DE2056461C3 - Valve for limiting a pressure medium flow - Google Patents

Description

The invention relates to a valve for limiting a pressure medium flow, with a counter the force of a regulator spring displaceable in a housing, containing a throttle, hollow cylindrical Control slide, which has at least one radial bore penetrating its wall, its free one Cross-section can be changed in cooperation with a control edge in the housing, as well as with a damping device for the movement of the control spool.

Such a valve is known from French patent specification 1516 611. It has the task of the Damping the spool when moving against the spring force, while moving in the opposite direction Direction is moved undamped by an opening check valve and the spring force. It proves But it is disadvantageous that this type of damping undesirably high overshoots of the Control current arise during the response of the valve.

Also known is a flow control valve, the control member of which is not a hollow cylinder and is open that no spring acts. A damping piston designed as an extension of the control member protrudes into an additional cylinder, which leads to a complex design (DE-PS 8 68 360).

Furthermore, a flow control valve is known (DE-AS 12 68 869), in which a damping device is the

is so-called starting jump but prevented Achieving a flow setpoint no longer has a dampening effect

Also known is a flow control valve (DE-AS 10 75 851) which is effective in both flow directions A damping throttle arranged laterally to the slide bore in the housing is permitted in both Direction of movement only an equally strong damping. This valve does not have a hollow cylindrical control slide and baui also complex.

The object of the invention is to provide a valve of the type mentioned, in which the movement of the The control slide is slightly damped against the spring force, but strongly in the other direction is damped and also has a compact structure

This object is achieved in that the damping device between a damping cylinder and a non-displaceable piston that cooperates with it forms a damping space becomes, the one that reduces the pressure medium flow Movement of the control slide is increased in the opposite direction, however, is decreased and which is limited by a shaft and a head of the piston arranged in the damping cylinder, with the damping cylinder a throttle gap connected to the interior of the control slide forms and that the damping cylinder is formed by the governor spring against one formed in the control slide Shoulder and the piston is pressed against a part fixed to the housing.

In this way, a valve for limiting a pressure medium flow is achieved in which the closing and Opening movements of the control slide experience different degrees of damping and that too Space-saving builds This can be undesirable

Avoid excessive overshooting of the control current while the valve is responding.

Further advantageous developments of the subject matter of the invention emerge from the subclaims. An example according to the invention is illustrated by the drawing it shows in

F i g. 1 a longitudinal section through a flow limiting valve,

F i g. 2 shows a detail of the embodiment according to FIG. 1,

Μ Fig.3 a modification of the detail according to the Embodiment and

4 shows a modification of the detail according to the exemplary embodiment in FIG. 2.
A housing 1 has a bore 2 in which a hollow cylindrical control slide 3 is slidably guided. The control slide 3 has a throttle 6 at its end facing an inflow channel 5

Annular space 8, one delimiting edge 8a of which acts as a control edge in cooperation with the radial bores 7 serves

An outlet channel 9 branches off from the annular space 8. A regulator spring 10 in a part serving as a spring chamber 2a of the bore 2 strives to push the control slide with its end face 13 against the mouth of the inflow channel 5 to slide. The other end of the regulator spring 10 is supported on a spring plate 12, which is in a Bore 2 final plug 14 is housed

A damping cylinder IS with one with breakthroughs The flange 16 provided with 16a is attached by the regulator spring 10 to a shoulder 11 in the control slide 3 pressed Into the interior of the damping cylinder 15, an immovable piston 17, whose shaft 18 penetrates through a hole 19a in the bottom 19 of the damping cylinder 15 and is attached to the spring plate 12 Piston 17, together with the damping cylinder 15, forms a damping chamber 21, which extends from the head 17a of the Piston 17 is limited

If a pressure gradient forms at the throttle 6 due to the inflow, the control slide 3 moves out its rest position against the force of the regulator spring 10 in the direction of the damping chamber 21. At the same time the pressure medium flow is throttled as a result of the reduction in the free cross section of the radial bores 7 in the Control slide 3 through the control edge 8a During this movement of the control slide shifts in the same Dimensions of the damping cylinder 15, as a result of which the damping space 21 is enlarged. Pressure medium is thereby generated through the narrow gap between the head 17a and the damping cylinder 15 as well as between the shaft 18 and the bore 19a is sucked into the damping chamber 21. The movement of the control slide is thereby dampened, but not particularly strong.

If the inflow flow decreases again, the control slide 3 becomes less as a result of the lower pressure drop pushed on the throttle 6 by the force of the regulator spring 10 in the opposite direction. Included also reduces the volume of the damping space 21, and the pressure medium is again through the Gap between the shaft 18 and the bore 19a like also displaced by that between the damping cylinder 15 and the head 17a of the piston 17 the movement of the control spool is dampened more than before. The openings 16a in the flange 16 serve to relieve the spring chamber 2a.

The damping can be achieved by changing the gap between the shaft 18 and the bore 19a in the ground 19 and the gap between the head IVa and the damping cylinder 15 can be influenced.

Another embodiment of the damping device is shown in the example according to FIG. 2. Here is im Damping space 21 is arranged a sleeve 24 partially filling this, which is also in the Damping chamber 21 arranged spring 25 is pressed against the head 17a of the piston 17 The sleeve 24 has a longitudinal groove 27 on its inner circumference.

The sleeve 24 can move in the direction of the spring plate 12

move freely as soon as the control slide 3 to the right is pushed, with pressure medium through the longitudinal groove

27 and between the sleeve 24 and the shaft 18 can escape.

Instead of the spring 25 designed as a helical spring

can also - as in the embodiment of Figure 3 shown - a disk-shaped spring

28 can be used, which has two cranked fingers 29 which lie against the sleeve 24. Another The embodiment is shown in FIG. 4 can be found. Here is a piston 176 made of elastic material with a Lip 30 is provided, which when the damping cylinder 15 is moved in the direction of the spring plate 12 Can reach pressure medium in the damping chamber 21. The damping cylinder 15 moves in the opposite direction, the lip rests against the inner wall 32 of the damping cylinder 15, and that in the The pressure medium located in the damping chamber 21 must in this case pass through a throttle bore provided for this purpose 31 escape in the damping cylinder 15. The movement in the latter direction is again more attenuated than in the one previously described.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1.Valve for limiting a pressure medium stronis, with a hollow cylindrical control slide which can be displaced against the force of a regulator spring in a housing, contains a throttle and has at least one radial bore penetrating its wall, the free cross section of which can be changed in cooperation with a control edge in the housing, as well as with a damping device for the movement of the control slide, characterized in that a damping chamber (21) is formed in the damping device between a damping cylinder (! 5) and a non-displaceable piston (17) which interacts with it, which when the pressure medium flow is reduced Control slide (3) is enlarged, in the opposite direction, on the other hand, is reduced in size and which is limited by a shaft (18) and a head (i7a) of the piston (17) arranged in the damping cylinder (15), which is connected to the damping cylinder (15) the interior of the control slide (3) connected Dros selspalt forms and that the damping cylinder (15) is pressed by the regulator spring (10) against a shoulder (U) formed in the control slide (3) and the piston (17) against a part fixed to the housing. 2. Valve according to claim 1, characterized in that between the shaft (18) of the piston (17) and the damping cylinder (15) leading to it, a second throttle gap is formed 3. Valve according to claim 1 or 2, characterized in that in the damping chamber (21) there is arranged a sleeve (24) which partially fills it and which is pressed against the head (17a) of the piston (17) by a spring (25) also arranged in the damping chamber ) is pressed, and that the sleeve (24) has a longitudinal number t (27) on its inner circumference 4. Valve according to claim 1, characterized in that that the spring (28) is disc-shaped and has at least one bent finger (29) has, which lies against the sleeve (24) 5. Valve according to claim 1, characterized in that the piston (17) is elastic and has a lip (30) resting against the inner wall (32) of the damping cylinder (15) and that in the wall of the damping cylinder a throttle bore (31) is located in the area of the Damping cylinder enclosed volume lies