DE102012215578A1 - Hydraulic device of vehicle brake system, has storage chamber that is extended axially along a storage chamber axis in pump housing and is sealed by a sealing element with two different radial expansion portions - Google Patents

Abstract

The hydraulic device (10) has a pump housing (12) for accommodating the hydraulic components, and a storage chamber (18) for storing brake fluid. The storage chamber is extended axially along a storage chamber axis in the pump housing and is sealed by a sealing element. The sealing element is provided with two different radial expansion portions, and is formed with metal. The storage chamber lid and sealing element are formed as multi-component injection molded portion with plastic.

Description

State of the art

The invention relates to a hydraulic unit of a vehicle brake system having a pump housing for receiving hydraulic components and a storage chamber for storing brake fluid, which extends along a storage chamber axis which is axially applied to the pump housing and which is sealed by a sealing member to the pump housing. Furthermore, the invention relates to a use of such a hydraulic unit in a vehicle brake system.

In vehicle brake systems, hydraulic power units are used in order to be able to provide a regulated brake pressure in the associated brake circuits by means of a brake fluid. For controlling the brake pressure, the hydraulic unit comprises a pump housing in which various hydraulic components are accommodated. Such hydraulic components are, for example, piston pumps with a motor shaft for driving the piston pumps. Further, a storage chamber is provided, by means of which the brake fluid can be cached if necessary. The brake fluid is returned from wheel brake cylinders or supplied from a main memory of the vehicle brake system, for example in vehicle brake systems with anti-lock braking system (ABS) and Electronic Stability Program (ESP).

Conventionally, the storage chamber is integrated in the pump housing by means of a bore in which an associated accumulator piston is mounted back and forth. Accordingly, the pump housing is adapted in its thickness to accommodate the bore for the storage chamber and thus dependent on the expansion of the accumulator piston. This dependence is avoided in recent developments in that the storage chamber is attached as an external unit to the pump housing, such as in DE10305310 B4 described. The storage chamber is placed on the outside of the pump housing and sealed by a sealing element.

Disclosure of the invention

According to the invention, a hydraulic unit of a vehicle brake system having a pump housing for receiving hydraulic components and a storage chamber for storing brake fluid, which extends along a storage chamber axis which is axially applied to the pump housing and thereby by means of a, in particular annular or disc-shaped sealing element on the pump housing sealed, created. In this case, the sealing element has a first radial extent and a second radial extent different therefrom.

The sealing element must, in order to be able to act sealingly, abut both the storage chamber and the pump housing in its entire circumferential extent. The pump housing has a longitudinal dimension directed along the storage chamber axis and a width dimension and thickness dimension which are approximately rectangular in each case. The thickness dimension and the width dimension form a surface which serves as a sealing support for the sealing element. The sealing element is designed according to the invention by means of the first radial extension and the second radial expansion different therefrom in its extension transversely to the storage chamber axis with a thickness dimension which is different from its width dimension. Designed in this way, the pump housing can be varied according to its thickness and width, depending on the available space, advantageously. The pump housing is particularly thin and space-saving design in one direction, so that less space is consumed in a vehicle. This space advantage is in contrast to conventional hydraulic units, in which the storage chamber is sealed as an external unit by means of a radially circular sealing element on the pump housing. This means that the sealing element always has the same radial extent and the pump housing must be correspondingly at least as thick and wide. This gives less variation in the construction of an associated vehicle brake system.

Preferably, a hydraulic unit is provided, in which the first radial extent extends in the direction of the thickness of the pump housing and is smaller than the second radial extent. Thus, the first radial extent determines the thickness of the pump housing. With the sealing element designed according to the invention, a particularly thin pump housing can be used in a way that saves material and costs with a smaller space requirement. Also, in the second radial expansion of the sealing element, there is advantageously room for further components.

Furthermore, a hydraulic unit is preferably provided with at least two passages within the sealing element between the storage chamber and the pump housing. The at least two passages are arranged in the direction of the second radial extent, which is greater than the first radial extent. In particular, at least one further passage bore is provided in addition to a central passage bore in the radially outer direction, the diameter of which is preferably smaller than the diameter of the central passage bore. The advantage of this is that of the Sealing element with its radial extent enclosed surface on the pump housing particularly well utilized. The at least two passages are preferably used for the hydraulic supply of brake fluid or pressure medium, in particular as an inlet and an outlet.

Furthermore, a hydraulic unit is provided in an advantageous manner in which, in addition to the first and second radial expansion, further different radial expansions of the sealing element are present. Designed in this way, the sealing element according to the invention provides a sealing element which is particularly well adapted to enclosed components, in particular passages and / or adjacent components, in particular to the pump housing. A very high flexibility in the manufacture and assembly of vehicle components is advantageously achieved.

Preferably, with the first radial extension and the second radial extension, an oval shape of the sealing element is formed, in particular an ellipse.

Thus, an inventive sealing element is created with rounded, convex radial Außenkontor that has no corners and edges. Such a sealing element is easy to manufacture and low-wear during operation.

Alternatively, with the first radial expansion and the second radial expansion, an approximately rectangular shape of the sealing element is advantageously formed, in particular with rounded corners. The rounded corners allow for easy manufacture and easy installation. In addition, with the rectangular shape of the sealing element at a predetermined first radial extent and a predetermined second radial extent, a maximum large radial surface extent is achieved. Within this surface area, further functional elements, in particular passages, may preferably be accommodated.

Furthermore, the sealing element is preferably formed with plastic. Plastic is particularly good moldable or pourable and has good sealing properties. The plastic is particularly preferably an elastomer, in particular a thermoplastic elastomer, with particularly good sealing properties. Most preferably, the sealing element made of silicone, in particular formed as a sealing mass bead. Thus formed, a particularly good adaptation to the required radial extent of the sealing element can be achieved.

Furthermore, a hydraulic unit with a storage chamber lid is preferably provided in which the sealing element and the storage chamber lid are formed as a multi-component injection molded part with plastic. A one-piece with the storage chamber cover sealing element has a particularly good sealing effect between the storage chamber and sealing element. In addition, mounting on the pump housing is particularly easy.

Alternatively or additionally, the sealing element is advantageously formed with metal. Metal stabilizes the sealing element. Metallic sealing partners are e.g. by means of assembly force irreversibly pressed to a particularly stable connection.

The invention is accordingly further directed to a use of such a hydraulic unit according to the invention in a vehicle brake system.

This space is saved in the vehicle brake system, in particular by means of a thinner pump housing. Overall, a smaller and lighter vehicle brake system compared to conventional vehicle brake systems is advantageously created according to the invention.

Exemplary embodiments 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 partial cross section of a first variant of a hydraulic unit according to the prior art,

2 the section II of the hydraulic unit according to 1 .

3 a partial cross section of a second variant of a hydraulic unit according to the prior art,

4 the section IV of the hydraulic unit according to 3 .

5 a section according to 4 a first embodiment of a hydraulic unit according to the invention and

6 a section according to 4 a second embodiment of a hydraulic unit according to the invention.

In 1 and 2 is a conventional hydraulic power unit 10 shown, a hydraulic block as a pump housing 12 includes several holes 14 having. The holes 14 serve as lines or for receiving various hydraulic elements, which are not shown here. Two holes are shown in more detail 16 , in each of which a cup-shaped, circular-cylindrical storage chamber 18 is included. To accommodate this storage chamber 18 indicates the pump housing 12 a thickness gauge 19 at least as large as a diameter 20 the storage chamber 18 plus twice a wall thickness 22 of the pump housing 12 ( 2 ). The diameter 20 the storage chamber 18 in turn is size dependent on the diameter of an associated accumulator piston 24 , The storage piston 24 or the diameter 20 the storage chamber 18 thus influence the thickness dimension 19 of the pump housing 12 ,

Furthermore, the pump housing has 12 a width measure 26 and a measure of length 27 on that together with the thickness gauge 19 the size and space requirements of the hydraulic unit 10 determine.

3 and 4 show another known hydraulic unit 10 in which the storage chamber 18 along its longitudinal extent a storage chamber axis 28 has and as an external component on the outside axially on the pump housing 12 is appropriate. For sealing there is between the storage chamber 18 and the pump housing 12 a circular sealing ring (O-ring) as a sealing element 30 intended ( 4 ). Thus, the sealing element 30 in all radial directions the same radial extent 31 on, whereby a circular outer contour of the sealing element 30 is formed. The sealing element 30 must with its entire outer contour on the pump housing 12 rest in order to have a sealing effect. Therefore, determines the Außenkontor the sealing element 30 and thus its radial extent 31 the thickness gauge 19 and the width dimension 26 of the pump housing 12 , With the same radial extent 31 will be at least one thickness gauge 19 needed, the same size as the width 26 is.

Inside the sealing element 30 are centrally located a first passage 32 and next to it a second, smaller passage 34 to allow brake fluid to pass in and out of the storage chamber as needed 12 during braking operation.

For on-demand passage and thus for temporary storage of brake fluid includes the storage chamber 12 Furthermore, a cup-shaped, circular cylindrical storage cylinder 36 in which a storage piston 24 is slidably mounted. The storage piston 24 is on the inside of the storage cylinder 36 by means of a memory piston 24 fixedly arranged piston seal 38 fluid-tight, but at the same time displaceably sealed. A piston spring 40 urges the storage piston so displaceably mounted 24 in the cup shape of the storage cylinder 36 into it, whereby in the interior of which a pressure space for intermediate storage of brake fluid under pressure is formed.

In the storage piston 24 opposite bottom surface of the cup shape of the storage cylinder 36 is the first passage 32 provided in which a valve not shown is formed. By means of this valve can optionally brake fluid into the interior of the storage cylinder 36 be admitted. The brake fluid is admitted as soon as its volume in the storage cylinder 36 so far reduced and thereby the accumulator piston 24 so far into the storage cylinder 36 has moved in until the valve is opened. It flows brake fluid into the storage chamber 12 into it. Depending on the brake situation, brake fluid flows through the second passage 34 also in the storage cylinder 36 into or out of the storage cylinder.

Two embodiments of a hydraulic unit according to the invention 10 are in the 5 and 6 illustrated. For this purpose, in each case a radial section of a sealing element 30 represented, according to the invention a smaller first radial extent 42 and a larger second radial extent 44 having. The larger second radial extent 44 extends in the direction of the width dimension 26 and the smaller first radial extent 42 in the direction of the thickness measurement 19 of the pump housing 12 , With such a sealing element 30 can the respective pump housing 12 in his thickness 19 be made considerably thinner than in the known hydraulic units described above 10 ( 1 to 4 ). Nevertheless, both the first passage 32 as well as the second passage 34 fluidically useful within the larger second radial extent 44 of the sealing element 30 housed and thus sealed sealed to the outside. With the thinner pump housing 12 Is it possible to use a particularly light hydraulic power pack? 10 to create, which also consumes less space in a vehicle brake system.

The sealing element 30 has in the embodiment according to 5 According to the invention, an oval, approximately elliptical shape, while the sealing element 30 in the embodiment according to 6 forms an approximately rectangular shape with rounded edges. Designed in this way, there are advantageously no corners and edges, so that the sealing element 30 acting forces, in particular deformation forces are distributed evenly. A particularly low-wear sealing element 30 is formed. Furthermore, with the approximately rectangular shape of the sealing element 30 at the same required thickness 19 of the pump housing 12 created a maximum large enclosed or sealed to the outside surface. In this area, the passages 32 and 34 and, if necessary, other functional elements are well positioned.

The sealing element 30 Made of an elastomer and is easy to install between storage chamber 18 and pump housing 12 inserted.

Alternatively, the sealing element 30 made of silicone as Dichtmasseraupe, so that its shape particularly flexible to the shape of the pump housing 12 and the passages 32 and 34 can be adjusted.

Furthermore, the sealing element 30 in an alternative and not shown variant together with a lid of the storage chamber 18 formed as a multi-component molded part, the sealing on the pump housing 12 can be attached. For a particularly simple assembly is possible and at the same time achieves a particularly reliable sealing effect.

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 10305310 B4 [0003]

Claims (10)

Hydraulic unit ( 10 ) a vehicle brake system with a pump housing ( 12 ) for receiving hydraulic components and a storage chamber ( 18 ) for storing brake fluid extending along a storage chamber axis ( 28 ), which axially to the pump housing ( 12 ) is applied and thereby by means of a sealing element ( 30 ) on the pump housing ( 12 ) is sealed, wherein the sealing element ( 30 ) a first radial extent ( 42 ) and a different second radial extent ( 44 ) having. Hydraulic unit according to claim 1, in which the first radial extent ( 42 ) in the direction of the thickness ( 19 ) of the pump housing ( 12 ) and is smaller than the second radial extent ( 44 ). Hydraulic unit according to claim 1 or 2, with at least two passages ( 32 . 34 ) within the sealing element ( 30 ) between the storage chamber ( 18 ) and the pump housing ( 12 ), in which the at least two passages ( 32 . 34 ) in the direction of the second radial extent ( 44 ) are arranged. Hydraulic unit according to one of claims 1 to 3, wherein in addition to the first and second radial expansion ( 42 . 44 ) are more different radial expansions. Hydraulic unit according to one of claims 1 to 4, in which with the first radial extent ( 42 ) and the second radial extent ( 44 ) an oval shape of the sealing element ( 30 ) is formed. Hydraulic unit according to one of claims 1 to 4, in which with the first radial extent ( 42 ) and the second radial extent ( 44 ) an approximately rectangular shape of the sealing element ( 30 ) is formed. Hydraulic unit according to one of claims 1 to 6, wherein the sealing element ( 30 ) is formed with plastic. Hydraulic unit according to one of claims 1 to 7, having a storage chamber lid, in which the sealing element ( 30 ) and the storage chamber lid are formed as a multi-component molded part with plastic. Hydraulic unit according to one of claims 1 to 8, wherein the sealing element ( 30 ) is formed with metal. Use of a hydraulic power unit ( 10 ) according to one of claims 1 to 9 in a vehicle brake system.

Images