子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | A hemophilia and von Willebrand disease treatment for FV ▲ III ▼ / vWF complex, as well as a method for manufacturing the same | JP50409285 | 1985-09-17 | JPH0649720B2 | 1994-06-29 | BUURUGUWA AREN; DEREZU MARIREENU; HERUTO BENSAN |
| 82 | Immunoadsorbent for adsorption of fviii/vwf complex | JP7297893 | 1993-03-08 | JPH06107700A | 1994-04-19 | BUURUGUWA AREN; DEREZU MARIREENU; HERUTO BENSAN |
| PURPOSE: To obtain a titled immunoadsorbent comprising an individual carrier supporting anti-VIII R:Ag monoclonal antibody, which has strong affinity for VIII R:Ag in a physiological medium and weak affinity in an alkaline medium and provides a therapeutical drug for haemophilia with a high degree of purity. CONSTITUTION: An objective immunoadsorbent comprising an individual carrier supporting anti-VII R:Ag monoclone, has strong affinity for VIII R:Ag in a physiological medium and weak affinity between pH 8.5-10.5, and possesses both anti-A type haemophilic activity and von Willebrand activity which are used in the preparation of a therapeutic FVIII/vWF complex with a high degree of purity by fusing spleen cells of BALB/c mouse immunized highly with factor VIII (FVIII)/von Willebrand factor(VWF) complex to mouse x63 myoloma cells by polyethylene glycol, selecting hybridoma forming anti-VIII R:Ag antibody, and coupling the produced monoclonal antibody to gel type individual particles such as Cephalose 24B. COPYRIGHT: (C)1994,JPO | ||||||
| 83 | JPH06501767A - | JP50479392 | 1992-08-28 | JPH06501767A | 1994-02-24 | |
| 84 | JPH05509400A - | JP51042991 | 1991-05-14 | JPH05509400A | 1993-12-22 | |
| 85 | Truck towing swivel for pipe line inspection of the like | JP12044292 | 1992-05-13 | JPH05131924A | 1993-05-28 | DEIBUITSUDO SUMAATO |
| PURPOSE: To enable trucks to pass smoothly through any bend position in a pipe line by fixing a towing swivel in a front part of a truck and moving a link, which can slide freely along a load bar connected to the towing device, between specific two positions. CONSTITUTION: A truck 10 is for inspecting corrosion of a gas pipe 12 for example and has at least required sensors 22. The truck 10 is jointed to a guiding truck 24, a data processing vehicle 30 and a power source truck 32 trough a chain 26 and towing links 34 and 36, respectively. The chain 26 is jointed to a towing swivel 40 fixed in a front part of the truck 10. The final link 46 of the chain 26 can slide freely on a load bar 48 of the swivel 40. The final link 46 can move between the position for towing in a straight pipe part and the position for towing in a bend pipe part on a load bar 48. The latter position is set in the position farther from the longitudinal axis of the truck 10 and nearer to the center of the curvature of the bend pipe part. | ||||||
| 86 | Method and device for lining longly extended opening having circular and non-circular cross sections | JP2107092 | 1992-02-06 | JPH0552098A | 1993-03-02 | HAINRIHI GUROOTENHEEFUAA |
| PURPOSE: To form lined tubes having various diameters and cross sections by providing a press roller following the cross-sectional shape of the end section of a shield while the roller is arranged on a wound lining cage and a correction roller 21 which is formed in an arbitrary longly elongated shape and follows the cross-sectional shape in the end section of the shield. CONSTITUTION: A press roller 18 is supported by a movable supporting section 19 and pressed against the internal surface of the end section 16 of a shield by means of a spring 20 so that the roller 18 may follow the cross-section shape of the end section 16. In addition, a correction roller 21 expands the diameter of a wound lined tube 22 formed of a wound lining belt 13 by means of its inclined position and following property through the supporting section 19 and spring 20 and brings the tube 22 into contact with a barrel 5 to be reconstructed. After the tube 22 is protruded from the end section 16, consequently, the tube 22 is expanded to a desired shape by means of the correction roller 21. Therefore, lined tubes having circular and oval cross sections can be created. | ||||||
| 87 | Method for impregnating fiber sheet with synthetic resin | JP34317591 | 1991-12-25 | JPH04310709A | 1992-11-02 | HANSU MIYURAA; BUIRUFURIITO GIYUNTSUERU; HERUMAN JIYUURUBAUMU |
| PURPOSE: To provide a method for impregnating a fiber sheet material with a synthetic resin without need for various considerations on a natural and working environments as well as with easy cleaning after the working. CONSTITUTION: A fiber sheet 11 on which a liquid-type synthetic resin 12 is applied is covered with a polyethylene sheet 17 and pressurized with a manually pressurizing roller 18 from the outside of the polyethylene sheet 17 so as to impregnate the fiber sheet 11 with the synthetic resin 12. COPYRIGHT: (C)1992,JPO | ||||||
| 88 | Travel mechanism and travel device equipped with travel mechanism | JP25964990 | 1990-09-28 | JPH04135962A | 1992-05-11 | SUZUMORI KOICHI; AOMORI KOKICHI |
| PURPOSE: To secure stable travel, by arranging so that travel mechanisms may be provided with plural sun gears and at least two planetary gears which revolve around sun gears while rotating, and vehicle wheels, and the push-pressing force of vehicle wheels may be able to be regulated according to load. CONSTITUTION: Travel mechanisms 2, 2A, 2B are formed of vehicle wheel drive portions 5 and drive means by means of motors 4. A vehicle wheel drive portion 5 is equipped with plural sum gears 11, planetary gears 15 and vehicle wheels 6. Plural sun gears 11 are rotated by means of a drive means 4, and at least two planetary gears 15 which revolve around a sun gear 11 while rotating, are furnished through an arm member making a predetermined angle, and at the same time a plurality of vehicle wheels 6 are fixed at the rotary shaft 16 of each gear 15, and revolution is restrained by butting vehicle wheels 6 against the inner wall of a pipe by the revolution of gears 15, and the drive force of wheels 6 due to rotation is transmitted to the inner wall of the pipe. As a result, the larger becomes load acting on in a direction opposite to the advance direction of the mechanism 2, the more wheels 6 are push-pressed to the wall surface, so resistance from the pipe inner wall is increased, and large propulsive force can be obtained. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 89 | JPH03506065A - | JP50627290 | 1990-04-09 | JPH03506065A | 1991-12-26 | |
| 90 | JPH0368974B2 - | JP14899984 | 1984-07-17 | JPH0368974B2 | 1991-10-30 | KOGA MOTOYUKI; SHIMADA AKIRA |
| PURPOSE:To repair a pipeline to enable a cable to be led-in, by a method wherein a cylindrical apparatus consisting of a propeller head, a cylinder, a rubber collar and a pressure-proof hose is led into the pipeline prior to the insertion of the cable. CONSTITUTION:A traction wire 2 is inserted into an underground pipeline A through one side manhole to the other side manhole, and when the wire 2 is tracked, then a cylindrical apparatus consisting of a propeller head 1, a cylinder 4, rubber collar 10 and a pressure-proof hose 8 is led into the pipeline A. And when the propeller head 1 hits a bulging section X in the pipeline a, then compressed air is fed into the cylinder 4 via the pressure-proof hose 8 and the bulging section X is stuck by the propeller head 1 and is expanded outside. And prior to the insertion of a cable, the cylindrical apparatus is inserted into the pipeline and the bulgind section X in the pipeline is forcibly corrected and the pipeline is repaired to enable the cable to be led-in. | ||||||
| 91 | JPH0353519B2 - | JP50449784 | 1984-12-14 | JPH0353519B2 | 1991-08-15 | HIMURAA ERITSUHI |
| 92 | JPH0331960B2 - | JP2834584 | 1984-02-17 | JPH0331960B2 | 1991-05-09 | DOI KOICHIRO; DOI YASUO |
| 93 | JPH02501494A - | JP50672487 | 1987-11-26 | JPH02501494A | 1990-05-24 | |
| 94 | Repair device for repair and sealing work in conduit difficult to approach | JP16794387 | 1987-07-08 | JPS63251691A | 1988-10-19 | ARUBUIN JIIGERU |
| 95 | Inspecting instrument of piping | JP15221484 | 1984-07-25 | JPS6131962A | 1986-02-14 | SAKOTA TAKESHI |
| PURPOSE:To perform in the actual time the measurement of the pipe thickness in peripheral direction and the flaw detection of the inclined angle in peripheral direction by performing the scanning in peripheral direction and axial direction of the piping with using a annual linear alley probe. CONSTITUTION:The linear alley probe 8 that the transducers consisting of numerous ultrasonic vibrators are annually arranged in peripheral direction is held by a truck 2b and the scanning in peripheral direction is performed by changing- over in order and electronically the motion of each vibration of the probe 8 thereof. The travelling in the direction of the pipe axis is performed by a self- advancing driving motor 9 or manually. The thickness of the pipe 1 is known by measuring the value (t) subcontracting the distance t1 between the transmitting pulse 5 thus obtd. and the surface echo 6 inside the pipe from the transmission pulse 5 and the distance t2 of the surface echo 7 outside the pipe, and according to the result thereof the corrosion condition can be measured and in case of any crack of the piping 1 being existed such crack can be found by the generation of an echo 7'. | ||||||
| 96 | Method of repairing piping | JP2834584 | 1984-02-17 | JPS60172798A | 1985-09-06 | DOI KOUICHIROU; DOI YASUO |
| 97 | APPARATUS AND METHOD FOR PUNCTURING A PIPE | US16037035 | 2018-07-17 | US20180328153A1 | 2018-11-15 | Jason Swearingen; Lindsay Swearingen |
| An apparatus and method for puncturing a pipe in-situ is presently disclosed. The apparatus has an actuator in communication with a remote controller. A firing assembly has a firing chamber and a firing pin, wherein the firing pin is in communication with the actuator. The firing chamber is configured to hold and fire a bullet radially toward the pipe, upon the firing pin being actuated with the actuator. The method includes the steps of inserting a pipe puncturing apparatus into a pipe, activating an actuator, communicating the activation of the actuator to a hammer and moving a firing pin in the hammer to impinge a cartridge and fire a bullet. | ||||||
| 98 | Pipeline crack detection | US14873140 | 2015-10-01 | US10060883B2 | 2018-08-28 | Jochen Uwe Giese; Andrew Robinson; Markus Holger Blust; Christian Alexander Goldmann |
| A method includes emitting an ultrasonic signal into a test specimen from a transducer, receiving a first reflected ultrasonic signal from the test specimen, wherein the first reflected ultrasonic signal is reflected from a feature in the test specimen and the first reflected ultrasonic signal is internally reflected within the test specimen three times prior to being received, and determining a threshold depth of the feature in the test specimen based on receiving the first reflected ultrasonic signal. | ||||||
| 99 | DIAGNOSTIC CAMERA APPARATUS AND METHOD FOR INSPECTION OF AN ENCLOSED TUBE SYSTEM | US15835282 | 2017-12-07 | US20180164673A1 | 2018-06-14 | Alan-James Speed; David Li; Ray Dawson; Ralph C. McCann, III; Makoto Ogusu; James Pulverenti; Paxton O'Toole |
| The present disclosure relates in general to a diagnostic device for inspection of an enclosed tube system, and more particular, to obtain images or video of the interior of the enclosed tube system while the diagnostic device is attached to a moveable member and traveling through the enclosed tube system. A diagnostic apparatus including camera housing configured to include a camera assembly, battery housing configured to hold a battery assembly, and a main housing configured to be detachably secured to a moveable member, wherein the camera housing and battery assembly are secured to the main housing, and wherein the main housing includes at least one light. | ||||||
| 100 | PIPE REPAIR APPARATUS AND METHOD | US15553035 | 2016-02-23 | US20180031166A1 | 2018-02-01 | Jeffrey M. Urbanski |
| A pipe repair apparatus and method of repairing a main pipe and a lateral pipe is provided. The apparatus includes a packer assembly having a main bladder body with a cylindrical shape extending radially from and along the first axis for inflating in the main pipe. The packer assembly also has a lateral bladder body with a cylindrical shape extending radially from and along a second axis transverse to the first axis for inflating in the lateral pipe. A main liner is disposed about the main bladder body for adhering to the inner surface of the main pipe to repair the main pipe in response to the main bladder body being inflated. Similarly, a lateral liner is disposed about the lateral bladder body for adhering to the inside surface of the lateral pipe to repair the lateral pipe in response to the lateral bladder body being inflated. | ||||||
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