DE3619044A1 - Pressure control device for a hydraulic load - Google Patents

Abstract

A pressure control device for a hydraulic load, in particular a coupling (10) of a load switching gear contains a control valve (8) which controls a flow of pressure medium to the load. The control valve (8) can be adjusted by a control pressure whose level can be varied by a proportional solenoid valve (3). The proportional solenoid valve (3) contains a variable shutter (4) which is connected downstream of a constant shutter (11) in a pressure medium line (2) which leads from a pressure source (1) to the proportional solenoid valve (3). In order to be able to keep the constant shutter (11) as small as possible and, nevertheless, to permit rapid adjustment of the control valve (8), a second variable shutter (12) is connected upstream of the constant shutter (11) in the pressure medium line (2). The opening cross-section of the second variable shutter (12) can be varied as a function of the opening cross-section of the proportional solenoid valve (3). The control line (14) for the actuation of the control valve (8) is connected to the pressure medium line (2, 2B) between the second variable shutter (12) and the constant shutter (11). <IMAGE>

Description

Pressure control device for a hydraulic consumer

The invention relates to a pressure control device for a hydraulic one Consumer, in particular a clutch of a powershift transmission according to the preamble of claim 1.

In such control devices, a constant diaphragm is determined as Inlet orifice to a proportional solenoid valve the size of the pilot current that is required for pressure regulation for the control valve. At the same time is through the size of the constant orifice determines the flow that flows to the control valve can. About the pilot current and thus the leakage current in the open position of the proportional solenoid valve To keep it as low as possible, the constant diaphragm should have the smallest possible cross-section exhibit. This requirement is opposed to the requirement that the control valve very should be quickly adjustable. However, such a quick adjustment is required a large flow of pressure medium. To meet this requirement, the constant diaphragm would have to have a large cross-section.

The invention is based on the object of providing a known pressure control device, which contains a proportional solenoid valve and a constant orifice to improve that the control reacts very quickly and the leakage current from the pilot current, especially in the end positions of the proportional solenoid valve, kept very small can be.

According to the invention, this object is characterized by what is claimed in claim 1 Pressure control device released.

It is particularly advantageous that the pilot pressure does not increase must be lowered to zero in order to achieve an output pressure of zero. Through this the proportional solenoid valve, like the differential pressure valve, can be very small be trained. The leakage oil flow is increased through the second variable orifice limited to a minimum.

In the following the invention is illustrated with reference to two in the drawing Embodiments explained in more detail.

In Fig. 1 the pressure control device is in a first embodiment shown. A pressure source 1 supplies pressure medium in a pressure medium line 2, which leads to a pilot valve in the form of a proportional solenoid valve 3. The pressure medium line 2 is divided into several sections, which are included below Additional letters are designated. The proportional solenoid valve 3 includes a variable aperture 4, the largest opening cross-section in the non-excited state his magnet 5 is reached. In this state, the pressure medium line 2 is connected to a connection for a pressure medium container 6. Instead of the proportional solenoid valve it is possible to use any valve that is able to control the pressure change, for example a clocked valve, a servo valve or a Motor controller. Such pilot valves contain controls that are variable Aperture correspond.

From the directly adjoining the pressure source 1 section 2A of Pressure medium line 2 branches off a working line 7 to a control valve 8. That Control valve 8 is moved into a neutral position by a compression spring 9, in the one consumer, for example a clutch 10 of a powershift transmission, is connected to the return to the pressure medium container 6.

The pressure medium line 2 is between two sections 2B and 2C a constant diaphragm 11 installed. The constant diaphragm 11 is in the pressure medium line 2, a second variable diaphragm 12 is connected upstream between the sections 2A and 2B. Between the second variable diaphragm 12 and the constant diaphragm 11 is at the Section 2B of the pressure medium line 2 to a control surface 13 of the control valve 8 leading control line 14 connected.

The second variable diaphragm 12 is through a differential pressure valve 15 is formed, which has a valve piston 17 loaded by a compression spring 16. A control surface 18 of the valve piston 17 facing away from the compression spring 16 stands with it the section 2B of the pressure medium line 2 upstream of the constant diaphragm 11 in connection. The opposite, the compression spring 16 facing control surface 19 of the control piston 17 stands with the section 2C of the pressure medium line 2 downstream of the constant diaphragm 11 in connection.

The valve piston 17 is slidably mounted in a valve housing 20. The valve housing 20 contains a with the pressure medium container 6 in connection Return ring groove 21 and one connected to section 2A of pressure medium line 2 Inlet ring groove 22. A piston groove 23 is formed on the valve piston 17, which via a large bore 24 with a space adjoining the one control surface 18 25 is connected. The second variable diaphragm 12 is between the on the feed ring groove 22 and formed on the piston groove 23 existing control edges.

The valve piston 17 is moved into its neutral position by the compression spring 16 shifted, in which the inlet ring groove 22 is connected to the piston groove 23. the second variable diaphragm 12 has its largest cross-section in this position on. The piston groove is in the opposite end position of the valve piston 17 23 connected to the return ring groove 21. In an intermediate position of the valve piston 17 there is expediently zero overlap, i.e. i.e. in this middle position both the return ring groove 21 and the inlet ring groove 22 straight from the piston groove 23 separated. The second variable diaphragm 12 is from this central position closed.

A control valve housing 26 of the control valve 8 is contained in a valve bore 27 a return ring groove 28 connected to the pressure medium container 6 and one about the Working line 7 and section 2A of the pressure medium line 2 annular inlet groove 29 connected to the pressure source 1.

A central annular groove 30 is arranged between these two annular grooves, which is connected to the coupling 10 via a line 31. The control valve piston 32 has a piston groove 33. In the set by the force of the compression spring 9 The neutral position of the control valve piston 32 connects the piston groove 33 to the central one Annular groove 30 with the return ring groove 28. In the opposite end position of the Control valve piston 32, the annular inlet groove 29 is connected to the central annular groove 30. In an intermediate position of the control valve piston between the two end positions 32 is both the inlet ring groove 29 and the return ring groove 28 from the central one Annular groove 30 separated.

The embodiment of FIG. 2 corresponds essentially to that Example of FIG. 1, but with the difference that here the constant diaphragm 41 is arranged in the valve piston 47 of the differential pressure valve 45.

In the following, the function of the pressure control device is based on several operating states explained: In the initial state of the pressure control device the proportional solenoid valve 3 is in the de-energized state. Here is the Passage from the pressure medium line 2 or its section 2C to the pressure medium container 6 open. Since the pressure source 1 is not yet delivering any pressure medium, the control valve is located 8 and the differential pressure valve 15 in their by the force of the compression springs 9 and 16 set neutral positions.

The line 31 is via the central annular groove 30, the piston groove 33 and the return ring groove 28 is connected to the pressure medium container 2. This is the clutch 10 is vented.

When the pressure source 1 begins to be promoted, pressure medium flows through it the section 2A of the pressure medium line 2 to the differential pressure valve 15 and over the open aperture 12, the large bore 24 and the constant diaphragm 11 to the proportional solenoid valve 3. The proportional solenoid valve 3 is always still open. A pressure difference arises over the constant diaphragm 11, which is based on the both control surfaces 18 and 19 of the valve piston 17 acts. This causes the valve piston 17 moved to a central control position. The also arising in the control line 14 Pressure is not yet sufficient to move the control valve piston 32 so far against the force to move the compression spring 9 that the piston groove 33 establish a connection would from the inlet ring groove 29 to the central ring groove 30.

If the clutch 10 is now to be filled, the magnet 5 of the Proportional solenoid valve 3 energized. The excitation of the magnet 5 takes place here according to a desired characteristic for pressure regulation and filling of the coupling 10. As the adjustment progresses and the aperture becomes smaller 4 of the proportional solenoid valve 3, the pressure increases between the differential pressure valve 15 and the proportional solenoid valve 3 lying section 2C of the pressure medium line 2. As the pressure in section 2C increases, so does the pressure in the Control line 14, which is then sufficient to counter the force of the control valve piston 32 to move the compression spring 9 into a position in which the inlet ring groove 29 with the central annular groove 30 and thus with the line leading to the coupling 10 31 is connected. This makes it possible, depending on the desired characteristics, to have one display any pressure curve as a function of time in the clutch.

The maximum pressure in the control line 14, which corresponds to the working pressure, is achieved when the proportional solenoid valve 3 is completely closed is. In this operating state, the control valve piston 32 is against the force of the Compression spring 9 pushed into its end position on the right in FIG. 1. This creates a unimpeded connection from the pressure source 1 to the coupling 10. The coupling is closed with maximum pressure.

Should the unit in which the clutch 10 is contained, with a operated at extremely low speeds, for example when inching a vehicle or when moving a press slowly, so will the proportional solenoid valve 3 is only slightly open. This can reduce the clutch pressure be limited to a certain level.

If the clutch is to be vented quickly, the proportional solenoid valve is used 3 fully open, the control pressure in the control line 14 collapses, so that the control valve piston 32 very quickly into his by the force of the compression spring 9 other end position is pushed, in which the line 31 with the pressure medium container 6 communicates.

Reference numeral 1 pressure source 2 pressure medium line with sections 2A, 2B, 2C 3 Proportional solenoid valve 4 Variable orifice 5 Magnet 6 Pressure medium tank 7 Working line 8 Control valve 9 Pressure spring 10 Coupling 11 Constant orifice 12 Variable Orifice 13 control surface 14 control line 15 differential pressure valve 16 compression spring 17 Valve piston 18 control surface 19 control surface 20 valve housing 21 return ring groove 22 Inlet ring groove 23 Piston groove 24 Bore 25 Space 26 Control valve housing 27 Valve bore 28 Return ring groove 29 Inlet ring groove 30 Central ring groove 31 Line 32 Control valve piston 33 Piston groove 41 Constant orifice 45 Differential pressure valve 47 Valve piston

Claims (8)

Claims 1. Pressure control device for a hydraulic consumer, in particular a clutch (10) of a powershift transmission with a pressure source (1) and with a control valve controlling a pressure medium flow to the consumer (8), the control valve (8) being supplied by a control line (14) Control pressure is adjustable, the level of which is controlled by a pilot valve (proportional solenoid valve 3) is changeable, the one in the from the pressure source (1) to the pilot valve leading pressure medium line (2) arranged downstream constant diaphragm (11) contains variable diaphragm (4) and a connection to a pressure medium container (6), characterized in - that the constant diaphragm (11) in the pressure medium line (2) a second variable diaphragm (12) is connected upstream, the opening cross-section of which depending on the opening cross-section of the pilot valve (proportional solenoid valve 3) is variable and - that the control line (14) between the second variable Orifice (12) and the constant orifice (11) are connected to the pressure medium line (2, 2B) is. 2. Pressure control device according to claim 1, characterized in that g e -k e n n z e i c h n e t that the second variable diaphragm (12) through a differential pressure valve (15) is formed. 3. Pressure control device according to claim 2, characterized in that g e -k e n n z e i c h n e t that the differential pressure valve (15) is one of a compression spring (16) has loaded valve piston (17), one of which faces away from the compression spring (16) Control surface (18) with the pressure medium line (2, 2B) upstream of the constant diaphragm (11) and its other, the compression spring (16) facing control surface (19) with the Pressure medium line (2, 2C) is connected downstream of the constant diaphragm (11). 4. Pressure control device according to claim 3, characterized in that g e -k e n n z e i c h n e t that the second variable diaphragm (12) between the control edges of the Valve piston (17) and a valve housing (20) accommodating this is formed. 5. Pressure control device according to claim 4, characterized in that g e -k e n n z e i c h n e t that the second variable aperture (12) between one on the valve piston (17) arranged piston groove (23) and one arranged in the valve housing (20) Inlet ring groove (22) is formed. 6. Pressure control device according to claim 4, characterized in that g e -k e n n z e i c h n e t that the second variable diaphragm (12) in the by the force the neutral position of the valve piston (17) set by the compression spring (16) is at its greatest Has cross section, and that its cross section with increasing adjustment of the valve piston (17) decreases from its neutral position. 7. Pressure control device according to claim 3, characterized in that g e -k e n n z e i c h n e t that the control line (14) is in the neutral position of the valve piston (17) of the differential pressure valve (15) with the pressure medium line (3, 3A) and in the against the force of the compression spring (16) adjustable end position of the valve piston (17) is connected to the return to the pressure medium container (6). 8. Pressure control device according to one of claims 2 to 7, characterized it is not indicated that the constant orifice (41) in the valve piston (47) of the differential pressure valve (45) is formed.