DE102005024708A1 - Housing part, in particular pump housing part - Google Patents

Abstract

The invention relates to a housing part, in particular a pump housing part, having a metering unit fastened in a pressure-tight manner to the housing part so as to be detachable, that is to say separable repeatedly without destruction. In order to optimize the fastening of the functional part, a collar is provided on the housing part, the collar having a tapered collar face against which a first tapered face of at least one tapered element bears, the tapered element having a second tapered face with which a tapered ring face of a tapered ring comes into contact when the tapered ring is moved from an open position into a closed position in order to press a positively locking face of the tapered element against a mating face which is provided on the functional unit.

Description

The Invention relates to a housing part, in particular a pump housing part, with a functional unit, in particular a metering unit, the detachable, the is called repeatedly non-destructive separable, pressure-tight on the housing part is attached.

conventional For example, metering units have a flange with through-holes for screws on, with which the flange is attached to the pump housing part. By the arrangement of the through holes becomes the orientation of the metering unit on the pump housing part established. This can lead to space conflicts when installing the pump housing part or the associated Lead the pump into a motor vehicle. It is also possible, a metering unit by means of a union nut on a housing part to fix. The union nut needed a relatively large amount of space to allow access for an assembly tool.

task The invention is the attachment of a functional part, in particular a metering unit, on a housing part, in particular a pump housing part, to optimize.

Advantages of invention

The Task is with a housing part, in particular a pump housing part, with a functional unit, in particular a metering unit, the solvable this means repeatedly non-destructive separable, pressure-tight on the housing part is fixed, solved by that on the housing part a collar is provided which has a collar wedge surface on which a first wedge surface at least one wedge element abuts, which has a second wedge surface on the one wedge ring surface a wedge ring comes to rest when the wedge ring from an open position in a closed position is moved to a positive surface of the wedge element against a counter surface to press which is provided on the functional unit. The invention creates an easy-to-install positive and non-positive connection between the Functional unit and the housing part. The Functional unit can in any direction to the housing part be aligned. On the housing part do not need to be screwed holes. Both for the connection itself as well as for the installation requires little space.

One preferred embodiment of the housing part is characterized in that the collar over a Circumferential angle of more than 180 degrees and less than 360 degrees, so that the collar is not continuous in the circumferential direction is, but has a mounting opening. The mounting hole allows an insertion of the wedge element between the counter surface and the collar wedge surface.

One Another preferred embodiment of the housing part is characterized in that the collar over a Circumferential angle of about 270 degrees. The mounting opening extends then about about a circumferential angle of 90 degrees. This will be the insertion of the Wedge element or multiple wedge elements easier.

One Another preferred embodiment of the housing part is characterized in that at least two wedge elements between the collar wedge surface and the counter surface are arranged. As a result, a stable attachment of the functional unit on the pump housing part guaranteed.

One Another preferred embodiment of the housing part is characterized in that the counter surface provided on a collar is, which is formed on the functional unit. Preferably extends the collar on the pump housing part facing side of Functional unit in the radial direction.

One Another preferred embodiment of the housing part is characterized in that the second wedge surface in a Angle of 81 to 89 degrees to the form-fitting surface of the wedge element arranged is. Preferably, between the second wedge surface and the form-fitting surface an angle of about 85 degrees included.

One Another preferred embodiment of the housing part is characterized in that the second wedge surface in a Angle of 40 to 90 degrees to the first wedge surface of the wedge element arranged is. Preferably, between the first and the second wedge surface of the Wedge element included an angle of about 65 degrees.

One Another preferred embodiment of the housing part is characterized in that the wedge ring is a circumferentially having extending annular groove. The annular groove creates a possibility of intervention for a Assembly tool with which the wedge ring can be loosened if necessary can to dismantle the functional unit.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, an embodiment is described in detail. It can in the claims and in the description mentioned features are each individually inventive or in any combination essential to the invention.

drawing

It demonstrate:

1 a pump housing part with a metering unit in the preassembled state in section;

2 an enlarged view of a detail II 1 ;

3 the pump housing part off 1 with the metering unit in the assembled state in section and

4 an enlarged view of a detail IV 3 ,

description of the embodiment

In 1 is a pump 1 with a pump housing part 2 shown in section. At the pump 1 it is preferably a radial piston pump which is driven by a drive shaft having an eccentric shaft portion. At the eccentric shaft portion are the ends of three star-shaped piston in abutment. The ends of the pistons facing away from the drive shaft define working spaces, which are also referred to as pump chambers. The workrooms are each via a suction valve and with the interposition of a metering unit 4 with a low pressure area in connection.

Furthermore the workrooms are over pressure valves with a high-pressure fuel storage, also known as Common rail or short rail is called. From the high-pressure fuel storage to lead High pressure lines to fuel injection valves. The high-pressure fuel storage stands above a pressure relief valve with the low pressure area in conjunction. Furthermore, at the fuel high pressure accumulator is a rail pressure sensor attached, over the pressure in the high-pressure fuel storage is detected.

The pump 1 serves to deliver fuel from the low pressure area in the high pressure fuel storage. When sucking open the suction valves, whereas the pressure valves are closed. About the metering unit 4 can the flow rate of the high pressure pump 1 to be controlled. When pumping fuel into the high-pressure fuel storage, the suction valves are closed and the pressure valves are opened. The metering unit 4 includes a caulking unit housing 5 , this in 1 is shown in the preassembled state.

In 2 is a detail II off 1 shown enlarged. The metering unit 4 has a sealing surface on its underside 6 on, on a flat acreage 7 rests against the pump housing part 2 is provided. In addition, the pump housing part has 2 a circular cylinder jacket-shaped guide surface 8th going down through a covenant 9 is limited, the radially outward of the guide surface 8th projects.

At the guide surface 8th is a wedge ring 10 movable up and down. The wedge ring 10 has the shape of a circular cylinder jacket-shaped sleeve, which at its upper end radially outward with an annular groove 11 is provided. The circumferentially extending annular groove 11 has a rectangular cross-section and represents an attack option for a tool dar. From the annular groove 11 extends radially outside of the wedge ring a tapered ring surface 12 downward. The wedge ring surface 12 forms a cone that extends from the annular groove 11 to the covenant 9 rejuvenated.

The pump housing part 2 points above the cultivated area 7 for the metering unit 4 a recess on top of a collar 14 is limited. The collar 14 is not continuous in the circumferential direction, but interrupted in a mounting area. The collar has radially inside an insertion funnel, which is to the cultivation surface 7 rejuvenated. From the inner end of the insertion funnel 15 go a collar wedge surface 16 which is arranged inclined at an angle of about 35 degrees to a horizontal downward. The collar wedge surface 16 is at a distance to the covenant 9 arranged.

Between the collar wedge surface 16 and the federal government 9 is a wedge element 20 arranged. The wedge element 20 has, viewed in cross-section, a first wedge surface 21 on, at the collar wedge surface 16 of the pump housing part 2 is applied. The wedge element points radially inward 20 a second wedge surface 22 on, which has a contact surface for the tapered ring surface 12 forms, the radially outward on the wedge ring 10 is trained. The second wedge surface 22 is at an angle of about 65 degrees to the first wedge surface 21 arranged. The wedge element 20 extends over a circumferential angular range of less than 180 degrees. For fastening the metering unit 4 on the pump housing part 2 Preferably, two equal wedge elements are used.

On its underside has the wedge element 20 a form-fitting surface 24 on, partially on a counter surface 25 is attached to the top of the covenant 9 of the pump housing part 2 is provided. In the 1 and 2 is the metering unit 4 shown in pre-assembled, unpaved condition. In this state, the metering unit 4 relative to the pump housing part 2 to be twisted. During assembly, the metering unit 4 in the of the collar 14 limited opening of the pump housing part 2 plugged. Then, the wedge members are pushed through the mounting hole in the groove, which from the collar wedge surface 16 and the counter surface 25 of the federal government 9 is limited. Subsequently, the metering unit 4 aligned so that one on the metering unit 4 provided plug in the desired direction. Finally, the wedge ring 10 moved down, as in 2 through an arrow 28 is indicated.

In the 3 and 4 is the ready assembled state of the metering unit 4 on the pump housing part 2 shown. In 4 you can see that the wedge ring 10 so in the conically inwardly tapered annulus between the guide surface 8th and the second wedge surface 22 has been pressed, that the wedge element 20 moved radially outward. About the cone-like wedge surfaces 21 and 22 on the wedge element 20 is the wedge element 20 firmly between the first wedge surface 21 and the counter surface 25 clamped. By a suitable inclination of the wedge surfaces ensures that the wedge ring 10 can not solve unintentionally.

Claims (8)

Housing part, in particular pump housing part, with a functional unit ( 4 ), in particular a metering unit which is detachable, that is repeatedly non-destructively separable, pressure-tight on the housing part ( 2 ), characterized in that on the housing part ( 2 ) a collar ( 14 ) provided with a collar wedge surface ( 16 ), on which a first wedge surface ( 21 ) at least one wedge element ( 20 ), which has a second wedge surface ( 22 ), on which a wedge ring surface ( 12 ) of a wedge ring ( 10 ) comes to rest when the wedge ring ( 10 ) is moved from an open position into a closed position to form a positive-locking surface ( 24 ) of the wedge element ( 20 ) against a counter surface ( 25 ) to be pressed on the functional unit ( 4 ) is provided. Housing part according to claim 1, characterized in that the collar ( 14 ) extends over a circumferential angle of more than 180 degrees and less than 360 degrees, so that the collar ( 14 ) is not continuous in the circumferential direction, but has a mounting opening. Housing part according to claim 2, characterized in that the collar ( 14 ) extends over a circumferential angle of about 270 degrees. Housing part according to one of the preceding claims, characterized in that at least two wedge elements ( 20 ) between the collar wedge surface ( 16 ) and the counterface ( 25 ) are arranged. Housing part according to one of the preceding claims, characterized in that the mating surface ( 25 ) on a bundle ( 9 ) provided at the functional unit ( 4 ) is trained. Housing part according to one of the preceding claims, characterized in that the second wedge surface ( 22 ) at an angle of 81 to 89 degrees to the interlocking surface ( 24 ) of the wedge element ( 20 ) is arranged. Housing part according to one of the preceding claims, characterized in that the second wedge surface ( 22 ) at an angle of 40 to 90 degrees to the first wedge surface ( 21 ) of the wedge element ( 20 ) is arranged. Housing part according to one of the preceding claims, characterized in that the wedge ring ( 10 ) a circumferentially extending annular groove ( 11 ) having.