DE2601583B2 - Valve for hydraulic systems - Google Patents

Description

The invention relates to a valve for the automatic switching of a delivery line of a hydraulic one Plant between a storage tank connected to the delivery line via a check valve on the one hand and a resilient continuation on the other hand, according to the preamble of claim 1.

Valves of the above type have the purpose of being connected to a storage tank via a check valve Delivery line at a predetermined maximum storage pressure with a resilient continuation to connect and switch off from this continuation at a predetermined minimum storage pressure.

■> A valve of this type is known from DE-PS 1258222. After that it is known to continue a delivery line is a slidable in a bore, in the closing direction with a spring to assign loaded closing element, which against

into the force of the spring from the pressure of the continuation and the delivery line as well as on the spring chamber side via a throttle bore on the closing element side from the pressure of the Delivery line is acted upon and the continued operation is throttled when the action of the spring and the predominate

i "> specified delivery pressure from the delivery line locks.

The Federraunr «is via a control element, which a valve that can be actuated under the action of the pressure of the spring chamber against the force of a spring

- '«indicates, can be connected to the continuation, whereby the dem Continuation of the associated closing element can be relieved in the closing direction and the continuation of the movement with the conveying line is connectable. The control member also has one of the accumulator pressure against the action of the pressure

- · "> of the spring chamber and the spring of the valve acted upon Opening piston, which the valve counteracts when the accumulator pressure is predominant the action of the spring keeps the valve in the open position. It is disadvantageous that the connection of the

hi Continuation of the delivery line for the purpose of shutdown of the storage tank charging as a function of the pressure of the delivery line specified indirectly via a throttle valve takes place that the control member has a complex structure and that the valve of the control

i · member in the closing direction additionally from the pressure of the Continued running is applied, thereby avoiding a storage maximum and minimum pressure determining variable closing force of the valve complex and with regard to a precisely

Hi stopping switching cycle, compensation means that are difficult to control, for example one against the action of the spring of the valve and the pressure of the continuation spring-loaded compensation piston are to be arranged.

The invention is based on the object of creating a valve of the type mentioned at the outset which has a simple, compact design and a precisely adjustable, accumulator pressure-dependent Switching cycle for switching the resilient continuation on and off while avoiding a dependency guaranteed by the burden of continuing.

According to the invention, this object is achieved by the feature specified in the main claim characterization

v "> solved.

The advantages achievable with the invention are in particular that with the proposed Closure piece, which is spring-loaded against the pressure of the delivery line and via the accumulator pressure

Wi control element which can be actuated against spring force as a function of the force of the spring Is arranged either acted upon by the pressure of the delivery line or the continuation, a simple to build Valve is shown, which has a resilient continuation depending on the effect of a

h'i spring purely dependent on the storage pressure with the delivery line connects or blocks from this and thus one unaffected by a variable load of the continuation Storage crash guaranteed.

Further developments and advantageous refinements of the invention are set out in the subclaims.

The closure piece can advantageously be built up with the proposed switch slide, which is easy to manufacture and accordingly spring-loaded and pressurized in a bore Slidably displaceable and limited in its displaceability by stops can be arranged and one Reliably continues running radially into the bore depending on its actuation position either connects to the delivery line or shuts off from it.

The control member can also be advantageously constructed with the proposed control slide, which is also easy to manufacture and, depending on the accumulator pressure, can be slidably displaceable against spring force in a housing bore and, depending on its actuation position, the space of the switching slide connected to the housing bore via a bore via an annular groove reliably connects either to an outlet of the delivery line opening into the housing bore or to the continuation.

The control slide, which is actuated against spring force as a function of the accumulator pressure, thus produces a path-dependent connection of the space of the spring of the slide switch either with the delivery line or with the continuation, with the length of the actuation path of the control slide between the two switching points a constant measure for an exactly to be observed difference between the Maximum and minimum storage pressure given and the maximum storage pressure by means of a usual adjusting screw in the preload changeable spring of the control slide can be predetermined is.

With the also proposed, sealed on the spring side Arrangement of the control slide is expediently avoided that leakage losses from the outlet of the continuation which opens into the housing bore of the control slide into the room the spring assigned to the control slide can penetrate.

An embodiment of the invention is shown in the drawing and will be described in more detail below described:

The figure shows a valve for hydraulic systems shown in longitudinal section.

The figure of the valve shown in the drawing contains a housing I with a connection 2 a only symbolically shown pump 3, a connection 4 of a symbolically shown memory 5 and a connection 6 of a resilient continuation 7.

The connection 2 is via a delivery line 8, a check valve 9 and a space 10 with the connection 4 of the memory 5 connected. In the space 10 opens a housing bore 11 into which a Control member 12 engages.

The control member 12 comprises a sliding and sealed at its, the space 10 opposite end Control slide 13 which is introduced into the housing bore 11 and has an annular groove 14 and arranged displaceably against the force of a first spring 16 under the action of the accumulator pressure is.

The first spring is arranged in a first spring chamber 18, which is connected to one of the housing 1 attached spring cup 17 is formed.

The first spring 16 is displaceable on one side via a spring space side and is displaceable in its displaceability on the housing side limited spring plate 15 resting on the control slide 13 and on the other Side via a spring plate 19 on an adjusting screw introduced on the bottom side in the spring cup 17

20 supported and arranged variably preloaded by means of the adjusting screw 20.

From the connection 2, apart from the delivery line 8, a laterally connected to the resilient continuation 7 branches off Blind hole 21, in which a given between a given at the bottom of the blind hole 21 stop 22 and one of one in the blind hole

21 introduced snap ring 23 formed stop 24 displaceable locking piece 25 is introduced, which blocks the resilient continuation 7 when it rests against the stop 24 and when it rests against the stop 22 releases.

The closure piece 25 is of a slide switch 26 formed, which is slidably displaceable in the blind hole 21 and against the stop 24 of a second spring 27 is arranged loaded.

The second spring 27 is formed in one of the blind bore 21 and of the slide switch 26 limited spring space 28, on the one hand on the bottom side of the blind hole 21 and on the other hand on the bottom side a central recess of the slide switch 26 is arranged supported.

The spring space 28 is formed by a bore 29 with the housing bore 11 extending from the bottom side of the blind bore 21 and on the one hand the confluence of the bore 29 with a branch bore 8 'of the delivery line 8 and on the other hand the confluence of the bore 29 with a branch bore T of the resilient toilet run 7 connected that the spring chamber 28 via the bore 29 and the annular groove 14, depending on the position of the control slide 13, either in the basic position of the control slide 13 with the branch bore 8 'of the delivery line 8 or in a position under the effect of the accumulator pressure against the force of the first spring 16 assumed actuating position of the control slide 13 with the branch bore T of the resilient continuation 7 is connected.

The mode of action of the shown in tier drawing and previously described valve is as follows:

In the basic position of the valve shown in the figure, the control slide 13 is under the effect of the accumulator pressure on the spring plate 15 resting on the housing 1 under the force of the first spring 16 and connects via its annular groove 14 and the bore 29 the spring chamber 28 with the branch bore 8 ' of the delivery line 8, whereby the slide valve acted upon on both sides by the pressure of the delivery line 8 26 rests against the stop 24 under the action of the second spring 27 and the resilient continuation 7 locks. The pump 3 thus delivers via the delivery line 8, the check valve 9 and the space 10 in the memory 5.

As soon as a maximum pressure determined by the force of the first fuel 16 is built up in the accumulator 5 is, the spool 13 moves under the action of the accumulator pressure against the force of the first Spring 16 and initially blocks the branch bore 8 ', whereby the connection of the spring chamber 28 with

the delivery line 8 is interrupted, and finally connects after a switching cycle for the switching off and connection of the resilient Wc iterlaufes 7 in addition to the characteristic curve of the first spring 16 co-determining path via its annular groove 14 and the bore 29, the spring chamber 28 with the branch bore T of the resilient Continuation 7, whereby the slide switch 26, now only acted on one side by the pressure of the delivery line 8, moves against the force of the relatively weak, second spring 27 and the effect of the pressure of the resilient continuation 7 in the direction of the stop 22 and opens the resilient continuation 7. The pump 3 thus conveys via the space of the blind bore 21 released by the slide switch 26 into the resilient continuation 7.

When the accumulator pressure drops, the control slide 13 moves with the predominant effect the first spring 16 against the action of the accumulator pressure in its previously described basic position back, the control slide 13 initially the branch bore 7 'of the resilient continuation 7 and so that the connection of the spring chamber 28 with the resilient continuation 7 blocks and then after covering the aforementioned, predetermined path via its annular groove 14 and the bore 29 the spring chamber 28 connects to the branch bore 8 'of the delivery line 8, whereby the now on both sides acted upon by the pump pressure slide switch 26 under the action of the second spring 27 in its the resilient continuation 7 of the delivery line 8 disconnecting and thus initiating the storage charge System position on the stop 24 is moved.

During the switching cycle for the disconnection and connection of the resilient continuation 7 from the delivery line 8 except for the characteristic curve of the first spring 16 from that by the distance between the junctions the branch bores 7 'and 8' into the housing bore 11 and / or the actuating path of the control slide formed by the length of the axial extension of the annular groove 14 13 is dependent, the maximum storage pressure with constant switching cycle is determined by the means of the Adjusting screw 20 adjustable bias of the first spring 16 can be predetermined according to the requirements.

1 sheet of drawings

Claims (3)

Patent claims: 1. Valve for automatic switching of a delivery line in a hydraulic system between an accumulator connected to the delivery line via a check valve on the one hand and a resilient continuation on the other hand, which has the following features: A control member is provided which acts against the force of a first spring from the accumulator pressure is; a closure piece is provided through which the resilient continuation with the delivery line is connectable; the closure piece is acted upon by the pressure of the delivery line against the force of a second spring; the second spring is arranged in a combustion chamber delimited by the closure piece; the spring chamber can be connected to the resilient continuation via the control member; the closure piece is arranged so that it is with a connection of the spring chamber with the resilient continuation connects this continuation with the delivery line; there is a connection between the spring chamber and the delivery line, characterized in that that the connection (29,14,8 ') between the spring chamber (28) and the delivery line (8) can be switched off by the control element (12). 2. Valve according to claim I, characterized in that the closure piece (25) as a slide switch (26) is formed. 3. Valve according to claims 1 and 2, characterized by the following features: a) the control member (12) is a control slide (13) trained, b) the space of the first spring (16) is sealed against the control slide (13); c) the control slide (13) arranged in a housing bore (11) has an annular groove (14), via which a bore (29) connected to the spring chamber (28) as a function from the position of the control slide (13) either with the delivery line (8, 8 ') or with the resilient continuation (7, 7 ') is connectable; d) the housing bore (11) is on one side of the bore (29) with the delivery line (8.8 ') and on the other side of this bore (29) with the resilient continuation (7, 7 ') connected.