DE102007013984A1 - Cylindrical component holding device for cylindrical housing, has fastening unit formed by inner and outer eccentric rings, where outer eccentric ring is tight-fitted at inner eccentric ring, and inner cone attached at outer cone - Google Patents

Abstract

The device has a fastening unit formed by inner and outer eccentric rings (6, 5), where the outer eccentric ring is tight-fitted at the inner eccentric ring. The outer eccentric ring is cylindrically formed at an outer circumference, and is conically formed at an inner circumference, where the fastening unit is radially expanded. An inner cone is attached at an outer cone that is arranged at the outer circumference of the inner eccentric ring, where the inner and outer cones include a same cone angle.

Description

The The invention relates to a device for holding a cylindrical Component in a cylindrical housing according to the preamble of Patent claim 1.

Out DE 43 32 820 A1 already such a device for holding a cylindrical member in a cylindrical housing is known. The device consists of a retaining ring, which is pressed between the cylindrical valve member and the housing and due to the shaping of a wedge effect for secure attachment of the valve in the housing einfacht.

The Use of the presented retaining ring is limited to components that exactly centric in the housing can be arranged. There is an offset between the component longitudinal axis and the housing longitudinal axis or should such an axis offset be set, so can Do not fasten the (valve) component with the presented retaining ring in the housing.

Therefore It is the object of the present invention to provide a device for propelling a cylindrical member in a cylindrical housing, which independently whether there is an offset between the component and the housing or not, does not have the aforementioned disadvantages.

These Task is according to the invention for a device the specified type with the characterizing features of the claim 1 solved.

Further Features and advantages of the invention will become apparent from the description several drawings.

It demonstrate:

1 the positioning and fastening of a control valve by means of two eccentric rings within a shock absorber,

2 a component to be fastened by means of eccentric rings in a housing in a perspective view,

3 the structural design of the eccentric rings in a perspective and sectional view,

4 the alignment and rotation of the eccentric rings to each other for the purpose of setting the desired eccentricity,

5 . 6 the juxtaposition of the eccentric rings to produce an eccentric ring package,

7 the alignment and rotation of the eccentric ring package by a defined angle, which corresponds to the position of the component in the housing,

8th the insertion of the eccentric ring package in the existing between the component and the housing annulus,

9 the compression of the eccentric ring package within the annulus,

10 the eccentric ring package in the final assembly state,

11 - 17 Exemplary embodiments for supporting the force acting on the eccentric ring month force.

The 1 shows as a practical embodiment of the claimed invention skillful positioning and attachment of a control valve (component 1 ) in a shock absorber by means of two eccentric rings 5 . 6 , The installation location for this control valve consists of a cylindrical inlet nozzle 2 and a substantially tubular housing 3 , As a result of manufacturing tolerances is the center axis of the inlet nozzle 2 to the center axis of the housing 3 usually offset.

By using the eccentric rings explained below 5 . 6 can the Regelventill despite the axial offset between the housing 3 and the inlet nozzle 2 functionally integrated in the shock absorber by the control valve by appropriate rotation and compression of the eccentric rings 5 . 6 between the inlet nozzle 2 and the housing 3 pressure medium tight can be fixed.

With such an axial offset, it has not been possible, the control valve between the housing 3 and the inlet nozzle 2 and then using a common method such as a thread, a direct press or by crimping the housing edge to attach. These attachment methods rely on the fact that the component to be fastened sits relatively precisely in the center of the housing, or that it must not sit there crooked.

According to the invention can now be the offset between the inlet nozzle 2 and the housing 3 by the eccentric ring package presented hereby, consisting of an outer and an inner eccentric ring 5 . 6 compensate. This package of eccentric rings 5 . 6 makes it possible, each resulting from the manufacturing tolerances position of Re gelventils 1 within a circular area around the center of the housing 3 to be accepted as a place of installation. Nevertheless, a robust and axially parallel attachment of the control valve, with no gap between it and the housing 3 , guaranteed.

How this is done in detail, should not be based on the concrete application example 1 but on the basis of more abstract representations on the basis of 2 - 17 be explained.

The invention is thus not on the embodiment according to 1 limited. It is not only suitable for tolerance-compensating assembly of various components, but also for bridging a design-related offset between different components or for an offset, which can result from individual setting operations of different components. In addition, the subject invention for targeted placement of an otherwise loose component within a particular (circular) area is.

The 2 shows a component 1 , which does not have to correspond to the control valve shown by way of example, in its initial situation, that within a housing 3 should be attached. Either there already exists an axis offset between the component 1 and the housing 3 so that the component 1 travels off-center in the case 3 is arranged, or an axis offset should be made by the assembly. Mathematically, the axis offset is the distance between the longitudinal axes of the component 1 and housing 3 (Eccentricity) and the angular position of this offset line characterized.

As a component 1 is shown in the simplest application example, only a solid cylinder, since the component 1 in the area where the attachment with the eccentric rings 5 . 6 takes place, outside must be cylindrical. The housing 3 again in this area must have inside a cylindrical bore shape and is shown as a short hollow cylinder or tube. Also the case 3 in the simplest embodiment does not necessarily have the off 1 have known embodiment. Above and below the in 2 Of course, other shapes are possible as long as they do not hinder the assembly.

In 3 are the invention relevant eccentric rings 5 . 6 in the upper leaf area in a perspective view and lower leaf area shown in longitudinal section. The outer eccentric ring 5 is cylindrical on the outside and conical on the inside, on the inner eccentric ring 6 it is the other way around. The outer cone 7 of the inner eccentric ring 6 Although it has the same cone angle as the outer eccentric ring 5 but a larger average diameter. As a result, the later Ineinan derpressen the eccentric rings 5 . 6 the outer eccentric ring 5 stretched and the inner eccentric ring 6 compressed.

With both eccentric rings 5 . 6 in each case the center axis of the cylindrical shape is displaced by a certain amount of the eccentricity E1, E2 with respect to the center axis of the cone shape. It makes sense, but not conditional, that this eccentricity E1, E2 in outer and inner eccentric ring 5 . 6 is the same size. Only then can according to 2 the component 1 also exactly centric in the housing 3 to sit. Otherwise, the minimum offset would be the difference between the two ring eccentricities.

In 3 both have eccentric rings 5 . 6 the same eccentricity E1, E2. Would you like them, as in 3 shown, put together, the total eccentricity would be zero. That is the basic position, so to speak.

In 3 one sees with both eccentric rings 5 . 6 at the point of maximum thickness a groove 8th , It serves to determine the respective angular position of the two eccentric rings 5 . 6 during installation. Instead of a groove 8th Any other type of marking may be used as long as it is identifiable in the - possibly automated - assembly process. The position of the marking on the respective eccentric ring 5 . 6 can be fundamentally different, but must always be clearly defined.

Starting from the in 3 shown basic position are the eccentric rings 5 . 6 in 4 to adjust the eccentricity accordingly rotated against each other. You turn until the between the component 1 and the housing 3 existing total eccentricity is achieved according to the desired or existing component eccentricity. The maximum possible total eccentricity is the sum of the individual eccentricities of the two eccentric rings 5 . 6 , It is reached at a 180 ° rotation from the basic position (zero position).

The 5 shows the joining of the eccentric rings 5 . 6 in the desired rotational position 4 , which makes the in 6 shown eccentric ring package receives.

According to 7 the eccentric ring package is then rotated so that the angular position of the eccentricity of the Exzenterringpakets the existing or desired angular position of the component eccentricity between housing 3 and component 1 equivalent. In this angular position is according to 8th the eccentric ring package (possibly together with the component 1 ) in the housing 3 plugged in and pressed.

Regarding the in 9 It should be noted that the fitting between the component 1 and the inner eccentric ring 6 and the fit between the outer eccentric ring 5 and the housing 3 each executed so tight that the already mentioned compression of the inner eccentric ring 6 the component 3 sufficiently clamped and the elongation of the outer eccentric ring 5 to a sufficient clamping in the housing 3 leads. The cone angle is therefore chosen so small that, similar to the flat pitch angle of a thread in a screw connection, to a self-locking or permanent clamping action between the two eccentric rings 5 . 6 comes.

Finally shows 10 the finished fastened component 1 with the effect of the pressing force in the housing 3 recessed eccentric ring package.

For the required on the Exzenterringpaket pressing process various methods for supporting the assembly force are possible, which are reflected in a different embodiment of the overall assembly, based on the 11 - 17 be explained: In 11 is a separate or external support of the directional arrows indicated assembly and support force shown. The assembly force, by an annular punch 9 is introduced from above into the Exzenterrringpaket is below by a separate component 12 taken, which also remains according to the selected embodiment of the illustrated eccentric assembly (see 12 ).

The 13 shows an alternative method, in which it must be assumed that the eccentric assembly is accessible from both faces during assembly, whereby instead of the separate component 12 a second punch of the mounting device is used as a counter-holder, as well as the punch after completion of the assembly 9 removed and reused. The completed assembly goes off 13 out.

On the other hand, the show 14 . 15 a recording of the mounting force by one on the component 1 molded heel 10 in which, in the function of the counter-holder, the inner eccentric ring 6 supported. The assembly force caused by the annular ram 9 from the top over the outer eccentric 5 is introduced into the eccentric ring package, is described below by the paragraph 10 added.

In 16 and 17 is the recording of the mounting force on the housing 3 shown what a separate plate 11 at a stage of the housing 3 supported by the mounting force in the housing 3 is initiated. With appropriate design of the stage of the housing 3 The power can also be directly from the housing 3 be recorded.

at Wish or need can All examples shown are modified to the effect that the eccentric ring package rotated by 180 ° and thus the inner ring is pressed from above.

When the angular position of the component to be mounted 1 does not matter, the inner eccentric ring 6 also a part of the component 1 be. The outer cone 7 is then directly on the component 1 arranged and must have the same eccentricity to the component main axis, which in two-piece design of the Exzenterringpakets explained by the inner eccentric ring 6 was presented. (Again, a 180 ° rotation of the cone angle is possible.).

1

component

2

inlet connection

3

casing

4

inner cone

5

eccentric

6

eccentric

7

outer cone

8th

groove

9

press die

10

paragraph

11

plate

12

component

Claims (6)

Device for holding a cylindrical component in a cylindrical housing by means of a suitable frictional fastening means, characterized in that the fastening means by a first (inner) eccentric ring ( 6 ) and one on the first (inner) eccentric ring ( 6 ) press-on second (outer) eccentric ring ( 5 ) is formed, which is radially expandable. Apparatus according to claim 1, characterized in that the second (outer) eccentric ring ( 5 ) is cylindrical on the outer circumference and conically formed on the inner circumference, the inner cone ( 4 ) frictionally engaged on one of the outer circumference of the first (inner) eccentric ring ( 6 ) arranged outer cone ( 7 ) can be applied. Apparatus according to claim 1 and 2, characterized in that the inner and outer cone ( 4 . 7 ) have a same cone angle. Device according to one of the preceding claims, characterized in that for stretching the second (outer) eccentric ring ( 5 ) during the pressing on the first (inner) eccentric ring ( 6 ) the first (inner) eccentric ring ( 6 ) in the area of its outer cone ( 7 ) a larger one Diameter than the second (outer) eccentric ring ( 5 ) in the region of its inner cone ( 4 ). Device according to one of the preceding claims, characterized in that for the concentric alignment of the component ( 1 ) in the housing ( 3 ) both eccentric rings ( 5 . 6 ) have the same eccentricity (E1, E2). Device according to one of the preceding claims, characterized in that for the precise determination of the angular position (angle of rotation) of the first relative to the second eccentric ring ( 6 . 5 ) both eccentric rings ( 5 . 6 ) with markings, for example in the form of grooves ( 8th ) or notches are provided which preferably in the region of the maximum ring thickness of the eccentric rings ( 5 . 6 ) are arranged.