WO2018166783A1

WO2018166783A1 - Valve

Info

Publication number: WO2018166783A1
Application number: PCT/EP2018/054748
Authority: WO
Inventors: Jonas NESENSOHN; Okke Venekamp
Original assignee: Robert Bosch Gmbh
Priority date: 2017-03-14
Filing date: 2018-02-27
Publication date: 2018-09-20
Also published as: DE102017204253A1

Abstract

The invention relates to a valve (1) comprising a valve bearing (5) in a valve housing (3), and a valve body (4) with a guiding element (8) that is located in an opening (7) in the valve bearing; the valve body faces the discharge end of the valve and closes or opens the valve, while the valve bearing faces the intake end of the valve.

Description

Description Title Valve

The present invention relates to a valve. State of the art

In many technical applications valves are used, which are based on the principle of the automatic check valve. For example, in EP 1640584 AI such a valve is proposed, which as a compressor bypass for multi-stage Aufladungssyteme in internal combustion engines with

Charging device is used. This valve includes one in one

Valve housing recorded displacer. The displacement body is divided into a first displacement part and a second displacement part, wherein the first displacement part facing the upstream side closes or releases the compressor bypass. A disadvantage is the complex structure of the proposed valve due to the large number of components, their complex geometry and the associated long tolerance chains. In DE 10 2011 106 979 AI a valve in a supercharger for internal combustion engines is also proposed, which is based on the principle of the check valve. Another disadvantage is the complicated construction of the proposed valve due to the long tolerance chains associated with the plurality of components and their complex geometry.

There is therefore a need for a valve with a simple, robust and inexpensive construction. Disclosure of the invention

The device according to the invention with the characterizing part of claim 1 has the advantage that the flange of the valve, the valve mounting and the valve body are arranged in a valve housing.

According to the invention a valve is provided, which consists of a valve housing, in which the valve mounting is arranged. The valve body is arranged with a guide element in the opening of the valve mounting so that the valve body faces the outflow side of the valve and the valve closes or releases and the valve mounting faces the inflow side of the valve.

The arrangement of the valve mounting with the guide element on the

Inflow side of the valve together with that on the outflow side

arranged valve body in the valve housing has the significant advantage that the tolerance chain of the sealing surface of the valve housing to the

Seal member of the valve body within the valve housing and thus lies within a component.

The measures mentioned in the dependent claims advantageous refinements of the method specified in the independent claim are possible. Advantageously, the valve housing is made in one piece together with the valve mounting. The one-piece design allows, for example, the execution of the valve housing by a casting process, in particular by an injection molding process. This allows a cost-effective production of the housing, which is particularly suitable for the production of large numbers.

Alternatively, the valve housing and the valve mounting are advantageously designed in several parts. The multi-part design allows, for example, the combination different materials for the valve body and for the valve mounting. Also, a multi-part design is then preferably suitable if, for example, in one embodiment of the valve housing different valve properties by different valve springs and / or

Guide elements to be realized.

It is particularly advantageous if in a multi-part design, the

Valve bearing is firmly connected to the valve body. As preferred joining methods, for example, pressing, gluing or screwing can be used. The firm connection of the valve storage with the

Valve housing leads to an advantageous longer life of the valve.

Preferably, the valve mounting by one or more webs with the

Valve housing connected. Particularly favorable is the use of 3 webs. Advantageously, a plurality of webs can be made smaller and thus simpler than one or a few webs.

Preferably, a sliding bearing is arranged in the opening of the valve mounting, in which the guide element of the valve is guided. Advantageously, a sliding bearing favors the reproducibility of the valve parameters and reduces the

Wear between the guide element and the valve mounting. This leads to an advantageous longer life of the valve compared to the direct guidance of the guide element in the valve mounting without plain bearings. Preferably, the valve body is enclosed by a sealing element. This valve is located on the inside of the valve when the valve is closed. Advantageously, the sealing element ensures a tolerance compensation with the valve closed, so that the cost of producing the sealing surface is reduced on the inside of the valve body.

Preferably, the valve is formed from the valve housing and the outlet housing. The outlet housing is advantageous by a flange with connected to the valve body. This creates a simple and robust assembly.

Particularly advantageous is the expansion of the valve storage to a

tubular shaft which receives the valve spring. When the valve is fully open, the tubular shaft completely covers the valve spring so that it no longer influences the flow in an advantageous manner.

Conveniently, the attachment of the valve spring on the guide element with a disc. When the valve is fully open, this disc advantageously covers the valve spring located in the shaft. This ensures that the flow is no longer influenced by the valve spring when the valve is fully open. Other features and advantages of the present invention will become

Expert from the following description of exemplary

Embodiments, which should not be construed as limiting the invention, with reference to the accompanying drawings. Short description of the drawing

It shows:

Fig. 1: an exemplary schematic representation of a

Valve according to the invention.

The figure is merely a schematic representation of the device according to the invention or its components according to embodiments of the invention. In particular distances and size relations are not in the figure

reproduced to scale.

Figure 1 shows a schematic representation of the valve 2 according to the invention. The valve 2 is constructed from a valve housing 3 with a in the

Valve housing 3 arranged valve mounting 5, a valve body 4 with a Guide element 8. The guide element 8 is arranged in an opening of the valve mounting 5. The valve body 4 faces the outflow side of the valve 2, the valve support 5 faces the inflow side of the valve. The valve body 4 opens and closes the valve 2. In the shown

Embodiment consists of the valve housing 3 and the valve mounting 5 in one piece and can, for example, in the mass production without cutting in a

Injection molding be made. In the individual production that can

Valve housing 3 and the valve mounting 5 are made in one piece machined. In a further embodiment, the valve mounting 5 can be produced as a separate part. This valve mounting 5 is inserted into the valve housing 2, so that a firm connection between the two parts valve housing 2 and valve mounting 5 is formed. As preferred joining methods, for example, pressing, gluing or screwing can be used. The valve mounting 5 is connected to one or more webs 21 to the housing. The webs 21 may be provided with a streamlined cross-section to minimize the effect on the flow of the fluid. The webs 21 can be arranged symmetrically or asymmetrically. With that you can

For example, zones of low flow velocity in inhomogeneous

Flows of the valve are used for the arrangement of the webs. Also, the webs 21 can be performed with different cross-sections. The valve mounting 5 and the valve housing 3 can be made of plastic or metallic materials. The simple structure of the

Valve body 4 is achieved by the design as a flat, round disc with a bore for receiving the guide member 8 and a groove for receiving a sealing element 13. The valve body 4 can be made of plastic or of a metallic material. The guide member 8 carries the valve body 4 and is made in this embodiment of a

cylindrical body formed at the ends mounting options for the valve body 4 and the valve spring 16 are provided. The valve spring 16 is held by a disc 17 on the guide element 8, which corresponds in its outer diameter to the outer diameter of the shaft 19, so that the valve spring 16 is completely covered when the valve 2 is fully open and does not affect the fluid flow. The through the maximum possible valve travel certain largest opening of the valve 2 is limited by the length of the guide member 8 and the height of the shaft 19. The

Opening characteristic of the valve 2 is determined by the bias of the valve spring 16. The pressure difference between the inflow side and the outflow side, in conjunction with the surface of the valve body 4 for opening the valve 2, has to bring about an opening force that is greater than the pretensioning force of the valve spring 16.

The valve 2 consists of the valve housing 3 with the built-in valve housing 3 components valve support 5, valve body 4 and guide member 8 and the outlet housing 9. In a further embodiment, the valve housing 3 with the built-in components directly under elimination of the outlet housing 9 to another component with the help of the flange 10th

be flanged. The valve 2 can be used in a variety of applications. It can be used as a cost-effective and robust alternative to the prior art as a bypass valve for the multi-stage supercharging of internal combustion engines. Furthermore, the cost-effective valve according to the invention can be used as a shut-off valve for the anode and cathode side of fuel cells in order to prevent the penetration of unwanted fluids, in particular ambient air with the oxygen contained therein in the parked state of the fuel cell.

Claims

claims

1. Valve (2) with a arranged in a valve housing (3)

Valve mounting (5), a valve body (4) having a guide element (8), wherein the guide element (8) in an opening (7) of the

Valve mounting (5) is arranged, characterized in that the valve body (4) faces the outflow side of the valve (2) and the valve (2) closes or releases and the valve mounting (5) faces the inflow side of the valve (2).

2. Valve (2) according to claim 1, characterized in that the

Valve housing (3) and the valve mounting (5) are made in one piece.

3. Valve (2) according to claim 1, characterized in that the

Valve housing (3) and the valve mounting (5) are made in several parts.

4. Valve (2) according to claim 3, characterized in that the

Valve mounting (5) is firmly connected to the valve housing (3), preferably by pressing, gluing or screwing.

5. Valve (2) according to one of the preceding claims, characterized

characterized in that the valve mounting (5) by at least one web (21), preferably three webs (21) is connected to the valve housing (3).

6. Valve (2) according to one of the preceding claims, characterized

characterized in that in the opening (7) of the valve mounting (5) a sliding bearing (6) is arranged, in which the guide element (8) is guided.

7. Valve (2) according to one of the preceding claims, characterized

characterized in that the valve body (4) of a Sealing element (13) is enclosed, which rests with closed valve (2) on an inner side (20) of the valve housing (3).

8. Valve (2) according to one of the preceding claims, characterized

in that the valve (2) consists of the valve housing (3) and an outlet housing (9) which is connected via a flange (10).

9. Valve (2) according to one of the preceding claims, characterized

characterized in that the valve mounting (5) has a tubular shaft (15) for receiving a valve spring (16).

10. Valve (2) according to claim 9, characterized in that the

Valve spring (16) on the guide element (8) with a disc (17) is attached.