DE102011016276A1 - Valve for use in turbo supercharger of motor car, has sealing ring arranged between peripheral surface of sealing device and inner wall of housing, and actuator device that moves valve body, where ring is movably secured at sealing device - Google Patents

Abstract

The valve (1) has a sealing device (5) arranged at an end of a movable valve body (3) to form a sealing seat (6), and an electromagnetic actuator device (4) that moves the valve body. A radial sealing ring (7) is arranged between a peripheral surface of the sealing device and an inner wall of a housing (2). The radial sealing ring is movably secured at the sealing device. The radial sealing ring comprises a circulating seal lip that is slidingly arranged at a cylindrical section of the inner wall. A sealing element (14) is formed at a free end of the sealing device. An independent claim is also included for a valve and a machine block arrangement.

Description

Technical area

The invention relates to a valve according to the preamble of patent claim 1.

State of the art

A valve having features of the preamble of claim 1 is known from EP 1 941 138 B1 already known.

The known valve has a sealing device whose peripheral surface tapers conically in the direction of a sealing seat. In this case, a radial sealing ring is provided, which is arranged between the peripheral surface of the sealing device and an inner wall of the housing. The radial seal is fixed to the inner wall of the housing.

When opening the valve, the sealing device slides with its conical peripheral surface with decreasing contact pressure along the radial seal.

A disadvantage here is that the sealing device must be designed conically in such a complex manner that on the one hand an opening operation of the valve is operationally feasible and on the other hand a reliable seal between the inner wall of the housing and a valve to be closed by the fluid line is ensured.

In particular, it is disadvantageous that the sealing device with conical peripheral surface according to the EP 1 941 138 B1 due to their plug or bucket-like geometry must be made relatively bulky to reliably seal a sealing seat with a large scale. This leads to a bulky construction of the sealing device.

Presentation of the invention

The invention is therefore based on the object to realize a valve whose sealing device with a compact design can easily seal an opening with a relatively large diameter.

The present invention achieves the aforementioned object by the features of patent claim 1.

An inventive valve for use in a turbocharger of a motor vehicle comprises a housing, a movable valve body and an electromagnetic actuator, wherein at one end of the movable valve body sealing means is arranged to sealingly seated on a sealing seat, wherein the electromagnetic actuator moves the valve body and wherein a radial sealing ring is provided, which is arranged between a peripheral surface of the sealing device and an inner wall of the housing.

According to the invention it is provided that the radial seal is attached to the sealing device and is movable together with this.

According to the invention, it has been recognized that, as a result, a fluid-tight separation of two fluid lines can be realized almost independently of the entire peripheral surface of the sealing device. The sealing device can be built very narrow in regions in the radial direction, while still allowing a good seal. In particular, the sealing device may have a central part which is strongly constricted with respect to the end which carries the radial shaft sealing ring and with respect to the end which faces the sealing seat. Further, it has been recognized that a movable radial sealing ring can be designed to be elastic so that it can ensure a smooth sliding on this without overly high contact forces almost independent of the geometry of the inner wall. The sealing device can protrude very far at its end facing the sealing seat in the radial direction, wherein a central part is built very narrow and wherein the radial sealing ring fits snugly due to its elasticity to the inner wall of the housing. In that regard, a valve is realized, the sealing device in a compact design can easily seal an opening with a relatively large diameter.

Consequently, the object mentioned above is achieved.

The inner wall of the housing could have a first cylindrical portion having a first inner diameter that is offset or separated from a second cylindrical portion having a larger, second inner diameter by a step in the axial direction. As a result, the contact pressure of the radial seal on the inner wall can be significantly reduced very quickly.

A gradual reduction of the contact pressure, as required by the prior art EP 1 941 138 B1 is taught, is advantageously not realized. Here, the electromagnetic actuator is not overloaded during a longer travel, but suddenly released from the pressure to overcome the radial seal.

The radial sealing ring could have a circumferential sealing lip which slidably bears against the first cylindrical portion. As a result, a reliable sealing of two fluid lines is possible.

At the free end of the sealing device, a sealing element could be formed or arranged, which protrudes like a bell in the radial direction. By the bell-like or calyx-like protrusion, a relatively large opening of a fluid line can be sealed, without designing the middle or further parts of the sealing device similarly far radially projecting.

Against this background, a sealing element could be formed or arranged at the free end of the sealing device, which has a radially projecting pressure lip for resting on the sealing seat. The pressure lip preferably forms a goblet or a bell shape. A pressure lip is advantageously slightly deformed and can therefore compensate for unevenness on a bearing surface on the sealing seat.

The sealing device could have a constriction between pressure lip and radial sealing ring whose outside diameter is reduced by 5-9%, preferably by 10-19%, more preferably by 20-39% and particularly preferably by 40-80% compared to the maximum outside diameter of the contact lip. A reduction of 5-9% causes a moderate slimming of the sealing device. A reduction of 10-19% causes a relatively significant slimming of the sealing device. A reduction of 20-39% causes a strong slimming of the sealing device and a reduction of 40-80% causes a very strong slimming of the sealing device. Advantageously, the degree of constriction is chosen such that when structurally compactness of the sealing device in this still suitable wide flow passages can be provided to open the valve easily and quickly enough.

Against this background, the sealing element could be provided with flow passages, which allow a passage of a fluid to produce a pressure equalization between the side facing the sealing seat and the side facing away from the sealing seat of the sealing element. By the flow passages a contact pressure of the sealing device is made possible on the sealing seat, which is effected either exclusively or almost by a spring force. The fluid pressure on the side facing the sealing seat and the fluid pressure on the sealing seat facing away from the side of the sealing element are advantageously identical or nearly identical. Thus, a pressure-compensated or almost completely pressure-compensated valve can be generated.

Against this background, an arrangement could include a machine block and a valve of the type described herein, wherein in the engine block, a first fluid conduit and a second fluid conduit are formed, which are separated by the valve and fluidly connected to each other. The engine block may advantageously be part of a turbocharger of a motor vehicle. However, it is also conceivable that the engine block is part of another unit, which has two fluid lines to be separated from each other.

The first fluid line could be surrounded by a sealing seat to which the sealing device can be applied in a sealing manner. The sealing seat preferably has a contact surface for this purpose.

The sealing device could be applied in the de-energized state of the electromagnetic actuator loaded by a spring force on the sealing seat. A spring can reliably and independently of the pressures in the fluid lines ensure a sealing contact.

The inner wall of the housing could be formed as a replacement part, which can be arranged between the machine block and electromagnetic actuator. A replacement part allows to combine different electromagnetic actuators with different sealing devices. A sealing device can be mounted on a valve body that is part of an electromagnetic actuator. Following this, the inner wall of the housing can be selected such that the entire valve can be placed on a machine block.

There are now various possibilities for designing and developing the teaching of the present invention in an advantageous manner. For this purpose, on the one hand to the subordinate claims, on the other hand, to refer to the following explanation of preferred embodiments of the valve according to the invention with reference to the drawings.

In conjunction with the explanation of the preferred embodiments with reference to the drawings, generally preferred embodiments and developments of the teaching are explained.

Brief description of the drawing

In the drawing show

1 a sectional view of an arrangement of a valve in a motor vehicle,

2 the dashed lines, rectangular section Z according to 1 in an enlarged view and

3 an illustration of a concrete dimensioning of a sealing device and a sealing element.

Embodiment of the invention

1 shows a valve 1 for use in a turbocharger of a motor vehicle, comprising a housing 2 , a movable valve body 3 and an electromagnetic actuator 4 , wherein at one end of the movable valve body 3 a sealing device 5 is arranged to fit on a sealing seat 6 sitting up sealingly, the electromagnetic actuator 4 the valve body 3 moved and being a radial seal 7 is provided, which between a peripheral surface 8th the sealing device 5 and an inner wall 9 of the housing 2 is arranged. The radial seal 7 is at the sealing device 5 attached and movable together with this. The radial seal 7 is to the sealing device 5 clipped or locked with this.

2 shows that the inner wall 9 of the housing 2 a first cylindrical portion 10 having a first inner diameter that of a second cylindrical portion 11 with a larger, second inner diameter through a step 12 offset or separated in the axial direction.

The radial seal 7 has a circumferential sealing lip 13 on, sliding on the first cylindrical section 10 is applied. The sealing lip 13 is made of an elastomer.

1 shows that at the free end of the sealing device 5 a sealing element 14 is formed or arranged, which protrudes like a bell in the radial direction.

At the free end of the sealing device 5 is a sealing element 14 is formed or arranged, which has a radially projecting pressure lip 15 to rest on the sealing seat 6 having.

The sealing element 14 is with flow passages 16 provided, which a passage of a fluid for establishing a pressure equalization between the the sealing seat 6 facing and the sealing seat 6 opposite side of the sealing element 14 allow.

The sealing element 14 is integral and integral with the sealing device 5 educated. The sealing device 5 is on a ball head 17 of the valve body 3 positively secured, preferably with the ball head 17 latched or clipped.

3 shows a concrete dimensioning of a sealing device 5 , where the diameters (⌀) are given in mm. 3 shows concretely that the contact lip 15 shows at its widest point an outer diameter of 25.6 mm, wherein the sealing device 5 at its narrowest point, here the constriction 22 , an outer diameter of 18.65 mm. In that regard, the sealing device 5 a constriction 15 above the bell-like projecting contact lip 15 which shows an outer diameter which is 72% of the value of the outer diameter of the contact lip 15 at its widest point. Consequently, the sealing device 5 a constriction 22 between contact lip 15 and radial seal 7 on whose outer diameter 20-39% compared to the maximum outer diameter of the contact lip 15 is reduced.

1 shows an arrangement comprising a machine block 18 and a valve 1 of the type described above, wherein in the machine block 18 a first fluid line 19 and a second fluid line 20 are formed, which through the valve 1 namely by the sealing device 5 , separable from each other and fluid-conductively connected to one another.

The first fluid line 19 is from a tight seat 6 surrounded, to the the sealing device 5 is sealingly applied. This is the contact lip 15 on a contact surface of the sealing seat 6 on.

The sealing device 5 is in the de-energized state of the electromagnetic actuator 4 loaded by a spring force on the sealing seat 6 on. The electromagnetic actuator 4 has a coil 21 which generates a force which is an armature, namely the valve body 3 , against a spring force in the axial direction of the sealing seat 6 moved away. Once the sealing device 5 from the seal seat 6 takes off, be the first fluid line 19 and the second fluid line 20 fluidly connected together.

The inner wall 9 of the housing 2 is designed as a replacement part, which is between the machine block 18 and electromagnetic actuator 4 can be arranged.

With regard to further advantageous embodiments and developments of the teaching of the invention reference is made on the one hand to the general part of the description and on the other hand to the appended claims.

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

• EP 1941138 B1 [0002, 0006, 0014]

Claims (11)

Valve ( 1 ) for use in a turbocharger of a motor vehicle, comprising a housing ( 2 ), a movable valve body ( 3 ) and an electromagnetic actuator ( 4 ), wherein at one end of the movable valve body ( 3 ) a sealing device ( 5 ) is arranged to sit on a sealing seat ( 6 ) sealingly seated, the electromagnetic actuator ( 4 ) the valve body ( 3 ) and wherein a radial sealing ring ( 7 ) is provided, which between a peripheral surface ( 8th ) of the sealing device ( 5 ) and an inner wall ( 9 ) of the housing ( 2 ), characterized in that the radial sealing ring ( 7 ) on the sealing device ( 5 ) and is movable together with this. Valve according to claim 1, characterized in that the inner wall ( 9 ) of the housing ( 2 ) a first cylindrical section ( 10 ) having a first inner diameter defined by a second cylindrical portion ( 11 ) having a larger, second inner diameter through a step ( 12 ) is offset or separated in the axial direction. Valve according to claim 2, characterized in that the radial sealing ring ( 7 ) a circumferential sealing lip ( 13 ), which slidingly on the first cylindrical portion ( 10 ) is present. Valve according to one of claims 1 to 3, characterized in that at the free end of the sealing device ( 5 ) a sealing element ( 14 ) is formed or arranged, which protrudes like a bell in the radial direction. Valve according to one of claims 1 to 4, characterized in that at the free end of the sealing device ( 5 ) a sealing element ( 14 ) is formed or arranged, which a radially projecting pressure lip ( 15 ) for resting on the sealing seat ( 6 ) having. Valve according to claim 5, characterized in that the sealing device ( 5 ) a constriction ( 22 ) between pressure lip ( 15 ) and radial seal ( 7 ), whose outer diameter is 5-9%, preferably 10-19%, more preferably 20-39% and particularly preferably 40-80% compared to the maximum outer diameter of the pressure lip ( 15 ) is reduced. Valve according to one of claims 4 to 6, characterized in that the sealing element ( 14 ) with flow passages ( 16 ), which is a passage of a fluid for establishing a pressure equalization between the the sealing seat ( 6 ) and the sealing seat ( 6 ) facing away from the sealing element ( 14 ) allow. Arrangement comprising a machine block ( 18 ) and a valve ( 1 ) according to one of the preceding claims, wherein in the machine block ( 18 ) a first fluid line ( 19 ) and a second fluid line ( 20 ) formed by the valve ( 1 ) are separable from each other and fluidly connected to one another. Arrangement according to claim 8, characterized in that the first fluid line ( 19 ) from a sealing seat ( 6 ), to which the sealing device ( 5 ) is sealingly applied. Arrangement according to claim 9, characterized in that the sealing device ( 5 ) in the de-energized state of the electromagnetic actuator ( 4 ) loaded by a spring force on the sealing seat ( 6 ) is present. Arrangement according to one of claims 8 to 10, characterized in that the inner wall ( 9 ) of the housing ( 2 ) is designed as a replacement part, which between machine block ( 18 ) and electromagnetic actuator ( 4 ) can be arranged.

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