1 |
Method of operating car moving in conduit by force of wind and its apparatus |
JP4187079 |
1979-04-06 |
JPS54145659A |
1979-11-14 |
MARION ROBAATO KAASUTENSU; HOOMAA JIYUNIA BEITSU |
|
2 |
JPS4980787A - |
JP9180173 |
1973-08-17 |
JPS4980787A |
1974-08-03 |
|
|
3 |
Air powered storage device for pneumatic transport system |
US11334154 |
2006-01-17 |
US07326005B1 |
2008-02-05 |
Raymond Anthony Castro; Jim Podracky; Robert Trenconsky |
An air powered storage device is provided that is operative to temporarily store pneumatic carriers within a pneumatic carrier system. Generally, the device includes a pneumatic tube that is sized to permit the passage of pneumatic carriers. A gate member is selectively positionable into and out of an internal bore of the pneumatic tube to impede movement of pneumatic carriers there through. The device further includes a blower having a first fluid inlet disposed on a first side of the gate member and a fluid outlet disposed on a second side of the gate member. The fluid inlet and outlet are fluidly interconnected to the internal bore of the pneumatic tube such that the blower is selectively operable to generate a fluid flow through the internal bore between the fluid outlet and the fluid inlet. Such fluid flow may be utilized to reinitiate movement of a stopped carrier. |
4 |
Arrangement for controlled dispatch of stored pneumatic tube carriers |
US40553364 |
1964-10-21 |
US3265325A |
1966-08-09 |
FRITZ BUCHWALD; HANS KUDRITZKI |
|
5 |
Carrier spacing means |
US15729837 |
1937-08-04 |
US2174718A |
1939-10-03 |
DRENKARD JR ADAM |
|
6 |
Dispatch tube apparatus |
US31032328 |
1928-10-04 |
US1821857A |
1931-09-01 |
JOHN STOETZEL JOSEPH |
|
7 |
Automatic selective pneumatic tube carrier relay |
US47174630 |
1930-07-30 |
US1814947A |
1931-07-14 |
MCGUINNESS WILLIAM V; FRANCIS WILLIAM H |
|
8 |
Pneumatic-tube system |
US42219530 |
1930-01-20 |
US1784968A |
1930-12-16 |
MCGUINNESS WILLIAM V |
|
9 |
Carrier-separating device |
US54633422 |
1922-03-24 |
US1597465A |
1926-08-24 |
HEPPERLE WILLIAM J |
|
10 |
Carrier-spacing device for pneumatic-dispatch systems |
US47687021 |
1921-06-11 |
US1454169A |
1923-05-08 |
HEPPERLE WILLIAM J |
|
11 |
Branch-pipe valve for dust-collecting systems. |
US1906327803 |
1906-07-26 |
US840894A |
1907-01-08 |
ALLINGTON WILLIAM E |
|
12 |
Pneumatic-despatch apparatus. |
US1901154028 |
1901-03-29 |
US746267A |
1903-12-08 |
BATCHELLER BIRNEY C |
|
13 |
Inner tube moving body positioning device |
JP3270585 |
1985-02-22 |
JPS61192619A |
1986-08-27 |
IDEUMI SHIGERU; SUZUKI MASANORI |
PURPOSE:To locate a moving body to the specified position from the outside of a tube in a highly accurate manner, by constituting a device so as to give or receive a sound wave between the tube outside and an inner tube moving body in making a tube wall a transmitting medium and to measure and display sonic propagating time between two points of the tube wall. CONSTITUTION:A sound generator 10 is attached to the outside of a tube of the stop desired position shown by an arrow, while a sound detector 20 is installed in a moving body 200. And, a sound generating signal is transmitted to the sound generator 10 from a signal processor 300, and from that time, a time differential till the sound to be generated out of the sound generator 10 is detected by a detector 20 is measured, whereby a distance of the moving body 200 up to the stop position is judged. When this time differential comes to minimum, the moving body 200 is stopped. With this constitution, positioning accuracy is improvable. |
14 |
JPS604092B2 - |
JP3150581 |
1981-03-05 |
JPS604092B2 |
1985-02-01 |
YANAGISAWA KUNIMASA |
|
15 |
Speed controlling method at terminal of capsule conveyance |
JP3150581 |
1981-03-05 |
JPS57145719A |
1982-09-08 |
YANAGISAWA KUNIMASA |
PURPOSE:To enable to stop capsules being carried at fixed places in turn by providing plural air vents provided with throtle control valves respectively in a brake zone of a captioned conveyance line. CONSTITUTION:As for a brake zone B, an air vent 18 having fixed resistance of a reduction area is provided at its entrance, and an air vent 20 which is connected with branch pipes 21 and 22 connected in parallel with each other at intervals l1 of about the length of a capsule and provided with a variable throttle valve 19 is provided at its outlet. Under such constitution, when a capsule 2 in succession to a capsule 2C being stopped at a loading part enters into a brake zone B, a speed of a capsule 2 is detected with a detector 24, through which the throttle valve 19 of the air vent 20 is adjusted while venting air from the air vent 18 is being compensated, then the capsule 2 can be stopped at a fixed location close to the capsule 2C. |
16 |
JPS49110083A - |
JP1033974 |
1974-01-25 |
JPS49110083A |
1974-10-19 |
|
|
17 |
Pneumatic sample feedway |
US14514739 |
2014-10-15 |
US09150364B2 |
2015-10-06 |
Uri Rapoport; Itzchak Rabinovitz |
A pneumatic sample feedway that is embeddable into a magnetic resonance imaging (MRI) device. The feedway includes: a plurality of capsules enclosing a biological tissue sample; and a conductor pipe connected to a source of a compressed fluid. The pipe receives a train of the capsules and pneumatically forwards the train into the MRI device. The pipe has a proximal terminal that loads the train of capsules into the pipe. |
18 |
Carrier storage arrangement in a pneumatic tube system |
US30719963 |
1963-09-06 |
US3201062A |
1965-08-17 |
HORST MACH; HANS KUDRITZKI |
|
19 |
Arrangement for the stopping and dispatching carrier capsules in pneumatic tube systems |
US57476056 |
1956-03-29 |
US2816719A |
1957-12-17 |
EBERHARD RICHERT |
|
20 |
Cartridge separating device for pneumatic tube plants |
US40829729 |
1929-11-19 |
US1823056A |
1931-09-15 |
HANS MARBURG |
|