DE2601583A1 - SHUT-OFF VALVE FOR HYDRAULIC SYSTEMS - Google Patents

Description

Hanover, 1Q.1Z.197S U) P 1/76

UIABCO UESTINGHOUSC GP) BH, Hanover Shut-off valve for hydraulic systems

The invention relates to a shut-off valve for hydraulic Systems that have a resilient Uleiter run from or to the with a through a non-return valve secured storage connected delivery line via a storage pressure-dependent against spring force The control element is switched on or off by a locking piece.

Shut-off valves of the above type have the purpose of ensuring a resilient overflow of a delivery line connected to a store secured by a check valve at a predetermined rate Shut off minimum storage pressure and open at a predetermined maximum storage pressure.

Shut-off valves are known in which this depends on the accumulator pressure against spring force applied control member with the control member arranged in Ulirkverbindungen, the Uleiterlauf of the conveyor line connected to the accumulator via a non-return valve has accumulator pressure-dependent blocking or opening closure piece. Included is disadvantageous that the arrangement of the locking piece in Ulirkverbindungen with the control member and the springs required different characteristics and / or to bzu. switchable Surfaces a complex valve structure and a difficult to control,

709829/0138

Bring failure-prone valve system.

The invention is based on the object of creating a shut-off valve of the type mentioned at the beginning a simple, compact structure, a failure-prone, accumulator pressure-dependent disconnection or connection of the resilient multi-run the feed line connected to the memory via a non-return valve with a predeterminable switching cycle.

According to the invention, this object is achieved in that the shut-off valve is a function of the pressure of the delivery line on the one hand and on the other hand has a spring acted upon and between two stops displaceable closure piece, which on the spring space side over the control member from a predeterminable minimum storage pressure with the delivery line and from a predeterminable maximum storage pressure is arranged so that it can be connected to the üJeiterlauf.

Advantageous refinements and developments of the object according to the main claim are specified in claims 2-5.

The achievable with the shut-off valve designed according to the invention Advantages are in particular that, on the one hand, it is weakly spring-loaded and on the one hand it is dependent on the storage pressure via the control member with the delivery line or with the üJeiterlauf connectable and on the other hand connected to the delivery line arrangement of the between two Slidable locking piece stops the structure of the Shut-off valve considerably simplifying, solely from the trouble-free

709829/0138 - 3 -

controllable pressure of the delivery line caused actuation of the Closure piece is given. It is also advantageous here for the control member and the closure piece to be produced in a rational manner and mountable slide form according to claims 2 and 5 train, uiobei over the control member depending on its position to be established connection of the spring chamber of the closure piece either with the delivery line or with dam Overflow only via one to be introduced into the control slide Annular groove according to claim 2 and the predetermination of the switching cycle, inter alia, by the corresponding dimensioning of the axial extent this annular groove according to claim 3 can be carried out in a simple manner are.

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

The figure shows the top view of a device designed according to the invention Shut-off valve for hydraulic systems, shown in section.

The figure of the shut-off valve shown in the drawing is outlined a housing 1 with a connection 2 of a only symbolically shown pump 3, a connection 4 of a symbolically shown Memory 5 and a connection 6 of a loadable overflow 7.

The connection 2 is via a delivery line 8, a check valve 9 and a space 1Q connected to the terminal 4 of the memory 5.

709829/0138

A housing bore 11 opens into the space 10, into which a Control member 12 engages.

The control member 12 comprises a sliding and sealed on its side opposite the space in the housing bore 11 is inserted brought and thus on the one hand acted upon by the accumulator pressure Control slide 13, which has an annular groove 14, and the control slide 13 on the other hand via a spring plate 15 against the spring 16 acting on the accumulator pressure, which spring space is delimited by a spring cup 17 attached to the housing 1 arranged and their bias via a on the bottom of the spring pot 17 and a set screw 19, on the one hand, resting against the set screw 19 and, on the other hand, the spring 16 supporting spring plate 20 is variable.

In addition to the delivery line 8, one branches off at the side from the connection 2 dam resilient continuation 7 connected blind hole 21, in which a given between one at the bottom of the blind hole 21 Stop 22 and a stop 24 displaceable locking piece formed by a snap ring 23 introduced into the blind bore 21 25 is introduced, which the resilient üieiierlauf 7 at System on stop 24 blocks and releases when it comes to contact with stop 22.

The closure piece 25 is slightly spring-loaded against the stop 24 Slide switch 26, the spring 27 of which is formed in a through a central recess of the slide switch 26 and from

709829/0138 " ⁵ ~

End of the blind bore 21 limited spring space 2Θ is arranged.

The spring chamber 28 is formed by a bore 29 with the housing bore 11 extending from the bottom side of the blind bore and this on the one hand the confluence of the bore 29 with a feed bore B ^{1 of} the delivery line B and on the other hand the confluence of the bore 29 with a feed bore 7 * of the resilient liJeiterlaufes 7 connected in such a way that the spring chamber 28 via the bore 29 and the annular groove 14 in the basic position of the control slide 13, which is assumed when the accumulator is charged and shown in the figure, is connected to the supply line 8 ^{1 of} the delivery line 8 and in the case of a predeterminable maximum accumulator pressure against the action of the spring 14 attained position of the control slide 13 with the branch line 7 'of the continuation 7 is in connection.

The mode of operation of the embodiment of the invention shown in the drawing and described above is as follows:

In the basic position of the shut-off valve shown in the figure the control spool, which is acted upon by the accumulator pressure on the one hand, is located 13 on the other hand in contact with the spring plate 15 resting on the housing 1 under the action of the spring 16 and connects via its annular groove 14 and the bore 29 the spring space 28 with the Zueigbohrung 8 * of the delivery line 8, whereby the slide switch 26 acted on on both sides by the pump back pressure the spring 27 rests against the stop 24 and the resilient Ueiterlauf locks. The pump 3 thus conveys into the reservoir 5 via the delivery line 8, the check valve 9 and the space 10.

709829/0138 " ⁶ "

With increasing accumulator pressure, the control slide 13, acted upon by the accumulator pressure, moves against the action of the spring 16 and first blocks the branch bore 8 ¹ , whereby the connection of the spring chamber 28 with the delivery line 8 is interrupted, and finally connects after one the switching cycle next to the characteristic curve of the Spring 16 co-determinative bend via its annular groove '14 and the bore 29 the spring space 28 with the branch bore 7 ^{1 of} the resilient continuation 7, whereby the slide switch 26, which is now only acted upon by the back pressure of the pump, counteracts the action of the weak spring 27 and abuts the stop 22 moves and the resilient continuation 7 opens. 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 falls, the control slide 13 moves under the action of the spring 16 against the action of its accumulator pressure, initially shut off the branch line 7 *, whereby the connection of the spring chamber 28 with the resilient Continuation 7 is interrupted, and after covering the aforementioned, predetermined path via its annular groove 14 and the Bore 29 connecting the spring chamber 28 with the branch line 8 'of the delivery line 8, whereby the now both sides of the pump back pressure acted upon slide switch 26 under the action of the spring 27 in its the resilient continuation 7 switching off and so that the system position initiating the storage charge goes back to the stop, back to its starting position.

709829/0138

260-583

During the switching cycle of the shut-off valve except through the Characteristic curve of the spring 16 through the distance between the junctions of the access bores 7V and 8 'in the housing bore 11 and / or can be predetermined by the length of the axial extension dBr annular groove 14 is, the change in the preload of the spring 16 which can be made via the adjusting screw 20 brings about the requirements adjustable maximum storage tank pressure with constant switching rate.

709829/0138

Blank page

Claims (5)

2601683 patent or protection claims 1. Shut-off valve for hydraulic systems, which is a resilient Continuation from or to the one with a check valve secured storage tank connected delivery line via a storage pressure dependent switches off or on the control element acted upon against spring force by a locking piece, characterized in that, that the shut-off valve on the one hand from the pressure of the delivery line (8) and on the other hand from a Spring (27) acted upon and between two stops (22 and 24) has displaceable closure piece (25), which on the spring space side Via the control member (12) from a predeterminable storage minimum pressure with the delivery line (8) and from one predeterminable maximum storage pressure with the resilient Ueiterlauf (7) is arranged to be connectable. 2. Shut-off valve according to claim 1, characterized in that dac The control member (12) is a control slide (13) which is acted upon by the accumulator pressure against the action of a spring (16) and which slides and sealed against the spring chamber (13) of the spring (16) in a bore (29) with the spring chamber (28) of the closure piece (25) and on the one hand the bore (29) with the delivery line (8, 8 ') and on the other hand the bore (29) with the resilient continuation (7, 7 ') connected housing bore (11) is arranged and one, depending on its position, the spring chamber (28) of the closure piece (25) either with the delivery line (8, 8 ') or with the continuation (7, 7 ·) connecting Has annular groove (14). 709829/0138 ORIGINAL INSPECTED 3. Shut-off valve according to claim 2, characterized in that the annular groove (14) in the Länga of its axial extent and the confluence of the delivery line (B, B ¹ ) and the üleiterlaufas (7, 7 ') in the housing bore (11) in their spacing have a measure that agrees with the switching cycle of the Abschaitventilss. 4. Shut-off valve according to claim 2, characterized in that the bias of the spring (16) of the control slide (13) can be changed by means of an adjusting screw (20). 5. Shut-off valve according to Claims 1 and 2, characterized in that that the closure piece (25) is designed as a slide switch (25). 709829/0138