There is provided a hydraulic pump unit of variable displacement type disposed away from a pair of hydraulic motor units which are capable of being independently arranged, the pump unit fluidly-connected to the pair of hydraulic motor units so as to change the outputs of the pair of hydraulic motor
There is provided a hydraulic pump unit of variable displacement type disposed away from a pair of hydraulic motor units which are capable of being independently arranged, the pump unit fluidly-connected to the pair of hydraulic motor units so as to change the outputs of the pair of hydraulic motor units in both forward and reverse rotation directions. The pump unit includes a hydraulic pump body operatively rotated and driven by a driving source, a pump case surrounding the hydraulic pump body, a capacity adjusting mechanism for changing the capacity of the hydraulic pump body, and a hydraulic servomechanism for transmitting an external input based on a manual operation to the capacity adjusting mechanism by utilizing a hydraulic force.
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What is claimed is: 1. A hydraulic pump unit of variable displacement type disposed away from a pair of hydraulic motor units which are capable of being independently arranged, the pump unit fluidly-connected to the pair of hydraulic motor units so as to change the outputs of the pair of hydraulic
What is claimed is: 1. A hydraulic pump unit of variable displacement type disposed away from a pair of hydraulic motor units which are capable of being independently arranged, the pump unit fluidly-connected to the pair of hydraulic motor units so as to change the outputs of the pair of hydraulic motor units in both forward and reverse rotation directions, comprising: a pair of first and second hydraulic pump bodies operatively rotated and driven by a driving source, a pump case surrounding the first and second hydraulic pump bodies, a pair of first and second capacity adjusting mechanisms for respectively changing capacities of the first and second hydraulic pump bodies, and a hydraulic servomechanism for transmitting an external input based on a manual operation to the first and second capacity adjusting mechanisms by utilizing a hydraulic force, wherein each of the first and second capacity adjusting mechanisms includes an output adjusting member for changing a reciprocating range of hydraulic pistons of the corresponding hydraulic pump body according to its tilting position, and a control shaft having a base end portion operatively connected to the output adjusting member so as to tilt the output adjusting member and a tip end portion accessible from outside of the pump case, the hydraulic servomechanism includes a servo piston case defining first and second piston accommodating chambers; first and second servo pistons respectively accommodated in a reciprocating manner in the first and second piston accommodating chambers, each of the first and second servo pistons dividing the corresponding piston accommodating chamber into a regular rotation oil chamber and a reverse rotation oil chamber; and first and second directional switching valves for changing corresponding passages fluidly connected to the corresponding regular rotation oil chambers and the corresponding reverse rotation oil chambers according to the external input, each of the first and second servo pistons is formed with an engaging groove on its outer peripheral surface, the engaging groove extending in a direction orthogonal to an axis line of the servo piston, the tip ends of the control shafts of the first and second capacity adjusting mechanisms extend outward from one end surface of the pump case, and the servo piston case is detachably connected to the one end surface of the pump case so that the tip ends of the control shafts of the first and second capacity adjusting mechanisms are operatively engaged into the engaging grooves of the first and second servo pistons, respectively. 2. A hydraulic pump unit according to claim 1, wherein the pair of hydraulic motor units are fluid-connected to each other so as to form a closed circuit; and the first hydraulic pump body for traveling is fluidly-connected to the closed circuit, and the second hydraulic pump body is fluidly-connected to another hydraulic actuator other than the pair of hydraulic motor units. 3. A hydraulic pump unit according to claim 1, wherein the first and second directional switching valves are respectively incorporated in the first and second servo pistons in a movable manner relative to the corresponding servo pistons in a state of being operable by the external input, each of the first and second servo pistons is provided with flow channels including an input passage into which operation oil is inputted, and a regular rotation passage and a reverse rotation passage respectively communicated with the regular rotation oil chamber and the reverse rotation oil chamber, and the flow channels are switched according to the relative position of the first and second directional switching valves to the corresponding servo pistons. 4. A hydraulic pump unit according to claim 1, the tip end portions of the control shafts of the first and second capacity adjusting mechanisms are operatively connected to the first and second servo pistons via first and second crank arms engaged into the engaging grooves of the first and second servo pistons, respectively. 5. A hydraulic pump unit according to claim 1, wherein the tip ends portions of the control shafts of the first and second capacity adjusting mechanisms are directly engaged into the engaging grooves of the first and second servo pistons, respectively. 6. A hydraulic pump unit according to claim 1, wherein the first and second hydraulic pump bodies are accommodated in the pump case in a state that rotational axis lines of the hydraulic pump bodies are parallel to each other, the servo piston case is detachably connected to the one end surface of the pump case so that axis lines of the first and second servo pistons are parallel to the rotational axis lines of the first and second hydraulic pump bodies, and the control shafts of the first and second capacity adjusting mechanisms are operatively connected to the first and second servo pistons via first and second crank arms engaged into the engaging grooves of the first and second servo pistons, respectively. 7. A hydraulic pump unit of variable displacement type disposed away from a pair of hydraulic motor units which are capable of being independently arranged, the pump unit fluidly-connected to the pair of hydraulic motor units so as to change the outputs of the pair of hydraulic motor units in both forward and reverse rotation directions, comprising: a pair of first and second hydraulic pump bodies operatively rotated and driven by a driving source, the first and second hydraulic pump bodies having rotational axis lines parallel to each other, a pump case surrounding the first and second hydraulic pump bodies, a pair of first and second capacity adjusting mechanisms for respectively changing capacities of the first and second hydraulic pump bodies, and a hydraulic servomechanism for transmitting an external input based on a manual operation to the first and second capacity adjusting mechanisms by utilizing a hydraulic force, wherein each of the first and second capacity adjusting mechanisms includes an output adjusting member for changing a reciprocating range of hydraulic pistons of the corresponding hydraulic pump body according to its tilting position, and a control shaft having a base end portion operatively connected to the output adjusting member so as to tilt the output adjusting member and a tip end portion accessible from outside of the pump case, the hydraulic servomechanism includes first and second servo pistons respectively accommodated in a reciprocating manner in first and second piston accommodating chambers, each of the first and second servo pistons dividing the corresponding piston accommodating chamber into a regular rotation oil chamber and a reverse rotation oil chamber; and first and second directional switching valves for changing corresponding passages fluidly connected to the corresponding regular rotation oil chambers and the corresponding reverse rotation oil chambers according to the external input, each of the first and second servo pistons is formed with an engaging groove on its outer peripheral surface, the engaging groove extending in a direction orthogonal to an axis line of the servo piston, the tip ends of the control shafts of the first and second capacity adjusting mechanisms extend outward from the pump case in an opposite direction to each other with the first and second hydraulic pump bodies sandwiched therebetween, the first and second piston accommodating chambers are positioned so as to face to each other with the first and second hydraulic pump bodies sandwiched therebetween in a state where the first and second servo pistons have axis lines orthogonal to the rotational axis lines of the first and second hydraulic pump bodies, and the tip end portions of the control shafts of the first and second capacity adjusting mechanisms are directly engaged into the engaging grooves of the first and second servo pistons, respectively.
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이 특허에 인용된 특허 (10)
Smith David P., Control system for a hydrostatic transmission.
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