DE102009046577A1 - Spring-loaded check valve for reduction of pressure ripples and noises in piston pump of e.g. antilock braking system in motor vehicle, has closure element movable in flow direction, so as to move closing body and element in flow direction - Google Patents

Abstract

The valve has a valve seat arranged in a longitudinal direction to a valve closing body (10), which exhibits a cylindrical guiding section (14) and a dome-shaped sealing section (16). The sealing section is oriented to the valve seat and in the longitudinal direction to the guiding section for alternatively closing and opening an opening that is surrounded by the seat. A closure element (12) is inserted in the body and movable in a flow direction, so that the flow direction from the opening moves the body and the closure element in the flow direction during opening of the valve.

Description

State of the art

The invention relates to a valve having a valve closing body and arranged in the longitudinal direction of the valve closing body valve seat for a piston pump, wherein the valve closing body a cylindrical guide portion and in the longitudinal direction of the cylindrical guide portion to the valve seat oriented dome-shaped sealing portion for selectively closing and opening an opening enclosed by the valve seat having. Furthermore, the invention relates to a piston pump with such a valve for a hydraulic or pneumatic system and the use of the valve according to the invention.

State of the art

Valves are used in the prior art in manifold manner in piston pumps of hydraulic systems, in particular of vehicle brake systems ( DE 39 07 969 A1 and DE 10 2006 048 903 A1 ). In these brake systems, piston pumps not only control the pressure in wheel brake cylinders, but also serve as anti-lock braking systems (ABS). B. for the return promotion of brake fluid from a wheel brake cylinders in a master cylinder. ABS is often combined with traction control (ASR), which also uses valve-regulated piston pumps. The electronic stability program (ESP), which positively influences the lateral dynamics of the vehicle by selectively braking individual wheels, also uses valve-regulated piston pumps.

The inlet and outlet valves used in piston pumps of vehicle brake systems control the direction of fluid flow through the pump and are typically designed as spring-loaded check valves. They comprise a sealing body in the form of a ball and a valve seat adapted to the spherical shape of the sealing body. As the pressure in the piston pump increases, the valve opens by pushing the ball out of the valve seat, and the fluid flows around the ball into a valve chamber downstream of the valve.

Fluid flows through the valve, creating high compression and expansion forces, which act especially in high-pressure pumps of braking systems, due to various causes unwanted vibrations and noise. For example, unwanted noise when opening the valve when tolerances of the individual components add up, in particular by a spatial clearance of the valve closing body. To reduce this noise is in the DE 10 2006 027 555 A1 an exhaust valve having a valve closing body and a separate disc member on which a valve seat is arranged. The use of the disk element is intended to ensure that component tolerances of various components of the piston pump can not adversely affect the noise during opening or closing of the exhaust valve.

In addition to the component tolerances arise unwanted vibrations and noise due to turbulent flows around the valve closing body of the open exhaust valve. These flows deflect the valve closing body indefinitely in the radial direction, so that it abuts against the inner wall of the valve chamber. In addition, when the valve is opened, pressure pulsations occur because pressure waves propagate from the valve seat when the valve closing body is lifted off and are reflected in the valve chamber. These pressure pulsations not only cause the valve closing body to vibrate, but cause considerable noise and mechanically load the piston pump and the hydraulic components communicating with it.

It is an object of the invention to provide a valve with an optimized vibration behavior during opening and closing, whereby a mechanical load on the valve-communicating components is reduced.

Disclosure of the invention

The object is achieved with a valve according to claim 1, a piston pump according to claim 9 and a use of a valve according to claim 10. Advantageous developments of the invention are described in the dependent claims.

According to the invention, a valve is provided with a valve closing body and a valve seat arranged in the longitudinal direction valve seat for a piston pump, in which the valve closing body a cylindrical guide portion and in the longitudinal direction of the cylindrical guide portion to the valve seat oriented dome-shaped sealing portion for selectively closing and opening an opening enclosed by the valve seat having. In the valve closing body at least one closure element is movably inserted in the flow direction, so that when the valve is opened, a liquid flow from the opening moves the valve closing body and the closure element in the flow direction.

By flow direction is meant the directions in which flows the liquid emerging from the opening enclosed by the valve seat and deviations thereof up to 60 °, preferably 45 ° or less.

The invention is based on the idea to improve the vibration behavior of the valve according to the invention by the opening momentum of the valve closing body is reduced when opening the valve, so that overshooting of the valve closing body is prevented. In order to reduce the opening pulse, a second fast and dynamic opening or closing mechanism in the form of the closing element movably mounted in the flow direction is inserted in the valve closing body, which is connected in parallel to the valve closing body. At the beginning of an opening operation of the valve, the closure element opens at the same time or preferably in front of the valve closing body as a first stage and is moved in the flow direction by the pulse of the liquid flow emerging from the opening enclosed by the valve seat. The valve closing body preferably opens after the closure element as a second stage, so that a part of the opening pulse through the first opening stage, d. H. the closure element is already collected and the stroke of the closing body is reduced. As a result, pressure pulsations z. B. caused by reflected shock waves, as well as sudden abrupt force and pressure changes in the drive train of a piston pump avoided. The noise emissions following the pressure pulsations and abrupt pressure changes, which propagate as structure-borne sound to load-bearing components and are difficult to damp, are minimized by the valve according to the invention. In addition, a mechanical load on the valve-communicating components is reduced by the damped vibrations of the valve closing body.

Furthermore, the vibration behavior of the valve according to the invention is minimized by the valve-closing body of the valve according to the invention is guided defined when opening by means of the cylindrical guide portion. The defined guiding and the reduced vibration of the valve closing body reduce pressure pulsations, noise emissions and mechanical loads on the components communicating with the valve. In addition, the guide portion serve by its longitudinal extent as a stroke limiter, so that the adjustment of the valve closing body is defined and constant at each opening movement.

The valve according to the invention also has the advantage that it is inexpensive to manufacture. The valve closing body and the closure element are either as a plastic injection molded part or steel forming part or steel body in large numbers quickly and easily and therefore cheaply produced. Plastic injection parts are only slightly tolerant and can be produced by means of the injection molding process as economically directly usable moldings. Due to the dome shape of the sealing portion and the cylindrical shape of the guide portion, the shape of a conventional piston pump need not be changed to accommodate the valve of the invention. Due to the cylindrical shape of the guide portion of the valve closing body can be easily integrated into a drilled or milled blind hole or a cap of a piston pump.

The dome-shaped sealing portion has for sealing an opening enclosed by the valve seat on a surface which is curved at least in sections in two dimensions. The form of a ball, an ellipsoid or a cone is defined as a dome shape. The curved surface acts with the z. B. formed as an inner cone seat valve seat together so that when the voltage applied to the valve seat sealing portion an annular sealing surface or sealing line is obtained.

The valve closing body with the dome-shaped sealing portion has the advantage over a spherical valve closing body that the opening cross section of the dome can be increased more in comparison to the ball. The double radius of curvature of the dome shape of the sealing portion, d. H. the curved surface of the sealing portion may therefore be larger than the diameter of the guide portion of the valve closing body.

The closure element may preferably be designed as a round shaped body, for. B. be designed as a ball, dome, ellipsoid, egg-shaped body, cone or plunger.

According to a first advantageous development of the valve according to the invention, the closure element is arranged in a hollow-cylindrical recess open on both sides, the mouth of which is blocked or impassable for the closure element. In the hollow cylindrical recess, which is easy to produce, when the valve is opened, the closure element is moved by means of the liquid flow emerging from the opening enclosed by the valve seat. The longitudinal extent of the hollow cylindrical recess results in a way in which the closure element can convert the pulse into kinetic energy and on which a portion of the pulse is reduced. For flow reasons, the recess is preferably oriented in the longitudinal direction of the guide section.

The mouth of the hollow cylindrical recess is for the closure element, for. B. blocked by a constriction of the mouth or the Aussparungsendabschnitts or by a return spring, so that the closure element can not leave the hollow cylindrical recess and through the fluid flow can not be driven out of it.

According to an advantageous embodiment of the valve according to the invention, the mouth of the recess is blocked by at least one protruding into the mouth hook. When opening the valve, the closure element is moved in the hollow cylindrical recess by means of the liquid flow emerging from the opening enclosed by the valve seat. At the obstructed mouth of the recess, this kinetic energy of the closure element is transmitted as an impulse to the valve closing body. With the at least one check mark, the closure element is elastically mounted in the recess, so that the momentum which the moving closure element transmits to the valve closure body is damped and dynamically intercepted by the at least one check mark. By damping the pulse, noise emissions are avoided and mechanical loads on the valve closing body are reduced. In addition, the closure element can be easily and inexpensively mounted in the valve closing body by latching behind the at least one hook.

According to a further advantageous development of the valve according to the invention is / are the valve closing body and / or the closure element made of plastic, d. H. designed as plastic components. As a result, the mass of the valve closing body and / or the closure element is a multiple (about 10 times) lower than when comparatively steel is used as the material. The opening momentum of the lighter plastic components is further reduced when the valve is opened, which prevents the valve closing body from overshooting and noisy pressure pulsations due to reflected shock waves. Sudden force and pressure changes on the valve and the consequent noise emissions are also avoided by the lighter plastic components. Overall, a mechanical stress on the components communicating with the valve is further reduced by the improved vibration behavior of the valve by means of the plastic components. In addition, the wear resistance of the valve seat or the valve closing body is optimized by the plastic components, whereby an improved tightness of the valve over the life of the piston pump is obtained.

In a further advantageous embodiment of the valve according to the invention, the guide portion has a hollow cylindrical interior, in which a return spring is arranged axially. The cooperating with the valve closing body return spring is at least partially within the guide section. As a result, the installation space in a piston pump is better utilized by the valve according to the invention, so that the size of the piston pump can be reduced or the installation space can be used elsewhere.

Through the hollow cylindrical interior of the guide portion, the mass of the valve closing body is further reduced, so that the vibration of the valve closing body is further minimized and pressure pulsations are prevented.

This further reduces noise emissions and mechanical stresses on the components communicating with the valve.

In a further advantageous embodiment of the invention, it is provided that the guide section has at least one guide web for holding the valve closing body. The guide webs are preferably distributed uniformly over the circumference of the guide section and extend in the axial direction of the guide section. For more stable guidance, they preferably extend over the approximately entire axial extension of the guide section.

In a further advantageous development of the invention, the guide section is longer in the longitudinal direction than the largest diameter of the sealing section. Due to the extended guidance of the valve closing body, the valve closing body is stored more stable.

Due to the stable guidance by means of the guide webs and / or the stable mounting by means of the extended guide section, the vibration of the valve closing body is further reduced, so that pressure pulsations, noise and mechanical loads of the valve-corresponding components are further reduced.

In an advantageous embodiment, the valve according to the invention has a housing which receives the valve closing body. An outflow opening is preferably formed in the flow direction behind the valve. Advantageously, however, a flow at the height of the sealing element between a housing outer wall and an adjacent to the housing outer cylinder base surface, in which the valve seat is formed, derived. Preferably, the discharge opening is an embossed into the housing radial groove.

The invention also relates to a piston pump with a valve according to the invention for a hydraulic or pneumatic system. In addition to a piston, a valve, an inlet and outlet, the piston pump has at least one valve according to the invention. Due to the optimized vibration behavior of the valve of the piston pump pressure pulsations, noise and the mechanical Reduced loads on the valve associated with the components. It is therefore preferably suitable for high pressure systems and z. B. used in brake systems of motor vehicles, such as ABS, ASP and ESP. During a pump stroke of the piston pump, the valve closing body is lifted out of the valve seat, so that hydraulic medium escapes from a compression space of the pump, flows around the valve closing body and can escape via an outflow opening.

Furthermore, the invention relates to the use of the valve according to the invention for the reduction of pressure pulsations and / or noise developments, in particular in a hydraulic or pneumatic system, wherein a first pulse of the liquid flow is transferred from the opening enclosed by the valve seat to the closure element of the valve. On the valve seat closing noise and pulsation-prone valve closing body only the second part of the pulse is transmitted. The vibration behavior of the valve according to the invention is further improved by the valve closing body is guided defined when opening by means of the cylindrical guide portion. The reduced vibration of the valve closing body reduces pressure pulsations, noise emissions and mechanical stresses on the hydraulic or pneumatic components communicating with the valve. The valve according to the invention is preferred for reducing pressure pulsations and / or noise developments in pressure, suction and piston pumps and in high-pressure systems, for. B. brake systems of motor vehicles, such as ABS, ASP and ESP used.

An exemplary embodiment of the solution according to the invention will be explained in more detail below with reference to the attached schematic drawings. It shows:

1 a longitudinal section of a valve closing body with inserted closure element,

2 the rear view II according to 1 .

3 the front view III according to 1 .

4 a rear perspective view of the valve closing body according to 1 and

5 a longitudinal sectional view of a valve with a valve closing body according to the 1 to 4 ,

The 1 to 4 show a valve closing body 10 with inserted therein spherical closure element 12 , The valve closing body 10 is from a circular cylindrical guide section 14 and in the longitudinal direction of the cylindrical guide portion a dome-shaped sealing portion 16 formed, whose sealing surface is spherical. In the leadership section 14 is a hollow cylindrical interior 18 designed. The valve closing body 10 also has a parallel to the longitudinal axis of the guide portion 14 aligned on both sides open or continuous cylindrical recess 20 in the form of a circular cylindrical bore. The recess 20 opens on the one hand centrally in the sealing section 16 and on the other hand centrally in the interior 18 of the guide section 14 , Indian recess 20 is the closure element 12 arranged, which acts as a first stage of the shutter mechanism. The to the sealing section 16 oriented mouth of the recess 20 is by a narrowed radius of the end portion of the recess 20 blocked. The to the leadership section 14 oriented mouth of the recess 20 is by three leaf spring-like hook elements or hooks 22 locked, which is a pulse of the closure element 12 dynamically cushion.

4 shows a valve 24 with a housing 26 and a cone-shaped valve seat 28 a cylinder 30 , The valve seat 28 encircles an opening 32 of the cylinder 30 one. In the case 26 is the valve closing body 10 including the closure element 12 of the embodiment 1 to 3 added. Here is the sealing section 16 of the valve closing body 10 the seal seat 28 on the cylinder 30 facing. To the sealing section 16 closes in the axial direction of the cylinder 30 away the leadership section 14 at.

Inside the case 26 of the valve 24 Centric blind hole is designed as a valve chamber. In this blind hole are the valve closing body 10 and a return spring 34 arranged as a helical compression spring. The return spring 34 is supported at one end at the bottom of the blind hole and projects axially into the hollow cylindrical interior at the other end 18 of the guide section 14 of the valve closing body 10 into it. By the return spring 34 becomes the valve closing body 10 against the valve seat 28 biased.

When opening the valve 24 by the pressure of a liquid flow from the opening 32 of the cylinder 30 opens in a first stage, the spherical closure element 12 , The closure element 12 will be in the recess 20 to the valve seat 28 pushed away or driven away from the opening recess, where it from the check mark 22 is stopped dynamically. This has the consequence that the opening pulse of the valve 24 is significantly reduced, whose noise behavior is thus optimized and with the valve 24 communicating components are mechanically less stressed.

In the second stage of opening the valve 24 opens the valve closing body 10 ie he is from the valve seat 28 lifted. The liquid flows out of the opening 32 of the cylinder 30 at the sealing section 16 over and over a radial groove 36 between the front of the housing 26 and the front of the cylinder 30 derived.

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 3907969 A1 [0002]
• DE 102006048903 A1 [0002]
• DE 102006027555 A1 [0004]

Claims (10)

Valve ( 24 ) with a valve closing body ( 10 ) and a longitudinal direction to the valve closing body ( 10 ) arranged valve seat ( 28 ) for a piston pump, in which the valve closing body ( 10 ) a cylindrical guide section ( 14 ) and in the longitudinal direction to the cylindrical guide portion ( 14 ) one to the valve seat ( 28 ) oriented dome-shaped sealing portion ( 16 ) for selectively closing and opening one of the valve seat ( 28 ) ( 32 ), characterized in that in the valve closing body ( 10 ) at least one closure element ( 12 ) is movably inserted in the flow direction, so that when opening the valve ( 24 ) a liquid flow from the opening ( 32 ) the valve closing body ( 10 ) and the closure element ( 12 ) moved in the flow direction. Valve according to claim 1, characterized in that the closure element ( 12 ) in an open on both sides hollow cylindrical recess ( 20 ) is arranged, whose mouth for the closure element ( 12 ) is locked. Valve according to claim 2, characterized in that the mouth of the recess ( 20 ) by at least one hook projecting into the mouth ( 22 ) is locked. Valve according to one of the preceding claims, characterized in that the valve closing body ( 10 ) and / or the closure element ( 12 ) is made of plastic is / are. Valve according to one of the preceding claims, characterized in that the guide section ( 14 ) a hollow cylindrical interior ( 18 ), in which a return spring ( 34 ) is arranged axially. Valve according to one of the preceding claims, characterized in that the guide section ( 14 ) at least one guide web for holding the valve closing body ( 10 ) having. Valve according to one of the preceding claims, characterized in that the guide section ( 14 ) in the longitudinal direction longer than the largest diameter of the sealing portion ( 16 ). Valve according to one of the preceding claims, characterized in that the valve ( 24 ) a housing ( 26 ), which the valve closing body ( 10 ) receives, so that between a shell outer surface of the guide portion ( 14 ) and a longitudinal direction to the guide section ( 14 ) oriented inner wall of the housing ( 26 ) is formed a passage. Piston pump with a valve ( 24 ) according to one of claims 1 to 8 for a hydraulic or pneumatic system. Use of the valve ( 24 ) according to one of claims 1 to 8 for reducing pressure pulsations and / or noise developments, characterized in that a first pulse of the liquid flow from the valve seat ( 28 ) ( 32 ) on the closure element ( 12 ) of the valve ( 24 ) is transmitted.

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