Claims
- 1. A fluid pressure actuator for producing bidirectional rotational motion of a rotary shaft, comprising: first and second fluid pressure operated piston motors, said second piston motor having a larger effective cross-sectional area than said first piston motor, each adapted to exert a driving force in response to application of fluid pressure thereto; linkage means interconnecting said piston motors to the shaft for transmitting their respective driving forces to the shaft in opposed relation, so as to cause alternate reversing rotation thereof upon alternate advancement and retraction of said piston motors; and fluid pressure control means including a fluid pressure source arranged to supply constant fluid pressure to said first piston motor, a fluid pressure return, and a single control valve connected with said fluid pressure source, said fluid pressure return and said first and second piston motors and including means for (1) maintaining fluid pressure on said first piston motor composed solely of fluid from said fluid pressure source while exhausting fluid from said second piston motor to said fluid return, thereby causing said rotary shaft to rotate in a first direction, and for (2) connecting said second piston motor to said source of fluid pressure and said first piston motor while blocking both said piston motors from said fluid pressure return, thereby causing said rotary shaft to rotate in a second direction opposite said first direction.
- 2. The actuator of claim 1, wherein, said fluid pressure control means include means for maintaining a constant rate of fluid flow to and from said first and second piston motors.
- 3. The actuator of claim 1, wherein said fluid pressure control means are further operable to supply fluid at pressures related to the effective cross-sectional areas of said first and second piston motors such that the driving force exerted by said second piston motor is greater than the driving force exerted by said first piston motor.
- 4. The actuator of claim 1, wherein said fluid pressure control means include (1) means for controlling the rate of fluid flow such that the shaft may be rotated at substantially constant rotational velocity in said first and second directions of rotation, and (2) means for controlling fluid pressure in relation to the effective cross-sectional areas of said first and second piston motors such that the driving force exerted by said second piston motor is greater than the driving force exerted by said first piston motor while the resultant driving force applied to said shaft by said first and second piston motors is maintained substantially constant in both directions of shaft rotation.
- 5. The actuator of claim 1, wherein said first piston motor has an effective cross-sectional area one half the effective cross-sectional area of said second piston motor, and wherein said first and second piston motors respectively include first and second pistons and first and second cylinders.
- 6. A fluid pressure actuator for producing bidirectional rotational motion of a rotary shaft, comprising: first and second fluid pressure operated piston motors, including first and second pistons and first and second cylinders, respectively, each piston motor adapted to exert a driving force in response to application of fluid pressure thereto, said first piston motor having an effective cross-sectional area one half the effective cross-sectional area of said second piston motor; linkage means interconnecting said piston motors to the shaft for transmitting their respective driving forces to the shaft in opposed relation, so as to cause alternate reversing rotation thereof upon alternative advancement and retraction of said piston motors, said linkage means including first and second piston rods connected to and adapted to move with said first and second pistons, respectively, each said piston rod having one end extending outside said associated cylinder, and an elongated flexible non-extensible linkage element entrained around said outside ends of said piston rods and around said rotary shaft, said linkage element being held fixed at each end relative to said fixed axis of rotation of said rotary shaft; and fluid pressure control means including a fluid pressure source, a fluid pressure return and a single control valve for (1) supplying fluid to said first piston motor composed solely of fluid from said fluid pressure source while exhausting fluid from said second piston motor to said fluid return, thereby causing said rotary shaft to rotate in a first direction, and for (2) supplying fluid to said second piston motor composed of fluid from said fluid pressure source and fluid exhausted from said first piston motor, thereby causing said rotary shaft to rotate in a second direction opposite said first direction.
- 7. The actuator of claim 6, wherein said linkage means further includes first and second toothed sprockets rotatively connected with the outside ends of said first and second piston rods, respectively, and a third toothed sprocket connected to said output shaft for rotation therewith, and wherein said linkage element includes a link chain engaging said first, second and third sprockets.
- 8. A fluid pressure actuator for producing bidirectional rotational motion of a rotary shaft, comprising: first and second fluid pressure operated piston motors, each adapted to exert a driving force in response to application of fluid pressure thereto; linkage means interconnecting said piston motors to the shaft for transmitting their respective driving forces to the shaft in opposed relation, so as to cause alternate reversing rotation thereof upon alternative advancement and retraction of said piston motors; and fluid pressure control means including a fluid pressure source, a fluid pressure return, and a single control valve for (1) supplying fluid to said first piston motor composed solely of fluid from said fluid pressure source while exhausting fluid from said second piston motor to said fluid return, thereby causing said rotary shaft to rotate in a first direction, and for (2) supplying fluid to said second piston motor composed of fluid from said fluid pressure source and fluid exhausted from said first piston motor, thereby causing said rotary shaft to rotate in a second direction opposite said first direction, said control valve including an inlet port connected with said fluid pressure source, an exhaust port connected with said fluid return, and a working port connected with said second piston motor, and wherein said inlet and working ports are interconnected and said exhaust port is closed when said control valve is in a first position, said inlet port is closed and said working and exhaust ports are interconnected when said control valve is in a second position, and said inlet, working and exhaust ports are closed when said control valve is in a third position.
- 9. The actuator of claim 8, wherein said fluid pressure control means further include a fluid circuit having a first conduit between said fluid pressure source and said inlet port of said control valve, a second conduit between said first conduit and said first cylinder and a third conduit between said working port and said second cylinder.
- 10. The actuator as defined in claim 9, wherein said fluid pressure control means include first and second means respectively associated with said first and third conduits for maintaining constant rates of fluid flow therein.
- 11. The actuator of claim 8, wherein said fluid pressure control means include servo control means for automatically moving said control valve from said first position to said second position in response to a first signal, and from said second position to said first position in response to a second signal, and first and second position sensors connected with said servo control means for sensing the positions of said first and second pistons and producing said first and second signals, respectively.
- 12. The actuator as defined in claim 11, wherein said first and second position sensors are adjustable to permit movement of said control valve at predetermined positions of said first and second positions, whereby the angular displacement of said output shaft may be automatically controlled.
CROSS REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of application Ser. No. 500,447, filed Aug. 26, 1974 now abandoned.
US Referenced Citations (4)
Number |
Name |
Date |
Kind |
204828 |
Jenkins |
Jun 1878 |
|
2668450 |
Crookston et al. |
Feb 1954 |
|
2875734 |
Winters et al. |
Mar 1959 |
|
3030931 |
Baxter et al. |
Apr 1962 |
|
Foreign Referenced Citations (2)
Number |
Date |
Country |
1,115,033 |
Dec 1955 |
FR |
1,386,572 |
Jul 1975 |
UK |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
500447 |
Aug 1974 |
|