1 |
Automatic pneumatic valve reset system |
US13135027 |
2011-06-23 |
US09003949B2 |
2015-04-14 |
Timothy S. Roman |
A cup for an air valve assembly in a positive displacement pneumatic motor includes a cup body, a gas cavity, and a first pilot slot. The cup body is rectilinear and has a sliding face as one side, and the gas cavity is concave and extends into the cup body through the sliding face and terminates within the cup body. The first pilot slot extends from the gas cavity and into the cup body through the sliding face and terminates within the cup body. |
2 |
Fluid motor with rotary and/or rectilinear movable piston |
US45551254 |
1954-09-13 |
US2944520A |
1960-07-12 |
AUGUST SWANSON BERNARD |
|
3 |
Reversing valve |
US43137742 |
1942-02-18 |
US2344714A |
1944-03-21 |
MARTIN WILLIAM O |
|
4 |
Rotary engine |
US32262019 |
1919-09-09 |
US1475509A |
1923-11-27 |
RAGOT CHARLES L; RAGOT LOUIS F |
|
5 |
APPARATUS AND METHOD FOR GENERATING POWER FROM A FLOWING LIQUID |
EP02799903.6 |
2002-12-05 |
EP1461512A1 |
2004-09-29 |
NELSON, Rianey, E. |
This invention provides an apparatus and a method for generating power from a flowing liquid. The apparatus has three main components. The first component is a control unit (40) for selectively directing the lowing liquid to the second component, the power unit (140), which is responsible for generating power. The third component, a reversing unit (320), is used to adjust the control unit between two control unit configurations. The method involves the manner in which the liquid is passed and directed through the apparatus in order to generate power. |
6 |
Automatic pneumatic valve reset system |
US13135027 |
2011-06-23 |
US20120036991A1 |
2012-02-16 |
Timothy S. Roman |
A cup for an air valve assembly in a positive displacement pneumatic motor includes a cup body, a gas cavity, and a first pilot slot. The cup body is rectilinear and has a sliding face as one side, and the gas cavity is concave and extends into the cup body through the sliding face and terminates within the cup body. The first pilot slot extends from the gas cavity and into the cup body through the sliding face and terminates within the cup body. |
7 |
Apparatus and method for generating power from a flowing liquid |
US10015496 |
2001-12-12 |
US20030106418A1 |
2003-06-12 |
Rianey
E.
Nelson |
This invention provides an apparatus and a method for generating power from a flowing liquid. The apparatus has three main components. The first component is a control unit for selectively directing the flowing liquid to the second component, the power unit, which is responsible for generating power. The third component, a reversing unit, is used to adjust the control unit between two control unit configurations. The method involves the manner in which the liquid is passed and directed through the apparatus in order to generate power. |
8 |
Control system for reciprocating device |
US09500076 |
2000-02-08 |
US06263777B1 |
2001-07-24 |
Arthur W. Lauder |
A control system for a reciprocating device. The control system includes a switching valve having a fluid supply inlet, an exhaust outlet, a restrictor on the exhaust outlet, a drive line, a valve operable to connect one of the exhaust outlet and the fluid supply inlet to the drive line and a toggle for operating the valve, the toggle being movable by motive force through an arc between a first position in which fluid flow is from the fluid supply inlet to the drive line and a second position in which fluid flow is from the drive line to the exhaust outlet, the toggle passing through a middle position where fluid flow may flow from the drive line to the exhaust outlet and from the fluid supply inlet to the drive line. A reciprocating device is provided that is operable to move in a first direction due to fluid pressure in the drive line and a second, opposed, direction due to a motive force activator when pressure in the drive line is reduced (exhausted). A trigger on the reciprocating device moves with the reciprocating device. A connector is disposed between the trigger and the toggle. The connector being operable to move the toggle into the first position when moving in the second direction and to move the toggle into the second position when moving in the first direction. The connector includes a spring arranged to transmit forces from the trigger to the toggle when the trigger is moving in the first or second direction (or both, with two springs), the spring storing energy while moving in the first or second direction to force the toggle through the middle position. |
9 |
Pressure and/or vacuum distributor |
US9577349 |
1949-05-27 |
US2677391A |
1954-05-04 |
CHELLBERG WALTER F |
|
10 |
Reversing mechanism |
US44167942 |
1942-05-04 |
US2326494A |
1943-08-10 |
RATZBURG EMIL H |
|
11 |
Auxiliary distributing valve for locomotives |
US31668428 |
1928-11-02 |
US1942369A |
1934-01-02 |
DOUGHTY HARTWELL T |
|
12 |
Locomotive valve gear |
US28500628 |
1928-06-13 |
US1720454A |
1929-07-09 |
STEWART VICTOR R |
|
13 |
Apparatus and method for generating power from a flowing liquid |
US10015496 |
2001-12-12 |
US06662704B2 |
2003-12-16 |
Rianey E. Nelson |
This invention provides an apparatus and a method for generating power from a flowing liquid. The apparatus has three main components. The first component is a control unit for selectively directing the flowing liquid to the second component, the power unit, which is responsible for generating power. The third component, a reversing unit, is used to adjust the control unit between two control unit configurations. The method involves the manner in which the liquid is passed and directed through the apparatus in order to generate power. |
14 |
Locomotive power reverse gear mechanism |
US48800843 |
1943-05-22 |
US2428069A |
1947-09-30 |
FORKER JR MAJOR TORBETT |
|
15 |
Valve gear |
US41087341 |
1941-09-15 |
US2326747A |
1943-08-17 |
BESSERDICH WILLIAM A |
|
16 |
Multiple expansion engine |
US25062339 |
1939-01-12 |
US2193822A |
1940-03-19 |
GRISWOLD KNOX SAMUEL LIPPINCOT |
|
17 |
Distribution valve for fluid pressure engines |
US14117326 |
1926-10-12 |
US1953541A |
1934-04-03 |
PRESCOTT CHARLES F |
|
18 |
Reversing mechanism for fluid-engines |
US17987317 |
1917-07-11 |
US1338732A |
1920-05-04 |
JIMERSON FRANCIS A |
|
19 |
APPARATUS AND METHOD FOR GENERATING POWER FROM A FLOWING LIQUID |
PCT/US0238885 |
2002-12-05 |
WO03050396B1 |
2004-05-13 |
NELSON RIANEY E |
This invention provides an apparatus and a method for generating power from a flowing liquid. The apparatus has three main components. The first component is a control unit (40) for selectively directing the lowing liquid to the second component, the power unit (140), which is responsible for generating power. The third component, a reversing unit (320), is used to adjust the control unit between two control unit configurations. The method involves the manner in which the liquid is passed and directed through the apparatus in order to generate power. |