| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 气动物流工作站 | CN201610696283.7 | 2016-08-19 | CN106144600A | 2016-11-23 | 许晓毅; 朱裕河; 周富强 |
| 本发明公开一种气动物流工作站,包括发送工作站和接收工作站,发送工作站和接收工作站通过气动管道相连,其中的发送工作站包括发样壳体,气动管道伸入到发样壳体内形成管道接口,管道接口连接套筒组,套筒组能沿管道轴向滑移形成伸缩提升部,发样壳体一侧连接传输平台,该平台延伸到管道接口下方以连续传输样品瓶至发样工位,套筒组滑移下降而罩于发样工位的样品瓶实现气动物流发样作业。本发明通过发送工作站内气动管道接口的伸缩提升部,直接下降罩住样品瓶,然后气动物流系统产生吸力将样品瓶发送至接收工作站,实现自动传输并缓存存储样品。 | ||||||
| 2 | 一种交易系统工作站、工作方法及放入或取出物品的方法 | CN201610269817.8 | 2009-09-09 | CN107089514A | 2017-08-25 | 陆洪瑞 |
| 本发明公开了一种交易系统工作站、工作方法及放入或取出物品的方法,涉及管道传输领域,为解决能够从气动管道传输系统工作站中方便地取出和放入物品问题而发明。交易系统工作站,包括管道,所述管道下端具有端口,在所述管道的端口处枢接有容置器,所述容置器具有开口,所述容置器的开口与所述管道下端的端口相适配。将物品放入交易系统工作站的方法,包括:将设置在管道端口处的容置器从所述管道的端口处移开;将物品如传输器从所述容置器的开口处放入所述容置器中;将所述容置器复位,使所述容置器的开口与所述管道下端的端口相配合。本发明适用于气动管道传输系统、自动售货机等。 | ||||||
| 3 | 一种大载重量医用气动物流传输系统 | CN201610126420.3 | 2016-03-07 | CN105540261A | 2016-05-04 | 陈显旺; 陈显呈 |
| 本发明公开了一种大载重量医用气动物流传输系统,包括:若干站点、换向装置、缓存装置、气动装置和控制系统,所述若干站点分别通过传送管路连接所述换向装置,所述换向装置通过传送管路连接所述缓存装置,所述气动装置包括空压机、风向转换装置、吹气管和吸气管,所述控制系统分别电性连接所述空压机、所述风向转换装置与所述换向装置。通过上述方式,本发明大载重量医用气动物流传输系统可传送较大重量的物品、传送速度较快、可确保物品在传输时不受外界环境污染、不发生交叉感染、维护成本低,故障率低、扩展性能强,在大载重量医用气动物流传输系统的普及上有着广泛的市场前景。 | ||||||
| 4 | 캐리어 또는 공압 튜브 스테이션 | KR1020107025054 | 2010-05-27 | KR101395316B1 | 2014-05-16 | 프리드리치,피터 |
| 본 발명은 캐리어(1) 또는 공압 튜브 장치를 개시한다. 캐리어 튜브(7)는 복수 개의 리드 섹터(4)로 형성되는 적어도 하나의 리드(3)에 의해서 폐쇄된다. 각각의 리드 섹터(4)는 캐리어 세로축(18)에 접하는 각각의 회전축(5)을 중심으로 방향 전환 가능하다. 상기 캐리어 튜브(7)를 포위하는 작동 링부재(19)에 상기 회전축(5)이 장착되며, 상기 작동 링부재(19)는 링 형태의 홈(6)을 포함한다. 상기 홈(6)은 캐리어 세로축(18)에 수직으로 배치되고 캐리어 단부로부터 상기 리드 섹터들(4)의 회전축(5)보다 먼 위치에 배치된다. 공압 튜브 스테이션은 (u)자 형태 내지 반원 형태의 가장자리 부분(15)을 포함하는 홀딩 부재(14)를 포함하는 홀딩 장치(11)를 포함한다. 상기 캐리어(1)가 공압 튜브 스테이션의 스테이션 개구(16)에 도달하면, 상기 작동 링부재(19)의 홀딩 부재(14)는 능동적 잠금 방식으로 상기 링 형태의 홈(6)에 맞물려짐으로써 상기 캐리어(1)를 홀딩한다.
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| 5 | Air tube station | EP05250720.9 | 2005-02-09 | EP1564167A1 | 2005-08-17 | Lewis, Richard c/o Air Tube Conveyors Ltd |
A tube conveyor station, which may be a send station or a receive station or both, includes a support structure (14) having a tube connection union connected, when the station forms part of a conveyor system, to a transport tube (11) through which a carrier (12) can be conveyed to or from the station. The station further includes a carrier receptacle (21) movable relative to the support structure between a first receive or despatch position, in which the receptacle communicates with the transport tube in use, to receive a carrier from, or despatch a carrier to, the transport tube, and a second, load or unload, position remote from the first position of the receptacle and in which a carrier can be loaded into or unloaded from said receptacle. A closure member (22) is movable with the receptacle relative to the support structure and spaced from the receptacle such that it closes the open end of the transport tube when the receptacle is in its second position. |
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| 6 | PNEUMATIC TRANSFER APPARATUS | EP99928847 | 1999-06-22 | EP1113973A4 | 2002-06-05 | GROMLEY NEIL C; BECK ROBERT J; KLATT ROBERT J; BAKERINK ALLEN R; GALLAGHER LARRY R; MARMON VINCENT T |
| A pneumatic transfer apparatus (10) includes a service provider terminal (22) and a customer terminal (24). A carrier (32) is moved through a transfer conduit (26) between the customer and service provider terminals by a differential pressure generating mechanism (28, 30). Each of the customer and service provider terminals includes an actuator mechanism (54, 82). The actuator mechanism is operative to orient an opening in the housing of the carrier with a transfer opening in the transfer conduit. The actuator mechanism is further operative to move an inner shell (100) relative to an outer shell (96) of the carrier so as to bring openings in said inner and outer shells into alignment which enables accessing the interior area of the carrier. | ||||||
| 7 | Rohrpoststation | EP90124897.1 | 1990-12-20 | EP0442118A1 | 1991-08-21 | |
Eine Rohrpoststation (10) weist einen Anschluß (14) für ein Fahrrohr (12) und ein in der Rohrpoststation (10) bewegbares Rohrstück (20) auf. Das Rohrstück (20) ist zum Absenden oder Empfangen von Rohrpostbüchsen (42) in eine mit dem Fahrrohr (12) fluchtende Stellung bringbar sowie druckdicht an dieses anschließbar. Zum Aufgeben oder Entnehmen von Rohrpostbüchsen (42) ist das Rohrstück (20) in eine vom Fahrrohr (12) beabstandete Stellung bringbar. Die Rohrpostbüchsen (42) sind zwischen einer Aufgabe- bzw. Entnahmeposition (43, 56) und einer Absende- bzw. Empfangsposition (35) in einer Richtung (50) senkrecht zur Fahrrichtung (17) innerhalb der Rohrpoststation (10) verfahrbar. Das Rohrstück (20) ist in Fahrrichtung (17) um mindestens die Länge (L) einer Rohrpostbüchse (42) verfahrbar. Es sind in Fahrrichtung (17) wirkende Haltemittel (30, 33, 34) für die Rohrpostbüchse (42) in der Absende- bzw. Empfangsposition (35) vorgesehen. |
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| 8 | JPS6356133B2 - | JP17442884 | 1984-08-22 | JPS6356133B2 | 1988-11-07 | AKYAMA KANJI; KOBAYASHI HIDEO; TAKEDA HIDEO; TAISHO JUDO; MYASUGI TAKESHI; KURIMA AKINORI; NAKAGAMI HIDETOSHI; SUGIMOTO TETSUTARO |
| 9 | Conveying device for carton etc. | JP11317583 | 1983-06-22 | JPS606521A | 1985-01-14 | TANEDA KOUZOU; CHIBA SHIYOUKEI; NAKA JIYUNICHI; WATANABE SHIYUNICHI |
| PURPOSE:To enable a thin carton to be conveyed without falling down, by a method wherein a device is constituted such that a reciprocating capsule is disposed in an air pipe for conveyance, and a carton is fed in and delivered out from the capsule at the inlest and the outlet of the air pipe. CONSTITUTION:A capsule 24 matching a carton size is inserted through the end part of an air pipe 8 for conveyance to use it. A carton bundle (b) at a lowermost stage, which is released from catch of a carton catching device 23, is charged in the capsule 24 with an air shutter 22 opened. With an air pressure exerted on a pad plate 25, the capsule 24 is conveyed within the air pipe 8 to the discharge side. After the carton is taken out by a discharging device on the discharge side, the capsule is returned to the feed side by means of the air. This enables the carton to be conveyed in a manner to hold its posture with the air or the capsule, resulting in the possibility to reliably convey the carton which is apt to fall down. | ||||||
| 10 | Fluid transport apparatus for stopping and returning capsule containing sample therein at work position in pneumatic carrier | JP2655583 | 1983-02-19 | JPS59153718A | 1984-09-01 | SUGIMOTO TETSUTAROU |
| PURPOSE:To stop a capsule correctly without a shock and return the capsule by boring a connecting hole and a discharge hole through a work position so that a fluid is forced to flow into a pneumatic carrier through the connecting hole and the fluid is discharged through the discharge hole to balance fluid pressure. CONSTITUTION:A capsule 6 is fed to a work head 2 by compressed air in a pneumatic carrier 3, and at the same time, compressed air is fed into the work head 2 through a fluid conduit pipe 14 to flow into the pneumatic carrier 3 through each circulating hole 12, so that the capsule 6 is fed by pressure in the pneumatic carrier 3 and stopped at a position corresponding to a discharge hole 13 where the pressure of the compressed air fed from the opposite direction is balanced. Subsequently, compressed air is continued to flow from an analysis chamber 4, and solenoid valves 16, 22 are closed to exhaust the compressed air in the work head 2 quantitatively through an exhaust valve 17, so that the capsule 6 is lowered in the pneumatic carrier 3 at uniform speed and brought into pressure contact with a table seat 26 to be stopped. | ||||||
| 11 | Sending and receiving station of sample | JP3549682 | 1982-03-06 | JPS58152714A | 1983-09-10 | SUGIMOTO TETSUTAROU |
| PURPOSE:To safely further correctly convey a sample, by automatically sending and receiving the sample between stations of sample gatherer and analyzing chamber sides when the sample of hazardous material in a nuclear reactor or the like is transported by air. CONSTITUTION:A vessel (b) filled with a sample in a gather is inserted into a vessel inlet outlet chamber 20 and held by a standby holding arm 56. Here fine dust of the sample in the chamber 20 is removed by air from a purifying machine 25, and a door 22 is closed by action of a cylinder 21. Then a lock mechanism 24 is released to move a moving member 56 to a vessel acceptance device 60 by an endless chain 57, and a sucker 61 is attracted to a top part of the vessel (b) to release the holding and accommodate the vessel in a pneumatic carrier main unit 3 in a receiving bed 34 by a lift lever 62, while an arm 36 of a supporter device 30 is turned to position the vessel to a cap mount-removal device 70 and cover a cap 5 then position to release the supporting in a pneumatic carrier sending and receiving device 90, further a cylinder is operated to lift a pneumatic carrier (a) in a carrier air pipe D and send the carrier (a). | ||||||
| 12 | Device for handling pneumatic carrier | JP1921280 | 1980-02-20 | JPS56117919A | 1981-09-16 | KOHAMA MASAO; HAYASHI MITSUO |
| PURPOSE:To interlock a pneumatic carrying equipment with an automatic machine to attain consistent automation, by using a handling device to automatically put a conveyed piece into and out of a pneumatic carrier. CONSTITUTION:To take out an inner container 30, a stock table 12 is turned by a motor 15. A plurality of pneumatic carriers are stocked on the table 12 and provided with addresses. When a desired pneumatic carrier has come right under a chuck, a chuck holder 6 is moved down by a motor 11 and the claws 18 of the chuck are opened. When a position setting small member 6a has come to the position of a detector 37b, the motor 11 is stopped to halt the chuck holder 6. When a rotary solenoid 17 is deenergized, the claws 18 of the chuck are closed to grab the outer cylinder 25 of the pneumatic carrier. After that, a bottom cup 24 and the outer cylinder 25 are disconnected from each other. When the motor 11 is actuated for lifting to the position of a detector 37a, the claws 18 are moved up as the outer cylinder 25 remains grabbed by the claws 18. Since the bottom cup 24 is left on the table 12, the inner container 30 can be taken out. | ||||||
| 13 | JPS5518221B2 - | JP11542775 | 1975-09-23 | JPS5518221B2 | 1980-05-17 | |
| 14 | Pneumatic transportation method and its plant | JP8402677 | 1977-07-13 | JPS5322285A | 1978-03-01 | KONSUTANTEIN TEODORESUSU; KONSUTANTEIN SEAUSEIU; SUTEFUAN ARUDEREANU |
| 15 | JPH03504231A - | JP50563389 | 1989-05-19 | JPH03504231A | 1991-09-19 | |
| 16 | JPS6354607B2 - | JP2655583 | 1983-02-19 | JPS6354607B2 | 1988-10-28 | SUGIMOTO TETSUTARO |
| 17 | JPS5644853B2 - | JP8402677 | 1977-07-13 | JPS5644853B2 | 1981-10-22 | |
| 18 | JPS5440836B2 - | JP5220678 | 1978-04-28 | JPS5440836B2 | 1979-12-05 | |
| 19 | Pneumatic action type pipeline conveying system with wheeled conveyor | JP1172077 | 1977-02-07 | JPS52111112A | 1977-09-17 | MARION ROBAATO KAASUTENSU |
| 20 | JPS512719B1 - | JP7891469 | 1969-10-03 | JPS512719B1 | 1976-01-28 | |
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