Work machine having an attachment device, in particular a trench cutter, and attachment device, in particular a trench cutter

Abstract

The present invention relates to a work machine, preferably a mobile work machine, having an attachment device, in particular a trench cutter, wherein the attachment device comprises at least two adjustable hydraulic motors for driving independent, individually controllable loads, and wherein the hydraulic supply of the adjustable hydraulic motors takes place by a hydraulic drive unit arranged externally from the attachment device, in particular by a drive unit of the work machine, and wherein the at least two adjustable hydraulic motors of the attachment device are connected to a constant pressure network provided by the hydraulic drive unit.

Claims

1. A work machine, preferably a mobile work machine, having an attachment device, in particular a trench cutter, wherein the attachment device comprises at least two adjustable hydraulic motors for driving independent, individually controllable loads, the hydraulic supply of the adjustable hydraulic motors takes place by a hydraulic drive unit arranged external to the attachment device, in particular by a drive unit of the work machine, and the at least two adjustable hydraulic motors of the attachment device are connected to a constant pressure network provided by the hydraulic drive unit.

2. A work machine in accordance with claim 1, wherein the at least two adjustable hydraulic motors are reversible.

3. A work machine in accordance with claim 1, wherein the at least two adjustable hydraulic motors are secondarily regulated by a control and the displacement volume of the motor is changed for so long until an equilibrium of the motor torque with the respective load at the motor is present and the desired speed and/or a defined time progression of the drive power and/or a desired drive torque is/are reached.

4. A work machine in accordance with claim 3, wherein a sensor system is provided for detecting the speed and/or the adjustment angle of the individual hydraulic motors and/or operating pressures in the high pressure line and/or return line and the secondary regulation takes place while taking these measured values into account.

5. A work machine in accordance with claim 1, wherein the hydraulic drive unit comprises at least one adjustable hydraulic pump whose conveying volume is adaptable to the load requirement of the attachment device via at least one apparatus.

6. A work machine in accordance with claim 5, wherein the apparatus is a pressure regulator that increases the conveying volume of the pump on a falling of the operating pressure below a settable desired value and reduces the conveying volume of the pump on a reaching or exceeding of the settable desired value.

7. A work machine in accordance with claim 1, wherein the hydraulic connector between the hydraulic drive unit and the attachment device comprises a common high pressure line for the at least two hydraulic motors of the attachment device, with a common return line and/or oil leak line preferably being provided from the hydraulic motors to the hydraulic drive unit.

8. A work machine in accordance with claim 1, wherein no communication interface is required, in particular provided, between the control of the hydraulic motors and a control of the hydraulic drive unit.

9. A work machine in accordance with claim 1, wherein a cutting wheel is driven by a hydraulic motor, preferably at least two cutting wheels are driven by a respective hydraulic motor and at least one pump, in particular a bentonite pump, is driven by hydraulic motor.

10. An attachment device, in particular a trench cutter, for a hydraulic work machine, in particular in accordance with claim 1, having at least two adjustable hydraulic motors for the drive of independent, individually controllable loads, wherein the attachment device has a common high pressure connector for the adjustable hydraulic motors.

11. An attachment device in accordance with claim 10, wherein the at least two adjustable hydraulic motors are reversible.

12. An attachment device in accordance with claim 10, wherein a control for a secondary regulation of the adjustable hydraulic motors is provided.

13. An attachment device in accordance with claim 10, wherein a common low pressure connector and/or tank return connector is provided for the adjustable hydraulic motors.

14. An attachment device in accordance with claim 10, wherein a cutting wheel is driven by an adjustable hydraulic motor, preferably at least two cutting wheels are driven by a respective adjustable hydraulic motor, and at least one pump, in particular a bentonite pump, is driven by a further adjustable hydraulic motor.

15. A work machine in accordance with claim 2, wherein the at least two adjustable hydraulic motors are secondarily regulated by a control and the displacement volume of the motor is changed for so long until an equilibrium of the motor torque with the respective load at the motor is present and the desired speed and/or a defined time progression of the drive power and/or a desired drive torque is/are reached.

16. A work machine in accordance with claim 15, wherein a sensor system is provided for detecting the speed and/or the adjustment angle of the individual hydraulic motors and/or operating pressures in the high pressure line and/or return line and the secondary regulation takes place while taking these measured values into account.

17. A work machine in accordance with claim 16, wherein the hydraulic drive unit comprises at least one adjustable hydraulic pump whose conveying volume is adaptable to the load requirement of the attachment device via at least one apparatus.

18. A work machine in accordance with claim 15, wherein the hydraulic drive unit comprises at least one adjustable hydraulic pump whose conveying volume is adaptable to the load requirement of the attachment device via at least one apparatus.

19. A work machine in accordance with claim 4, wherein the hydraulic drive unit comprises at least one adjustable hydraulic pump whose conveying volume is adaptable to the load requirement of the attachment device via at least one apparatus.

20. A work machine in accordance with claim 3, wherein the hydraulic drive unit comprises at least one adjustable hydraulic pump whose conveying volume is adaptable to the load requirement of the attachment device via at least one apparatus.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] Further advantages and properties of the invention will be explained in the following with reference to an embodiment shown in more detail in the drawings. There are shown:

[0029] FIG. 1: a schematic representation of a known trench cutter;

[0030] FIGS. 2A and 2B: different embodiments for the hydraulic supply of conventional trench cutters; and

[0031] FIGS. 3A and 3B: different embodiments of a representation of a hydraulic circuit for the energy supply of a trench cutter in accordance with the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0032] FIG. 3 shows two embodiments of the hydraulic system in accordance with the invention of the trench cutter and the drive unit of the work machine. The exact number of hydraulic drives of the attachment device is not significant for the invention. In accordance with the invention, the drive unit 20, 21 of the work machine can be configured as a drive unit 20 having an open hydraulic circuit (see FIG. 3a) or as a drive unit 21 having a closed hydraulic system (see FIG. 3b). The design as an open or closed hydraulic circuit and the design of the adjustable pump 22 caused thereby is the only difference between the two embodiments of the FIGS. 3a, 3b. The trench cutter and the hydraulic connection 25 are identical for both embodiments. The following statements therefore relate to both embodiments.

[0033] At least one hydraulic pump 22 operated by a primary energy source and having an adjustable conveying volume is equipped with a device 23 that adapts the conveying quantity to the actual requirement of the fed trench cutter. In an advantageous embodiment, it is a pressure regulator 23 here. If the operating pressure falls below a set desired value, the regulator 23 increases the conveying volume and thus the oil flow of the pump 22. If the desired value is reached or even exceeded, the pressure regulator 23 reduces the conveying volume of the pump 22 to a value that is sufficient to maintain the desired pressure.

[0034] The hydraulic oil flows through the high pressure line 24, through the hose system 25, to the hydraulic drives 31 of the bentonite pump 26, of the cutting wheel 26 at the right and of the cutting wheel 28 at the left of the trench cutter. Theoretically, further hydraulic consumers could be supplied with energy in this manner as components of the cutter.

[0035] The provided pressure energy is converted into mechanical energy in these drives 31. The oil is led through a common return line 29 of the hydraulic motors 31 via the hose system 25 back to the drive unit 20, 21. The leak oil arising due to the volumetric efficiency of the hydraulic drives 31 is likewise led back to the unit 20, 21 via the common oil leak line 30.

[0036] Each individual consumer is equipped in accordance with the invention with a hydraulic motor 31 having a continuously adjustable displacement volume Vg. It is characteristic for the invention that, with the motors 31 [0037] a) a displacement volume Vg=0 is settable; [0038] b) the displacement volume is settable from Vg via 0 to +Vg when a drive is to be operated with alternating directions of movement; and [0039] c) all the involved drives can be connected to the same lines 24, 29, 30 so that the complexity of the hose system 25 can be reduced.

[0040] If the amount of the displacement volume of the hydraulic motors 31 increases, the output torque of the respective motor 31 is increased due to the constant operating pressure in the high pressure line 24. The movement of the driven load, i.e. of the respective cutting wheel 27, 28 or of the pump 26, is accelerated. A reduction in the displacement volume effects a lowering of the torque due to the unchanging operating pressure of the high pressure line 24; the movement of the respective driven load 26, 27, 28 is decelerated.

[0041] A sensor system is furthermore provided for determining the current speed [U/s] of the hydraulic motor 31 and its adjustment angle []. In addition, the operating pressures [N/m.sup.2] in the lines 24 and 29 are measured by an installed sensor system.

[0042] The integrated electronic control unit 32 of the trench cutter can now control the hydraulic motors 31 in a suitable manner in dependence on the operating requirements with reference to these measured values detected by a sensor. Conceivable regulation goals are, for example, a defined time progression of the drive power, a desired speed, or a desired drive torque of the respective hydraulic motor 31.

[0043] Since the drive units 20, 21unlike in the prior artprovide a constant pressure network, any restriction points for the power regulation can be dispensed with. The system shown of FIGS. 3a, 3b can, unlike existing solutions, only have three hydraulic lines for connecting the work machine to the trench cutter. The actually acting operating pressures of the system are dependent on its regulation quantity. Pressure fluctuations due to changing external loads move into the background in contrast to conventional systems in accordance with FIGS. 2a and 2b. As a result, smoother pressure changes result in the lines 24, 29, 30.

[0044] Finally, the system shown of FIGS. 3a, 3b manages without any electronically processed information on operating states of the cutter drives 31. Communication of the control 32 of the trench cutter and a possible control of the drive unit 20, 21 is possible, but not absolutely necessary.