel 18 both by means of handle bolts 14b as further illustrated in fig2 reflectors 22 may also be provided on the storage end panel 9 to facilitate better viewing of the utility cart 1 at night referring now to fig1 and 5 of the drawings in a most preferred embodiment of the invention a pair of removable rear chair supports 23 project upwardly from the cart frame 2 at the storage end panel 9 in spaced parallel relationship in a most preferred embodiment each of the rear chair supports 23 is characterized by a support pedestal 24 fixed to the cart frame 2 at the storage end panel 9 and a corresponding top member 26 fitted with a peg 27 which is inserted in a corresponding peg opening 25 provided in the support pedestals 24 respectively as illustrated in fig1 and 5 furthermore a pair of front chair supports 30 project upwardly from the cart frame 2 in spaced relationship with respect to each other and to the parallel rear chair supports 23 to define a storage space above the storage compartment 10 and between tile respective sets of rear chair supports 23 and front chair supports 30 for stacking folding lawn chairs or the like not illustrated in another preferred embodiment of the invention a trash bag hook 28 is attached to one or more of the rear chair supports 23 for suspending a trash bag not illustrated in convenient functional configuration on the utility cart 1 referring again to fig1 and 4 of the drawings in a most preferred embodiment of the invention four table tops 32 are independently connected to the side panels 4 of the cart frame 2 by means of additional vinyl hinges 15. |
4 | 220 one end of the lever 220 proximal to the rod 194 is coupled with the rod 194 by engagement of the pin 224 and another end of the lever 220 distanced from the rod 194 has the rotatable tappet roller 210 being constantly indirect contact with the cam 170 by execution of the expanding coil spring 200 an elastic member e g torsion spring for springing back the lever 120 to the initial position is arranged at the shaft 222 of the lever 220 instead of the coil spring 200 which is mounted on the rod 194 of the piston assembly 190 in the drawing the pumping chamber 180 is horizontally arranged adjacent to the pulsator 160 but the pumping chamber 180 may be vertically positioned in that case periphery of the cam 170 is extended outward and upward to contact with the tappet roller 210 of the piston assembly 190 furthermore the opening 184 of the pumping chamber 180 can be extended near the water passage of the guide filter not shown the clothes washer having the rotational force conversion apparatus according to the present invention constructed as above is operated as below the clothes are put in the washing tub 106 and a washing mode is selected then water via the supply valve 101 is supplied to the shower ring 118 the water in the shower ring 118 drops into the washing tub 106 through the inner periphery of the shower ring 118 which generates a shower water stream the water in the washing tub 106 flows to the water basket 104 through a plurality of openings not shown and water is contained in the water basket 104 as. |
4 | g of auxiliary contains 200 mg org c 1 l of wash liquor contains 4500 mg org c from fat 1400 mg of org c from the detergent and 200 mg org c from the auxiliary making a total of 6100 mg org c lt 3 g l fat lt 1 g l detergent ingredients u2266 0 2 g l auxiliary ingredients and various quantities of solids were removed from the wash liquor and rinsing water of rinse 1 they were introduced into the fat separator after demulsification with a demulsifier based on metal salt microfloc efw a product of henkel kgaa after fat separation the wastewater still contained lt 1 mg l fat the other water ingredients were 20 30 removed leaving 800 mg l detergents ingredients 150 mg l auxiliary ingredients and various quantities of solids the following maximum quantities of org c remained in 1 l pretreated wastewater 0 7 mg from fat 500 mg from detergent and 100 mg from auxiliary making a total of 600 mg the pretreated wastewater from the wash cycle and rinse 1 and the wastewater of the other rinses were combined in an equalization tank and then subjected to flotation sedimentation the combination of the two wastewaters changed the contents of the wastewater as follows the wastewater with these ingredients was freed from the solids in the flotation sedimentation stage this wastewater was introduced into an immersion type bacteria bed reactor for biological treatment this reactor consists of a fixed bed reactor wheels with upgrowth and activated sludge given a holding time of about 12 h the biological degradation can assumed to be gt gt 95 after the biological treatment the following c contents were obtained per liter of wastewater 0 3 mg from fat 45 mg. |
1 | guard over a selected bracket hook located proximate one side portion of the appliance next the protective guard is stretched longitudinally so that the other opening 36 in the protective guard can be placed over a second spaced apart bracket hook located proximate the end portion of the appliance still another form of the method of the invention involves the use of a third stretchable protective guard such as guard 40 having a generally circular shaped central portion 42 and a pair of spaced apart end portions 44 and 46 this form of the method of the invention concerns emplacement of the protective guard 40 over the side portion of the orthodontic appliance in a manner to protect the sides of the mouth of the user placement of the protective guard 40 over the side portion of the orthodontic appliance is accomplished by first placing opening 48 of the protective guard over a selected bracket hook located proximate one side portion of the appliance next the protective guard is stretched longitudinally so that the other opening 48 in the protective guard can be placed over a second spaced apart bracket hook located proximate the central portion of the appliance due to the unique configuration of the protective guards in the materials from which they are fabricated once the protective guards are interconnected with the orthodontic appliance in the manner described in the preceding paragraphs they remain securely in place until the user desires to remove them because of the strategic positioning of the protective guards experience has shown that their use substantially reduces the. |
2 | base to enable fluid to flow bi directionally according to applicational specifications the unitary structural attachment plate 4 7 has an internally threaded center opening 9 an o ring groove 5 a peripheral lip surface area 20 and a plurality of circumferential fluid flow openings 8 that serve as flow ports whereby fluid to be filtered is distributed and circulated in a flow path appropriate to the internal filter element design and location within the housing the precise number of fluid openings and spacing therebetween are not critical to the practice of the invention the unitary spin on filter housing 1 4 7 16 is constructed by folding 23 the open end of the can 1 16 inward over the peripheral lip surface area 20 of attachment plate 4 7 and circumferential welding 22 the folded 23 tube wall 1 in the same appropriate method and manner as described heretofore for the construction of the can 1 16 the integrating connections between tube wall 1 and structural endcap 16 and the connection between the can 1 16 and the unitary attachment plate 4 7 comprise a critical feature of the present invention a filter element assembly is positioned inside the unitary filter housing 1 4 7 16 the element assembly comprises an o ring 10 an endcap 11 having a center opening to receive a portion of. |
5 | bolt or pin hole 22 extends between and is open at the side faces 12 multiple lateral horizontal holes 24 also extend between and are open at the side faces 12 each lateral hole 24 is located between a respective crossarm end 10 and the medial bolt hole 22 vertical holes 29 can be provided at suitable locations in the crossarm 6 for example at spaced locations for mounting electrical insulators 25 a b hangers etc the crossarm 6 includes radiussed upper and lower edges 21 a b each brace 8 includes inner and outer ends 26 28 the brace inner ends 26 are 9 mounted on the utility pole 4 by a brace pole mounting bolt 29 the brace outer ends 28 are mounted on the crossarm 6 by brace crossarm mounting bolts 30 extending through brace outer ends 28 and respective lateral bolt holes 24 fig6 is a schematic diagram showing a system for practicing a method of manufacturing structural members such as the crossarm 6 and the crossarm assembly 2 the method includes the steps of providing a source 32 of plastic pellets without limitation of the generality of useful plastic base materials for the crossarm 2 polypropylene homopolymer base material e g nt 418 t001 8000 with 20 to 30 chopped glass fibers has been found to be particularly suitable for use in the manufacture of the crossarm 6 additives for the manufacturing process include pigment 34 a uv inhibitors 34 b and antioxidant additives 34 c a foaming agent source 34 d is also provided and introduces a suitable endothermic foaming or blowing agent such. |
1 | invention which is to be understood in a broad and non limiting sense is detailed below fig1 shows a cask support 1 especially applicable in large cellars and which allows the accumulation of the casks without these having to support the weight of those placed on top of each one of them the support 1 consists of two rectangular bedplates 2 formed by a hollow tube of rectangular section which incorporate a prismatic rectangular angle block 3 on the lower part of each one of their ends a reinforcement support 4 is fixed on the upper part of each end of each bedplate 2 part of the structure of the support 1 is a framework made up of two upwardly divergent lower tubes 5 to which the reinforcement supports 4 are welded these two lower tubes 5 start from each end of each one of the two bedplates 2 furthermore the framework consists of two upper or end tubes 6 perpendicular to the support plane of the angle blocks 3 and which have rounded projections 7 on their upper end whereas the lower end of these tubes 6 is welded to the upper end of the lower divergent tubes 5 each support 1 will be made up of four frameworks such as the one described such that two of these frameworks have a coplanar arrangement and are fixed to one another through the adjacent upper tubes 6 the other two frameworks being situated on a vertical plane parallel to the previous. |
5 | configurations of the present invention is shown in fig1 wherein the first upper insulation section 82 and the second upper insulation section 102 are formed as a single member which is defined in the figures herein as an upper insulation section 30 this single firestopping construction will effectively seal both sides of the head of wall area simultaneously by placement of a single fixture it is designed to be used below a ceiling 12 which includes a fluted ceiling deck 10 which defines at least one ceiling runner channel 11 therein with recessed areas 15 facing downwardly toward the head of wall area 25 therebelow the ceiling runner channels 11 will include upper recess panels 16 extending generally horizontally and including a first recess side panel 18 engaging the upper recess panels 16 and extending downwardly and outwardly therefrom and including a second recess side panel 20 engaging the upper recess panel 16 at a position spatially disposed from the first recess side panel 18 and extending downwardly and outwardly from the upper recess panel 16 in a direction extending away from the first recess side panel this configuration for the fluted ceiling deck 10 will be positioned above the head of wall area 25 below the head of wall area 25 the wall construction 13 will be defined extending generally vertically and will include a plurality of wall studs 23 of wood metal or other material with a first gypsum board construction 24 extending along one face thereof and second gypsum board construction 26 extending across the opposite face therefrom the head of wall firestopping construction usable with this embodiment of the present invention will. |
5 | head 11 for continuously producing a rod like stock material 12 having the desired uniform cross sectional shape which in step b is quenched at least to substantial plastic state such as through a cooling environment 13 step c is a drawing step imparting molecular orientation which improves the physical characteristic of the stock and leads to a decrease of its cross sectional dimensions by suitably adjusting the drawing ratio additionally such dimensions can be selected at will according to the request and the production is increased relatively to the yield of the extruder as indicated by arrows originating at d the extruded and drawn stock can either by transferred in direction e to means designed for applying it as described below to the tape material upon providing it with a known reflective coating or further processed for providing it with more sophisticated and efficient reflective means also as examplified below in the occurrence that the stock rod like material will be provided with retroreflective means such as of the tape not limitatively illustrated in any of fig4 7 and 8 the method comprises a step f wherein the surface or part of the surface of the stock is coated with an adhesive such as by passing it in a bath 14 and then a step g wherein the adhesivated tacky surface is provided with any of said reflective means such as in a 34 fluid bed 34 apparatus 15 wherein the beads forming said means are suspended in an air stream into an environment through which the tacky stock is lengthwise progressed preferably said. |
6 | include the condition in which all three rotate at the same speed more specifically the speed of the ring gear is a weighted average of the speed of the sun gear and the speed of the carrier with weighting factors determined by the number of teeth on each gear similar speed relationships are imposed by other known types of fixed gearing arrangements a suggested ratio of gear teeth for each planetary gear set in fig1 is listed in table 1 input shaft 10 is fixedly coupled to carrier 22 output shaft 12 is fixedly coupled to ring gear 58 sun gear 26 sun gear 36 and sun gear 56 are fixedly coupled to one another ring gear 28 carrier 32 and sun gear 46 are fixedly coupled to one another ring gear 38 is selectively held against rotation by controllable brake 62 and passively held against rotation in one direction by one way brake 60 carrier 42 is selectively coupled to sun gear 26 sun gear 36 and sun gear 56 by clutch 70 and selectively held against rotation by brake 64 ring gear 48 is selectively coupled to carrier 52 by clutch 66 and selectively coupled to ring gear 58 and output shaft 12 by clutch 68 as shown in fig2 engaging the clutches and brakes in combinations of three establishes eight forward speed ratios and one reverse speed ratio between input shaft 10 and output shaft 12 an x indicates that the clutch is engaged to establish the speed ratio when the gear sets. |
9 | an extended period of time which may significantly impact battery life a third option includes powering on a new node in range of the sleeping network and keeping it fully awake until the rest of the network wakes up and the nodes can exchange synchronization information this technique has the disadvantage that the newly added node can deplete a significant portion of its batteries in the time it waits to join the network some embodiments of the invention improve upon prior methods by providing one or more nodes that can be woken during the coordinated sleep period such as by toggling an i o or interrupt line to wake a network node near the node being serviced for example a failed mesh network node can be replaced by removing the failed node powering on a replacement node and toggling an interrupt line by actuating a switch on a neighboring node such that the neighboring node wakes up for a predetermined amount of time this enables the neighboring node to communicate with the replacement node exchanging information such as the pan id encryption keys sleep timing and other information to incorporate the new node into the mesh network fig1 illustrates an example mesh network environment such as may be used to practice some embodiments of the invention a mesh network. |
5 | than the radius of float bore 56 to limit the longitudinal movement of the float 54 downward along the shaft 32 the float stop 59 serves to maintain the float 54 on the shaft 32 during both storage and shipping of the dual flush components as well as after installation referring again to fig1 first linkage 60 connects the short flush trip arm 25 to hole 44 along a nearly vertical connection line similarly second linkage 61 connects the long flush trip arm 24 to the hole 46 along a relatively less vertical connection line the different orientation of the connection lines and location of the flush holes 44 46 produce different cam 40 motion upon activation in a manner to be described below referring now to fig1 and 4 prior to activation of either handle 27 28 the cam 40 can rest in a lateral position with its flat edge 62 in contact with the upper surface 63 of the follower 49 in this position the float 54 and follower 49 are disposed at the upper end 33 of the shaft 32 and the flapper valve 19 is seated on the valve seat 20 in a closed position the float 54 exerts a slight upward pressure on the cam 40 and thus maintains the cam 40 in its lateral position referring next to fig1 and 5 upon activation of the. |
2 | the bearing lever 53 and thereby the second belt clamping roller 57 also inwardly since the directly driven bearing lever 52 in the clamping position assumes a defined position while the other bearing lever 53 is deviated more or less due to the spring force independence on the belt length and thickness the spring wire 55 between the lever 52 53 is angled so that a certain displacement between the engaging points is possible the bending angle and the wire length are selected so that despite the permissible displacement compensation the driving operation of the spring wire 55 is not negatively affected the application of the clamping force to the not directly actuated bearing lever 53 is performed through a torsion spring 59 this spring is held on a pin 60 on the transmission cover 57 and its one end 61 is supported against a formation 63 in the transmission cover 57 and pressed by it simultaneously against the transmission cover 57 so that the torsion spring 59 can not spring from the pin while the other end 62 is supported on the axial 58 of the second clamping roller 47 and presses it thereby outwardly therefore no additional components are needed. |
9 | anode 6 3 the carbon monoxide flow 6 5 exits the vessel at the outlet 6 9 an ac power source 6 13 and heater means 6 7 bring the cell temperatures to an operational temperature level this cell arrangement is typical for electrolysis units which operate with a dc power supply 6 20 input and whereby the cell can be operated in a current control or voltage control mode cell electrodes are contacted by current and voltage leads via insulated electrical feed through means members 6 14 and 6 17 leading to a volt meter 6 18 and members 6 15 and 6 16 provide electrical feed through means for the current which is measured by a meter 6 19 it is easily seen that an identical cell arrangement can be converted in function to a solid electrolyte fuel cell dc power source by uncoupling of the dc power supply 6 20 via switches 6 21 and 6 22 and coupling to an electrical load circuit 6 23 in this operation however oxygen is consumed and must be provided continuously through orifice 6 10 to electrode 6 3 which is the cathode of the fuel cell a flow of carbon monoxide fuel via orifice 6 9 over electrode 6 2 which is the anode of the fuel cell is electrochemically combusted to carbon dioxide exiting orifice 6 8 thus generating dc electrical power cathode electrodes are made from members of the group of metal electrodes. |
1 | 1 since the clasps are movable they can be positioned to make it easier to maneuver the mount into the aperture 3 of the ring a plurality of pins 10 one for each clasps 6 are secured to the inside surface 8 of the ring each of the pins has a shaft secured to the ring at one end and an enlarged head on the other end of the shaft the clasps 6 has a pair of arms secured to a pivot 12 as shown in fig4 the arms have an enlarged portion 9 at the end opposite the pivot the dimension of the head is larger than the enlarged portion 9 however since the clasp is made from a slightly resilient material the enlarged portion will be able to expand enough to snap over the head once the clasp passes over the head it will snap back beneath the head and secure the clasp 6 and the gem mount 1 and the gem 5 to the pin 10 in this manner the mount can be secured to the ring 2 if the user wants a different gem in the ring she merely has to unsnap the clasps 6 from the pins 10 and remove the first gem then a new mount with a different gem will be secured to the ring by attaching the clasps on the new mount with the pins 10 of the ring using the mounting system of the present invention it is not necessary to have a large number of rings but rather one ring can be fitted with different gems and appear. |
7 | differ from the embodiment of write head 40 described herein and the present invention is intended to not be limited to the characteristics of the preferred embodiment of the write head 40 described herein after the deposition of an insulation layer 157 the electromagnetic field shield 56 is next deposited on the outward side of the write head 54 the shield 56 is generally circular in shape in order to provide a shield for the generally circular spiral induction coil 120 and the diameter of the shield 56 is generally at least as large as the diameter of the induction coil 120 the mr read head 58 includes several components which will be described below the shield 56 is disposed between the coil 120 and the mr read head 58 such that the mr read head 58 is shielded from the electromagnetic field of the induction coil 120 conceivably the shield diameter could be less than the diameter of the induction coil where effective shielding is still maintained furthermore where the shape of the induction coil is other than a generally circular shape the shield will advantageously although not necessarily adopt the same shape as the induction coil basically the shape of the shield 56 is a secondary consideration to its primary role of providing. |
6 | lateral ridge 18 which terminates in an upper contact surface 19 which preferably is substantially a line surface of from about 0 0001 u2033 to about 0 005 u2033 in width 23 and from about 0 005 u2033 to about 3 16 u2033 in length 24 most preferably from about 0 01 u2033 to about u215b u2033 in length disconnector 14 is pivotally mounted on trigger body 35 by pin 54 and compression spring 37 has one end mounted in pocket 49 in the disconnector and the other end bearing against trigger body 35 as more clearly seen in fig3 a and 6 trigger body 35 preferably but not necessarily is formed with a raised slave portion 50 which can be readily machined ground to precisely adjust the neutral position of cam portion 16 without trying to dimension the whole under cut surface 51 of the trigger body 35 in a preferred embodiment the invention comprises a firearm trigger assembly having a receiver housing 15 a a firing pin hammer 30 pivotally mounted in the housing and having a hook 31 formed with a trigger engagement surface 32 a trigger 20 having a body 35 pivotally mounted in the housing and having a hook 21 formed with a hammer engagement surface 22 and having an under cut surface 51 a disconnector 14 pivotally mounted on the trigger body 35 and having an upper cam portion 16 a lower hook under portion 17 and an intermediate connector portion 56 forming a trigger body receiving gap 52 the disconnector having a center line 57 substantially aligned with a longitudinal axis of the firearm the hook under portion 17 being formed with a laterally extending ridge 18 on its upper surface the ridge having an upper. |
5 | drain grid 61 so that drain channels 65 follow a gentle slope downward towards retaining wall blocks 31 in such a manner water draining into drain channels 65 flows urged by gravity towards blocks 31 and then enters blocks 31 into the internal drainage cavities 40 not shown as previously described through passages 47 of blocks 31 header portion 67 of mesh 63 is sufficiently flexible such that if a light curvature is desired in the retaining wall individual blocks 31 may be slightly angled to accommodate such a curvature without affecting the attachment of header portion 67 to protrusions 43 of blocks 31 and securing of output ends 66 of drain channels 65 into passages 47 of blocks 31 0071 fig4 b is a section view of drain grid 61 and retaining wall blocks 31 of fig4 a taken along section line c c in this view three blocks 31 are arranged in their installed position as in fig4 b drain grid 61 is layered directly atop the upper surfaces of blocks 31 and attached at the header portion 67 to blocks 31 as illustrated in the previous figure protrusions 43 can be seen protruding up from the upper surfaces of blocks 31 and extending up through mesh 63 of drain grid 61 as previously described drain channels 65 of drain grid 61 are now clearly shown seated into passages 47 each of which open into drain cavity 40 recessions 48 are shown along the bottom of each block 31 positioned relative to passages 47 along the top of block 31 a plurality of drain holes 32 are. |
1 | with the flow rate at 0 3 ml min a standard curve is prepared to include about 0 1 0 7 mg ml of the expected compound a concentration drug loading is determined as percent drug loading 100 u00d7 10 u00d7 concentration of filtered solution weight of microspheres used the results are reported as the mean u00b1 sd microsphere drug release experiments are carried out in 0 1 m phosphate buffer ph 7 4 containing 10 mm ascorbic acid microsphere suspensions containing known amounts of drug about 30 mg are placed in a regenerated cellulose membrane dialysis device float a lyzer the float a lyzer is placed in a 45 ml falcon tube containing 40 ml buffer the release medium maintained at 37 u00b0 c and shook horizontally at 100 rpm in an oven the buffer is replaced with fresh solution at predetermined time intervals the drug content of the release medium is determined via uplc using uv vis absorbance at 314 nm with a standard curve constructed with known concentrations of iti07 3 30 u03bcg ml for in vivo characterization in vivo drug release pharmacokinetic study is determined the pharmacokinetics of the formulation is studied in adult male sprague dawley rats rats n 12 experiment are injected subcutaneously in the intra scapular region with a suspension 2 ml kg of compound a free base formulated in biodegradable plga microspheres about 60 mg rat suspended in a solution of 0 5 low viscosity carboxymethylcellulose. |
7 | of the matrix d are the same and the first two elements of the matrix d are zero and the like different buildings with different geometries and input and output data have different thermal rc networks and thus different constraints 307 given an input output sequence of data such that u u 0 u 1 u n 2k u2212 2 and y y 0 y 1 y n 2k u2212 2 hankel matrices u p u f y p yf are given the lti system according to equation 1 the observability matrix o k and the toeplitz matrix u03c8 k are respectively using the state transition relation in equation 1 the state sequence x f of the lti system given the input sequence u f and measurements y f are y f r 31 u2212 r 32 r 22 u2020 r 21 r 11 u2212 1 u f r 32 r 22 u2020 w p 10 where u2020 represents the pseudo inverse of a matrix then using equation 8 and equation 10 o k x f r 32 r 22 u2020 w p 11 using a singular value decomposition svd and the arbitrary invertible matrix u03c6 see equation 3 equation 11 reduces to thus for a given user parameter k see equation 6 there can be many different realizations of the state sequences arising from the same lti system based on different values of the matrix u03c6 the method. |
4 | 16 the free front end of hollow cylinder 7 which is arranged coaxially to the opening disk 16 ends at a certain parallel distance to the opening disk 16 wherein this distance can be varied with the aid of the cogwheel mechanism 6 in dependence on the type of fiber air flow to achieve an optimum degree of opening for the fiber material located opposite the opening disk 16 is a circular segment shaped counter opening disk 25 which is fitted into the front of hollow cylinder 7 and which is provided according to fig7 with pointed spikes 26 at least over an angular region u03b2 of approximately 120 u00b0 the counter opening disk 25 furthermore has a circular segment shaped cutout 27 which is defined by a circumferential angle u03b1 of approximately 120 u00b0 the counter opening disk 25 thus closes off more than half of the front of hollow cylinder 7 the resulting reduced discharge opening 28 of hollow cylinder 7 guides the fiber air flow in a compressed form to the opening disk 16 which opens the fiber material in a joint action with the counter opening disk 25 the counter opening disk 25 is rigidly secured to the wall of hollow cylinder 7 by means of a flange 29 the. |
9 | 54 fig4 in outer gimbal sphere 50 this configuration allows shift rod 14 and inner gimbal sphere 56 to pivot in the fore and aft direction within the outer gimbal sphere 50 a pair of short pivot pins 62 are retained in the remaining two cylindrical pin receiving openings 54 in outer gimbal sphere 50 the ends of short pivot pin 62 are received in semi cylindrical recesses 28 formed in collar 24 this configuration allows the shift rod inner gimbal sphere and outer gimbal sphere to pivot from side to side within collar 24 a pair of followers 68 are received in springs 66 interposed between base 12 and the lower outer gimbal hemisphere 40 springs 66 bias the outer hemisphere 50 and shift rod 14 to a center position followers 68 prevent springs 66 from wearing against the bottom of outer hemisphere 40 fig6 is a partial sectional view taken through short pivot pins 62 of shift assembly 10 in one embodiment short pivot pins 62 are secured in position in lower outer gimbal hemisphere 40 with set screws 86 as illustrated shift rod 14 includes a spherical tip formed at the end of the shift rod opposite handle 14 spherical tip 80 is configured to engage a corresponding feature in the transmission that assembly 10 is mounted on fig7 is a second sectional view of shift assembly 10 taken through pivot pin 64 of fig5 as illustrated pivot pin 64 passes through a pivot hole 88 formed in shift rod 14 the ends of pivot pin 64 are received in pivot receiving holes 54 fig4 formed in outer gimbal sphere 50 to enable the shift rod to pivot around the pin in a fore and aft direction. |
7 | depression of a selected pushbutton indicates to computer 126 the selected operation to be performed and subsequent depression of trigger switch 136 sends to computer 126 a trigger signal which is processed in computer 126 to cause the selected operation to be performed after a pushbutton switch has been pressed it can remain depressed until another pushbutton switch of the same group has been pressed for this purpose the pushbutton switches of each group can be mechanically or electromechanically interconnected each pushbutton switch 132 contains a lamp which is connected via cable 128 to computer 126 to receive illumination signals therefrom when a switch 132 is pressed computer 126 sends to the associated lamp a train of illuminating pulses which cause the lamp to emit a blinking light signal when the selected operation has been completed i e the carriage hoist or gripper is in the desired position computer 126 sends to the associated lamp an illuminating signal ac or dc which causes the lamp to emit a steady or continuous light signal the lamp continues to emit a steady light signal until the condition which it represents ceases to exist which will occur only when another pushbutton of the same group has been pressed followed by depression of trigger switch 136 thus when the system is stationary the lamp of the 34 position 34 group representing the present position of carriage 6 the lamp of the 34 hoist 34 group representing the present vertical position of gripper 20 and the lamp of the 34 gripper 34 group representing the present gripper. |
5 | structure generally designated 7 which in cross section has a generally arch shape as best seen in fig2 a plurality of poles such as those designated 9 and 11 extend upwardly from the bottom points 13 and 15 of a terminal edge 17 over and completely across the vault a typical pole crossing is shown at 19 and is shown in detail in fig3 here a ring 21 has been fastened to the membrane 23 by means of an element which fits within the ring not illustrated in accordance with my co pending patent application ser no 825 410 ring 21 includes a loop 25 which passes over the poles 9 and 11 and holds them loosely together allowing each of the poles to slip within the loop 25 the poles themselves are held in tension by the fabric 23 and the method by which this is accomplished is best seen in fig2 here the fabric 23 acts as a geometric cord between arcuate segments of the poles 9 and 11 at first glance it would seem that the structure would flatten out because of the tension of the poles but it is obvious from fig2 how the arcuate poles are held in tension a plurality of the poles start at one bottom edge 27 and extend in arcuate form over the top of the vault structure and terminate at an opposite edge 29 other poles such as pole 31 and 33 may terminate at an edge other than the bottom edge as is shown at connector 35 this connector of course is connected to a terminal edge 37 of the membrane one peculiarity of the vault structure of the present invention is that if sufficient. |
9 | u00b0 c for specified periods of time the pressure vessels were then allowed to cool to room temperature at which the polymer content methanol precipitation and viscosities using cannon fenske viscometers of the samples were measured py gas oil viscosity was measured at 20 u00b0 c after being heated at 150 u00b0 c for 7 5 hours three trials were performed one blank the second with 1000 ppm phenylenediamine and the third according to the inventive method including 1000 ppm of the quinone methide of formula ii above table 1 below demonstrates that the viscosity of the py gas oil after treatment with the inventive quinone methide was 43 6 less than after treatment with phenylenediamine alone and 55 1 less than the blank after the py gas oil was subjected to conditions simulating those in an oil quench tower py gas oil viscosity at 23 u00b0 c was measured after being heated at 144 u00b0 c for six hours with the amounts of treatment listed in table 2 this demonstrates that up to a concentration of 2000 ppm a greater concentration of the inventive quinone methide treatment provides an enhanced inhibition of viscosity increase the polymer content in py gas oil samples was measured by methanol precipitation after heating at 150 u00b0 c for 7 5 hours three trials were performed one blank the second with 1000 ppm phenylenediamine and the third according to the inventive method including 1000 ppm of the quinone methide of formula ii above the results in table 3 indicate that the polymer content of the py gas oil samples after treatment with. |
1 | active agent a phospholipid and a coating material one skilled in the art will understand that the current invention is not limited to the delivery of drugs or pharmaceutical agents any number of naturally occurring or synthetic substances including diagnostic agents and therapeutic materials may be delivered according to the current invention these substances include but are not limited to anorexics analgesics antiarthritics adrenergic blocking agents steroids vaccines peptides proteins hormones antibodies antibiotics antiviral agents vitamins nucleotides nutritional agents enzymes genes genetic material cytotoxins bacteria microbes viral agents and the like placebo may also be administered using various embodiments of the current invention diluents carriers lubricants and the like including but not limited to microcrystalline cellulose starch lactose talc mannitol polyethylene glycol polyvinylpyrrolidone hydroxypropylmethyl cellulose ethyl cellulose fatty acids fatty acid salts glyceryl behenate dextrose dicalcium phosphate may also be administered using several embodiments of the present invention further one skilled in the art will understand that the amount of the active pharmaceutical or substance used in the current invention will depend on the dose required to be administered and the treatment desired one skilled in the art will appreciate that u201c treatment u201d refers to any desired purpose for administering the pharmaceutically active ingredient including prevention control cure maintenance or improvement of health and the like by varying the concentration of the ingredients size number and or amount of tablets capsules suspension or liquid a wide range of doses may be orally administered time released drugs may also be administered according to various embodiments of the present invention one skilled in the art will also. |
3 | 04 1 68 nh sub 4 sub 2 co sub 3 h sub 2 o 0 62 0 54 0 72 0 23 1 77 1 88 biuret 0 79 cyanuratetriuret n 15 0 13 0 18 0 6 0 19 0 17 0 0 0 0 0recovered__________________________________________________________________________ the experiments were carried out as in example 1 supra using temperatures in the range of 150 u00b0 c to 175 u00b0 c reaction times of between 1 75 and 6 hours and palladium on carbon rhodium on alumina or mixtures thereof as a catalyst this experiment was carried out as in example 1 l supra except that the catalyst consisted of 5 palladium on carbon alone no solid products were obtained see table 1 supra this experiment was carried out as in example 1 supra using recycled rhodium on alumina as catalyst no solid products were obtained these experiments were run as in example 1 supra except the solvent bubblers 7 were bypassed 9 and hydrogen gas was used in place of the methanol also the hydrogen gas flow rate and temperature were varied to determine their effect on product formation the conditions and results for the individual experiments are given in table 2 infra table 2__________________________________________________________________________ examples 9 10 11 12 13 14 15 16 17 18 19 20__________________________________________________________________________experimentalconditionscatalyst u2190 5 rh al sub 2 o sub 3 u2192 5 pd c u2190 5 pd al sub 2 o sub 3 u2192 0 5 gno flow 32 4 32 4 32 4 32 4 32 4 32 4 32 4 32 4 32 4 32 4 32 4 32 4ml minco flow 200 0 200 0 200 0 200 0 200 0 200 0 200 0 200 0 200 0 200 0 200 0 200 0ml minh sub 2. |
4 | will of course be anticipated in a non limiting manner the percentage of contraction of this type of textile material is on the order of 5 to 10 in a fifth step frame 2 is attached to support 3 in the form of a partition or ceiling this frame 2 consists of retaining profiled sections 2 u2032 for example four of them each having for example two opposite clamping jaws not represented these retaining profiled sections 2 u2032 are arranged so as to form a closed frame retaining profiled sections 2 u2032 can also be attached to different supports 3 in order to produce a panel 1 between two walls or a panel 1 installed vertically on the floor in a sixth step the peripheral edges of the sheet are engaged between the clamping jaws of retaining profiled sections 2 u2032 the sheet secured along its peripheral edges is pre stretched when it is placed on frame 2 in a seventh step the sheet is heated locally at the places having folds or lack of tension in order to bring about heat shrinking of the flexible textile material to do this the heating end of a heat gun mounted for example on a mobile carriage is positioned at distance of approximately 20 to 30 cm from the sheet facing the predetermined zone of the sheet that is to be tightened the heat gun is possibly moved to a second zone preferably the heat gun is moved for example according to a straight line trajectory shifted from one line to another for the purpose. |
5 | to 4c is that the inner elongated member of fig6 a to 6c has a fluid flow port or conduit 224 defined longitudinally therethrough the drive mandrel 250 the actuator screw 262 and the retrieving mandrel 266 are connected to each other in a fluid tight manner by the seals 234 at either end of the actuator screw 262 this prevents any fluid exchange between the fluid flow port 224 and the chambers 165 a 165 b 167 a and 167 b the elongated fluid chamber 212 is in fluid communication with the fluid flow port 224 such that fluid entering the coiled tubing can exit through the distal end of the retrieving mandrel 266 in particular the distal end of the bypass sleeve 218 is attached to the proximal end of the guide sleeve 138 through a threaded connection and the connection is sealed with the seals 116 interconnection ports 244 are defined between where the elongated fluid chamber 212 ends adjacent to the end of the bypass sleeve 218 and where the fluid flow port 224 begins at the proximal end of the drive mandrel 250 these interconnection ports extend through the guide sleeve 138 and the drive mandrel 250 generally perpendicular to the direction of the elongated fluid. |
4 | plane 52 in contrast the vertical ribs 181 reach approximately halfway to the dividing plane 52 from the front panel wall 252 the reason is as follows the inner surface wall 161 needs sufficient rigidity because stress induced by the reciprocating motion of the needle 16 generally tends to concentrate on the inner surface wall 161 in another embodiment the outside wall reinforcing rib 180 may be provided on the only part of the frame cover 1 b alternatively the frame cover 1 b may have no outside wall reinforcing rib 180 the frame cover 1 b does not need so high rigidity as that of the main frame 1 a as shown in fig1 and 12 a plurality of couplings 190 192 194 and 196 are provided in the front panel wall 252 of the main frame 1 a for joining the main frame 1 a to the frame cover 1 b the coupling 190 192 194 and 196 are placed at positions corresponding to the positions of the couplings 90 92 94 and 94 of the main frame 1 a the coupling 190 is formed near the inner surface wall 161 in the area adjacent to the joint of the bed 8 and the cantilever support 7 more specially the coupling 190 is placed in the vicinity of the inside wall reinforcing rib 170 formed outside of the inner surface wall 161 the above arrangement of the coupling 190 is aimed at preventing distortion of the arm 6 and the cantilever support 7 which causes swings of the top portion of the cantilever support 7 during the reciprocating motion of the needle. |
9 | u03b2 phase with the remainder essentially a phase the condensate matrix away from the defects also has an u03b1 u03b2 microstructure but of very fine grains e g acicular u03b1 grains of 5 10 m in length and 2 5 u03bcm in thickness lengthwise oriented along the condensate growth deposition direction the trunk size will depend in substantial part upon the droplet size exemplary trunk diameters are from about 20 u03bcm to about 50 u03bcm however much larger trunks are possible the trunks have a columnar u03b1 u03b2 microstructure this microstructure may have a characteristic grain size several times greater than that in the matrix and the grains may be elongated in the direction of accumulation i e away from the substrate particularly in the case of very large diameter trunks e g in excess of 100 u03bcm in diameter there may be porosity around the trunk the grain discontinuity at the trunk matrix interface and the particular alignment of trunk grains may cause structural weaknesses affecting inter alia ductility fracture toughness fatigue resistance fretting fatigue resistance corrosion resistance wear resistance crack nucleation resistance and the like we have accordingly developed heat treatment regimes for healing workpieces having such defects fig2 shows a condensate 50 after healing in this view the substrate is not shown the condensate surface 52 is however shown a defect within the condensate had been caused by. |
2 | 16 one ounce lengths may be packaged to a package to provide a very close tolerance to a one pound meat package the present system provides very low waste as there is no discard of bits and pieces which occurs with prior techniques the present system provides an increased yield as the meat is not continuously handled after slaughter thereby eliminating loss from chilling cutting or other handling steps the present technique does not require casing or skin and thereby eliminates steps of stuffing sausage in the casing and removal of the casing the present system is extremely sanitary and bacteria and mold growth is reduced due to the fact that sausage is not necessarily held in a chilling room or the like after slaughter fig2 illustrates the extrusion system of the invention the semi fluid sausage material is applied from the pump 16 not shown through the distribution conduit 18 to the extrusion manifold 20 the extrusion manifold has a generally conical configuration with the distribution conduit communicating with the apex of the manifold cone a plurality of outlets 40 are provided about the periphery of the base of the cone of the manifold 20 in the preferred embodiment sixteen outlets 40 are provided the lower ones of the outlets 40 are made slightly smaller than the upper outlets 40 to maintain even pressure and flow rate of material from all the outlets sixteen flexible conduits. |
4 | 1 0 to 1 4 millimeters so as to insure low pile formation a sinker height h2 of the more conventional sinker ranges approximately from 1 5 to 3 8 millimeters the construction of the sinker in accordance with the present invention allows low pile formation during construction of the plated pile knit fabric referring now more particularly to fig5 a diagrammatic view illustrating the loci of movements of the cylinder needle and sinker on the knitting machine is shown fig7 through 14 are sectional views taken along lines 7 7 through 14 14 in fig5 and illustrate the knitting operation in accordance with the present invention the solid horizontal transverse line 57 indicates the upper edge surface of the sinker nose ring 6 the continuous line 50 indicates the locus of movement of the hook tip 2b of needle 2 the alternate long and two dashed line 51 indicates the locus of movement of the sinker throat 8c the alternate long and dashed line 52 indicates the locus of movement for tip of the pile position control ledge 8f the dotted line 53 indicates the locus of movement of the sinker nose 8d reference numerals 54 and 55 indicate feeding positions of respective ground and pile yarns the yarns 54 55 are fed to the needles 2 by a respective yarn carrier 18 fig1 and 6 as the needles 2 successively approach the knitting station they are. |
2 | mounted on a scrapper or other earth moving equipment or equipment to be mounted on a rear end of a tractor the drawbar 22 is mounted on the rear of a tractor its wheels 28 a 28 b being shown in phantom the drawbar is connected at a trailing end 30 of a plate 32 which extends underneath and is connected to the underside of the tractor in fig1 the drawbar 22 includes two ears 32 a 32 b however in the embodiment shown in fig2 through 4 a drawbar 22 includes four ears 34 a 34 b 34 c and 34 d both of these embodiments operate in the same way to connect a yoke pin to the drawbar in fig2 and 3 two interconnected locking cams 36 a 36 b are pivotally mounted between ears 34 b and 34 c about pivot axis 38 passing through pivot pin 40 pivot pin 40 is shown in fig2 and 4 the locking cams are pivoted about pivot axis 38 by a removable cam actuating lever 42 lever 42 has one end 42 a engaged in an opening 44 of drawbar block 70 and secured in place by a rotatable thumb screw 46 as best shown in fig4 the locking cam plates 36 a 36 b are retained at the opposite ends of their arcuate path of rotation by opposed spring biased pins 48 a 48 b which extend into grooves 52 at detents 50 a located at one end of the grooves 52 for locking the cams in a closed or locked position the pins 48 a 48 b extend into grooves 52 at detents 50 b located at the opposite ends of grooves 52 for locking the locking. |
4 | once leaving the papermaking machine may be compressed or reduced in caliper by up to 50 and more preferably from 15 to 25 this same result can be achieved by lowering the basis weight of the paperboard the paperboard of the present application can be utilized to make a variety of structures particularly containers in which it is desired to have insulating characteristics one of the most common of these containers is the ubiquitous hot cup utilized for hot beverages such as coffee tea and the like other insulating containers such as the ordinary paper plate can also incorporate the paperboard of the present invention also carry out containers conventionally produced of paperboard or of foam material can also employ the paperboard of the present invention fig6 shows a wall section of a hot cup type container produced which may comprise one or more plies 62 and 64 one of which in this instance 64 contains crosslinked cellulosic fibers in this embodiment the crosslinked cellulosic fibers are in the interior ply 64 a liquid impervious backing is preferably extruded or poly coated to the interior ply coated to the the backing may comprise for example a variety of thermoplastic materials such as polyethylene it is preferred that the paperboard used in the bottom of the cup contain no bulky fibers high consistency slurries were prepared at a 3 2 percent consistency containing 50 to 65 percent by weight citric acid crosslinked cellulosic fibers the crosslinked fiber was deflaked with a standard beloit jones refiner with a zero load douglas fir cellulosic fibers were used as the. |
6 | transfer ring is compliantly tethered by suitable means to prevent it rotating but allowing it to oscillate about the inner output 3 increased leverage makes the force applied rise steeply when the pressure wheel 2 rotates and tries to force the contact point 5 with the intermediate ring 1 off a notional line 6 connecting the contact point and centres of the output wheel and the transfer ring causing the ring to oscillate and the output 3 to rotate output direction is contra to input the rotating pressure may be on the outside of the transfer ring pressing the transfer ring directly against the inner output wheel or may act on the inside of the transfer ring pressing outwards and forcing the opposite side of the transfer ring against the inner output wheel also the rotating pressure may consist of two or more pressure points on either side of the contact point between transfer ring and inner output wheel transfer of torque between the transfer ring and the output wheel may be by usual friction means or by positive means such as teeth or roller teeth the present invention is capable of being finely balanced because the input and the transfer ring move as one mass with unchanging weight distribution optional disconnection of output from input can be effected by moving the rotating pressure wheel or wheels away from the transfer ring allowing the transfer ring to disengage. |
7 | a wash and removal step to separate bound reacted from unbound unreacted reagent marker antibody and the like if the slide staining rack has capacity for 50 slides the staining rack can be used to stain any number of slides up to 50 if the number of slides present in the slide staining rack is substantially less than 50 it may be desirable to insert a filler block not shown into the rack to act as a spacer for missing slides a filler block can be made of any suitable material such as plastic and can be formed so as to interconnect with other filler blocks in order to make a spacer of any desired thickness the spacing can also be adjusted by constructing the spacing shims in a manner such that they are attached to the staining rack by a frictional fit permitting them to be removed by simply pulling spacing shims from the rack this makes it possible to readily adjust the number of spaces in the rack with the number of slides which are to be processed and also eliminates any necessity for inserting a filler block into the staining rack each cresent shaped element can be formed either as an independant member connected by suitable means such as spot welding to the base of the spacing shim or can be made by cutting and shaping one side of the spacing shim base alternatively other means such as coil springs can be attached to flat base members for the purpose of making a compressible shim rather than being attached to opposite ends of the top member of. |
9 | signal u03bc k applied thereto the output of multiplier 152 is connected to an input to a multiplier 154 whose other input has the error signal from error function generator 18 applied thereto the output of multiplier 154 represents the resultant u03b4 k of equation 7 the output of multiplier 154 is connected to the input of a multiplier 156 signal w jk n which represents the output of fig7 is applied to a time delay 158 whose output is connected to the other input to multiplier 156 all of the outputs from similar multipliers 156 are connected to a summer 160 similarly all of the outputs from similar multipliers 160 are connected to the inputs to a summer 162 whose output is connected to an input to a multiplier 164 the output from divider 112 which represents out j is connected to the negative input to a subtracter 166 whose positive input is connected to a signal representing unity the output of subtracter 166 is connected to a multiplier 168 whose other input has a signal representing out j applied thereto the output of multiplier 168 is connected to an input to multiplier 164 the output of multiplier 164 represents u03b4 j of equation 8 the input d i shown as r i is connected to an input to a multiplier 170 whose other input is connected to a signal representing u03b7 the output of multiplier 170 is connected to an input to a multiplier 172 whose other input is connected to the. |
3 | provided to further illustrate the advantages and features of the present invention but are not intended to limit the scope of the invention while they are typical of those that might be used other procedures methodologies or techniques known to those skilled in the art may alternatively be used this example illustrates how the present method can be used to generate a mutant adaptively evolved strain that synthesizes larger quantities of an antibiotic than the wild type strain in this case the producer organism was streptomyces clavuligerus atcc 27064 and the target organism was methicillin resistant staphylococcus aureus strain n315 mrsa n315 mrsa n315 is resistant to erythromycin and many u03b2 lactam antibiotics such as penicillin wild type s clavuligerus mycelia or spores are first inoculated into a triple baffled flask containing trypticase soy broth tsb and incubated at 28 30 u00b0 c a magnetic stir plate spun a stir bar inside the flask at approximately 1500 2000 rpm to aerate the liquid broth once the culture reached an optical density at 600 nanometers 0d600 between 0 08 and 0 13 2 u03bcl aliquots of the culture were spotted onto each of seven equidistant points on a trypticase soy agar tsa plate if the culture was denser than 0 13 it was diluted with tsb until the measured od600 value fell between 0 08 and 0 12 the use of an od600 culture between 0 08 and 0 13 the use of a 2 u03bcl dispensing volume and the choice of seven spots per plate versus. |
1 | shipping costs rise the costs to ship relatively heavy dumbbells is expected to increase accordingly in a preferred method of manufacturing dumbbell 2 weight frames 20 would be manufactured and shipped as part of dumbbell 2 but without any commodity weights 32 being attached thereto the distributor retailer or purchaser of the product would receive dumbbell 2 in this u201c unweighted u201d form the distributor retailer or purchaser of the product would then purchase a sufficient number of commodity weights 32 locally wherever the distributor retailer or purchaser resides and would add such weights 32 to each weight frame 20 to complete dumbbell 2 in this regard dumbbell 2 would be shipped with enough clamping members 42 bolts 40 and nuts 43 to allow a sufficient number of commodity weights 32 to be clamped to all the different weight frames 20 to complete dumbbell 2 the net result of this preferred manufacturing method of this invention is a lower cost product in the hands of the end user the cost to purchase the product by the end user will be reduced by the costs that would have been incurred to manufacture or purchase custom weight plates as well as by the costs to ship all of the weights this cost reduction will more than offset the cost at the other end to complete dumbbell 2 by having to purchase a sufficient number of commodity weights 20 essentially at least the shipping costs that are usually associated with shipping the dumbbell should by and large be saved this is an advantage to the user of dumbbell 2 by lowering the cost to own dumbbell 2 in addition commodity weights 32 of different weights such as 1 25 pounds or 2 5 pounds typically. |
6 | along an axis generally parallel to the sensing plane 62 as shown in fig4 the angular position sensor 20 is in a quiescent state in this state the magnetic flux density b represented by the arrows identified with the reference numeral 68 is generally parallel to the sensing plane 62 of the magnetic sensing device 43 in this state the magnetic sensing element 43 outputs a quiescent voltage for an allegro model no 3506 hall effect ic the quiescent output voltage is typically about 2 5 volts dc rotating the magnet 42 counterclockwise as shown in fig5 or 6 or clockwise not shown causes an ever increasing amount of magnetic flux density 68 to be applied to the sensing plane 62 of the magnetic sensing element 43 to vary the output voltage of the magnetic sensing element 43 as a function of an angle u03b8 defined between an axis 63 parallel to the sensing plane 62 and an axis 65 for an allegro model no 3506 the output voltage swing is approximately u00b1 2 0 volt dc depending on the direction of the angular rotation in accordance with an important aspect of the invention the relationship between the axes 63 and 65 can be varied in order to adjust the offset voltage of the sensor 20 in particular the assembly 60 is rotated relative to the magnet 42 in a quiescent state to adjust the sensor offset voltage in such an application the sensor would be configured in the quiescent state to have a small angle u03b8 between the axes 63 and 65 as illustrated in fig4 as will be discussed. |
7 | jig at this stage a steel ferrule 30 typically 12 5 or 25 mm long and having internal and external diameters of 1 4 and 1 8 mm respectively is inserted downwardly into the bore 14a of the jig 14 the diameter of the bore 14a is slightly less than the external diameter of the ferrule so that upon insertion of the ferrule the ferrule is gripped by the jig with the hypodermic needle 24 still in position in the jig epoxy resin 31 is introduced from a syringe not shown into the annular space between the ferrule and the needle a length of sheathing is stripped from the end of a plastic sheathed optical fiber 32 for instance by means of a hot coil of resistance wire and then the stripped end 33 is inserted into the hypodermic needle 24 until the sheath comes to rest against the needle tip as seen in fig3 the needle and optical fiber are then lowered together until the sheath enters a certain distance into the ferrule at this stage the level of the resin is preferably at the point of overflowing next the hypodermic needle is fully removed from the jig a small fillet 40 of resin is dispensed around the point of emergence of the sheath from the ferrule to provide additional strength at this region and then the resin is. |
7 | 19 and 35 does not vary so that this portion of the series connected circuit may be considered substantially constant the measuring electrode 67 of the embodiment shown in fig4 and 5 is formed as a rod electrode located a short distance upstream of measuring slot 60 and extending parallel thereto rod electrode 67 projects through the bottom 45 of measuring chamber 49 into diving bell 56 ground electrode 66 as well as measuring electrode 67 are each connected to terminals 68 and 69 respectively extending outwards of housing 41 both ground electrode 66 and measuring electrode 67 are coated with a thin layer of a water and fat repellent insulating material as in this circuit arrangement the capacity varies in response to variations of the retained liquid level only in proportion to the surface of the measuring electrode 67 covered or wetted by the milk only the thickness of the coating on measuring electrode 67 is critical and variations of the coating thickness result in measuring errors contrary thereto the thickness of the coating layer on ground electrode 66 is not critical and may be selected different from that of the coating layer on measuring electrode 67 slight variations of the thickness of the coating layer on measuring electrode. |
6 | inner space thereof and then the lamps lamp bases or sockets are fitted securely into the inside of the clamping socket thus various decorative lamp string assemblies can be formed application_number US 38902195 A description the support assembly according to the first embodiment of the present invention is shown in fig2 in which a lamp string 1 in series connection of lamps 1a 1b 1c and 1d a strut support 2 and a plurality of clamping sockets 3 are included generally the support 2 is made of plastic material and has rigidity along the two longitudinal side edges of support 2 recess 200a and 200b are formed at the set position and pillars 201 each vertically projected from bottom face of support 2 between recess 200a and 200b are formed clamping socket 3 is in the form of a u shape body with open end the section of inner space formed and surrounded by upper bottom and two side walls is the same as the sectional shape of support 2 two tips of the side walls bend inward and a hole 301 is formed at the bottom to be fitted securely with pillar 201 of the support 2 in the present invention when the recesses of support 2 are engaged with the open end of each clamping socket the two side edges of support 2 can be clamped securely by the two side walls of clamping socket 3 at. |
3 | distribution of holes of two types of gas delivering panel according to this invention first as shown in fig3 a besides the symmetrically distributed holes 202 a around the center of the gas delivering panel 200 a an arc of holes 204 a is formed at one corner sector hence an asymmetrical distribution of holes is created the holes 204 a are positioned according to the actual flow of gas with the reaction chamber for example the holes are placed near areas where the gas flow rate is slow or gas pressure is low consequently those u201c weak u201d areas can be compensated for by the extra gas flow from the extra holes 204 a and hence a more homogeneous distribution of gas is achieved in another embodiment as shown in fig3 b besides the symmetrically distributed hexagonal pattern of holes 202 b around the center of the gas delivering panel 200 b a bank of holes 204 b is formed not far from one side of the polygon hence an asymmetrical distribution of holes is created the holes 204 b are positioned according to the actual flow of gas within the reaction chamber for example the holes are placed near areas where the gas flow rate is slow or gas pressure is low consequently those u201c weak u201d areas. |
5 | fig5 the weight of the structure will in reality increase when liquid is removed and replaced by water and contributes to the penetration of the structure down into the sea bottom when the desired penetration depth of the skirts 14 has been reached the removal of the remaining liquid is discontinued by closing off a valve 16 on the top side of the fundament whereafter the tube or tubes 8 and 9 may be removed and whereafter the fundament is ready to be used in accordance with the task involved as a rule all liquid is withdrawn and additional penetration is achieved by pumping the water out of the fundament the principles in accordance with the invention may be realized with various types of fundaments as long as these fulfill the necessary requirements fig6 8 illustrate one practical embodiment for a fundament structure including necessary auxiliary equipment and in which figures the same reference numbers in all figures designate the same parts the number 20 designates a fundament structure especially adapted to be used with the method in accordance with the invention the fundament comprises here two mutually spaced integral parts or sections 22 and 24 and a relatively small center chamber 23 arranged therebetween having a known height and volume the center chamber 23 has a closed top and is open downwards the size of this center chamber is in the figures enlarged for. |
2 | resistor r 6 of 51 k u03c9 to a movable terminal of a device 83 for setting the main resin extrusion stop position comprising a variable resistor of 5 k u03c9 one of fixed terminals of the main resin extrusion stop position setting device 83 is connected to a power source of 15 v through a resistor r 7 of 4 7 k u03c9 and the other fixed terminal is grounded through a resistor r 8 of 4 7 k u03c9 a positive terminal of an operational amplifier 82 is grounded through a resistor r 9 of 26 k u03c9 and the output terminal thereof is connected to a base of a transistor tr 1 through a resistor r 10 of 5 k u03c9 the base of the transistor tr 1 is grounded through a resistor r 11 of 10 k u03c9 and an emitter thereof is directly grounded a collector of the transistor tr 1 is connected to a power source of 15 v through a diode d 3 and a exciting coil 74b of the main resin extrusion stop relay 74 connected in parallel with each other the parison control circuit 40 includes first and second auxiliary resin extrusion speed setting devices 91 and 96 each of which comprises a variable resistor one fixed terminal of each of the first and second auxiliary resin extrusion speed setting devices 91 and 96 is connected to a power source. |
2 | weight of the total copolyphosphonate and in other embodiments the phosphorous content of the copolyphosphonates of the invention may be from about 2 to about 12 or about 4 to about 10 by weight of the total polymer the copolyphosphonates of various embodiments exhibit both a high molecular weight and a narrow molecular weight distribution i e low polydispersity as used herein the weight average molecular weight m w divided by the number average molecular weight m n is referred to as the polydispersity pd m w m n for example in some embodiments the copolyphosphonates may have a weight average molecular weight m w of about 10 000 g mole to about 100 000 g mole as determined by u03b7 rel or gpc using polystyrene standards and in other embodiments the copolyphosphonates may have a m w of from about 12 000 to about 80 000 g mole as determined by u03b7 rel or gpc using polystyrene standards the narrow molecular weight distribution i e m w m n of such copolyphosphonates may be from about 2 to about 7 in some embodiments and from about 2 to about 5 in other embodiments in still other embodiments the random copolyphosphonates may have a relative viscosity of from about 1 0 to about 1 75 about 1 1 to about 1 5 about 1 2 to about 1 4 or any value between these exemplary ranges in further embodiments the copolyphosphonate may have a t g of about 25 u00b0 c to about 140 u00b0 c about 50 u00b0 c to about 135 u00b0 c or about 75 u00b0 c to about 130 u00b0 c the random. |
5 | 102 as fixed to ubho sub collar 101 by set screws 112 where such axial movement is dampened by upper and lower shock springs 108 and 109 upper shock spring 108 is retained by compression rings 107 and lower shock spring 109 is retained between shock sleeve 103 and ubho sleeve 102 in summary therefore fig1 illustrates a self contained shock absorber device in a unitary ubho sub 100 requiring no additional sub length as compared to conventional ubho subs without shock absorbing functionality with further reference to fig1 main orifice 104 provides two flow paths fp 1 and fp 2 it will be understood that as illustrated fp 1 is through a center hole in main orifice 104 while fp 2 is via a series of perimeter holes in an annular arrangement in currently preferred embodiments the center hole and perimeter holes are sized and arranged to ordain about 50 flow each between fp 1 and fp 2 although this disclosure is not limited in this regard in order to enable mud pulse telemetry in association with the disclosed shock absorbing ubho sub the design of main orifice 104 provides for complete opening and closing of the center hole in main orifice 104 during mud pulse telemetry while allowing the perimeter holes in to remain open at all times it is recognized that due to the telescoping nature of the shock absorbing ubho sub disclosed herein the disclosed ubho sub will likely not be compatible with conventional mud pulse transmitter valve designs currently on the market a new mud pulse transmitter valve design would therefore be highly advantageous in order to enable mud. |
6 | supplied to the mould cavity via resin inlets not shown in order to fully wet the fibre material finally the resin is cured in order to form the first aerodynamic shell part 136 after the first aerodynamic shell part 136 has been manufactured a pre manufactured first spar cap 160 is arranged in the first recess 176 of the first aerodynamic shell part 136 the pre manufactured first spar cap 160 may advantageously have been manufactured with a first lip or wing 166 protruding from a first side 162 of the first spar cap 160 and a second lip or wing 168 protruding from a second side 164 of the first spar cap 160 the first wing 166 and the second wing 168 abut inner surfaces of the first thickened part 172 and the second thickened part 174 of the first aerodynamic shell part 136 respectively the first spar cap 160 and the first and second wings 166 168 may advantageously be dimensioned so that a small cavity 186 is created between the first spar cap 160 and the inner surface of the recess 176 an adhesive such as an epoxy based glue may have been applied to the surface. |
3 | blood cell distribution width rdw e g to assess the individual 39 s response to administration of a chimeric protein of the invention or administration of a nucleic acid encoding a chimeric protein of the invention hematocrit mean corpuscular hemoglobin or u201c mean cell hemoglobin u201d mch and mean corpuscular hemoglobin concentration or mchc also can be calculated and compared to values adjusted for age and sex for example for adult men a hemoglobin level less than 13 0 g dl grams per deciliter is diagnostic of anemia and for adult women the diagnostic threshold is below 12 0 g dl a normal hematocrit value is 32 to 36 g dl in alternative embodiments other tests also can be used e g the erythrocyte sedimentation rate esr the reticulocyte production index rpi also called a corrected reticulocyte count folic acid serum iron hepcidin transferrin vitamin b12 and or creatinine levels e g to assess the individual 39 s response to administration of a chimeric protein of the invention or administration of a nucleic acid encoding a chimeric protein of the invention in alternative embodiments methods of this invention can be practiced with other treatments for anemia e g blood transfusions hyperbaric medicine administration of an epo to a patient e g a. |
2 | p 1 p n and performs a rust removal function if sensor signal or sensor signals p 1 p n satisfy a predefined activation condition if the activation condition is satisfied brake actuator 5 is activated by control unit 1 via a control line 4 and automatically builds up a predefined brake pressure on wheel brakes 13 so that brake shoes 11 are applied to brake disks 12 and they simply abrade away the rust the brake pressure is maintained for a predefined period of time optionally fewer or more sensors s 1 s n may also be provided and accordingly fewer or more vehicle parameters may be monitored sensor signals p 1 p n read in from control unit 1 are for example an ignition cycle counter content a brake pressure such as for example the pre pressure stipulated by the driver an engine torque an accelerator pedal position a wheel speed or vehicle speed or a brake operating state which reveals whether the brake pedal is operated or not corresponding sensors s 1 s n are in this case an ignition cycle counter a brake pressure sensor an accelerator pedal position sensor wheel speed sensors and a brake pedal sensor such as for example a pedal position sensor the engine torque may be read in for example from an engine control unit 2 in the present example a rust removal function is performed if the ignition cycle counter content is greater. |
9 | f2 by holding the output frequency of the converter 20 and of the oscillator 10 to a predetermined low value this value lies near the resonance frequency f0 with which the still undamped the lamp has not yet ignited resonance circuit supplies high ignition voltage after successful ignition the effect of the monostable flip flop 11 on the oscillator 10 is removed so that the steady operation i e the modulation and pulsation of the current can be utilized the ignition achieved in this way corresponds to a cold start if desired hot start can be provided by utilizing the ignition capacitor c1 as shown in fig1 if the pulsed mode operation of gas discharge lamps allows a change in their characteristics and an improvement in their light output this is achieved according to the exemplary embodiments of fig3 and appropriate control of the device shown in fig1 and 2 by retaining a single choke and by an alternating astable exchange between two frequencies this frequency modulation leads to a change in the effective reactance f l1 which gives rise to a current main pulse with low frequency and a holding current pulse with high frequency f2 the respective amplitudes and intervals t1 t2 of the pulses are tuned so that averaged over time t the lamp is supplied with the power p n the direct change of the lamp current by frequency modulation. |
4 | the warp yarn for a given energy consumption in the vacuum creating mechanism as will be seen in fig8 the positions of baffles 60 and 62 may be adjustable so as to vary the size of slot 68 and clearances 64 and 66 by varying the size of slot 68 and clearances 64 and 66 the velocity of the air drawn from the ambient atmosphere may be varied for a given vacuum within the vacuum chamber as illustrated herein the hollow elongated vacuum chambers adjacent to the picking station may have a round cross section a rectangular cross section or other cross section as desired and as space permits for example the cross section of any of chambers 30 32 34 50 and 53 may be so varied as desired it will also be understood that the means for creating a partial vacuum within the vacuum chambers may be provided for each individual weaving machine with its own individual vacuum pump and motor or the vacuum creating mechanism may be provided at a central station within the weaving room with suitable connections to each of the weaving machines the use of a central collection point makes recovery of the waste material more efficient in any event whether the pneumatic source is provided for individually on the weaving machines or by a central location means are contemplated for turning the vacuum producing means off for individual weaving machines means are provided for closing a suitable damper in the exhaust system when the weaving machine ceases operation for example in exhaust duct 56 when a central collection system is utilized while there is shown and described a preferred embodiment of the invention using specific terms it is to be understood that the invention is not limited. |
5 | panel 82 on the side 83 of the spool 32 for individual control of a multiplicity of lines to subsea equipment stab plate 84 engages receptacle plate 85 to give individual hydraulic supply to various selected lines when the reel is not rotating control box 86 provides for operational control of the spool 32 failsafe brakes 87 provide stopping power for the spool 32 locking pin 88 provides positive position stopping for the spool 32 and motor 89 provides operations power for the spool 32 thru chain 90 referring now to fig3 a half section of the swivel of this invention can be seen inner mounting plate 100 is attached to the main shaft 50 by bolts 101 outer mounting plate 102 is mounted to the mandrel 103 by bolts 104 outer mounting plate 102 is attached to the inner mounting plate 100 by bolts 105 mandrel 103 is an cylindrical member with 8 seal surfaces 110 117 and locating shoulders 120 and 121 fluid pressure communicates thru port 130 thru seal sub 131 drilled hole 132 and out port 133 similar flow paths occur in ports 134 135 and 136 at 90 degree spacings around the mandrel 103 body 140 provides a central locating shoulder 141 and end thread 143 which engaged by a gland 144 and an end thread 145 which is engaged by gland 146 the space between the central locating shoulder 141 and the glands 144 and 146 provides cavities for the insertion of seals 150 and 151 on one end and 152 and 153 on the other end this provides that when high pressure. |
2 | surface of the inner portion 21a of the body portion 21 of the housing 2 thus the bending stress of the wire is not varied but kept substantially constant this assures that the kinetic energy of the passenger produced during a collision can reliably be absorbed by the plastic deformation of the wire 1 the cylindrical surface of the pin 3 is utilized to guide the wire 1 when it is pulled out of the space 21c and bent or plastically deformed thus this surface of the pin may be termed as 34 wire bending and guiding means 34 the outer peripheral surface of the inner portion 21a acts as means for centering the turns of the coiled portion 1d relative to the annular space 21c the inner end extremity of the coiled wire 1 has a diameter greater than the dimension or width of the narrow passage 2a and thus cannot be pulled out of the housing 2 this ensures that the passenger can be prevented from being completely unrestrained a second embodiment of the energy absorbing device of the present invention will be described with reference to fig3 the embodiment comprises an elongated strip of a metal in the form of wire 1 39 and a housing 2 39 the wire 1 39 is similar to the wire 1 of the first embodiment with the exception that an intermediate portion of the wire 1 39 is substantially coaxial with axially arranged turns of a coiled portion 1d 39 of the wire 1 39 the portions of the wire 1 39 similar to those of the wire 1 of the first embodiment are designated by similar. |
6 | idler sprockets 19 20 21 and 22 and back to drive sprocket 23 as seen clearly in fig4 extending between and secured to the pairs of pusher bar chains 30 are a plurality of spaced pusher bars 31 the spacing between these pusher bars is such that without internal adjustments the cooler 10 of the present invention will accommodate a wide range of different size containers the track rails forming the upper tier 15 are curved downwardly approximately 90 degrees adjacent idler sprocket 20 at one end and are curved downwardly adjacent idler sprocket 19 to a point just above bottom tier 18 at the other end as can clearly be seen in fig4 the track rails forming tier 16 begin immediately above top tier 15 at the end of idler sprockets 20 and extend downwardly a little over 90 degrees at the end adjacent drive sprockets 23 the track rails forming tier 17 begin immediately above tier 16 adjacent the end of drive sprockets 23 and extend downwardly slightly over 90 degrees slightly at the end adjacent idler sprockets 22 finally the track rails of tier 18 begin immediately above tier 17 adjacent the end of sprockets 22 and extend upwardly on the outside of the pusher bars 31 to a point adjacent upper tier 15 at the. |
9 | gives off heat of less than 1 2 joules per gram for the particles having a mean particle size of less than 10 u03bcm as described and measured in u s pat no 5 874 063 the invention therefore provides a pharmaceutical formulation in the solid state comprising in admixture a first active ingredient which is micronised formoterol or an enantiomer thereof a second active ingredient which is a micronised glucocorticosteroid and a carrier diluent and having a high storage stability characterised in that the formulation is prepared by micronisation of the first active ingredient and carrier diluent optionally followed by mixing pre micronised coarser carrier diluent mixing with micronised hydrophobic second active ingredient and finally either subjecting the mixture to agglomeration and spheronisation or adding coarse carrier diluent the formoterol can be in the form of a mixture of enantiomers preferably the formoterol is in the form of a single enantiomer preferably the r r enantiomer the formoterol can be in the form of the free base salt or solvate or a solvate of a salt preferably the formoterol is in the form of its fumarate dihydrate salt other suitable physiologically salts include chloride bromide sulphate phosphate maleate tartrate citrate benzoate 4 methoxybenzoate 2 or 4 hydroxybenzoate 4 chlorobenzoate p toluenesulphonate benzenesulphonate ascorbate acetate succinate lactate glutarate gluconate tricaballate hydroxynapaphthalenecarboxylate or oleate preferably the second active ingredient is a micronised glucocorticosteroid such as budesonide fluticasone propionate mometasone furoate ciclesonide and epimers esters salts and solvates of these compounds more preferably the second active ingredient is budesonide or an epimer thereof most preferably the 22r epimer of budesonide preferably the carrier is a carbohydrate having a high storage stability preferably a reducing carbohydrate such as lactose glucose galactose mannose xylose maltose cellobiose mellibiose maltotriose e g as monohydrate. |
8 | 200 for providing real time analytics on directly ingested ip camera video streams in accordance with an embodiment of the inventive arrangements disclosed herein in system 200 intelligent video surveillance system 240 can provide real time analysis of video stream 216 provided by directly connected ip camera 210 system 240 determining an incident event e g unattended object can respond by notifying alerting associated entities altering the state of cameras 210 and or surveillance system 210 as used herein ip cameras 210 can include cameras able to convey a video stream to an ivs system using one or more internet protocols the ivs system 240 can be one or more component systems lacking an intermediate video management system system 240 can be able to record monitor perform real time analytics and reporting on ip camera 210 streams real time analytics can encompass real time and near real time analysis of video streams ip camera 210 which can include volatile memory 212 and transceiver 214 can convey raw video stream 216 to ivs 240 video information received from camera 210 optics can be temporarily stored in volatile memory 212 prior to transmission transmission of video stream 216 to ivs 240 can. |
4 | side of the first vertical longitudinal wood member and a second vertical longitudinal wood member including a plurality of parallel spaced metal tubes fixedly secured to and extending outwardly from the second vertical longitudinal wood member and operatively arranged to telescopingly engage the plurality of parallel wood dowels to form a ladder like structure application_number US 201414300842 A description at the outset it should be appreciated that like drawing numbers on different drawing views identify identical or functionally similar structural elements of the invention while the present invention is described with respect to what is presently considered to be the preferred aspects it is to be understood that the invention as claimed is not limited to the disclosed aspects the present invention is intended to include various modifications and equivalent arrangements within the spirit and scope of the appended claims furthermore it is understood that this invention is not limited to the particular methodology materials and modifications described and as such may of course vary it is also understood that the terminology used herein is for the purpose of describing particular aspects only and is not intended to limit the scope of the present invention which is limited only by the appended claims unless defined otherwise all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this. |
6 | as much as necessary a monitor or sensor 2 15 is located at the input end of inclined conveyor 2 11 the inclined conveyor 2 11 monitors the quantity of fuel located at the end of the trailer the beginning of the inclined conveyor and moves the fuel rearward in the walking floor trailer as required to maintain sufficient fuel in the inclined conveyor the bin feeder fig3 receives the fuel from the inclined elevator 2 11 fig2 the bin feeder is used to meter the fuel to the combustor depending upon the quantity of fuel required by the combustor to produce sufficient stream the bin feeder 3 11 speed will be varied to introduce sufficient fuel to the combustor a sensor 3 10 is used on the bin feeder to ensure that sufficient fuel is present on the bin feeder belt if additional fuel is needed a signal is sent to the inclined conveyor walking floor trailer fig2 for additional fuel the rotary air lock 3 12 is used to provide a mechanical seal to minimize the quantity of unwanted air introduced into the combustor the fuel gasification process takes place in gasifier 11 shown in fig1 device this process is described hereafter in the section entitled u201c combustion process description u201d the area of this gasification is referred to as stage 1 the gasification in this stage is controlled totally by the computer control system by taking the following parameters and the system computer determines the variables that need to change or remain the same during the gasification process solid fuel feed rate airflow rate oxygen concentration firebelt 20 speed gasification temperature. |
9 | the insulation thickness and the overall cable shape the control of the insulation thickness allows inclusion of single twisted or other conductor wire gauges for example from 4 to 44 awg the flexible silicone encapsulation provides extreme flexibility for motion applications the silicone encased flexible shaped cables can seamlessly be attached to for example fixed and moving structural components and can be used for carrying electrical signals light signals pneumatics and fluids exactly where they are desired for use in the application combining each of the systems into one cable results in a cleaner more compact design which can ultimately be more reliable and cost effective the extrusion process can produce silicone encased flexible shaped cables in continuous lengths or as assemblies complete with connectors and junction boxes then tested and inspected for a specific application this capability provides the ability for customizing cables to be shaped to fit very tight spaces of one embodiment of the present invention the mixture of silicone rubber 200 with proprietary additives 210 allows adaptation of the silicone encased flexible shaped cables to numerous applications various proprietary additives 210 can be mixed with the silicone rubber 200 prior to extrusion in controlled amounts that create functional advantages to the silicone encased flexible shaped cables these proprietary additives 210 can include for example elements to modify the hardness of the cable encasement to increase or decrease flexibility and to creating different functional characteristics for different purposes for example harder cable encasements will last longer in abrasive environments and softer cable encasements will have more flexibility in addition softer cable encasements can be used as a sealing mechanism in an assembly the softer cable encasement can itself be for example compressed between two mating surfaces and the silicone encasement. |
2 | rollers 60 rotate along with the pump shaft 61 they will presses the flexible fluoroelastomer tubing 63 against the surrounding wall inside of the cartridge housing 55 this will displace the volume inside and along the tubing creating suction once suction is created in the system it will allow the peristaltic pump to draw the liquid cosmetic out from the liquid reservoir pouch 32 the liquid cosmetic will travel upward into the liquid cosmetic inlet 65 and along the liquid cosmetic flow channel 64 and exit into the nozzle spraying chamber 78 fig6 shows the spray nozzle assembly made up of a nozzle housing 71 which houses the a spray nozzle 72 a o ring 73 to keep the assembly air tight a nozzle housing cap 74 to encapsulate the assembly together with the cartridge housing 55 and a nozzle cover 75 the spray nozzle 72 can be made out of any suitable materials including but not limited to stainless steel plastic or rubber its entrance opening 76 has an inner diameter of 1 5 mm and its exit opening 77 has an inner diameter of 0 19 mm the exit tip forms a 30 u00b0 angle to the nozzle housing cap 74 and are spaced apart see fig8 a and 8 b the nozzle housing 71 functions to hold the spray nozzle 72 secure and center it within the spraying chamber 78 as shown in cross sectional view of fig7 the airbrush device sprays out liquid cosmetic in two steps first the liquid cosmetic is pumped out from the liquid cosmetic reservoir pouch 32 the liquid cosmetic will travel along the liquid flow channel 64 not shown and into the flexible fluroelastmor tubing 63 the liquid cosmetic will then continue through. |
8 | q 54 q 64 fig8 a shows a variable capacitance circuit comprising a single transistor and fig8 b shows a variable capacitance circuit comprising subdivided transistors wherein w denotes a gate width and l small ell denotes a channel length fig8 c graphically shows the capacitance characteristics of both transistors in fig8 a and 8b as described above the change point of the mos capacitance value toward decrease is determined by the potential difference between the gate and the source so that if mutually different dc bias voltages are applied previously to the respective gates of the subdivided transistors in fig8 b then the capacitance change start voltages depending on the control voltage vtune for the four subdivided transistors are rendered mutually different for example if the dc potentials to be applied previously are raised stepwise like a staircase the change characteristics of the capacitances cv due to the individual transistors are offset to the control voltage vtune as shown in fig9 a when these transistors are connected in parallel there is obtained cv u2032 cv 1 cv 2 cv 3 cv 4 hence widening the variable voltage range as graphically represented by cv u2032 in fig9 b also the change characteristics of the resistances rp due to the individual transistors are offset to the control voltage vtune as shown in fig9 a the equivalent parallel resistance rp is expressed as therefore in comparison with the resistance rp obtained without any gate bias offset the equivalent parallel resistance rp u2032 obtained through the gate bias offset by using a multiplicity of transistors is advantageous in the point that as shown in fig9 b its minimum value can be increased from rpmin to. |
1 | epicardium they may be located in the left ventricle or in a coronary vein on the middle of the left ventricle in addition leads comprising a sensor may be located in any suitable position in the body of a patient e g vena cava or other places in thorax with reference now to fig2 the configuration including the primary components of an embodiment of the present invention will be described the illustrated embodiment comprises an implantable medical device 20 such as the pacemaker shown in fig1 leads 26 a and 26 b of the same type as the leads 6 a and 6 b shown in fig1 are connectable to the device 20 the leads 26 a 26 b may be unipolar or bipolar and may include any of the passive or active fixation means known in the art for fixation of the lead to the cardiac tissue as an example the lead distal tip not shown may include a tined tip or a fixation helix the leads 26 a 26 b carry one or more electrodes as described with reference to fig1 such as a tip electrode or a ring electrode arranged to inter alia measure the impedance or transmit pacing pulses for causing depolarization of cardiac tissue adjacent to the electrode s generated by a pace pulse generator 25 under influence of a controller 27 including a microprocessor the controller 27 controls inter alia pace pulse parameters such as output voltage and. |
7 | how leaf cells and lower level parent cells of the existing artwork can be used in a new piece of semiconductor artwork in describing this process reference is made to fig3 a 3 c after the process is initiated with the start step 160 and a leaf cell 80 to be searched for in the existing artwork is input by the user via input device 4 step 170 then questions whether the leaf cell 80 is valid the leaf cell 80 would not be valid if it did not exist in the database 7 of the software that generates the existing piece of artwork from which the leaf cell 80 is being ported step 170 is included as a u201c sanity check u201d to make sure that the process will flow correctly if a user inputted an incorrect leaf cell 80 name the name would not be found and the process can return an error message after skipping directly to the end of the flowchart this check makes sure that the leaf cell 80 is actually in the database 7 and that there is an artwork representation for it the process illustrated in fig5 allows a user to input many options via input device 4 including which top level parent tlp of the existing artwork constitutes the boundary of the search for leaf cells step 180 of the flowchart determines whether the tlp cell over which to search has been specified with reference to fig3 a 3 c a user may wish to find all of the instances that leaf cells 80 appear in chip1 150 or may want to restrict the search to blocka 120 or even to subblocka2 100 one reason to allow. |
5 | volts in the day when the photo switch p1 is off the photo voltaic array 105 charges the capacitor array c2 at night the photo switch p1 closes and supplies electrical power from the capacitor array c2 to the timer chip 101 to operate the light emitting diodes 35 39 51 amp 73 under rainy conditions which occur during the day and once the ambient light is low enough the timer chip 101 will go into operation it is expected that the photo switch p1 will have a sufficiently high threshold that the timer chip 101 will probably not operate during periods where any significant light falls on the photo voltaic array 105 ideally the photo switch p1 should come on only under the darkest conditions likely to be encountered in order to conserve charge and thus to conserve the energy capacity of the capacitors it is preferred to set the oscillation frequency of the timer chip 101 to have a duty cycle of from about 6 to about 15 with triggering to occur more often than one second a low duty cycle can be used where the time during which the light emitting diodes 35 39 51 amp 73 will be on for 0 050 seconds and off for a duration of 0 779 seconds before being turned on again this corresponds to a duty of 6 03 a high duty cycle might energize the light emitting diodes 35 39 51 amp 73 for 0 124 seconds followed by an off time of 0 705 for a 15 duty cycle a medium duty cycle would be an on time of 0 107 seconds followed by. |
8 | p pillar structure of the jfet region according to another aspect of the present invention in general the method comprises providing a bulk p u2212 silicon layer 300 producing a buried nwell layer 301 making a p u2212 layer 320 in layer 301 and growing an n u2212 epitaxial layer p u2212 epitaxial layer is an option 302 on layer 301 fig1 a etching spaced parallel trenches 304 in layer 2 301 and 302 the width of the trenches 304 being equal or less than the width of the regions 306 between trenches 304 the width of the trenches 304 being equal or larger than the width of the regions 306 between trenches 304 for p epitaxial option fig1 b filling trenches 304 by segment epitaxial refill with p material 308 n material corresponding to p u2212 epitaxial as an option fig1 c resulting in alternating n pillars 310 and p pillars 312 fig1 d a top layer 322 of p type is then produced segment epitaxial refill is carried out by intrinsic epitaxial refill and in situ doped epitaxial refill or different level in situ doped epitaxial refills the in situ doped epitaxial layer with needed doping concentration is provided for p n pillars charge balance the intrinsic epitaxial layer with un doped material is provided for process adjustment and also to support some doped layer lateral diffusion for higher breakdown voltage trenches 304 can also be filled with oxide si refill in which a trench side wall thermal oxide layer has a si refill the sidewall oxide is used to prevent lateral diffusion between p pillars and n pillars in the device fabrication in this case there is an electric field through the trench side wall oxide by. |
1 | for example a sharpened distal tip may be formed as an integral part of the helical needle e g by sharpening the distal end of the hypotube or as separate element e g an inner needle with a sharp tip that can extend from within the helical needle as depicted in fig6 and or a detachable sharp tip positioned at the distal end of the hypotube that forms of the helical needed as depicted in fig2 a 2d in one embodiment of the invention after or as the helical needle is rotated into the heart wall 82 the distal end of the helical needle 26 is advanced back out of the heart wall 82 so that the surgeon or other user can grasp the distal portion 34 of the suture 30 in order to form the full purse string for example when the helical needle 26 has been rotated about 360 degrees in screw like fashion in the heart wall 82 the distal end of the helical needle 26 such as the detachable distal tip 28 of fig2 a 2d can be advanced back out of the heart wall 82 at a position at or adjacent the position where the helical needle 26 first entered the heart wall 82 such as in the embodiment depicted in fig7 advancing the distal end of the helical needle 26 out of the heart wall 82 may be achieved by various methods depending on the particular application for example simply angling the entire instrument 20 can cause the distal end of the helical needle 26 to be directed in a generally proximal direction and back out of the heart wall 82. |
6 | 0 1 for structured packing having a specific area within a range of between about 450 m 2 m 3 and about 1000 m 2 m 3 and flow channels oriented at an angle of about between about 30 degrees and 45 degrees the column can be operated at a minimum vapor rate through such packing of about exp 0 0485 ln u03c8 2 0 595 ln u03c8 3 748 0 000421a when u03c8 is within the foregoing range and to about 0 0305e 0 000421a u03c8 0 372 when u03c8 is greater than 0 1 for structured packing having a specific area within a range of between about 170 m 2 m 3 and about 250 m 2 m 3 and flow channels oriented at an angle of about 30 degrees or less a minimum vapor rate for the column can be taken as about exp 0 0485 ln u03c8 2 0 595 ln u03c8 2 788 0 00236a when u03c8 is within the foregoing range and to about 0 0305e 0 00236a u03c8 0 372 when u03c8 is greater than 0 1 lastly for structured packing having a specific area within a range of between about 250 m 2 m 3 and about 1000 m 2 m 3 and flow channels oriented at an angle of about 30 degrees or less a minimum vapor rate from the column can be set equal to about exp 0 0485 ln u03c8 2 0 595 ln u03c8 3 156 0 000893a when u03c8 is within the range. |
4 | in the lower extremity of the needle bar endwise slidable in the second pair of aligned spaced bearing bores 54 55 is a presser bar 65 which in the space between the bearing bores 54 55 is embraced by a presser guide block 66 the guide block 66 includes a lateral projection 67 slidably engaging flat surfaces 68 and 69 on the module frame to prevent the presser bar from turning an upwardly offset finger 71 on the guide block engages one extremity of a coil spring 72 of which the other coil spring extremity engages an offset finger 73 formed on the module frame 50 so as to bias the presser bar in a downward direction a sheet metal presser foot shank 74 to which a presser foot 75 is pivotally connected is formed with an aperture 76 and beneath the aperture there is a struck out portion 77 which is engageable by a protruding finger 78 formed on the presser guide block 66 a fastening screw 79 which passes through an aperture 80 in the presser foot shank 74 and an aperture 81 in the presser guide block 66 and engages a threaded hole 82 into the presser bar 65 which serves to lock together these three parts for endwise movement in unison a presser lifting lever 85 is formed with a cam projection 86 and a pivot aperture 87 which loosely embraces a pivot pin 88 formed on the module frame 50 as shown in fig1 of the drawings a flange 89 on the presser shank 74 is arranged closely adjacent to the presser lifting lever 85 and serves to maintain the aperture 87 in engagement with the pivot pin. |
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