WO2008071568A1 - Device and method for controlling a transmission - Google Patents

Abstract

The invention relates to a control device (1) for a transmission. Said control device comprises a pressure medium source (2), a pressure controller (8), mounted downstream of the pressure medium source (2), a sensor device (41) for determining the supply pressure upstream of the pressure controller (8), a first and second controllable valve device (18, 19), mounted downstream of the pressure controller (8), an adjusting device (35), mounted downstream of the valve devices (18, 19), for adjusting the transmission, said adjusting device having a first pressure medium chamber (39) that is connected to the first controllable valve device (18), and a second pressure medium chamber (40) that is connected to the second controllable valve device (19), the pressure medium chambers (39, 40) being separated by a movable piston (37), and an electric control unit (14) for controlling the controllable valve devices (18, 19). The invention is characterized by a consumption meter (45) for detecting the consumption of pressure medium and to a calculation device (44). The calculation device (44) is used to calculate a pressure signal which is representative of the pressure in the pressure medium chambers (39, 40), using the detected supply pressure, the known properties of the pressure controller (8) and the detected pressure medium consumption, and at least one of the valve devices (18, 19) can be controlled by means of the control unit (14).

Description

 Device and method for controlling a transmission

The present invention relates to a control device for a transmission comprising a pressure medium source, a downstream of the pressure medium source pressure limiting device, a downstream of the pressure limiting arranged first and second controllable valve means, a downstream of the valve means arranged adjusting device for adjusting the transmission and an electrical control device for driving the controllable valve devices , The present invention further relates to a method for controlling a transmission, in which said valve devices are controlled in dependence on the pressure within the actuating device.

From DE 199 31 973 A1, such a device for controlling an adjusting device for a transmission is known. The known device comprises a pressure medium source, which is connected via a supply line with a pressure relief valve. The pressure relief valve is followed by two parallel and controllable valve devices. On the two valve devices in turn follows an adjusting device for adjusting the transmission. The known adjusting device has in this case a first pressure medium chamber which can be supplied with pressure medium via the first valve device. Furthermore, the adjusting device has a second pressure medium chamber, which in turn can be supplied with pressure medium via the second valve device. The two pressure medium chambers are separated by a movable piston, on which a piston rod is arranged, which serves as an actuator of the actuating device. The pressure relief valve as well as the two valve devices are controlled as a function of the pressure within the pressure medium chambers. In order to determine this pressure, the cited document proposes to arrange a pressure sensor within the pressure medium line extending from the pressure limiting valve to the first and second Valve device extends. The pressure determined by the pressure sensor thus forms the basis for controlling the pressure-limiting valve and the two valve devices.

Based on this prior art, the present invention seeks to provide a particularly simple and cost-effective alternative to the known control device. It is a further object of the present invention to provide a method which is simple and safe to carry out.

The solution of this problem is based on the features specified in claim 1 and 8 features. Advantageous embodiments of the invention are the subject of the dependent claims.

The control device according to the invention for a transmission initially has a pressure medium source. Under a pressure medium source, for example, a pump can be understood in combination with a pressure fluid reservoir. As a pressure medium, for example, air or oil in question, so it may be a pneumatic or hydraulic device. Downstream of the pressure medium source, a pressure limiting device is arranged. Downstream here as well as below means that the pressure medium must flow in this direction up to an adjusting device in order to effect an adjustment there. Furthermore, a sensor device for determining the supply pressure upstream of the pressure limiting device is provided. Consequently, the supply pressure between the pressure medium source on the one hand and the pressure limiting device on the other hand can be measured. Downstream of the pressure limiting device, a first controllable valve device and a second controllable valve device are further arranged. The valve devices may be, for example, solenoid valves. Downstream of the valve devices, an adjusting device for adjusting the transmission is provided. The adjusting device has a first pressure medium chamber and a second pressure medium chamber, wherein the pressure medium chambers are separated by a movable piston. The movable piston or a piston rod attached thereto can thus act as an actuator for adjusting the transmission. The adjusting device can in this case serve, for example, the choice of the shift gate, the shifting of gear stages or the adjustment of gears in the transmission. The first pressure medium chamber is connected to the first controllable valve device, whereas the second pressure medium chamber is connected to the second controllable valve device. The control device further comprises an electrical control device for controlling the controllable valve devices. According to the invention, a consumption detection device for detecting the pressure medium consumption is also provided. However, the pressure medium consumption here is not the actual consumption but rather to understand the amount of pressure fluid flowing through, which is required to carry out various switching movements within the transmission. The control device further comprises a calculation device with the aid of which a pressure signal representative of the pressure in the pressure medium chambers can be calculated from the determined supply pressure, the known properties of the pressure limiting device and the detected pressure medium consumption. The control device can then control at least one of the valve devices as a function of the calculated pressure signal.

In a preferred embodiment of the control device according to the invention, the pressure limiting device is a pressure limiting valve.

In a further preferred embodiment of the control device according to the invention, the pressure limiting device can also be controlled by the control device as a function of the calculated pressure signal. In a particularly preferred embodiment of the control device according to the invention, the consumption detection device for detecting the pressure medium consumption on a counter for determining the number of switching operations performed, the pressure medium consumption can be determined based on the number of switching operations performed. Thus, for example, the pressure medium consumption at individual switching movements is known, so that from this simply the total pressure medium consumption over a certain period can be calculated.

In an advantageous embodiment of the control device according to the invention, the first valve device has a pressure medium input, a pressure medium output connected to the first pressure medium chamber and a pressure medium outlet. Furthermore, the second controllable valve device has a pressure medium input, a pressure medium output connected to the second pressure medium chamber, and a pressure medium outlet.

In a further advantageous embodiment of the control device according to the invention, the pressure medium input is connected to the pressure limiting device and / or the pressure fluid outlet is connected to a pressure fluid sink.

In a further preferred embodiment of the control device according to the invention, the first pressure medium chamber with the aid of the first controllable valve means selectively connectable to the pressure medium source or the pressure medium sink, while the second pressure medium chamber can be selectively connected by means of the second controllable valve means with the pressure medium source or the pressure medium sink.

The method according to the invention for controlling a transmission comprises the method steps of providing a control device for a transmission with a pressure medium source, one downstream of the pressure medium source arranged pressure limiting device, a downstream of the pressure limiting arranged first and second controllable valve means and a downstream of the valve means arranged adjusting device for adjusting the transmission with a first pressure medium chamber which is connected to the first controllable valve means, and a second pressure medium chamber, which is connected to the second controllable valve means is, wherein the pressure medium chambers are separated by a movable piston, determining the supply pressure before the pressure limiting device, detecting the pressure medium consumption, calculating a representative of the pressure in the pressure fluid chambers pressure signal from the determined supply pressure, the known properties of the pressure limiting device and the detected pressure medium consumption and control at least one of the valve devices and / or the pressure limiting device in dependence on the b calculated pressure signal.

In a preferred embodiment of the method according to the invention, the method step of detecting the pressure medium consumption comprises the further method steps determining the number of switching movements performed and determining the pressure medium consumption from the number of switching movements.

The invention will be explained in more detail below with reference to an exemplary embodiment with reference to the accompanying drawings. The single FIGURE shows a schematic representation of an embodiment of the control device according to the invention.

The single FIGURE shows a schematic representation of an embodiment of the control device 1 according to the invention for a transmission. The control device 1 initially has a pressure medium source 2 which comprises both a pressure medium pump 3 and a pressure medium reservoir 4. As a pressure medium, for example, air or oil come into question. The pressure medium Pump 3 is connected at its suction end with a pressure medium line 5, the end of which projects into a pressure medium sink 6. At the other end of the pressure medium pump 3, the supply line 7 connects to where the pressure fluid reservoir 4 is provided.

Downstream of the pressure medium source 2, a pressure limiting device 8 connects to the supply line 7. The pressure limiting device 8 comprises a pressure limiting valve 9, which is designed as a 2/2-way valve. The pressure relief valve 9 has a pressure medium input 10, which is connected to the supply line 7, and a pressure medium output 1 1. The control of the pressure relief valve 9 takes place in the present embodiment via an electromagnet 12, which via a control line 13 with an electrical control device to be explained later 14 is controllable.

At the pressure medium output 1 1 of the pressure relief valve 9, a further pressure medium line 15 connects, which splits into two further pressure medium lines 16 and 17. While the one pressure medium line 16 leads to a first controllable valve device 18, the other pressure medium line 17 leads to a structurally identical second controllable valve device 19. The valve devices 18, 19 are each designed as a 3/2-way valve and can be adjusted via an electromagnet 20, 21 , which is connected via a control line 22, 23 with the electrical control device 14. Each of the two valve devices 18, 19 has a pressure medium input 24, 25, which is connected to the pressure medium line 16, 17. Furthermore, each controllable valve device 18, 19 has a pressure medium outlet 26, 27, which is connected via further pressure medium lines 28, 29, 30 with the pressure medium sink 6. The controllable valve devices 18, 19 further have a pressure medium outlet 31, 32, which leads via a further pressure medium line 33, 34 to a downstream adjusting device 35 for adjusting the transmission. The adjusting device 35 comprises a double-acting cylinder 36, in which a movable piston 37 is arranged. On the movable piston 37, a piston rod 38 is arranged, which protrudes from the cylinder 36 and thus is suitable as an actuator for adjusting the transmission. The piston 37 divides the interior space in the cylinder 36 into a first pressure medium chamber 39 and a second pressure medium chamber 40. The first pressure medium chamber 39 is connected via the pressure medium line 33 to the pressure medium outlet 31 of the first valve device 18, while the second pressure medium chamber 40 via the pressure medium line 34 is connected to the pressure medium output 32 of the second valve device 19. In order to fill or empty the pressure medium chambers 39, 40 with pressure medium, only the two valve devices 18, 19 and the pressure limiting valve 9 have to be actuated by the electrical control device 14 via the corresponding control lines 13, 22, 23.

The control device 1 further has a sensor device 41 for determining the supply pressure upstream of the pressure limiting device 8. The sensor device 41 accordingly determines the supply pressure within the supply line 7 between the pressure medium source 2 on the one hand and the pressure limiting device 8 on the other. For this purpose, the sensor device 41 has a pressure sensor 42, which measures the pressure within the supply line 7 and can transmit a corresponding signal via a measuring line 43 to a calculation device 44. Furthermore, a consumption detection device 45 for detecting the pressure medium consumption is provided. The consumption detection device 45 includes a counter 46, with the aid of which the number of switching movements performed can be determined. This is indicated by the measuring line 47. The consumption detection device 45 can now determine the pressure medium consumption based on the number of switching operations performed and pass on the signal line 48 to the calculation device 44. The calculation device 44 is designed such that this one for the pressure in the pressure medium chambers 39, 40 can calculate representative pressure signal from the ascertaining supply pressure in the supply line, the known properties of the pressure limiting device 8 and the detected pressure medium consumption. A corresponding pressure signal representative of the pressure in the pressure medium chambers 39, 40 can then be passed on to the electrical control device via the signal line 49.

The method underlying the illustrated control device will be explained below. It is assumed that the movable piston 37 is to be displaced from the position shown in the figure to the left, ie in the direction of the pressure medium chamber 39 in order to adjust the transmission by means of the piston rod 38. During the displacement of the movable piston 37, it is desirable that it is operated in phases with different force. This should be achieved via the pressure limiting valve 9 of the pressure limiting device 8.

In order to displace the piston 37, a control signal is first sent via the control line 23 to the electromagnet 21 of the valve device 19 so that it establishes a connection between the pressure medium source 2 on the one hand and the second pressure medium chamber 40 on the other hand. Thus, the pressure medium can penetrate into the second pressure medium chamber 40 and move the piston 37 to the left, wherein the pressure medium located in the first pressure medium chamber 39 passes through the valve means 18 to the pressure medium sink 6. In order to vary the force acting on the piston 37, the control device 14 controls the pressure limiting valve 9 via the control line 13 in a corresponding manner. This takes place as a function of a calculated pressure signal that is representative of the pressure in the pressure medium chambers 39, 40. The method or the device thus uses a calculated pressure signal and not the pressure actually determined within the pressure medium chambers 39, 40. This allows additional pressure sensors, such as a pressure sensor between the pressure grenzungsseinrichtung 8 on the one hand and the controllable valve devices 18, 19 on the other hand, be saved.

The calculation of said pressure signal takes place here in the calculation device 44. The basis for the calculation here is the supply pressure in the supply line 7 determined by the sensor device 41 and the pressure medium consumption detected by the consumption detection device 45. Furthermore, the calculation is based on the known properties of the pressure limiting device 8, such as its characteristic curve. Thus, for example, via control line 13, a modulated signal to be given to the electromagnet 12 of the pressure relief valve 9, so that the pressure limiting device 8 alternately reaches its closed position and its open position, the duration of the closed position and the duration of the open position of the pressure limiting device 8 according to the signal electrical control device 14 is shorter or longer. In this way, the pressure rise in the second pressure medium chamber 40 and thus the actuating speed of the piston rod 38 can be influenced, this taking place in dependence on the calculated pressure signal.

Bezuαszeichen

1 control device

2 pressure medium source

3 pressure medium pump

4 accumulator

5 pressure medium line

6 pressure medium sinks

7 supply line

8 pressure limiting device

9 pressure relief valve

10 pressure medium input

11 pressure medium output

12 electromagnet

13 control line

14 Electric control device

15 pressure medium line

16 pressure medium line

17 pressure medium line

18 First valve device

19 Second valve device

20 electromagnet

21 electromagnet

22 control line

23 control line

24 pressure medium input

25 pressure medium input

26 pressure medium outlet

27 pressure medium outlet

28 pressure medium line Pressure medium line

Pressure medium line

Pressure medium output

Pressure medium output

Pressure medium line

Pressure medium line

setting device

cylinder

piston

piston rod

First pressure medium chamber

Second pressure medium chamber

sensor device

pressure sensor

Measurement line

calculator

Consumption detector

counting

Measurement line

signal line

signal line

Claims

Patent claims

A control device for a transmission comprising a pressure medium source (2), a downstream of the pressure medium source (2) arranged pressure limiting device (8), a sensor device (41) for determining the supply pressure upstream of the pressure limiting device (8), a downstream of the pressure limiting device (8) arranged first and second controllable valve means (18, 19), a downstream of the valve means (18, 19) arranged adjusting means (35) for adjusting the transmission with a first pressure medium chamber (39) which is connected to the first controllable valve means (18), and a second pressure medium chamber (40) which is connected to the second controllable valve device (19), wherein the pressure medium chambers (39, 40) by a movable piston (37) are separated from each other and an electrical control device (14) for driving the controllable valve means (40) 18, 19), characterized in that a Verbrauchserfassu ngseinrichtung (45) for detecting the pressure medium consumption and a calculation device (44) is provided, wherein a for the pressure in the pressure medium chambers (39, 40) representative pressure signal from the determined supply pressure, the known properties of the pressure limiting device (8) and the detected pressure medium consumption The calculation device (44) can be calculated and the actuation of at least one of the valve devices (18, 19) in dependence on the calculated pressure signal by the control device (14) can be carried out.

2. Control device according to claim 1, characterized in that the pressure limiting device (8) is a pressure limiting valve (9).

3. Control device according to one of claims 1 or 2, characterized in that the pressure limiting device (8) by the control device (14) in dependence on the calculated pressure signal is controllable.

4. Control device according to one of the preceding claims, characterized in that the consumption detection device (45) for detecting the pressure medium consumption comprises a counter (46) for determining the number of switching movements performed, wherein the pressure medium consumption can be determined based on the number of switching movements performed.

5. Control device according to one of the preceding claims, characterized in that the first and second controllable valve means (18, 19) a pressure medium input (24, 25), one with the first and second pressure medium chamber (39, 40) connected to the pressure medium output (31 , 32) and a pressure medium outlet (26, 27).

6. Control device according to one of the preceding claims, characterized in that the pressure medium input (24, 25) is connected to the pressure limiting device (8) and / or the pressure medium outlet (26, 27) is connected to a pressure medium sink (6).

7. Control device according to claim 6, characterized in that the first and second pressure medium chamber (39, 40) by means of the first and second controllable valve means (18, 19) selectively connectable to the pressure medium source (2) or the pressure medium sinks (6) is.

8. A method of controlling a transmission comprising the steps of: providing a control device for a transmission having a pressure medium source, a pressure limiting means located downstream of the pressure medium source, first and second controllable valve means located downstream of the pressure limiting means, and adjusting means arranged downstream of the valve means for adjusting the transmission with a first pressure medium chamber, which is connected to the first controllable valve device, and a second pressure medium chamber, which is connected to the second controllable valve device, wherein the pressure medium chambers are separated by a movable piston, determining the supply pressure before the pressure limiting device, detecting the pressure medium consumption,

Calculating a representative of the pressure in the pressure medium chambers pressure signal from the determined supply pressure, the known properties of the pressure limiting device and the detected pressure medium consumption and

Controlling at least one of the valve devices and / or the pressure limiting device in dependence on the calculated pressure signal.

9. The method according to claim 8, characterized in that the method step of detecting the pressure medium consumption, the method steps

Determining the number of switching operations performed and determining the pressure fluid consumption from the number of switching movements includes.