DE3211545A1 - Hydraulic valve for the supply of pressure medium to a consumer, in particular a volume-controlling valve - Google Patents

Abstract

Shown and described is a hydraulic valve (1) for the supply of pressure medium to a consumer, with a housing (5) having at least one pressure-medium inlet (2), at least one pressure-medium outlet (3) and a recess (4), and with a valve body (6) displaceably arranged in the recess (4) of the housing (5), a control piston (12), and a spring element (13) acting on the control piston (12), in which arrangement the flow of pressure medium from the pressure-medium inlet (2) to the pressure-medium outlet (3) can be restricted by means of the valve body (6), and the pressure drop occurring at the valve body (6) can be kept constant via the control piston (12). This hydraulic valve (1) can be used in particular as a volume-controlling valve and is of especially simple construction and is especially simple to produce, is largely free of leakage oil and is universally usable owing to the fact that the control piston (12) is designed as an annular piston and is arranged around the valve body (6). <IMAGE>

Description

concerning a

Hydraulic valve for supplying pressure medium to a consumer, in particular Flow control valve The invention relates to a hydraulic valve for Pressure medium supply of a combustion device with at least one pressure medium inlet, at least one pressure medium exits and a housing having a recess, a valve body arranged displaceably in the recess of the housing, a Control piston and a piston acting on the spring element, wherein the Pressure medium flow from the pressure medium inlet to the pressure medium outlet by means of the The valve body can be throttled and the pressure drop occurring at the valve body is above the control piston can be kept constant.

Hydraulic valves of the type in question come in many different ways Embodiments are known and are used in particular as flow control valves or pressure control valves used. Flow control valves are particularly diverse in hydraulic drives required to keep the working speed of hydraulic drives independent of pressure fluctuations and to keep fluctuations in the work resistance constant. Flow control valves can both in the inlet of the pressure medium and in the outlet of the pressure medium be switched. Basically, such valves are designed as flow control valves Hydraulic valves have a throttle point that is connected by the valve body is formed with an associated hole.

The position of the valve body is usually adjustable, so that the Flow cross-section of the throttle point can be adjusted. The throttle point Upstream or downstream there is another throttle point, which is controlled by the control piston is formed. The flow cross-section of this throttle point is operationally continuous changeable. This last-mentioned throttle point with changeable flow area is often referred to as a hydrostat or a compensator.

The control effect of a hydraulic valve of the type explained above comes about because the control piston means in one direction from the spring element and the pressure prevailing in the pressure medium and the opposite pressure Direction acted upon by the pressure prevailing in the pressure medium inlet and thereby is always set so that the property formed by the valve body Throttle point always a constant pressure difference occurs. This is because of of the constant flow cross-section of this throttle point, the flow rate regulated a constant inert.

In the known hydraulic valve, of which the invention in particular goes out (see the brochure "Two-way flow control valves 2 F 74, 2 F 75, 2 F 76, 2 F 77 "from Fluid Controls> Inc., publication FL 8.021 03/07), is how in all other hydraulic valves known to the applicant of those in question Also, the control piston is arranged in a separate recess in the housing. The housing must have at least two recesses, namely one recess for the Have valve body and a recess for the control piston. It means that the housing of this hydraulic valve is relatively large, that additional channels are provided must be and that each of the recesses require separate processing. aside from that is this known hydraulic valve, so far also in accordance with all other comparable hydraulic valves, not absolutely leak-free, as always one Little leakage oil past the control piston from the pressure medium inlet to the pressure medium outlet able to reach.

The invention is based on the prior art explained above now the task is based on a hydraulic valve that can be used as a flow control valve indicate that it is constructed as simply as possible, easy to manufacture, largely free of leakage oil and is versatile.

The hydraulic valve according to the invention, in which the previously shown The problem is solved, is characterized in that the control piston as an annular piston is formed and arranged around the valve body. The training of the control piston as an annular piston, it allows the hydraulic valve to be constructed very easily overall, because now the valve body is inside of the control piston arranged can be. But this allows constructive simplifications, which are detailed below should be explained in more detail.

First, the jacket of the control piston, which is designed as an annular piston be provided with at least one pressure medium bore. This pressure medium bore can serve as pressure medium inlet or pressure medium outlet, in which case the Pressure medium flows in radially in the first case and flows out axially and in the second case flows in axially and flows out radially.

Of course, with the hydraulic valve according to the invention, the Control piston with the one prevailing in the pressure medium inlet or in the pressure medium outlet Pressurized; for this purpose it is expedient to use the hydraulic valve according to the invention to be constructed so that the control piston designed as an annular piston is coaxial with his Longitudinal axis in one direction through the spring element and the pressure medium outlet prevailing pressure, in the other direction by the pressure prevailing in the pressure medium inlet Pressure is applied. The spring element, more precisely the spring characteristic of the spring element is ultimately for the control characteristic of the invention Hydraulic valve is decisive, because the spring force of the spring element determines the resulting pressure difference at the throttle point formed by the valve body.

A very particularly simple embodiment of the invention Hydraulic valve is characterized in that it is designed as an annular piston Control piston arranged together with the valve body in the recess of the housing is. In this construction, the orifice formed by the valve body are and the further throttle point formed by the control piston practically integrated with one another, so that actually only a single recess has to be provided in the housing.

If one considers the construction of the hydraulic valve according to the invention so that the pressure medium flows in axially and flows out radially, it is advisable to to arrange the pressure medium entering coaxially to the recess of the housing.

In this case you can easily enter the pressure medium a preferably conical bevel to form a valve seat for the valve body Mistake. This construction has the very significant advantage that here in one Hydraulic valve at the same time the functions of a constriction control valve and a Check valve are realized. An absolutely tight valve seat can be used via the valve seat Realize closing this hydraulic valve. The otherwise unavoidable leakage path past the control piston is completely shut off. In closed The state of this hydraulic valve is therefore completely free of leakage oil, without any additional particularly complex measures would be required.

In the last-explained embodiment of the invention Hydraulic valve is particularly recommended a construction that is characterized is that between the valve body and the pressure medium inlet, a compensating body is arranged that the compensating body has a central bore for the formation of the Has the valve seat for the valve body that the compensating body at its the Pressure medium enters a preferably conical bevel as a sealing surface facing the side for a further valve seat and that facing away from the spring element Hydraulic side of the control piston with the area between the two valve seats connected is. Since the control piston is hydraulically connected to the area between the is connected to both valve seats, is also in this case with the hydraulic valve closed the leakage path past the control piston is completely blocked. Incidentally, this is allowed to Further explanation of the function of this compensation body on DE-OS 27 50 502 be referenced, in which this compensating body for a hydraulic valve is detailed has been described. The disclosure content of DE-OS 27 50 502 is also for Disclosure content of this present patent application made.

Instead of the control piston designed as an annular piston together with to arrange the valve body in the recess, there is also the possibility of the outside of the housing an annular twist or the like.

to be provided for the control piston designed as an annular piston and on Put on the housing a cap that encompasses the control piston from the outside.

This construction of the hydraulic valve according to the invention is also technically simple in terms of production, since only in addition to the recess for the valve body a twist or the like. Must be provided on the outside of the housing. the The throttle point formed by the valve body and the other one formed by the control piston Throttle points are separated from each other here, which is sometimes control-related Has advantages.

In addition, the above is about the operation of the invention Hydraulic valve nothing has been said. It goes without saying that all types of operation come into question, for example manual actuation, hydraulic actuation, pneumatic Actuation, electrical, electromagnetic or magnetic actuation or combinations these types of actuation. In particular, the last-mentioned embodiments of the invention Hydraulic valves with a compensating body are particularly suitable for hydraulic ones or electromagnetic actuation or

Steering.

In the following the invention is based on a mere exemplary embodiment explain the illustrative drawing in more detail; 1 shows a first exemplary embodiment of a hydraulic valve according to the invention in section, FIG. 2 in a longitudinal section the control piston for the hydraulic valve according to FIG. 1, FIG. 3 shows the control piston in cross section according to Fig. 2, Fig. 4 shows a second embodiment of an inventive Hydraulic valve in section, FIG. 5 shows a third exemplary embodiment of an inventive Hydraulic valve in section and FIG. 6 shows a fourth exemplary embodiment of an inventive Hydraulic valve in section.

The hydraulic valve 1 according to the invention shown in FIG. 1 is intended for the pressure medium supply of a consumer and can in particular as Flow control valve are used. This hydraulic valve 1 has a pressure medium inlet 2, a pressure medium outlet 3 and a recess 4 Aufeisendes housing 5. In the recess 4 of the housing 5 there is a valve body 6 in the longitudinal direction of the recess 4 slidably arranged. The recess 4 is designed as a through hole and closed at their end faces by two closure caps 7, 8. The one Closure cap 7 has a pressure-tight passage 9 for an adjusting spindle 10 on. The adjusting spindle 10 is on the one hand with the valve body 6, on the other hand provided with the adjustment knob 11. In this way, the valve body 6 is longitudinal the recess 4 adjustable.

In addition to the valve body 6, the hydraulic valve shown is in the housing 5 1 a control piston 12 and a spring element acting on the control piston 12 13 provided. The pressure medium flow from the pressure medium inlet 2 to the pressure medium outlet 3 can be throttled by means of the valve body 6, and that which occurs on the valve body 6 The pressure drop can be kept constant via the control piston 12.

The control piston 12 is, as FIG. 1 clearly shows, as an annular piston formed and arranged around the valve body 6. The jacket of the as a ring piston The control piston 12 formed is provided with a plurality of pressure medium bores 14. Another pressure medium bore provided in the housing 5 15 leads from the pressure medium enters 2 to the end of the control piston facing away from the spring element 13 12. From Fio. 1 it can be seen that the piston 12 designed as an annular piston coaxial to its longitudinal axis in one direction through the spring element 13 and, about the pressure medium bore 15, the pressure prevailing in the pressure medium 2 and acted upon in the other direction by the pressure prevailing in the pressure medium outlet 3 is. This is a matter of course here because the piston is designed as an annular piston Control piston 12 together with the valve body 6 in the recess 4 of the housing 5 is arranged.

From Figs. 2 and 3 there is still the exact construction of the Control piston 12, in particular the fact that the control piston 12 has four on his Has circumferentially evenly distributed arranged pressure medium bores 14.

The hydraulic valve 1 shown in Fig. 1 works as follows: If the pressure prevailing in the pressure medium inlet 2 rises above a certain minimum value on, the rule is piston 12 against the spring force of the spring element 13 after moved down, and between the inner edge 16 on the control piston 12 and the valve body 6 a flow opening is released. The flowing through this flow opening Pressure medium exits at pressure medium outlet 3 or is discharged from the pressure medium outlet 3 supplied from a consumer. A corresponding one builds up in the pressure medium outlet 3 Pressure on, and this pressure prevailing in the pressure medium outlet 3 acts together with the spring force of the spring element 13 that prevails in the pressure medium inlet 2 and on the control piston 12 counteracting pressure. The one at the throttle point The differential pressure setting is, in the control range of this hydraulic valve 1, alone determined by the spring force of the spring element 13.

The second exemplary embodiment of a hydraulic valve shown in FIG. 4 1 differs from the exemplary embodiment of a hydraulic valve shown in FIG. 1 1 initially in that the flow direction of the pressure medium is reversed. The pressure medium inlet 2 is here coaxial with the recess 4 of the housing 5, while the pressure medium outlet 3 extends radially is arranged. It is of particular importance in this hydraulic valve 1 that the Pressure medium inlet 2 with a conical bevel to form a valve seat 17 is provided for the valve body 6. This hydraulic valve closes via the valve seat 17 when the adjusting knob 11, i.e. the valve body 6, is actuated accordingly, absolutely tight, including the one present in the embodiment of FIG Leakage is completely shut off past the control piston 12. In contrast to the exemplary embodiment According to FIG. 1, the hydraulic valve 1 according to the exemplary embodiment according to FIG. 4th in other words, when closed, it is actually leak-free.

In the third embodiment shown in FIG Hydraulic valve 1, the direction of flow of the pressure medium is the same as in the exemplary embodiment of a hydraulic valve 1 shown in FIG. 4.

This hydraulic valve 1 shown in Fig. 5 differs of the hydraulic valve 1 shown in Fig. 4 initially in that no manual operation is provided, but a hydraulic or a combined electromagnetic and hydraulic control is provided. This is not shown in detail here, but can be taken from DE-OS 27 50 502 without difficulty.

The hydraulic valve 1 shown in Fig. 5 has apart from the Components already explained above additionally a valve body 6 contrary to the in the pressure medium inlet 2 prevailing pressure acting in the closing direction Spring element 18 which is arranged in the recess 4 of the housing 5. aside from that is the side of the valve body 6 facing away from the pressure medium inlet 2 via a Pressure equalization line 19 with a throttle point 20 with the pressure medium inlet 2 connected. The pressure equalization line 19 with the throttle point 20 is a throttle bore executed in the valve body 6. The area facing away from the pressure medium inlet 2 Recess 4 is via a control pressure connection 21 to a not shown Control device connected. The pressure medium inlet can be relieved via the control pressure connection 21 2 side facing away from the valve body 6 take place, with which then the opening movement of the valve body 6 can be initiated. Otherwise, the valve body 6 is over a sealing element 22 is guided in a sealing manner in the recess 4 of the housing 5.

A special feature of the hydraulic valve shown in FIG. 5 1 consists in that between the valve body 6 and the pressure medium inlet 2 a Compensation body 23 is arranged. The compensation body 23 has a central Bore 24 to form the valve seat 17 for the valve body 6. This centric Bore 24 acts with a conical tip 25 of the valve body 6 to form of the valve seat 17 together.

On its side 26 facing the pressure medium inlet 2, the Compensation body 23 has a conical bevel as a sealing surface for a further valve seat 27 on. In addition, the compensating body 23 is radially outside its central position Bore 24 has several compensation bores 28. Also for how this works Construction may be referred to DE-OS 27 50 502.

It is essential in the hydraulic valve 1 shown in FIG. 5 that that the side of the control piston 12 facing away from the spring element 13 is hydraulic is connected to the area between the two valve seats 17 and 27, namely via the compensating bores 28 in the compensating body 23. In any case, is also at This hydraulic valve 1 ensures that in the closed state of the pressure medium inlet 2 prevailing pressure is not present at the control piston 12, so that the previously unavoidable any leakage path past the control piston 12 is completely shut off. Regarding the functional advantages of this hydraulic valve 1 with compensating body 23 reference may again be made to DE-OS 27 50 502.

In the fourth embodiment shown in Fig. 6 one Hydraulic valve 1 is different from the embodiment shown in FIG. 5 a hydraulic valve 1, on the outside of the housing 5 a annular Turning 29 is provided for the regulating piston 12, which is designed as an annular piston. on the housing 5 is fitted with a cap 30 encompassing the control piston 12 from the outside. The control piston 12 here also has several pressure medium bores 14, which with Pressure medium exited 3 of the housing 5 and with the pressure medium exited 3 aligned Passages 31 of the cap 30 can be brought to cover. The one designed as an annular piston Control piston 12 is here coaxial to its longitudinal axis in a direction through the Spring element 13 and, via a pressure medium bore 32 in the cap 30, in the pressure medium outlet 3 prevailing pressure, in the other direction by the pressure medium inlet 2 prevailing pressure can be applied.

Otherwise, this hydraulic valve 1 corresponds to that shown in FIG Hydraulic valve 1.

It is also essential in the hydraulic valve 1 shown in FIG. 6 that that the side of the control piston 12 facing away from the spring element 13 is hydraulic is connected to the area between the two valve seats 17 and 27.

This ensures that when the hydraulic valve is closed 1 the pressure prevailing in the pressure medium inlet 2 is not present at the Reael piston 12, so that the leakage path past the control piston 12 is completely blocked.

For the sake of completeness, it should be noted that at various Places of the illustrated hydraulic valve 1 sealing elements 33 are provided.

The hydraulic valve 1 shown in Fig. 6 operates as follows (similar to also works the hydraulic valve 1) shown in Fig. 5: It is assumed that that this hydraulic valve 1 is initially closed.

Then this hydraulic valve 1 has the function of an absolutely safe sealing shut-off valve. If the pressure rises in the pressure medium enters 2 over a certain value or the valve body 6 is relieved of pressure at the rear, so lifts first of all, because of the larger diameter, the compensating body 23 from the Valve seat 27 from, while the compensating body 23 is still sealing the valve body 6 is present. The pressure prevailing in the pressure medium inlet 2 can now also act on the Control piston 12 to act. The control piston 12 is against the spring force of the spring element 13 moved upward in FIG. 6, so that the flow cross-section in the area of the pressure medium outlets 3 is decreased. Now also lifts the valve body in the further course of the opening movement 6 from the valve seat 17, pressure medium begins from the pressure medium inlet 2 to the pressure medium outlet 3 to flow. The pressure prevailing in the pressure medium outlet 3 rises and takes effect in the opposite direction on the rule piston 12. This increases the flow cross-section enlarged again in the area of the pressure medium outlets 3. So overall the Flow rate regulated to a certain value and kept constant at this value.

Claims (7)

Claims: @ Hydraulic valve for supplying pressure medium of a consumer with at least one pressure medium inlet, at least one Pressure medium outlet and a housing having a recess, one in the recess of the housing displaceably arranged valve body, a control piston and a the spring element acting on the control piston, the pressure medium flow entering from the pressure medium inlet to the pressure medium outlet can be throttled by means of the valve body and the at the Valve body pressure drop across the control piston can be kept constant, d a d u r c h g e k e n nz e i c h n e t that the control piston (12) is an annular piston is formed and arranged around the valve body (6). 2. Hydraulic valve according to claim 1, characterized in that the Jacket of the regulating piston (12) designed as an annular piston with at least one pressure medium bore (14) is provided. 3. Hydraulic valve according to claim 1 or 2, characterized in that that the control piston (12) designed as an annular piston is coaxial with its longitudinal axis in one direction through the spring element (13) and the pressure medium outlet (3) prevailing pressure, in the other direction by the prevailing pressure in the pressure medium Pressure is applied. 4. Hydraulic valve according to one of claims 1 to 3, characterized in that that the control piston (12) designed as an annular piston together with the valve body (6) is arranged in the recess (4) of the housing (5). 5. Hydraulic valve according to one of claims 1 to 4, characterized in that that the pressure medium inlet (2) is arranged coaxially to the recess (4) of the housing (5) and with a preferably conical bevel to form a Valve seat (17) for the valve body (6) is provided. 6. Hydraulic valve according to claim 5, characterized in that between the valve body (6) and the pressure medium inlet (2) a compensating body (23) is arranged is that the compensating body (23) has a central bore (24) to form the Valve seat (17) for the valve body (6) has that the compensating body (23) on its side (26) facing the pressure medium inlet (2) a preferably conical one Has chamfer as a sealing surface for a further valve seat (27) and that of the spring element (13) facing away from the side of the control piston (12) hydraulically with the Area between the two valve seats (17, 27) is connected. 7. Hydraulic valve according to one of claims 1 to 6, characterized in that that on the outside of the housing (5) an annular twist (17) or the like. for the control piston (12) designed as an annular piston and on the housing (5) a cap (18) encompassing the control piston (12) from the outside is fitted.