Claims
- 1. A linkage mechanism which allows a substantially 180.degree. pivoting motion of a boom arm around a pivot axis, comprising:
- a mast which is pivotably mounted on a pivot axis to an associated support frame, the boom arm being secured at a first end to said mast and supporting on a second end an associated tool;
- a first hydraulic cylinder including a piston and a piston rod and having a piston rod end and a cylinder end, one of said first hydraulic cylinder ends being pivotably secured to a first side of said mast and the other end of said first hydraulic cylinder being secured to the associated support frame;
- an overload protection circuit connected to said first hydraulic cylinder such that said mast, and the boom arm, will pivot around said pivot axis in the event the associated tool meets an obstruction, wherein said mast will pivot away from the obstruction in order to avoid damaging the associated tool;
- a control means connected to said first hydraulic cylinder for effecting a linear movement of said piston rod and a pivotal movement of the mast, and hence the boom arm secured thereto, about the mast's pivot axis; and,
- a means responsive to a movement of said piston for disabling said overload protection circuit, said means for disabling being located between said overload protection circuit and said first hydraulic cylinder and being connected to both.
- 2. The mechanism of claim 1 wherein said overload protection circuit is uni-directional.
- 3. The mechanism of claim 1 further comprising a second hydraulic cylinder having a piston rod end and a cylinder end, wherein one end of said second hydraulic cylinder is pivotably secured to a second side of the mast and another end of said second hydraulic cylinder is pivotably secured to the associated support frame.
- 4. The mechanism of claim 3, wherein said overload protection circuit comprises a first one way pressure relief valve which permits hydraulic fluid to flow from a first chamber of one of said first and second hydraulic cylinders to a first chamber of another of said first and second hydraulic cylinders.
- 5. The mechanism of claim 4 wherein said overload protection circuit further comprises a second one way pressure relief valve which permits hydraulic fluid to flow from said first chamber of one of said first and second hydraulic cylinders to said first chamber of another of said first and second hydraulic cylinders, wherein said second one way pressure relief valve is connected to permit flow opposite to that permitted by the first one way pressure relief valve.
- 6. A road maintenance vehicle construction comprising:
- a support housing including a means for securing the housing to a vehicle;
- a mast which is rotatably secured to said housing;
- a frame fixedly secured to said mast;
- a boom member attached at one end to said frame and adapted to hold a road maintenance tool at another end;
- a first hydraulic cylinder having a piston rod end and a cylinder end, said piston rod end being pivotably secured to a first side of said mast and said cylinder end being secured to a first side of said support housing;
- a second hydraulic cylinder having a piston rod end and a cylinder end, said second hydraulic cylinder piston rod end being pivotably secured to a second side of said mast, and said cylinder end being secured to a second side of said support housing;
- a hydraulic control circuit in fluid communication with and controlling an operation of said first and second hydraulic cylinders;
- an overload protection circuit in fluid communication with at least one of said first and second cylinders; and,
- a means for selectively disabling said overload protection circuit, said means for selectively disabling being in fluid communication with said overload protection circuit, wherein said means for selectively disabling comprises a piston of said at least one of said first and second cylinders, a movement of said piston past a preselected point disabling said overload protection circuit.
- 7. The vehicle of claim 6 wherein said boom member is pivotably secured to said frame and wherein said boom member's pivot axis is horizontally oriented.
- 8. The vehicle of claim 7 wherein said boom member comprises a telescoping assembly.
- 9. The vehicle of claim 6 wherein said overload protection circuit is uni-directional.
- 10. The vehicle of claim 6 wherein said hydraulic control circuit further comprises:
- a source of pressurized hydraulic fluid;
- a first hydraulic fluid line connecting said source of hydraulic fluid to said first cylinder;
- a second hydraulic fluid line connecting said source of hydraulic fluid to said second cylinder; and,
- a valve means for regulating a flow of hydraulic fluid from said source of hydraulic fluid through said first and second hydraulic fluid lines to actuate a respective piston in each of said first and second cylinders.
- 11. The vehicle of claim 10 wherein said hydraulic control circuit further comprises a third hydraulic fluid line interconnecting said first and second cylinders.
- 12. The vehicle of claim 10 wherein said hydraulic control circuit further comprises a fourth hydraulic fluid line connecting said first hydraulic fluid line to a sump and a check valve located in said fourth hydraulic fluid line.
- 13. The vehicle of claim 6 wherein said means for selectively disabling is so constructed that said overload protection circuit is only operative when said boom arm is within approximately 20 degrees of a line extending perpendicular to a longitudinal centerline of the vehicle, wherein said overload protection circuit comprises a first hydraulic fluid line having one end secured to one of said first and second cylinders between said first and second ends thereof at said preselected point which comprises a port such that when said piston advances past the location of said first hydraulic fluid line, said overload protection circuit is disabled, and wherein a second end of said first hydraulic fluid line is connected to a receptacle for hydraulic fluid.
- 14. The vehicle of claim 6 wherein the frame's pivot axis is vertically oriented.
- 15. An actuating mechanism which allows a substantially 180.degree. pivoting motion of a frame, and hence a boom arm secured to the frame, around the frame's pivot axis, the frame being pivotably secured to a vehicle, the actuating mechanism comprising:
- a mast to which the frame is fixedly secured, said mast being rotatably secured on one side of the vehicle;
- a first hydraulic cylinder having a piston rod end and a cylinder end, one end of said first cylinder being pivotably secured to a first side of said mast and another end being operatively secured to the vehicle;
- a second hydraulic cylinder having a piston rod end and a cylinder end, one end of said second cylinder being pivotably secured to a second side of said mast and another end being operatively secured to the vehicle;
- a hydraulic overload protection circuit for said first and second hydraulic cylinders, said overload protection circuit having one end in fluid communication with said
- at least one of said first and second hydraulic cylinders wherein said overload protection circuit engages and disengages depending on an orientation of the boom arm in relation to a longitudinal axis of the vehicle; and,
- a hydraulic control means connected to said first and second hydraulic cylinders for effecting a linear movement of a piston located in each of said first and second cylinders and hence a pivotal movement of the mast, and the boom arm secured to the frame, about the mast's pivot axis, wherein said control means comprises:
- a first hydraulic line communicating at one end with one of said first and second hydraulic cylinders;
- a second hydraulic line communication at one end with another of said first and second hydraulic cylinders;
- a pump for pressurizing hydraulic fluid; and,
- a valve interposed in said first and second lines for selectively allowing pressurized hydraulic fluid to flow from said pump to said first and second hydraulic cylinders through said first and second hydraulic lines;
- wherein said hydraulic overload protection circuit comprises a third hydraulic fluid line terminating at one end in a port located on said at least one of said first and second hydraulic cylinders, wherein a movement of said piston of said at least one of said first and second hydraulic cylinders in one direction past said port blocks a flow of hydraulic fluid in said hydraulic overload protection circuit thereby disengaging said hydraulic overload protection circuit.
- 16. The mechanism of claim 15 wherein said hydraulic overload protection circuit comprises at least one pressure control valve.
- 17. The mechanism of claim 15 wherein said control means further comprises at least one check valve.
- 18. The mechanism of claim 1, wherein said means for selectively disabling comprises a port located on said first hydraulic cylinder and a piston of said first hydraulic cylinder, a movement of said piston in one direction past said port blocking a flow of hydraulic fluid in said overload protection circuit.
- 19. The mechanism of claim 1 wherein said means for selectively disabling operates without human intervention.
Parent Case Info
This application is a continuation of U.S. patent application Ser. No. 07/635,364 filed on Dec. 28, 1990, now abandoned.
US Referenced Citations (5)
Continuations (1)
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Number |
Date |
Country |
Parent |
635364 |
Dec 1990 |
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