DE102013011416A1 - Valve element for adjusting or limiting a pressure of a liquid - Google Patents

Abstract

The invention relates to a valve element for adjusting or limiting a pressure of a liquid, in particular for a fuel delivery device for conveying liquid fuel as the liquid, with a housing element (12), with a plunger element (12) received in the housing element (12) and 18), which is translationally movable relative to the housing element (12) between a closed position preventing flow of the liquid through the housing element (12) and at least one open position with at least one spring element (32), which on the one hand is at least indirectly on the plunger element (18) and on the other hand at least indirectly supported on an adjusting element (36), wherein the adjusting element (36) for adjusting a bias of the spring element (32) relative to the housing element (12) and the plunger element (18) is at least translatorily adjustable.

Description

The invention relates to a valve element for adjusting or limiting a pressure of a liquid, in particular for a fuel delivery device.

Valve elements in the form of pressure relief valves are known from the general state of the art. Such overpressure valves serve to limit a pressure of a liquid, so that the pressure does not exceed a predefinable threshold. In addition, valve elements in the form of so-called pressure control valves are known. Such pressure control valves are used to set a pressure of a liquid to a predetermined value or to keep this value at least substantially constant.

Such valve elements for adjusting or limiting a pressure of a liquid are used, for example, in fuel conveyors for conveying liquid fuel. In such fuel delivery devices, the liquid whose pressure is adjustable or limitable by means of the valve element is the liquid fuel.

Such a fuel delivery device is for example from the DE 10 2007 054 857 A1 to be known as known. The valve element is designated there as a pressure regulator and thus formed as a pressure control valve.

Usually very tight or small tolerances of components of such a valve element are required in order to ensure the desired function of the valve element in terms of setting or limiting the pressure can. For example, production-related tolerances can usually not be compensated or only very expensive. This leads to high costs of the valve element. In addition, the components or components of such a valve element can be designed only for a pressure value, so that the pressure of the liquid can only be limited or adjusted to this one pressure value.

It is therefore an object of the present invention to provide a valve element for setting or limiting a pressure of a liquid, in which tolerances can be compensated in a particularly simple manner and which are used for different pressure values to which the pressure of the liquid is set or limited can.

This object is achieved by a valve element having the features of patent claim 1. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the remaining claims.

A valve element according to the invention for adjusting or limiting a pressure of a liquid comprises a housing element, a plunger element accommodated in the housing element and flowable by the liquid, which translates between a closed position preventing flow of the liquid through the housing element and an open position releasing the flow relative to the housing element is movable and at least one spring element. The spring element is on the one hand at least indirectly supported on the plunger element.

The valve element further comprises an adjusting element, wherein the spring element on the other hand is at least indirectly supported on the adjusting element. The adjusting element is at least translationally adjustable for adjusting a bias of the spring element relative to the housing element and the plunger element. By translational adjustment of the adjusting element, the spring element can be biased more or less strongly, so that thereby depending on the bias of the spring element provided by this and the spring element acting on the plunger element spring force of the spring element is targeted and adjusted as needed. The bias and thus the spring force of the spring element corresponds to the pressure or with a pressure value to which the pressure of the liquid is adjustable or limited. Since the preload and thus the spring force are variably adjustable, the pressure or the pressure value is variably adjustable, so that the valve element according to the invention for adjusting or limiting the pressure to different pressure values, in particular without changing components of the valve element is used.

In addition, the adjustment of the bias allows calibration of the valve element, so that, for example, manufacturing tolerances of the valve element and in particular its components can be compensated in a particularly simple and cost-effective manner. As a result, tight tolerances of the components of the valve element are not required, so that the components and thus the valve element can be made particularly cost-effective overall. The calibration and the associated compensation of tolerances nevertheless allows the targeted and precise adjustment or limitation of the pressure to a presettable by adjustment of the adjustment pressure value. Tolerances of the pressure value can be avoided by the calibration or at least kept particularly low.

In a particularly advantageous embodiment of the invention, the housing element and / or the adjusting element are formed from a plastic. As a result, a particularly cost-effective production and a particularly low weight of the valve element can be displayed.

Furthermore, the spring element and / or the plunger element may be formed from a plastic. The adjustable adjustment allows the calibration of the valve, which is made in plastic construction, in a particularly simple manner.

The valve element is particularly suitable for use in a fuel delivery device for delivering liquid fuel, wherein the liquid fuel is the liquid whose pressure can be limited or adjusted by means of the valve element. In particular, when the valve element is formed in plastic construction, the weight of the fuel delivery device can be kept particularly low. Furthermore, thereby caused by the fuel corrosion of the valve element can be prevented.

Further advantages, features and details of the invention will become apparent from the following description of a preferred embodiment and from the drawings; these show in:

1 a schematic front view of a valve element for adjusting or limiting a pressure of a liquid, comprising a housing element, with a in the housing member and can be flowed by the liquid plunger element, which between a flow of liquid through the housing member preventing the closed position and the flow releasing open position is translationally movable relative to the housing element, and with a spring element which is at least indirectly at least indirectly supported on the plunger element and on the other hand at least indirectly on an adjusting element, wherein the adjusting element for adjusting a bias of the spring element relative to the housing element and the plunger element is at least translationally adjustable; and

2 a schematic longitudinal sectional view through the valve element according to 1 ,

1 and 2 show a valve element 10 , which can be designed as a pressure relief valve or as a pressure control valve. Here, the valve element is used 10 for setting or limiting a pressure of a liquid to a predefinable pressure value. The valve element 10 is used, for example, in a fuel delivery device or a fuel delivery module. The fuel delivery module serves to deliver liquid fuel, wherein the liquid fuel is the liquid, the pressure thereof by means of the valve element 10 is to be set or limited.

The fuel delivery module includes, for example, a pump for conveying the liquid fuel from a fuel tank to an internal combustion engine of a motor vehicle, wherein the internal combustion engine is operated with the liquid fuel and thereby can drive the motor vehicle.

How very good 2 is recognizable, comprises the valve element 10 a housing element 12 , The housing element 12 may be an independent housing or integrated into another component, in particular the fuel delivery module. In other words, the housing element 12 a separate, self-contained housing, which is mounted on the fuel delivery module or in this. Alternatively, the housing element may be formed integrally with another component of the fuel delivery module, for example with a housing of the fuel delivery module. The housing element 12 is preferably formed of a plastic.

Through the housing element 12 is a channel 14 limited, which with open valve element 10 from the liquid or the liquid fuel in one by a directional arrow 16 indicated flow direction can be flowed through. When the valve element is closed 10 the fuel can be the channel 14 do not flow through, as will be explained below.

The valve element 10 includes a whole with 18 designated plunger element, which in the housing element 12 is included. The plunger element 18 is according to the directional arrow 16 flows from the liquid fuel and between an in 2 shown closed position and at least one open position relative to the housing element 12 translationally movable. To the plunger element 18 to move from its closed position to its open position, is the plunger element 18 related to the image plane of 2 to move from left to right.

The plunger element 18 includes a first plunger part 20 and one on the first plunger part 20 arranged, second plunger part in the form of a sealing element 22 , The sealing element 22 has a recording 24 in which a pin 26 of the first plunger part 20 is plugged in. This is the sealing element 22 on the first ram part 20 set and with this relative to the housing element 12 translatory with movable.

The sealing element 22 is present as from the first ram part 20 configured separately formed component, which with the first plunger part 20 connected is. Alternatively, it can be provided that the sealing element 22 in the first ram part 20 is integrated. In other words, the first plunger part 20 and the sealing element 22 be integrally formed with each other.

How out 2 is recognizable, the housing element has 12 a sealing edge 28 as a seal seat of a valve seat on which the sealing element 22 in the closed position is applied. This is a flow of fuel through the housing element 12 , especially through the canal 14 , prevented. Be the plunger element 18 and thus the sealing element 22 moved into the open position, so lifts the sealing element 22 from corresponding sealing edge 28 from, and the fuel can the housing element 12 related to the image plane of 2 flow through from left to right.

The valve element 10 also includes another sealing element in the form of an O-ring 30 which, however, is provided only when the housing element 12 is designed as a self-contained housing. In this case, the housing element becomes 12 in its mounted on the fuel delivery module state by means of the O-ring 30 sealed against another component of the fuel delivery mode.

Furthermore, the valve element comprises 10 a spring element 32 in the form of a coil spring. The spring element 32 is on the one hand on the plunger element 18 supported. In the present case is the spring element 32 on the first ram part 20 and about this on the sealing element 22 supported. On the other hand, the spring element 32 on a spring receiver 34 of the valve element 10 supported. The spring recording 34 is relative to the housing element 12 and relative to the plunger element 18 translationally movable.

In addition, the valve element comprises 10 an adjustment in the form of a star wheel 36 , The spring element 32 is under the mediation of spring recording 34 at the star wheel 36 supported. The star disk 36 is for adjusting a bias of the spring element 32 relative to the housing element 12 and relative to the plunger element 18 at least translationally movable. In 2 is a so-called Einpresstiefe 38 represented around which the star disk 36 in the housing element 12 introduced or pressed or inserted.

How out 1 is recognizable, points the star disk 36 projections 40 on which - how out 2 is recognizable - obliquely to the axial direction of the valve element 10 and thus obliquely to a direction of movement, in which the star disc 36 , the spring recording 34 and the plunger element 18 are movable or adjustable, extend. In the present case, the projections extend obliquely to the axial direction of the spring element 32 and from the spring retainer 34 away to the outside.

By means of the projections 40 is the star disk 36 under claws of the projections 40 with a wall 42 of the housing element 12 in different positions, that is, in different Einpresstiefen on the housing element 12 fixable. By adjusting the star disk 36 becomes an axial distance between the plunger element 18 and the spring retainer 34 varies, by varying this distance, the bias of the spring element 32 is variably adjustable. In other words, become the star disk 36 and with this the spring retainer 34 on the plunger element 18 moved to, so is the spring element 32 curious; excited. This means that the bias of the spring element 32 is increased. Become the star disk 36 and the spring retainer 34 from the tappet element 18 moved away, so can the spring element 32 relax, resulting in a reduction in the preload of the spring element 32 accompanied.

The star disk 36 can by means of the projections 40 in different positions in the housing element 12 be set at this, so that thereby the spring element 32 can be biased stronger or less strong. By this adjustment of the bias of the spring element 32 Also, the pressure value to which the pressure of the fuel is to be limited or adjusted can be adjusted as needed. In addition, the valve element 10 calibrate thereby, so that, for example, manufacturing tolerances of components of the valve element 10 , in particular the plunger element 18 and / or the spring element 32 and / or the housing element 12 can be compensated.

During operation of the fuel delivery module, the sealing element becomes 22 according to the directional arrow 16 flowed by the fuel. This creates a dynamic pressure at a valve opening 45 over which the fuel is the plunger element 18 can flow to. Exceeds one resulting from the dynamic pressure and on the plunger element 18 related to the image plane of 2 from left to right acting force with respect to the image plane of 2 from right to left on the ram element 18 acting and by the bias of the spring element 32 caused spring force, so is the plunger element 18 pressed on, leaving the sealing element 22 from the sealing edge 28 takes off. As a result, the fuel can channel 14 flow through.

The spring force depends on the spring element 32 and of the bias of the spring element 32 in the housing element 12 , The bias of the spring element 32 can about the offset of the star disc 36 be changed, whereby the dynamic pressure, from which the plunger element 18 is opened, is changed. The variable press-in depth over the star disc 36 can during assembly of the valve element 10 also for calibrating the dynamic pressure, from which the plunger element 18 is opened, used. This dynamic pressure, from which the plunger element 18 is opened, is commonly referred to as opening pressure.

The valve element 10 is in this case designed in plastic construction. In this case, the housing element 12 and / or the plunger element 18 , in particular the first plunger part 20 and / or the sealing element 22 , and / or the spring retainer 34 and / or the star disc 36 made of a plastic. Due to the described calibration are low tolerances of the components of the valve element 10 not required, so that these components can be made particularly inexpensive. In addition, the tolerances can be compensated.

The calibration is at the valve element 10 in plastic construction without thread and / or excessive deformation possible, which would not be represented in plastic. Instead of threads, the projections 40 to suit the needs of the star disc 36 used, which is with the wall 42 can dig. As the projections 40 from the spring element 32 extend away, they brace one of the bias of the spring element 32 resulting and from the spring element 32 over the spring receiver 34 on the star disk 36 counteracting spring force, so that the danger that the star disc 36 moved undesirably, can be kept very low.

The star disk 36 is an at least substantially star-shaped spring washer, which is located in the housing element 12 wedged. Here are the projections 40 at least substantially resiliently on a base body 44 the star disk 36 held, with the main body 44 and the projections 40 preferably can be formed integrally with each other.

How out 1 is recognizable, are the projections 40 in the circumferential direction of the star wheel 36 arranged evenly distributed and spaced from each other, wherein in the circumferential direction between the projections 40 respective free spaces 46 are provided. In the open position of the plunger element 18 can the fuel through the clearances 46 flow through.

The star disk 36 has a passage opening 48 on, over which the star disk 36 on a corresponding pin 50 is plugged. This can cause the star disc 36 in its radial direction on the spring retainer 34 fixed or fixed.

LIST OF REFERENCE NUMBERS

10

valve element

12

housing element

14

channel

16

arrow

18

follower member

20

First plunger part

22

sealing element

24

admission

26

spigot

28

sealing edge

30

O-ring

32

spring element

34

spring mount

36

star washer

38

offset

40

projections

42

wall

44

body

45

valve opening

46

free space

48

Through opening

50

spigot

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102007054857 A1 [0004]

Claims (6)

Valve element for adjusting or limiting a pressure of a liquid, in particular for a fuel delivery device for conveying liquid fuel as the liquid, having a housing element ( 12 ), with a in the housing element ( 12 ) and can be flowed by the liquid tappet element ( 18 ), which between a flow of the liquid through the housing element ( 12 ) preventing closing position and at least one flow-releasing open position relative to the housing element ( 12 ) is translationally movable, with at least one spring element ( 32 ), which on the one hand at least indirectly on the plunger element ( 18 ) and on the other hand at least indirectly on an adjusting element ( 36 ) is supported, wherein the adjusting element ( 36 ) for adjusting a bias of the spring element ( 32 ) relative to the housing element ( 12 ) and the tappet element ( 18 ) is at least translatorily adjustable. Valve element according to claim 1, characterized in that the housing element ( 12 ) and / or the adjusting element ( 36 ) is formed of a plastic. Valve element according to one of claims 1 or 2, characterized in that the adjusting element ( 36 ) perpendicular or oblique to a direction of movement into which the adjustment element ( 36 ) is adjustable, extending projections ( 40 ), by means of which the adjusting element ( 36 ) under claws of the projections ( 40 ) with a wall ( 42 ) of the housing element ( 12 ) in different positions on the housing element ( 12 ) is fixable. Valve element according to claim 3, characterized in that the projections ( 40 ) in the circumferential direction of the adjusting element ( 36 ) are arranged evenly distributed. Valve element according to one of claims 3 or 4, characterized in that the projections ( 40 ) obliquely to the direction of movement of the spring element ( 32 ) away. Valve element according to one of the preceding claims, characterized in that the adjusting element ( 36 ) is infinitely adjustable.

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