| 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 | JPS6356131B2 - | JP2387183 | 1983-02-17 | JPS6356131B2 | 1988-11-07 | HANSUUYOAHIMU KAADEINARU |
| 2 | Device for automatically taking custody and extracting article | JP1105782 | 1982-01-28 | JPS57141315A | 1982-09-01 | PIEERU RUNE DOWAARU |
| 3 | JPS49110083A - | JP1033974 | 1974-01-25 | JPS49110083A | 1974-10-19 | |
| 4 | JPH03504231A - | JP50563389 | 1989-05-19 | JPH03504231A | 1991-09-19 | |
| 5 | Pneumatic carrier device | JP6117282 | 1982-04-14 | JPS57180524A | 1982-11-06 | BUERUNERU BUYUUTORIHI |
| 6 | JPS5528975B2 - | JP10833273 | 1973-09-26 | JPS5528975B2 | 1980-07-31 | |
| 7 | JPS5440836B2 - | JP5220678 | 1978-04-28 | JPS5440836B2 | 1979-12-05 | |
| 8 | JPS4970387A - | JP10646373 | 1973-09-20 | JPS4970387A | 1974-07-08 | |
| 9 | 공압식 이송 시스템을 위한 멀티 독 스테이션 | KR1020177012066 | 2015-10-02 | KR1020170067814A | 2017-06-16 | 그로스다니엘로버트; 패리시데이비드워렌; 세라핀다니엘존 |
| 본명세서에는다수의캐리어포트(112)를가진회전캐리지(110)를가지는공압식튜브시스템스테이션(16)이제공된다. 다수의캐리어포트(112)에의해다수의캐리어(100)가수취되거나/수취되고배송을위해다수의캐리어들(100)가스테이지될수 있다. 일배치구조에있어서, 하나이상의캐리어(100)는, 사용자가스테이션을계속적으로이용할수 있게하면서스테이션(16) 내에안전하게유지될수 있다. | ||||||
| 10 | 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. | ||||||
| 11 | PNEUMATIC TUBE SYSTEM AND BLOWER ASSEMBLY | EP97915162.0 | 1997-03-19 | EP0929487A2 | 1999-07-21 | GROSSWILLER, Leo, J.; DePIETRO, Mark, A.; ALBERT, Morton, B.; WILHELM, Kenneth, L.; BECK, Robert, J. |
| A blower assembly (100) for a pneumatic transfer tube system (10) comprises a housing (102, 104) having an internal cavity (106) and first and second external ports (152, 154) communicating therewith. A movable plate (112) having first and second sides divides the cavity into two generally isolated chambers. A blower (110) having vacuum and pressure ends (212, 214) is mounted to the plate (112), with the vacuum end (212) on the first side and the pressure end (214) on the second side. The blower (110) when operating creates a vacuum chamber on the first side and a pressure chamber on the second side. A drive assembly (222) attached to the plate (112) moves the plate (112) between a first position wherein the pressure chamber is in communication with the first port (152) and the vacuum chamber is in communication with the second port (154), and a second position wherein the pressure chamber is in communication with the second port (154) and the vacuum chamber is in communication with the first port (152). | ||||||
| 12 | Rohrpostanlage mit einer zentralen Mehrfachweiche und mit einer Wendebetriebsanlage | EP84730059.7 | 1984-05-30 | EP0128856A1 | 1984-12-19 | Dziggel, Klaus-Peter, Dipl.-Ing.; Hoffmann, Hartmut, Dipl.-Ing.; Prenninger, Walter |
Ein Empfangsstrang (13) ist an eine Einschleusöffnung (12a) und ein Sendestrang (14) an eine Ausschleusöffnung (12b) einer Übergaberohrpoststation (12) angeschlossen; die Übergaberohrpoststation (12) ist mit zwei fluchtenden Anschlussstutzen in eine Einrohr-Wendebetriebsrohrpostanlage eingefügt. Eine der Übergaberohrpoststation (12) zugeordnete Stationssteuereinrichtung ist ebenso wie die die Verbindung der Empfangsstränge und der Sendestränge bewirkende zentrale Mehrfachweiche (1) steuernde zentrale Steuereinrichtung (9) an eine Übergabesteuereinrichtung (15) angeschlossen. Die erfindungsgemässe Rohrpostanlage stellt eine steuerungstechnisch günstige Kombination einer zentral gesteuerten Anlage mit einer Einrohr-Wendebetriebsrohrpostanlage dar. |
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| 13 | Rohrpostanlage | EP82104777.6 | 1982-06-01 | EP0067357A1 | 1982-12-22 | Tesch, Klaus |
Bei einer Rohrpostanlage mit einem Gebläse zur Erzeugung des Förderluftstroms ist vor allem zur Verringerung des Bau- und Betriebsaufwands vorgesehen, daß die Druckseite (5) des Gebläses (4) über eine Injektordüse (7) an die Förderstrecke (1) der Anlage angeschlossen ist. Vorzugsweise wird die vom Gebläse (4) der Düse (7) zuzuführende Luft der Strecke in Strömungsrichtung unmittelbar vor der Düse (7) entnommen. Ferner kann es zweckmäßig sein, zwei Düsenanordnungen gegensinnig voneinander abgewandt demselben Gebläse umschaltbar zuzuordnen, so daß die Förderrichtung leicht gewechselt werden kann. |
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| 14 | Rohrpostförderanlage für Feingutproben | EP81106318.9 | 1981-08-13 | EP0049347A1 | 1982-04-14 | Beltrop, Herbert, Ing. grad.; Teutenberg, Josef, Ing. grad. |
Die Erfindung betrifft eine Rohrpostförderanlage, bei der ein die Probetransportbüchse (32; 46) in der Aufgabe- bzw. Empfangsstation (1, 3) aufnehmendes Rohrstück (14, 15; 41) um eine quer zur Längsachse dieses Rohrstückes liegende Achse (15, 19; 43) in eine Füll- bzw. Entleerungssteliung kippbar ist. Eine solche Förderanlage zeichnet sich durch einen besonders einfaches konstruktiven Aufbau und eine zuverlässige Betriebsweise aus. |
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| 15 | Improvements in or relating to pneumatic tube systems | EP81303484.0 | 1981-07-30 | EP0045626A1 | 1982-02-10 | Alexander, Donald |
A pneumatic tube system with a pair of pneumatic tube carrier stations (1,2) with a tube (3) connecting the two stations, an air supply including an air supply tube (6) for alternatively supplying air under pressure or air under vacuum to a position in the tube (3) between the two stations (1,2), and valve means (7) in each link of the tube (3) between the respective stations (1,2) and the position at which air is supplied to the tube (3) to cut off the air supplied to the tube (3) between the valve (7) and the corresponding station and carrier detection means (8) to detect a carrier, said detector means (8) being located between the air supply position and the respective valve means (7) and being arranged to control the air supply and the valve means (7). |
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| 16 | Carrier transportation system with brake valve device proximate to a carrier receiver | US11802995 | 2007-05-29 | US08011862B2 | 2011-09-06 | Lowell Scott |
| A transfer system for a carrier that features a flow supply tube in fluid communication with a flow supply generator and in fluid communication with a carrier transport tube network dimensioned for transfer reception of the carrier. The carrier transport tube network has a first carrier reception chamber provided with a first carrier stop point and a second carrier reception chamber with second carrier stop point. The flow supply tube has a single point contact with the carrier transport tube network to provide a single tube based flow connection with the carrier transport. Also, with the single point connection there can be positioned a brake valve in line with a first section of the carrier transport tube network and in line with a first section of said flow supply tube just a few feet above the stop point of one or both of the reception chambers to provide for rapid travel to the brake valve and efficient braking within just a few feet of the stop point. | ||||||
| 17 | Pneumatic transport tube system | US11521263 | 2006-09-14 | US07314338B1 | 2008-01-01 | Neil Gromley; Mark Mahaffey; Brian Wetrich; Robert Klatt; Dustin Cairns; Allan Bakerink |
| A pneumatic transport system including an up receive/down send customer terminal having a pivot assembly for vertically and pivotally displacing a pneumatic carrier between a vertical position and an angularly disposed presentation position. The customer terminal includes a movable carrier cradle assembly to absorb relatively small impact forces from a vehicle mirror or other moving object. The carrier cradle assembly also includes a break away feature for limiting damage to the customer terminal from greater impact forces. A blower in the customer terminal is operative in pressure and vacuum modes to supply pressure differentials to selectively move the carrier. An up receive/down send operator terminal includes a rotatable door for opening and closing a carrier access opening. A component panel assembly is movable to allow access to terminal components of the operator terminal. | ||||||
| 18 | Pneumatic tube system terminal and method | US11245640 | 2005-10-07 | US07220082B1 | 2007-05-22 | Todd Christian; Neil Gromley; Gary Baker; Daniel S. McIntyre; Donald S. Nelson, Jr.; Edward J. Ujhazy, Jr. |
| A pneumatic transport system including a user terminal at a service provider station having a movable member operably connected with a flexible drive member. The drive member moves within at least one side rail to vertically displace the movable member to permit access to a carrier at the user terminal. The user terminal includes control mechanisms on opposite sides of a base to enable two users to operate and access the carrier at the user terminal. | ||||||
| 19 | Mail delivery system | US10293719 | 2002-11-14 | US06729808B1 | 2004-05-04 | Holly R. Nelson |
| A mail delivery system includes a housing having a bottom wall, an upper wall, and a peripheral wall. An elongate tubular member has a first end attached to an opening in the peripheral wall. The second end extends into a dwelling. The elongate tubular member has a central section, which includes tubular components that are removably coupled together. Each of a plurality of handles is attached to one of the components. A suction assembly is fluidly coupled to the elongate tubular member. A control device is for selectively turning the suction assembly on in a forward direction or reverse direction. A container for holding articles is positioned in the elongate tubular member. The container is movable through the elongate tubular member. | ||||||
| 20 | Vacuum system | US09944419 | 2001-08-31 | US20030044243A1 | 2003-03-06 | Christy Tisdale |
| An improved vacuum system comprising subsystems for exterior maintenance, interior maintenance, and mail delivery/retrieval. The system includes at least one substantially hollow conduit having first and second open ends, and an air-moving unit. The air-moving unit includes a housing having a first aperture therethrough for receipt of the first open ends of the at least one conduit(s), a second aperture therethrough, a motor capable of moving a fluid in a first direction between the first aperture and the second aperture. The first open end(s) of the at least one conduit(s) is (are) in fluidic communication with the first aperture such that the fluid moved in the first direction by the motor also moves in the first direction through the at least one conduit. The motor is able to operate as a vacuum or blower, and conduits are located inside and/or outside to permit for interior and exterior maintenance, and for mail delivery/retrieval. | ||||||
