A system and method of operating a scissors lift assembly are provided. The system includes a hollow piston rod including an internal fluid reservoir, a cylinder body that is coaxial with and at least partially surrounding the hollow piston rod, and a fluid pump in flow communication with the reserv
A system and method of operating a scissors lift assembly are provided. The system includes a hollow piston rod including an internal fluid reservoir, a cylinder body that is coaxial with and at least partially surrounding the hollow piston rod, and a fluid pump in flow communication with the reservoir through a suction channel extending from the internal fluid reservoir though a transfer tube to a suction port of the fluid pump. The transfer tube is coaxial with the piston, the piston rod, and the cylinder body and a discharge port of the fluid pump is in flow communication with an extension pressure chamber.
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1. A fluid cylinder assembly comprising: a piston assembly comprising a piston coupled to a piston rod formed of a hollow body, said hollow body comprising an internal fluid reservoir;a cylinder body coaxial with and at least partially surrounding said hollow piston rod; anda fluid pump driven by an
1. A fluid cylinder assembly comprising: a piston assembly comprising a piston coupled to a piston rod formed of a hollow body, said hollow body comprising an internal fluid reservoir;a cylinder body coaxial with and at least partially surrounding said hollow piston rod; anda fluid pump driven by an electric motor, a pump suction channel of said fluid pump coupled in flow communication with said internal fluid reservoir through a transfer tube extending through said piston into said internal fluid reservoir, said transfer tube coaxial with said piston, said piston rod, and said cylinder body, a piston face comprising an aperture that slidably engages said transfer tube, a discharge of said fluid pump coupled in flow communication with an extension pressure chamber, said piston positioned between said internal fluid reservoir and said pressure extension chamber. 2. The fluid cylinder assembly of claim 1, further comprising a valve block coupled to a first end of said cylinder body and comprising one or more fluid channels formed therein. 3. The fluid cylinder assembly of claim 2, wherein said valve block comprises said pump suction channel extending between said transfer tube and said fluid pump. 4. The fluid cylinder assembly of claim 2, wherein said valve block comprises a pump discharge channel extending between the discharge of said fluid pump and said extension pressure chamber. 5. The fluid cylinder assembly of claim 4, wherein said pump discharge channel further comprises an extension pressure chamber supply path comprising a check valve. 6. The fluid cylinder assembly of claim 4, wherein said pump discharge channel further comprises a return path comprising a pressure relief valve. 7. The fluid cylinder assembly of claim 1, wherein said extension pressure chamber is defined between said transfer tube and said cylinder body. 8. The fluid cylinder assembly of claim 1, further comprising a variable speed motor coupled to said fluid pump, said variable speed motor configured to drive said fluid pump at different speeds corresponding to different rates of flow of a fluid through said fluid pump. 9. A method of operating a scissors lift assembly, said method comprising: providing a scissors lift assembly including a work platform, a plurality of linked, folding supports oriented in a crisscross pattern and the fluid cylinder assembly of claim 1 configured to apply a force to raise the work platform;supplying a variable rate of a flow of a fluid to the extension pressure chamber of the fluid cylinder assembly from the internal fluid reservoir to the piston rod of the piston assembly through the transfer tube that extends through the piston face of the piston assembly using said fluid pump, said fluid pump being a variable speed fluid pump integral to the fluid cylinder assembly, the rate of the flow of the fluid is relative to a selectable speed of the fluid pump, the rate of the flow of the fluid to the extension pressure chamber defining a speed of raising the work platform; andselecting the speed of the fluid pump using a variable input device. 10. The method of claim 9, further comprising bleeding fluid from the extension pressure chamber to the internal fluid reservoir through a selectable size orifice to lower the work platform. 11. The method of claim 10, further comprising controlling the speed of the bleeding using the selectable size orifice. 12. The method of claim 9, wherein selecting the speed of the fluid pump using a variable input device comprises generating a fluid pump speed command signal using a joystick control. 13. The method of claim 9, wherein selecting the speed of the fluid pump using a variable input device comprising selecting a speed of an electric motor coupled to the fluid pump using a variable input device. 14. The method of claim 9, wherein supplying a variable rate of a flow of a fluid to the extension pressure chamber comprises applying a force to the piston face from the fluid in the extension pressure chamber to move the piston assembly from a first retracted position to a second extended position. 15. A method of operating the fluid cylinder assembly of claim 1 comprising: extracting fluid from the internal fluid reservoir within an interior volume of the hollow piston rod, the piston coupled to the hollow piston rod is slidably engaged to an interior surface of the cylinder body, the transfer tube that extends through said aperture through said piston face;increasing a pressure of the extracted fluid;channeling the fluid to the extension pressure chamber within the cylinder body; andtranslating the piston axially in the cylinder body using the channeled fluid. 16. The method of claim 15, wherein extracting fluid from the internal fluid reservoir within an interior volume of the hollow piston rod comprises extracting fluid from the internal fluid reservoir through said transfer tube that extends at least partially through the internal fluid reservoir and the extension pressure chamber. 17. The method of claim 15, wherein extracting fluid from the internal fluid reservoir within an interior volume of the hollow piston rod comprises extracting fluid from the internal fluid reservoir through a transfer tube that extends coaxially through at least a portion of the internal fluid reservoir and coaxially through at least a portion of the extension pressure chamber. 18. The method of claim 15, wherein increasing a pressure of the extracted fluid comprises increasing a pressure of the extracted fluid using said electric motor coupled to said fluid pump, said fluid pump being a positive displacement pump. 19. A fluid cylinder assembly comprising: a fluid pump;a cylinder body comprising an inner surface and a pressure extension chamber coupled in flow communication with a pump discharge channel of said fluid pump;a piston assembly comprising: a piston rod comprising an internal fluid reservoir coupled in flow communication with a pump suction channel of said fluid pump through a transfer tube; anda piston face coupled to said piston rod, said piston face slidably engaged to said inner surface, said piston face slidably engaged to said transfer tube extending between said internal fluid reservoir and said pump suction channel,a piston positioned between said internal fluid reservoir and said pressure extension chamber.
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이 특허에 인용된 특허 (15)
Bennett Jack C. (Ann Arbor MI), Active suspension actuator with control flow through the piston rod.
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