VALVE ARRANGEMENT

Abstract

A valve arrangement, having a housing with a fluid line and a valve arranged in the fluid line which has a valve seat, a valve flap, and a valve opening, the valve flap being pivotable about a pivot axis between a closed position, in which the valve flap lies against the valve seat and closes the valve in fluid-tight fashion, and an open position, in which the valve flap opens up the valve opening. The valve flap, in the closed position, defining an X-Y plane of a coordinate system and the pivot axis being arranged with a spacing to the X-Y plane and defining the Y direction of the coordinate system. An alignment mechanism aligns the arrangement in which the valve flap is situated relative to the valve seat in the closed position to be is alignable and fixable at least in the X direction.

Claims

1.-14. (canceled)

15. A valve arrangement, comprising: a housing with a fluid line; a valve arranged in the fluid line having: a valve seat; a valve opening; and a valve flap that is pivotable about a pivot axis between a closed position, in which the valve flap lies against the valve seat and closes the valve opening in fluid-tight fashion, and an open position, in which the valve flap opens up the valve opening, wherein the valve flap, in the closed position, defines an X-Y plane of a coordinate system and the pivot axis is arranged with a spacing to the X-Y plane and defining a Y direction of the coordinate system, and an alignment mechanism by which an arrangement in which the valve flap is situated relative to the valve seat in the closed position is alignable and fixable at least in an X direction.

16. The valve arrangement as claimed in claim 15, wherein the arrangement in which the valve flap is situated relative to the valve seat in the closed position is additionally alignable and fixable in a Y direction by the alignment mechanism.

17. The valve arrangement as claimed in claim 15, wherein the arrangement in which the valve flap is situated relative to the valve seat in the closed position is additionally alignable and fixable in a Z direction by the alignment mechanism.

18. The valve arrangement as claimed in claim 15, wherein the valve has a shaft configured to pivot the valve flap, the alignment mechanism configured to fasten the valve flap to the shaft.

19. The valve arrangement as claimed in claim 18, wherein the alignment mechanism has a screw fastening of the valve flap to the shaft.

20. The valve arrangement as claimed in claim 19, wherein the shaft has at least one passage hole, in which a screw of the screw fastening is arranged, and a planar, first abutment surface, which surrounds the at least one passage hole at a side of the shaft facing toward the valve flap and which is braced together with the valve flap by the screw fastening.

21. The valve arrangement as claimed in claim 20, wherein an outer diameter of the screw is smaller than a cross-sectional dimension of the at least one passage hole to allow an alignment in the X-Y plane.

22. The valve arrangement as claimed in claim 21, wherein the shaft has, on a side averted from the valve flap, a second abutment surface which is arranged plane-parallel with respect to the first abutment surface and on which a head of the screw is supported.

23. The valve arrangement as claimed in claim 20, wherein a blind hole with a thread, into which the screw is screwed, is formed on the valve flap.

24. The valve arrangement as claimed in claim 19, wherein the shaft has two passage holes which are arranged to both sides of a line axis of the fluid line and in which in each case one screw is arranged.

25. The valve arrangement as claimed in claim 18, wherein the alignment mechanism has an adhesive or welded fastening of the valve flap to the shaft.

26. The valve arrangement as claimed in claim 25, wherein the shaft has a passage hole into which a peg formed on the valve flap is inserted, an annular gap being formed between the peg and the passage hole, which annular gap allows the alignment of the valve flap during assembly of the valve arrangement and which annular gap is at least partially closed by the adhesive bonding or the welding during the fastening of the valve flap to the shaft.

27. A fuel cell arrangement, comprising: at least one fuel cell; a gas line configured to feed and/or discharge gas to and/or from the at least one fuel cell; and a valve arrangement, comprising: a housing with a fluid line; a valve arranged in the fluid line having: a valve seat; a valve opening; and a valve flap that is pivotable about a pivot axis between a closed position, in which the valve flap lies against the valve seat and closes the valve opening in fluid-tight fashion, and an open position, in which the valve flap opens up the valve opening, wherein the valve flap, in the closed position, defines an X-Y plane of a coordinate system and the pivot axis is arranged with a spacing to the X-Y plane and defining a Y direction of the coordinate system, and an alignment mechanism by which an arrangement in which the valve flap is situated relative to the valve seat in the closed position is alignable and fixable at least in an X direction, wherein the valve is configured to shut off the gas line by adjustment of the valve flap into the closed position.

28. A motor vehicle, comprising: a line; a valve arrangement, comprising: a housing with a fluid line; a valve arranged in the fluid line having: a valve seat; a valve opening; and a valve flap that is pivotable about a pivot axis between a closed position, in which the valve flap lies against the valve seat and closes the valve opening in fluid-tight fashion, and an open position, in which the valve flap opens up the valve opening, wherein the valve flap, in the closed position, defines an X-Y plane of a coordinate system and the pivot axis is arranged with a spacing to the X-Y plane and defining a Y direction of the coordinate system, and an alignment mechanism by which an arrangement in which the valve flap is situated relative to the valve seat in the closed position is alignable and fixable at least in an X direction, wherein the valve arrangement is configured to shut off the line by adjustment of the valve flap into the closed position, the line being one or more of a gas line of a motor vehicle drive and/or of a fuel cell arrangement of the motor vehicle.

29. The valve arrangement as claimed in claim 15, wherein the valve arrangement is configured for one or more of a gas line, a gas line of a fuel cell arrangement, and/or a motor vehicle drive arrangement.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] The invention will be discussed in more detail below on the basis of exemplary embodiments illustrated in the figures. In the figures:

[0029] FIG. 1 is a valve arrangement in a perspective illustration;

[0030] FIG. 2 is the valve arrangement from FIG. 1 in a further perspective illustration, partially in section;

[0031] FIG. 3 is the valve arrangement from FIG. 1 in a sectional illustration;

[0032] FIG. 4 is the valve arrangement from FIG. 1 in a further sectional illustration;

[0033] FIG. 5 is a valve arrangement in a sectional illustration; and

[0034] FIG. 6 is a valve arrangement, in a sectional illustration.

DETAILED DESCRIPTION OF THE PRESENTLY PREFERRED EMBODIMENTS

[0035] The valve arrangement from FIG. 1 has a housing 10, through which a fluid line 12 is formed. The fluid line 12 has a circular cross section. Facing the viewer is a flange 14 of the housing 10, by which the valve arrangement can be connected to a further line piece. In FIG. 1, and in all of the other figures, a valve flap 16 is shown in its closed position. The valve flap 16 lies with its outer, circular edge against an elastic seal 18, which forms a valve seat.

[0036] The valve flap 16 is disk-shaped. In the closed position shown, the valve flap is arranged orthogonally with respect to a line axis 20 (see FIG. 2) of the fluid line 12 and defines an X-Y plane of a coordinate system 22 that is used for the further description of the respective directions. The line axis 20 is a central longitudinal axis of the fluid line 12 in the region of the valve flap 16.

[0037] Running parallel to the Y axis of said coordinate system 22 is a shaft 24 of the valve, which defines a pivot axis of the valve flap 16. The shaft 24 runs transversely through the fluid line 12 and is connected to an electric actuator 26, which is flange-mounted on the housing 10, of the valve arrangement. The electric actuator 26 serves as an actuating drive for the valve and can move the valve flap 16 back and forth between the closed position shown and an open position (not shown) by rotation of the shaft 24.

[0038] The alignment mechanism for the alignment and fixing of the valve flap 16 relative to the valve seat is, in FIGS. 1 to 4 and in FIG. 5, implemented by a screw fastening of the valve flap 16 to the shaft 24. It can be seen in FIG. 1 that the shaft 24 has two plane-parallel abutment surfaces in a central section. A first, planar abutment surface 28 is, in FIG. 1, situated on that side of the shaft 24 which is averted from the viewer. A second, planar abutment surface 30 faces the viewer. With a spacing to both sides of the line axis and within the two abutment surfaces 28, 30, the shaft 24 has two passage holes 32 (see FIG. 3), through which in each case one screw 34 is led.

[0039] On that side of the valve flap 16, which faces the viewer in FIG. 1, and which also faces the shaft 24 and its first abutment surface 28, the valve flap 16 has two dome-like protrusions 36 in which there is formed in each case one blind hole 38 (see FIG. 3) with a thread, into which in each case one of the screws 34 is screwed. In this way, the valve flap 16 is braced together with the first abutment surface 28. Here, the inner diameter of the passage holes 32 is greater than the outer diameter of the screws 34, such that the screw connection has play in the X direction and in the Y direction. During the assembly of the valve arrangement, before the tightening of the screws 34, the valve flap 16 can thus be aligned in the X-Y plane and coordinated with the valve seat. The screws 34 are subsequently tightened, and the arrangement of the valve flap 16 relative to the valve seat is thus fixed.

[0040] FIG. 2 shows the line axis 20 of the fluid line 12. It can be seen that said line axis runs along the Z direction of the coordinate system 22 that is likewise shown. It is also possible to clearly see the flattened cross section of the shaft in the central longitudinal section with the two abutment surfaces 28, 30. It is likewise possible to clearly see the complex cross-section geometry of the encircling elastic seal 18, and that said seal 18 is inserted into the circular opening of the housing 10 that forms the fluid line 12. The shaft 24 runs along the pivot axis of the valve flap 16. The pivot axis is arranged with a spacing to the plane of the valve flap 16.

[0041] In the sectional illustration of FIG. 3, the section plane runs parallel to the X-Z plane. The main elements of the alignment mechanism can be clearly seen in FIG. 3. It can be seen that the inner diameters of the two passage holes 32 are considerably larger than the outer diameter of the screws 34, such that an alignment of the valve flap 16 relative to the valve seat in the X-Y plane is possible. It is also possible to clearly see that the valve flap 16 is braced together with the first abutment surface 28 by the screws 34 and that the heads of the screws 34 lie against the second abutment surface 30. The shaft 24 is mounted rotatably in the housing 10 and is connected to the electric actuator 26 (merely indicated on the right in FIG. 3).

[0042] FIG. 4 shows the arrangement from FIGS. 1 to 3 once again in a different section plane. This time, the section plane runs parallel to the X-Z plane of the coordinate system 22. It can be seen that the shaft 24 and thus the pivot axis of the valve flap 16 is arranged perpendicular to the line axis 20 of the fluid line 12 and so as to be laterally offset with respect thereto (in the X direction).

[0043] In FIG. 5, only a few elements of another valve arrangement are illustrated in section. It can be seen that the valve flap 16 has an encircling groove 40 into which an O-ring as elastic seal 18 is inserted. Said O-ring seals against the valve seat 42. As alignment mechanism, use is likewise made of a screw connection with a screw 34, which is inserted with play through a passage hole 32 in a shaft 24. The screw 34 is screwed into a blind hole 38 with a thread, which blind hole is formed in a dome-like protrusion 36 on the valve flap 16. In this exemplary embodiment, too, the shaft 24 has, on the side facing the valve flap 16, a planar abutment surface 28, together with which the valve flap 16 is braced by the screw 34, and a second abutment surface 30, which is oriented plane-parallel with respect to the first abutment surface 28 and against which the head of the screw 34 lies.

[0044] FIG. 6 likewise shows only selected elements of another valve arrangement in a sectional illustration. The valve flap 16 is, similarly to that from FIG. 5, equipped with an encircling groove 40 into which an elastic seal 18 in the form of an O-ring is inserted. However, a different alignment mechanism is provided, which does not have a screw connection. Instead of the screw connection, a peg 44 is formed on the valve flap 16, which peg is led through a passage hole 32 in the shaft 24. The diameter of the passage hole 32 is selected to be larger than the outer diameter of the peg 44, such that this arrangement also initially has such a degree of play that an alignment of the valve flap 16 relative to the valve seat 42 is possible, specifically in the X, Y and Z directions. After the desired alignment has been found, a permanent connection between the peg 44 and the shaft 24 is produced by laser welding, the annular gap formed between peg 44 and passage hole 32 being entirely or partially closed.

[0045] Thus, while there have shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.