DE102006033429A1 - Pressure relief valve for delimitation of primary pressure on secondary pressure, has working piston, pre-stressed by compression spring which is supported at supporting body whose position is adjustable in adjusting direction by servo unit - Google Patents

Abstract

The valve has a working piston (4), pre-stressed by a compression spring (26), which is, on one hand, loaded by the primary pressure, and on the other hand, loaded by the secondary pressure. The compression spring cooperates with a valve seat in such a manner that a primary pressure side is brought in a passage position with a secondary pressure side in flow connection which is interrupted in a locking position. The compression spring is supported at a supporting body whose position is adjustable in an adjusting direction by a servo unit, to change the pre-loading of the compression spring.

Description

State of the art

The The invention is based on a pressure limiting valve for limiting of a primary pressure a secondary pressure, housed in an optionally further units or valves receiving housing is, including at least one biased by a compression spring Working piston, which on the one hand by the primary pressure and on the other hand the secondary pressure is loaded and cooperates with a valve seat such that in a passage position, a primary pressure side with a secondary pressure side in fluid communication Can be brought and this flow connection is interrupted in a blocking position, wherein the compression spring on supported by a support body, its position by means of an adjusting device in a direction of adjustment is adjustable to change the bias of the compression spring, according to the preamble of Claim 1.

Such is for example from the German utility model DE 93 14 120.3 known. Such pressure relief valves are used in rail vehicles, for example, to reduce or adjust an inflowing pressure (primary pressure), for example, a control pressure C _v to a certain pressure level (secondary pressure). By changing the position of the support body in the direction of adjustment, the bias of the spring and thus also the height of the secondary pressure can be adjusted. This position is generally changed when used in rail vehicles pressure relief valves that between the compression spring supporting support body and a housing wall slices of different thickness are inserted, so that a reduction or elongation of the compression spring finally causes a change in the secondary pressure.

at Rail vehicles is such a pressure relief valve in the Usually part of a valve assembly and in another valve or Aggregates such as minimum pressure limiter or three-pressure valve containing common housing installed. As part of a pre-assembly of this valve assembly is the secondary pressure the pressure relief valve through a disc of certain thickness preset and then the secondary pressure in the assembled Condition measured. For one usually due then Correction of the secondary pressure the valve assembly must at least partially dismantled, a disc another thickness or more discs between the support body and the housing wall is inserted and the valve device will eventually be reinstalled, which is associated with a certain work and expense.

Of the The present invention is based on the object, a To further develop pressure relief valve of the type mentioned, that the secondary pressure easier and cheaper is adjustable.

These The object is achieved by the Characteristics of claim 1 solved.

Advantages of the invention

The Invention is based on the idea that the adjusting device a in the case rotatably mounted actuator with a perpendicular to the direction of adjustment arranged central axis includes, from an outside of the housing ago drehbetätigbar is, wherein means for converting the rotational movement of the actuator provided in a translational movement of the support body in the direction of adjustment is. This allows the bias of the compression spring from outside of the housing be carried out in a simple manner by that the actuator is rotated is determined by the direction of rotation, whether the secondary pressure higher or is set lower. In particular, this is not a disassembly of the housing more necessary, something opposite The prior art resulted in a significant Kostenerspamis.

By in the subclaims listed activities are advantageous developments and improvements in the specified independent claims Invention possible.

The Conversion of the actuating movement of the actuator in a translational movement of the support body is particularly preferably realized by the fact that the actuator a Stellabschnitt having a control curve, against which by the spring force of the compression spring is a support surface of the support body is stretched and with you cooperate in such a way that depends on the rotational position of the Stellorgangs different positions of the support body in the direction of adjustment realized are. Such a control curve can depending on the desired control characteristic arbitrarily executed be and be formed for example by a cam.

Prefers includes the control curve at least two of the central axis of the Pin arranged at different distances planar shelves, in such a way that dependent from the rotational position of the pin a different footprint on the counter surface comes to the plant. These flat shelves are easy producible, which further reduces the cost.

According to a development, the actuator includes a rotatably mounted in a bore of the housing pin, wherein the pin in the Ge Housing is releasably mounted so that it is replaceable by pulling out of the hole against a pin with another setting curve. In this way, the control characteristic with respect to the secondary pressure without disassembly of the housing can be easily changed.

If this is not desired is, can according to one Alternative the support surface side End of the pin have an expanded cross section, which as axial securing the support surface of the Supporting body behind, so that it can not be pulled out of the hole.

For a hold of the pin in the housing bore it can continue to be useful if an attacking in the center of gravity Weight of the pin pointing in the direction of acceleration Component has. Then wear even the weight of the pen in that this is not enough the hole falls out.

to rotating operation For example, the other end of the pin may have a tool engagement surface. Especially preferred is the attack surface for a this Purpose reserved special tool designed to prevent that the secondary pressure is adjusted by unauthorized persons.

Around Ingress of dirt into the storage of the pen in the housing or To prevent the pressure relief valve, the pin in the Bore be stored axially sunk so that this by a Seal closable is, for example, by a removable rubber stopper.

more accurate is apparent from the following description of an embodiment.

drawing

below is an embodiment of the invention shown in the drawing and in the following Description closer explained. In the drawing shows

1 a cross-sectional view of a received in a housing pressure relief valve according to a preferred embodiment is realized:

2 a sectional view taken along the line II-II of 1 with an adjusting pin;

3 An individual representation of the pin of 2 ;

4 a cross-sectional view of the adjusting pin along the line IV-IV of 3 ,

Description of the embodiment

In 1 is with the reference number 1 denotes a pressure relief valve, as used for example in a pneumatic braking device of a rail vehicle to reduce or adjust an inflowing pressure (primary pressure), in particular a control pressure C _v to a certain pressure level (secondary pressure). The pressure relief valve 1 For example, together with other valves of a valve assembly such as a minimum pressure relief valve in a common housing 2 accommodated.

In the case 2 there is a working piston 4 , which with a on a diaphragm plate 6 adjacent membrane 8th in the case 2 along a valve longitudinal axis 10 is slidably mounted. An inserted in a housing bore cover 12 ensures a fixation of the membrane 8th in the case 2 and on the other hand limits a first chamber 14 , in which the secondary pressure to be set is present. The first chamber 14 will continue from the membrane 8th limited. The membrane 8th separates the first chamber 14 from a second chamber 16 , which have a housing channel 18 communicates with the atmosphere and continues from one in the housing 2 held transverse wall 20 is limited with a passage opening through which a piston rod 22 of the working piston 4 sealingly protrudes. At the piston rod 22 is a funnel-shaped spring plate 24 held against which a compression spring 26 supported with its one end, which with its other end against a support body in the form of a preferably annular spring pot 28 stressed.

The spring pot 28 is with its radially outer circumferential surface in a blind hole of a housing bottom 30 along the valve longitudinal axis 10 slidably guided by a certain amount to the spring plate 24 and thus on the working piston 4 adjust applied spring force. Furthermore encloses the spring pot 28 one in the case back 30 inserted valve bush 32 with its radially inner peripheral surface such that it is guided longitudinally displaceable at the same time.

At an end face of a valve body section, for example enlarged in diameter 34 the piston rod 22 , on which also one end of the funnel-shaped spring plate 24 is held, is a valve body 36 formed, which with the valve sleeve 32 cooperates as a valve seat. In the present case, the valve body 36 for example, one on the valve body portion 34 held valve sealing ring made of rubber.

Last but not least, the piston rod protrudes 22 in the through hole of the valve sleeve 32 into it, taking one along the valve longitudinal axis 10 ver current flow channel 38 which is the first chamber 14 with a pressure discharge 40 or secondary side connects, at which the secondary pressure is present. Laterally, ie perpendicular to the valve longitudinal axis 10 is a pressure supply line 42 in the form of a housing opening, which on the primary side 40 prevailing primary pressure in a third chamber 44 introduces, in which the spring plate 24 and the valve body portion 34 of the working piston 4 are located.

Into the pressure relief valve 1 is still a check valve 46 integrated, for example, from a flexible sealing ring 48 exists, which biased against muzzles of several from the central flow channel 38 radially branching ring channels 50 seals. At the same pressure in the pressure supply line 42 and in the pressure discharge 40 , so at identical primary and secondary pressure remains the check valve 46 due to the bias of the sealing ring 48 closed. Only when the secondary pressure in the flow channel 38 the contact pressure of the preloaded sealing ring 48 exceeds, the check valve opens 46 and a pressure equalization can take place.

The valve sealing ring 36 and the valve seat 32 form the boundary between primary and secondary side 42 . 40 , About the axial position of the spring cup 28 can the tension of the compression spring 26 on the working piston 4 and thus the height of the secondary pressure can be adjusted.

As long as on the secondary side 40 the set maximum pressure has not yet been reached, presses the compression spring 26 the working piston 4 in 1 up. In this passage position of the pressure relief valve 1 in which the valve sealing ring 36 from the valve seat to the valve sleeve 32 is lifted, is the primary page 42 with the secondary side 40 in fluid communication so that, assuming that the primary pressure is greater than the secondary pressure, the latter increases. On the secondary side 40 builds up after a while in the first chamber 14 a pressure on the working piston 4 in 1 pushes down after it releases the force of the compression spring 26 has overcome. The movement downwards stops until the valve sealing ring 36 at the valve seat of the valve bush 32 is applied and thus the secondary side 40 from the primary side 42 is disconnected. As a result, no more compressed air to the secondary side 40 so flow on the secondary side 40 the set maximum pressure has been reached. In this case there is a balance between piston force and spring force. A change in the primary pressure is therefore without effect on the level of the secondary pressure, as long as the primary pressure is greater than the secondary pressure. If the primary pressure falls below the secondary pressure, then the compressed air flows from the secondary side via the then open check valve 46 to the primary page.

An increase in the spring preload of the compression spring 26 via an altered axial position of the spring cup 28 leads to a higher secondary pressure, a reduction of the spring preload to a lower secondary pressure. A change in the preload of the compression spring 26 is in the present case by changing the axial position of the spring cup 28 causes, at which the compression spring 26 supported with one end.

Against this background is an adjusting device 52 provided for changing the spring bias, which in the housing 2 rotatably mounted actuator 54 with a direction perpendicular to the direction of the compression spring 26 ie perpendicular to the compression spring 26 arranged central axis 56 includes that from an outside of the case 2 ago is drehbetätigbar. In addition, a device for converting the rotational movement of the actuator 54 in a translational movement of the spring pot 28 is provided in the direction of adjustment. The actuator is preferably by a in a from the spring cup 28 up to a surface of the housing 2 extending housing bore 58 rotatably mounted adjusting pin 54 formed, which is best in 2 you can see.

The change of the adjusting movement of the adjusting pin 54 in a translational movement of the spring pot 28 is particularly preferably realized in that the adjusting pin 54 a control section with a control curve 60 . 62 . 64 . 66 has, against which by the spring force of the compression spring 26 a support surface 68 of the spring pot 28 is tense and cooperates with her so that, depending on the rotational position of the adjusting pin 54 different axial positions of the spring cup 28 are feasible. Such a control curve can be performed arbitrarily depending on the desired control characteristic and are formed for example by a cam.

Preferably, the control curve includes four of the central axis of the actuating pin 54 arranged with different spacing planar shelves 60 . 62 . 64 . 66 , such that depending on the rotational position of the actuator pin 54 a different footprint 60 . 62 . 64 . 66 on the support surface 68 comes to the plant, in particular 4 illustrated. This will make the spring pot 28 shifted in a respective other axial position and the compression spring 26 pretensioned accordingly.

In this case, the adjusting pin 54 in the case 2 be releasably mounted such that it by pulling out of the housing bore 58 against an adjusting pin 54 is interchangeable with another adjustment curve. In this way, also the control characteristic with respect to the secondary pressure without disassembly of the housing 2 to be changed.

Preferably, the support surface side End of the pin 54 however, an expanded cross section in the form of a covenant 70 on, which as axial securing the support surface 68 of the spring pot 28 engages, leaving this out of the housing bore 58 can not be pulled out.

For holding the adjusting pin 54 in the housing bore 58 It may continue to be useful if an attacking in the center of gravity weight of the actuating pin 54 having a pointing in the direction of gravity direction component. Then already carries the weight of the pin 54 To help ensure that this is not from the housing bore 58 fall out. In the present case, the adjusting pin 54 skewed with respect to the acceleration direction of gravity, so that this criterion is met.

For turning operation points the other end of the adjusting pin 54 an attack surface 72 for a tool. This attack surface is formed, for example, for a purpose reserved special tool to prevent the secondary pressure is adjusted approximately by unauthorized persons.

To prevent dirt from entering the housing bore 58 or in the pressure relief valve 1 To prevent, the adjusting pin can 54 in the hole 58 be mounted axially recessed, that it can be closed by a seal, for example by a removable rubber stopper. Furthermore, in a radially outer annular groove of the adjusting pin 54 a seal, preferably in the form of an O-ring 74 be held, which against the radially inner peripheral surface of the housing bore 58 seals. This O-ring 74 then ensures on the one hand that from the outside no dirt in the housing bore 58 can penetrate. On the other hand, he seals the below the spring pot 28 acting supply pressure against the environment.

1

Pressure relief valve

2

casing

4

working piston

6

diaphragm plate

8th

membrane

10

valve axis

12

cover

14

first chamber

16

second chamber

18

housing channel

20

partition

22

piston rod

24

spring plate

26

compression spring

28

spring cup

30

caseback

32

valve sleeve

34

Valve body section

36

valve body

38

flow channel

40

pressure derivative

42

pressure supply line

44

third chamber

46

check valve

48

seal

50

annular channels

52

setting device

54

setting rod

56

central axis

58

housing bore

60

adjusting cam

62

adjusting cam

64

adjusting cam

66

adjusting cam

68

support surface

70

Federation

72

attack surface

74

O-ring

Claims (9)

Pressure relief valve ( 1 ) for limiting a primary pressure to a secondary pressure, which in a possibly further units or valves receiving housing ( 2 ) is housed, including at least one by a compression spring ( 26 ) prestressed working pistons ( 4 ), which is loaded on the one hand by the primary pressure and on the other hand by the secondary pressure and with a valve seat ( 32 ) cooperates in such a way that in a passage position a primary pressure side ( 42 ) with a secondary pressure side ( 40 ) can be brought into flow communication and this flow connection is interrupted in a blocking position, wherein the compression spring ( 26 ) on a support body ( 28 ) whose position is adjusted by means of an adjusting device ( 54 . 60 . 62 . 64 . 66 . 68 ) is adjustable in a direction of adjustment to the bias of the compression spring ( 26 ) to change, characterized in that the adjusting device rotatably mounted in the housing actuator ( 54 ) having a perpendicular to the direction of adjustment center axis ( 56 ), which from an outside of the housing ( 2 ) is rotatably actuated, wherein means for converting the rotational movement of the actuator ( 54 ) in a translational movement of the support body ( 28 ) is provided in the direction of adjustment. Pressure limiting valve according to claim 1, characterized in that the actuator ( 54 ) a control section with a control curve ( 60 . 62 . 64 . 66 ) against which by the spring force of the compression spring ( 26 ) a support surface ( 68 ) of the supporting body ( 28 ) and interacts with it in such a way that, depending on the rotational position of Stellorgangs ( 54 ) different positions of the support body ( 28 ) can be realized in the direction of adjustment. Pressure limiting valve according to claim 1 or 2, characterized in that the actuator one in a bore ( 58 ) of the housing ( 2 ) rotatably mounted pin ( 54 ) includes. Pressure limiting valve according to claim 3, characterized in that the control curve at least two of the central axis ( 56 ) of the pen ( 54 ) arranged with different spacing planar shelves ( 60 . 62 . 64 . 66 ), such that, depending on the rotational position of the pen ( 54 ) a respective other footprint ( 60 . 62 . 64 . 66 ) on the support surface ( 68 ) comes to the plant. Pressure relief valve according to claim 3 or 4, characterized in that the pin ( 54 ) in the housing ( 2 ) Is mounted releasably so that it by pulling out of the bore ( 58 ) is interchangeable with a pin with a different setting curve. Pressure relief valve according to claim 3 or 4, characterized in that the support surface side end of the pin ( 54 ) a covenant ( 70 ) having extended cross section, which as axial securing the support surface ( 68 ) of the supporting body ( 28 ) engages behind. Pressure limiting valve according to at least one of claims 3 to 6, characterized in that a force acting on the center of gravity weight of the pin ( 54 ) has a pointing in Erdbeschleunigungsrichtung component. Pressure relief valve according to at least one of claims 6 or 7, characterized in that the other end of the pin ( 54 ) an attack surface ( 72 ) for a tool. Pressure relief valve according to claim 8, characterized in that the pin ( 54 ) in the hole ( 58 ) Is mounted axially recessed, that it can be closed by a seal.