METHOD AND DEVICE FOR CONTROLLING A TRANSMISSION OF A WORKING MACHINE

Abstract

A method for controlling the transmission of a working machine, by which, with at least one sensor of the working machine, at least one specific parameter is determined and transmitted to a control unit for controlling the transmission. The working machine has a lifting mechanism and the at least one specific parameter which characterizes an actuation condition of the lifting mechanism. A predetermined shifting strategy is adapted, by the method, as a function of the at least one specific parameter.

Claims

1-10. (canceled)

11. A method of controlling a transmission of a working machine (1) having a lifting mechanism (2), the method comprising: determining and transmitting, with at least one sensor (8) of the working machine (1), at least one specific parameter to a control unit for controlling the transmission, and the at least one specific parameter characterizes an actuation condition of the lifting mechanism (2), and adapting a predetermined shifting strategy as a function of the at least one specific parameter.

12. The method according to claim 11, further comprising adapting the predetermined shifting strategy when, from the characteristic of the specific parameter for carrying out an un-adapted transmission ratio change, a critical condition of the working machine appears to be likely.

13. The method according to claim 11, further comprising adapting a shifting dynamic of a transmission ratio change.

14. The method according to claim 11, further comprising suppressing a transmission ratio change.

15. The method according to claim 12, wherein the transmission ratio change is a downshift or an upshift.

16. The method according to claim 11, further comprising inferring a current actuation condition of the working machine (1) based on the at least one specific parameter.

17. The method according to claim 11, further comprising inferring a future actuation condition of the working machine (1) based on the at least one specific parameter.

18. The method according to claim 11, further comprising activating a clutch-cut-off function.

19. A device for controlling the transmission of a working machine (1), comprising: at least a control unit, at least one sensor (8), the control unit and the sensor (8) being connected with one another for the transmission of signals, the control unit being designed for carrying out a method of controlling the transmission of the working machine (1) in which the at least one sensor (8) of the working machine (1) determines and transmits at least one specific parameter to the control unit for controlling the transmission, and the working machine (1) has a lifting mechanism (2) and the at least one specific parameter characterizes an actuation condition of the lifting mechanism (2), a predetermined shifting strategy is adapted as a function of the at least one specific parameter, and the control unit is designed to emit a signal for adapting the shifting strategy.

20. A drive-train of a working machine (1) comprising a drive element, and the transmission and the device according to claim 19 for controlling the transmission.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] The object of the invention will be described in greater detail with reference to the attached figures, which show:

[0025] FIG. 1: A schematic representation of a working machine, in a first actuation condition;

[0026] FIG. 2: A schematic representation of a working machine, in a second actuation condition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0027] FIG. 1 shows a schematic representation of a working machine 1, in this case in the form of a forklift truck. The working machine 1 has a lifting mechanism 2 arranged on the front of the working machine 1. The lifting mechanism 2 consists essentially of take-up means 3 in the form of a fork and a lifting mast 4. Arranged on the take-up means 3 there is a sensor 8, which is provided for detecting and communicating the at least one specific parameter. A working hydraulic system and operating elements for actuating the lifting mechanism 2 are not shown, and the same applies to a drive element and a transmission.

[0028] The working machine 1 moves along a driveway 5, which can for example be a rail yard, a shed or even a building site. During this the mobility of the working machine 1 is predominantly characterized by forward or backward movement in a travel direction F. The movement of the working machine 1 in its travel direction F is not restricted to straight driving, but rather, driving round curves or maneuvering processes are sometimes also carried out on site.

[0029] By virtue of the take-up means 3, the working machine is suitable for taking up, transporting and putting down a load 6, here in the form of piece goods. In the condition illustrated the lifting mast 4 or lifting mechanism 2 is in a retracted position.

[0030] FIG. 2 shows the working machine 1 described above in a different situation or different actuation condition of the lifting mechanism 2. In this case the lifting mechanism 2 is in an extended position. Consequently the center of gravity of the working machine 1 is displaced, which increases the tip-over tendency as shown by the arrow K. Here, the tip-over tendency K describes the tendency of the working machine 1 to tilt around an axis transverse to the vehicle (not shown). The axis transverse to the vehicle is perpendicular both to the driveway 5 and to the lifting mast 4.

[0031] The tip-over tendency K becomes still greater as soon as the working machine 1 takes up or unloads the load 6. In the example illustrated the load 6 is in a storage element 7, in this case in the form of a (high) bay in a warehouse. However, the storage element 7 could also be a means of transport, such as a truck.

[0032] The greater the tip-over tendency K of the working machine 1, the more important it is to adapt the shifting strategy. Thus, in the present case the sensor 8 determines and emits the signal representing the at least one specific parameter, here the position of the lifting mechanism 2 (or the take-up means).

INDEXES

[0033] 1 Working machine [0034] 2 Lifting mechanism [0035] 3 Take-up means [0036] 4 Lifting mast [0037] 5 Driveway [0038] 6 Load [0039] 7 Storage element [0040] 8 Sensor [0041] F Travel direction [0042] K Tip-over tendency