DE19635073C2 - Spring component and method for producing a spring component - Google Patents

Description

The present invention relates to a spring component and a method its manufacture.

Such spring components can, for example, be used anywhere there the one where resetting to a set force is required is. One area of application is brake shoes after Put it back on again. The springs are also suitable Components also for use in tools if after a be agreed work counter forces are needed.

From GB 1 564 936 A1 a spring component emerges, which he stes and a second pressure piece, between which an elastic Spring element is arranged. The two pressure pieces are against each other  which can be moved along the longitudinal axis under the action of force. The one Pressure piece has an edge turned inside out, which from the second pressure piece by an inwardly turned edge is taken so that they interlock. The making of the he Most pressure piece with the edge turned inside out is complex. The assembly of the second pressure piece with the inside out edge to grip the first edge turned inside out the pressure piece is time-consuming and requires assembly aids.

The object of the present invention is a spring component provide that is manufactured and operated in a simple manner can be.

This object is achieved by the features of claim 1 and of Proverb 29 resolved.

The spring component, the first and second pressure piece and little Mostly an elastic element that is in one or both pressure pieces is arranged, is by the deformation of a portion of the a thrust piece around an edge area of the other of the two Pressure pieces closed, d. H. it closes due to deformation itself, so to speak. The spring component is therefore no longer removable. Difficulties that arise with removable spring components ten that after partial or complete disassembly of the spring component the elastic elements no longer have the desired preload indicate or that even the assembly is no longer possible who which thereby prevented. The spring components according to the invention can the customer with the appropriate desired preload as easily assembled component can be provided.

The positive connection of the two pressure pieces is achieved in that a Area of one pressure piece around an edge area of the other Pressure piece is deformed, the edge region around which the Deformation is caused to occur at an angle other than zero Longitudinal axis of the pressure pieces is inclined.  

The deformation can occur both in the direction of the axis and from the Axis away, as well as in both directions. Preferably however deformed in the direction of the axis.

In a preferred embodiment, both pressure pieces are in white substantial of cylindrical shape with substantially the same outer space serve, with the outward-facing sides of each pressure piece are closed.

The formation of the edge region of the one pressure piece around which the Deformation of an area of the other pressure piece takes place depends essentially on the materials used and the strength, with which the spring component should be biased. Of course must the material from which the area to be formed consists of the selected conditions be deformable.

The deformation can take place at room temperature or under tempera door increase can be effected.

Metallic materials have proven to be suitable for the pressure pieces Proven materials such as steel and bronze. In such a case the Area of one pressure piece around the edge area of the other Pressure piece flanged. In addition, however, the pressure pieces can also from a non-metallic material, for example an art fabric, exist.

In principle, it is also possible that the pressure piece already at its Manufacturing has the deformed area.

In principle, a pressure piece can be both in one piece and in several pieces his. Different materials can also be used for a pressure piece be applied. The pressure pieces for spring components that can withstand pressure are preferably in one piece.

For the spring component that can withstand tensile loads, it is recommended that one Produce pressure piece from two parts that can be joined together, because  hereby the manufacture of the spring component because of the simple to Bringing the elastic elements is significantly simplified. The at the individual parts are then, after attaching the elastic elements, rigidly connected to each other to the pressure piece.

The deformation of one area of the one pressure piece around the channel ten range of the other pressure piece should preferably be such that a positive connection is achieved without the rotation of the two thrust pieces against each other about their longitudinal axis and the ver is hampered in the longitudinal direction. If the two pressure pieces are not rotatable against each other, so this should be solely on the ho hen tensile forces can be attributed.

The special proportions of the spring component, the pressure pieces and the elastic elements are based on the required requirements requirements.

The present invention will now be described using exemplary embodiments described by figures. It shows:

Fig. 1 is a partially broken schematic Be tenansicht a resilient to pressure spring construction part;

FIG. 2 shows the enlarged area A from FIG. 1;

Fig. 3 is a partially broken, schematic Be tenansicht part of a resilient spring construction

Fig. 1 shows a pressure-resilient spring component, which consists of a first pressure piece 11 and a second pressure piece 12 . In the first pressure piece 11 , plate springs 13 are arranged, which can be seen in the lower region of FIG. 1, which shows the partially broken representation of the spring component.

The first pressure piece 11 is essentially sleeve-shaped and closed on one side 19. On the side facing away from the closed side 19, which is shown enlarged in FIG. 2, the pressure piece 11 has an area 15 which is deformed. After the deformation of the loading area 15 , the deformed area 15 'in conjunction with the edge area 20 of the second pressure piece 12 causes the closure of the spring component.

The second pressure piece 12 is also substantially cylindrical and has a neck 18 , a stopper-shaped region 16 and an essentially cylindrical head part 17 . The edge region 20 of the two th pressure piece 12 , around which the deformation of the area 15 takes place, is inclined by an angle different from zero with respect to the longitudinal axis 14 of the pressure piece 12 . In Fig. 2, this angle is 21 90 °. In addition, the transition region 20 of the second pressure piece 12 is beveled. The bevel angle 24 is 30 °.

The area 15 , 15 'of the first pressure piece 11 is also beveled. The bevel angle 27 of the area 15 of the first pressure piece 11 corresponds to the bevel angle 24 of the second pressure piece 12 .

The second pressure piece 12 has between its head part 17 and its support 18 a transition region 25 which is inclined at an angle 26 of 60 ° with respect to the longitudinal axis 14 .

In the manufacture of the spring component, the plate spring assemblies are introduced into the interior of the pressure piece 11 and the pressure piece 12 is placed on. The pressure piece is umbördelt 12 of the portion 15 then through load, as schematically by the area 15 'is indicated. The deformation of the region 15 thus takes place in the direction of the axis 14 . The deformation of the area 15 in the area 15 'should not be so large that the area 15 ' is seated on the outside of the neck 18 of the second pressure piece 12 , because the ability of the two pressure pieces 11 , 12 to rotate against each other and the functionality of the function Spring component could be hindered.

The plungers shown in Figs. 1 and 2 are made of bronze so that the desired deformation can be achieved.

The resilient spring piece in Fig. 3 also consists of a he most pressure piece 11 , a second pressure piece 12 and Tellerfederpa keten 13th The first pressure piece 11 is essentially cylindrical and has on its one side the deformed region 15 ′ which corresponds to the illustration in FIG. 2.

The second pressure piece 12 consists of two individual parts, the plug part 31 and the central rod part 32 . The stopper part 31 consists of a head part 17 , a neck 18 and the end region 27 , which comprises the 20 rims and an internal thread 36 .

The central rod part 32 also comprises a head part 33 and a rod 34 which has an external thread 35 at its end. The Tel lerfedern 13 and the rod 34 are arranged coaxially with the geometric longitudinal axis 14 .

During manufacture, the first pressure piece 11 is pushed onto the rod 34 of the central rod part 32 and the plate spring assemblies 13 are introduced into the interior of the pressure piece 11 . Subsequently, the plug member 31 is screwed by means of the threads 35, 36 with the central rod part 32nd Fastening bores 37 are provided on the head parts 17 , 33 .

Claims (31)

1. spring component which comprises at least a first ( 11 ) and a second ( 12 ) pressure piece and at least one elastic element ( 13 ), the elastic element or elements ( 13 ) being arranged in at least one pressure piece ( 11 , 12 ), the at least two thrust pieces ( 11 , 12 ) being movable against one another against the force of the at least one elastic element ( 13 ) along the direction of the longitudinal axis ( 14 ), characterized in that the positive-locking connection is produced between the first ( 11 ) and the second ( 12 ) pressure piece is provided by compressing the first ( 11 ) and second ( 12 ) pressure pieces and an at least partial deformation of a region ( 15 , 15 ') of one ( 11 ) of the two pressure pieces ( 11 , 12 ) around an edge region ( 20 ) of the other ( 12 ) of the two pressure pieces ( 11 , 12 ), and the edge region ( 20 ) by at least one non-zero angle ( 21 , 24 ) to the longitudinal axis of the pressure pieces ( 11 , 12 ) is inclined. 2. Spring component according to claim 1, characterized in that the region ( 15 ') is deformed in the direction of the axis ( 14 ). 3. spring members according to any one of claims 1 or 2, characterized in that the first pressure piece (11) substantially zy lindrisch and the deformed portion (15), an end portion of the pressure piece (11). 4. Spring component according to one of claims 1 to 3, characterized in that the pressure piece ( 11 ) is closed on one side and the deformed area ( 15 ) of the closed side (19) facing away from the end portion of the pressure piece ( 11 ). 5. Spring component according to one of claims 1 to 4, characterized in that the preformed area ( 15 , 15 ') is chamfered. 6. Spring component according to one of claims 1 to 5, characterized in that the second pressure piece ( 12 ) is substantially cylindrical and has a neck ( 18 ) and a plug-shaped region ( 16 ) and the edge region ( 20 ) between the Neck ( 18 ) and the plug-shaped region ( 16 ) extends. 7. Spring component according to claim 3 and 6, characterized in that the second pressure piece ( 12 ) on the plug-shaped part ( 16 ) facing away from the neck ( 18 ) has an at least partially cylindrical head part ( 17 ), the outer radius ( 22 ) essentially the same as the outer radius ( 23 ) of the cylindrical first pressure piece ( 11 ). 8. Spring element according to claim 6 and 7, characterized in that the edge portion (20) of the second pressure piece (12) by a stepped transition between the neck (18) and the stop fenförmigen transition between the neck (18) and the plug-shaped part ( 19 ) is formed. 9. Spring component according to claim 8, characterized in that the measured between the neck ( 18 ) and plug-shaped part ( 16 ) Win angle ( 21 ) of the step-shaped transition of the edge region ( 20 ) between 70 ° and 120 °, preferably about 90 ° , 10. Spring component according to one of claims 1 to 9, characterized in that the edge region ( 20 ) is additionally beveled. 11. Spring component according to claim 6 and 10, characterized in that between the neck ( 18 ) and the plug-shaped part ( 16 ) measured bevel angle ( 24 ) between 20 ° to 40 °, preferably about 30 °. 12. Spring component according to claim 7 and 11, characterized in that the second pressure piece ( 12 ) between the head part ( 17 ) and the neck ( 18 ) has a transition region ( 25 ) which is at an angle ( 26 ) with respect to the longitudinal axis ( 14 ) is inclined, which angle ( 26 ) is greater than the bevel angle ( 24 ). 13. Spring component according to claim 12, characterized in that the angle ( 26 ) of the transition region between the head part ( 17 ) and neck ( 18 ) of the second pressure piece ( 12 ) is 50 ° to 70 °, preferably 60 °. 14. Spring component according to claim 10 and 11, characterized in that the angle ( 27 ) of the bevel of the most pressure piece ( 11 ) is approximately equal to the bevel angle ( 24 ) of the edge region ( 20 ) of the second pressure piece ( 12 ). 15. Spring component according to one of the preceding claims, characterized in that the at least one elastic element ( 13 ) is arranged only in a pressure piece ( 11 ). 16. Spring component according to claim 15, characterized in that the at least one elastic element ( 13 ) is arranged in the first pressure piece ( 11 ). 17. Spring component according to one of the preceding claims, characterized in that the pressure pieces 11 , 12 ) are made of metallic materials. 18. Spring component according to claim 17, characterized in that the pressure pieces ( 11 , 12 ) are unhardened. 19. Spring component according to one of claims 1 to 16, characterized in that the pressure pieces ( 11 , 12 ) are made of plastic. 20. Spring component according to one of the preceding claims, characterized in that the pressure pieces ( 11 , 12 ) are in one piece. 21. Spring component according to one of the preceding claims, characterized in that the two pressure pieces ( 11 , 12 ) can be rotated relative to one another about the longitudinal axis ( 14 ). 22. Spring component according to claim 1, characterized in that the region ( 15 ') is deformed away in the direction of the axis ( 14 ). 23. Spring component according to one of claims 1 to 22, characterized records that the spring component is resilient to pressure. 24. Spring component according to one of the preceding claims, characterized in that at least one pressure piece ( 11 , 12 ) is formed from two parts ( 32 , 33 ) which can be rigidly connected to one another. 25. Spring component according to one of the preceding claims 1 to 14, 17 to 22 or 24, characterized in that the spring component is resilient on train.   26. Spring element according to one of the preceding claims, characterized in that the area ( 15 ) after pressing together the pressure pieces ( 11 , 12 ) in the area ( 15 ') is crimped. 27. Spring component according to one of the preceding claims, characterized in that the one or more elastic elements ( 13 ) are disc springs. 28. Spring component according to one of the preceding claims, characterized in that by the formation of the deformed region ( 15 ') and the selection of the at least one elastic element ( 13 ) at least the preload length or the preload force is adjustable. 29. A method for producing a spring component according to one of claims 1 to 28, characterized in that the elastic element or elements ( 13 ) are introduced into one of the two pressure pieces ( 11 , 12 ), the other pressure piece ( 11 , 12 ) put on and by compressing the two pressure pieces ( 11 , 12 ) the area ( 15 ) under pretension of the elastic element (s) ( 13 ) around the edge ( 20 ) is formed to produce a positive connection. 30. A method for producing a spring component according to claim 29, characterized in that the first pressure piece ( 11 ) with a single part ( 32 ) of the second pressure piece ( 12 ) is connected, the at least one elastic element ( 13 ) is inserted, another res Individual part ( 31 ) of the second pressure piece ( 12 ) is connected to the individual part ( 32 ) to form the pressure piece ( 12 ) and then the area ( 15 ) is pretensioned by the elastic element or elements ( 13 ) around the edge ( 20 ) to produce a positive connection is formed. 31. The method according to claim 29 or 30, characterized in that the pressure piece is deformed (11) for positive connection by loading the pressure piece (12) of the region (15).