Neutral setting device of an adjustable hydraulic unit

What is claimed is: 1. A manual displacement control device for variable displacement hydraulic units equipped with a servo unit capable of operating a displacement element in order to set a displacement volume, the control device comprising: an input shaft mounted rotatable about an input shaft axis in an input shaft block and protruding from the input shaft block with a first end on which a rotating torque is configured to be applied; a control spool housed in a control housing and moveable by means of rotation of the input shaft for controlling a servo pressure which is configured to be guided to and from a servo unit; a feedback transmitting element pivotable about a feedback pivot axis parallel to the input shaft axis, having a first end portion for interacting with the control spool, and a second end portion for receiving a mechanical feedback signal of a feedback element connected to a displacement element of a hydraulic unit; positioning means for adjusting and fixing a lateral position of the input shaft with respect to the control housing in a direction perpendicular to the input shaft axis and perpendicular to the direction of a centering force exerted on the input shaft by a centering mechanism in order to restore the input shaft to a zero position when no rotating torque is applied to the first end of the input shaft. 2. The control device according to claim 1 , wherein the direction and/or the magnitude of the centering force of the centering mechanism is adjustable by an adjustment means. 3. The control device according to claim 1 , wherein the feedback pivot axis is defined by an eccentric pin located eccentrically at the second end of the input shaft. 4. The control device according to claim 1 , wherein the feedback transmitting element comprises an elongated hole for receiving the feedback element of the hydraulic unit indicating a position of the displacement element. 5. The control device according to claim 1 , wherein the centering mechanism is housed in the input shaft block. 6. A hydraulic unit comprising: a displacement element; a servo unit configured to operate the displacement element to set a displacement volume; and a manual displacement control device comprising: an input shaft mounted rotatable about an input shaft axis in an input shaft block and protruding from the input shaft block with a first end on which a rotating torque is configured to be applied; a control spool housed in a control housing and moveable by means of rotation of the input shaft to control a servo pressure which is configured to be guided to and from the servo unit; a feedback transmitting element pivotable about a feedback pivot axis which is parallel to the input shaft axis, having a first end portion that interacts with the control spool and a second end portion that receives a mechanical feedback signal of a feedback element connected to the displacement element of the hydraulic unit; and positioning means for adjusting and fixing a lateral position of the input shaft with respect to the control housing in a direction perpendicular to the input shaft axis and perpendicular to the direction of a centering force exerted on the input shaft by a centering mechanism in order to restore the input shaft to a zero position when no rotating torque is applied to the first end of the input shaft. 7. The hydraulic unit according to claim 6 , wherein the control housing of the manual displacement control device is part of a hydraulic unit housing, wherein the positioning means is located at the first end of the input shaft in order to be able to adjust the lateral position of the input shaft relative to the hydraulic unit housing. 8. The hydraulic unit according to claim 6 , wherein wedge surface parts of the positioning means are configured to be guided by guiding means on the hydraulic unit housing. 9. The hydraulic unit according to claim 6 , wherein the feedback element is in the form of a feedback pin, wherein the displacement element of the hydraulic unit is tiltable and has the feedback pin attached thereto, and wherein one end of the feedback pin is received by the second end portion of the feedback transmitting element. 10. The hydraulic unit according to claim 9 , wherein the servo unit comprises a servo piston and a servo spring, which are located on opposite sides of the displacement element, wherein a servo spring bracket providing an end stop surface for a servo spring seat is variably fixable to the hydraulic unit housing in such a manner that the orientation of the end stop surface is adjustable parallel to the displacement element in a neutral position, and wherein a first end of a servo spring rod is arranged contacting the servo spring seat and a second end of the servo spring rod is arranged contacting the displacement element such that the servo spring rod is capable of compressing the servo spring via the servo spring seat when the displacement element is tilted out of the neutral position. 11. The hydraulic unit according to claim 9 , wherein the servo unit comprises a servo piston and a servo spring, which are located on opposite sides of the displacement element, wherein a servo spring bracket providing an end stop surface for a servo spring seat is variably fixable to the hydraulic unit housing in such a manner that the orientation of the end stop surface is adjustable parallel to the displacement element in a neutral position, wherein a first end of a servo spring rod is arranged contacting the servo spring seat and a second end of the servo spring rod is arranged contacting the displacement element such that the servo spring rod is capable of compressing the servo spring via the servo spring seat when the displacement element is tilted out of the neutral position, and wherein the second end of the servo spring rod abuts against the displacement element in a rotatable manner with respect to an axis parallel to a tilt axis of the displacement element. 12. The hydraulic unit according to claim 9 , wherein the servo unit comprises a servo piston and a servo spring which are located on opposite sides of the displacement element, wherein a servo spring bracket providing an end stop surface for a servo spring seat is variably fixable to the hydraulic unit housing in such a manner that the orientation of the end stop surface is adjustable parallel to the displacement element in a neutral position, and wherein a first end of a servo spring rod is arranged contacting the servo spring seat and a second end of the servo spring rod is arranged contacting the displacement element such that the servo spring rod is capable of compressing the servo spring via the servo spring seat when the displacement element is tilted out of the neutral position, wherein the second end of the servo spring rod is annular shaped. 13. The hydraulic unit according to claim 9 , wherein the servo unit comprises a servo piston and a servo spring which are located on opposite sides of the displacement element, wherein a servo spring bracket providing an end stop surface for a servo spring seat is variably fixable to the hydraulic unit housing in such a manner that the orientation of the end stop surface is adjustable parallel to the displacement element in a neutral position, and wherein a first end of a servo spring rod is arranged contacting the servo spring seat and a second end of the servo spring rod is arranged contacting the displacement element such that the servo spring rod is capable of compressing the servo spring via the servo spring seat when the displacement element is tilted out of the neutral position, wherein a relative position of the servo spring bracket in the h