DE102019201921A1 - Check valve with a valve body guide - Google Patents

Abstract

The invention relates to a check valve (36) with a valve seat (42), a valve body (40) and a valve body guide (46), the valve body (40) being able to be placed against the valve seat (42) for closing the check valve (36) and for opening of the check valve (36) can be lifted off the valve seat (42) and is guided in its movement by means of the valve body guide (46). According to the invention, the valve body guide (46) is designed to enclose the valve body (40) transversely to its direction of movement (48) and is provided with a recess (52) which extends in the direction of movement (48) of the valve body (40).

Description

State of the art

The invention relates to a check valve with a valve seat, a valve body and a valve body guide, wherein the valve body can be placed against the valve seat to close the check valve and can be lifted off the valve seat to open the check valve and is guided in its movement by means of the valve body guide.

Check valves of the generic type are used in particular in hydraulic vehicle brake systems in order to carry out functions of an anti-lock braking system or a vehicle dynamics control in a hydraulic unit. Such check valves are intended to ensure a particularly fast and operationally reliable opening and closing of a hydraulic line through which a pressurized hydraulic medium, in particular brake fluid, flows.

The invention is based on the object of improving a check valve of the type mentioned at the outset in such a way that it generates less noise with the same or better functionality.

Disclosure of the invention

According to the invention, a check valve with a valve seat, a valve body and a valve body guide is created, wherein the valve body can be placed against the valve seat to close the check valve and lifted off the valve seat to open the check valve and is guided in its movement by means of the valve body guide, the Valve body guide is designed to surround the valve body transversely to its direction of movement and is provided with a recess which extends in the direction of movement of the valve body.

The invention is based on the knowledge that uniform or similar guidance over a circumference of a valve body guide, that is to say, so to speak, completely symmetrical guidance of a valve body when it is moving, has a negative effect on its vibration behavior. Such a guide requires that the valve body has almost the same amount of hydraulic medium flowing around it over its entire circumference. The guidance, which is the same in all directions, means that vibrations of the valve body are not reduced transversely to its direction of movement, but rather such vibrations are instead amplified by resonance excitation.

In the check valve according to the invention, however, a recess is deliberately formed on the circumference of a valve body guide at at least one point, which recess extends in the direction of the movement of the valve body. The area around the valve body through which the hydraulic medium has to flow is thus designed to be uneven or asymmetrical. With the recess, an asymmetry of the valve body guide is brought about, which reduces and minimizes a resonance excitation, as explained above.

The recess extends in the direction of movement of the valve body, so that a desired asymmetry can be provided in a targeted manner over its movement path. Due to the recess, the valve body according to the invention is therefore not flowed around with equal intensity over its entire circumference, but instead has different degrees of flow over several circumferential areas. This ensures particularly low-noise operation of such a check valve in a very simple and at the same time effective way.

The invention is based on the knowledge that for a noiseless and low-wear operation of a check valve, a relatively close guidance of its valve body or closing body is necessary. At the same time, however, it is disadvantageous with regard to excitation of vibrations in the valve body during the opening and closing movement if the hydraulic medium flows around it symmetrically or evenly over its circumference. According to the invention, therefore, the cross-sectional area around the valve body through which the hydraulic medium must flow is designed to be specifically asymmetrical. Balls are advantageously used as valve bodies, other shapes such as e.g. Hemispheres or cones, each with a cylindrical extension, are also possible. It is also advantageous if the valve body is shaped in such a way that it is quickly lifted out of the valve seat when the hydraulic medium flows against it. This also prevents flow forces in the area of the valve seat or sealing seat area from causing the valve body to oscillate.

The invention can be applied to all types of check valves in hydraulics. According to the invention, however, it is preferred to use such a check valve on a vehicle brake system, in particular on a pump of the vehicle brake system.

Particularly preferably, the valve body guide is designed to be circular transversely to the direction of movement of the valve body. Such a circular shape makes it possible for the valve body guide itself to be produced by means of a simple bore in an associated guide component, in particular a housing component.

The depression according to the invention is also preferably circular in shape transversely to the direction of movement of the valve body. In this way, the recess can also be produced by means of a simple drilling process or a bore. At the same time, the above-explained asymmetry of the flow path of the hydraulic medium around the valve body can be created with the recess with regard to the valve body guide.

Correspondingly, the recess according to the invention is designed in the direction of movement of the valve body as a hydraulic bypass that bypasses the valve body. The bypass has the effect that hydraulic medium can enter the bypass in the flow direction in front of the valve body with only very little flow resistance and can thus also exit the bypass again behind the valve body.

The recess according to the invention is also preferably designed with a recess cross-sectional area which is larger than the minimum remaining cross-sectional area which is located between the valve body guide and the valve body guided therein. This ensures that the medium flowing through the opening of the valve seat can flow through the recess with less flow resistance than through the remaining cross-sectional area around the valve body. The medium is therefore dammed up more in front of the remaining cross-sectional area than in front of the depression. This means that a lot of medium flows through the recess and creates a suction or suction flow there. With this suction, the valve body is sucked up to the recess and accordingly rests on this side of the valve body guide. The valve body is thus positioned asymmetrically within the cross-sectional area of the valve body guide. The valve body is also forced into this position by the further medium flowing through the remaining cross-sectional area. Accordingly, this position of the valve body is statically and dynamically stabilized. The position results in a particularly low-vibration position with particularly low vibration excitation.

The depression according to the invention is furthermore advantageously delimited towards the valve guide by means of two depression edges which extend parallel to one another and in the direction of movement of the valve body. The recess edges of this type form two guide tracks for the valve body, along which the valve body can slide in a guided manner and also roll along as a ball.

For further hydraulic optimization of the check valve according to the invention, the valve seat there is preferably designed in such a way that a fluid flow flowing through the valve seat is hydraulically deflected in the direction of flow in front of the valve body.

• 1 einen Längsschnitt einer Pumpe einer Fahrzeugbremsanlage mit einem Rückschlagventil gemäß dem Stand der Technik,
• 2 einen Längsschnitt einer Pumpe einer Fahrzeugbremsanlage mit einem erfindungsgemäßen Rückschlagventil,
• 3 das Detail III gemäß 2 in vergrößerter Ansicht und
• 4 eine perspektivische Ansicht eines Gehäusebauteils des Rückschlagventils gemäß 2 und 3.

In the following, exemplary embodiments of the solution according to the invention are explained in more detail with reference to the accompanying schematic drawings. It shows:

• 1 a longitudinal section of a pump of a vehicle brake system with a check valve according to the prior art,
• 2 a longitudinal section of a pump of a vehicle brake system with a check valve according to the invention,
• 3 the detail III according to 2 in enlarged view and
• 4th a perspective view of a housing component of the check valve according to FIG 2 and 3 .

In 1 is a pump 10 an ESP brake control system shown around a longitudinal axis 12 around with a cylindrical case 14th is provided. The case 14th has a central, circular-cylindrical pressure chamber 16 on, in which there is a compression spring 18th as well as an inlet valve cage 20th is located. The inlet valve cage 20th has an outer sealing section 22nd on, by means of a first piston section 24 and a second piston section adjoining in the longitudinal direction 26th against the compression spring 18th is crowded. The piston sections 24 and 26th are by means of an eccentric, not shown, based on 1 , right front end of the second piston section 26th movable back and forth in the longitudinal direction.

In the inlet valve cage 20th there is an inlet valve 28 that by means of a valve spring 30th , a valve body 32 and a valve seat 34 is formed. The valve spring 30th is supported on the inside of the inlet valve cage 20th and pushes the valve body 32 against the valve seat 34 . The valve seat 34 is at that of the pressure chamber 16 facing end of the first piston section 24 arranged.

With the movement of the first piston section 24 in the direction away from the pressure chamber 16 arises in the pressure room 16 a pressure reduction or a negative pressure by means of which a hydraulic medium, in this case brake fluid, from the outside through the first piston section 24 and the valve seat 34 through into the pressure room 16 is sucked in.

On the piston section 24 opposite, right end of the pressure chamber 16 is located in the housing 14th an exhaust valve 36 , that by means of a valve spring 38 , a valve body 40 and a valve seat 42 is formed. The valve spring 38 and the valve body 40 are located in a recording room 44 that is in the housing 14th based on 1 to the right of the printing room 16 is arranged. The valve seat 42 is located between this recording space 44 and the pressure room 16 at its front end.

When the first piston section moves 24 based on 1 to the left, is in the print room 16 the pressure of the hydraulic medium there increases and this increases in the direction of the valve seat 42 and there against the valve body 40 pushed. The valve body 40 is subsequently from the valve seat 42 lifted off and the hydraulic medium is in the receiving space 44 promoted.

When the first piston section moves back 24 becomes the pressure in the pressure chamber 16 then lowered again as described above, the valve body 40 lies down on the valve seat again 42 on and the recording room 44 is locked there.

In the embodiment of the inventive solution according to the 2 to 4th is the valve body 40 designed in the form of a ball and of a hollow cylindrical valve body guide 46 surround. By means of the valve body guide 46 is the valve body 40 when opening and closing the valve seat 34 belonging valve opening in one direction of movement 48 guided back and forth along the longitudinal axis 12 extends. The valve body guide 46 is by means of a hole in the housing 14th produced and has a correspondingly circular cross-section and to the housing 14th towards an inner surface 50 on. When moving, the valve body comes 40 on this inner surface 50 to the concern and can then accordingly only in the direction of movement 48 move. At right angles to this direction of movement 48 is the movement of the valve body 40 however, by means of the inner surface 50 severely limited.

Immediately next to the valve body guide 46 is a recess protruding or protruding into this 52 formed, which also extends in the direction of the longitudinal axis 12 extends. The depression 52 is made by means of a bore that goes into the bore of the valve body guide 46 protrudes laterally or radially. There is a fluidic connection between the valve body guide 46 and the deepening 52 created.

The depression 52 has a recess cross-sectional area 54 corresponding to the cross-sectional area of the associated hole. Through the recess cross-sectional area 54 a first fluid flow occurs 58 of hydraulic medium through, that of the valve seat 34 coming into the recording room 44 laterally and as a bypass on the valve body guide 46 flows past.

The valve body guide 46 has a residual cross-sectional area 56 resulting from the total cross-sectional area of the bore of the valve body guide 46 minus the maximum cross-sectional area of the spherical valve body 40 results. Through this remaining cross-sectional area 56 can be a second fluid stream 60 also flow from hydraulic medium, which from the valve seat 42 coming into the recording room 44 being pushed. This fluid flow 60 However, it flows directly around the spherical valve body 40 .

The remaining cross-sectional area 56 is designed smaller than the recess cross-sectional area 54 . This achieves that in the recess 52 or the bypass thus created, there is a lower flow resistance than when the flow around the valve body 40 . The valve body 40 is thus within the valve body guide 46 radially towards the recess 52 sucked or pushed. The valve body 40 lies there on the inner surface 50 on and is kept or guided so attenuated against the creation of vibrations. The leadership of the valve body 40 is further improved by the fact that at the transition between the valve body guide 46 and the deepening 52 a recess edge each 62 is trained. The two edges of the recess 62 extend parallel in the direction of the longitudinal axis 12 or the direction of movement 48 and thus form a kind of conductive path for the valve body 40 .

Claims (9)

Check valve (36) with a valve seat (42), a valve body (40) and a valve body guide (46), wherein the valve body (40) can be placed against the valve seat (42) to close the check valve (36) and to open the check valve (36) ) can be lifted off the valve seat (42) and is guided in its movement by means of the valve body guide (46), characterized in that the valve body guide (46) is designed to enclose the valve body (40) transversely to its direction of movement (48) and is provided with a recess ( 52) is provided, which extends in the direction of movement (48) of the valve body (40). Check valve (36) Claim 1 , characterized in that the valve body (40) is designed spherically. Check valve (36) Claim 1 or 2 , characterized in that the valve body guide (46) is designed to be circular transversely to the direction of movement (48) of the valve body (40). Check valve (36) according to one of the Claims 1 to 3 , characterized in that the recess (52) is designed to be circular transversely to the direction of movement (48) of the valve body (40). Check valve (36) Claim 4 , characterized in that the recess (52) is made by means of a bore. Check valve (36) according to one of the Claims 1 to 5 , characterized in that the recess (52) is designed in the direction of movement (48) of the valve body (40) as a hydraulic bypass bypassing the valve body (40). Check valve (36) according to one of the Claims 1 to 6th , characterized in that the recess (52) is designed with a recess cross-sectional area (54) which is larger than the minimum remaining cross-sectional area (56) which is located between the valve body guide (46) and the valve body (40) guided therein. Check valve (36) according to one of the Claims 1 to 7th , characterized in that the recess (52) is delimited towards the valve body guide (46) by means of two recess edges which extend parallel to one another and in the direction of movement (48) of the valve body (40). Use of a check valve (36) according to one of the Claims 1 to 8th on a vehicle brake system, in particular on a pump (10) of the vehicle brake system.

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