DD218655A1 - ELASTIC ELEMENT FOR TOLERANCE-EFFICIENT INSTALLATION OF BEARINGS - Google Patents

Abstract

The invention relates to an elastic element for tolerance-compensating installation of bearings preferably in Gehaeuse, which are composed of several parts. It is an object of the invention to achieve a safe axial and / or coaxial tolerance compensation, regardless of the respective Groessenverhaeltnissen the camp. The invention has for its object to improve the axial and / or coaxial tolerance compensation by a more suitable design of the spring cup and to ensure compliance with the spring characteristics in the required tolerance. According to the invention, the object is achieved in that the flange formed by the jacket or any number of lamellae is designed such that the outer edge of the flange is resiliently supported in the axial direction against a surface. It is a further feature according to the invention that the lamellae forming the flange have different lengths, widths and cross sections in alternating sequence and the number of which can be varied. Fig. 2

Description

Title of the invention . "· /

Elastic element for tolerance compensating installation of bearings . ,

Field of the Invention The invention relates to a resilient element in cup-like design for tolerance compensating installation of oil and plain bearings preferably in housings composed of several parts, for example for electric motors, in which the shell of a spring plunger is of any number Slats bzv /. consists of a closed shell and the fins or the jacket on the side facing away from the bottom flange formed 'are. . ·.

Characteristic of the known technical solutions ' It has already been proposed that in the bottom of the spring tappet spring tongues are issued to compensate for axial tolerances inwards.

The spring tongues, whether axially or radially exposed out of the bottom of the spring plunger must abut against the outer ring of the bearing bzw.abfedern, while they must not grind on the inner ring or ball cage of the bearing; this, condition also applies to larger coaxial deviations. Another requirement is also to perform the spring tongues so that they spring back from the ground, d. H. can act as often as you like and do not get stuck. The axial tolerance compensation via spring tongues is only possible if the respective size ratios allow exposing the, spring tongues.

It is also disadvantageous that the number of spring tongues, their spring force and spring travel are limited due to the geometric conditions. Likewise. The compliance of the spring characteristics in the required tolerance in Massenfertigung.schwierig. ,

Zi el the invention '

It is an object of the invention to ensure a safe arcial and / or coaxial tolerance compensation irrespective of the respective size ratios of the bearings. to reach.

Statement of the Invention of the Invention

The invention is based on the object - to improve the axial and / or coaxial CColeranzausgleich by a more suitable design of the spring cup and zu.leistährleisten compliance 'of the spring characteristics in the required tolerance. '

According to the invention, the object is achieved in that the flange formed by the jacket or any number of lamellas is designed such that the outer edge of the flange is resiliently supported in the axial direction against a surface forming lamellae are variable in number and have varying lengths, widths and cross sections in alternating sequence.The particular advantages of the invention are the following:

- The axial tolerance compensation, due to manufacturing tolerances and Y / ärmedehnuiig is certainly guaranteed under all proportions, the spring cup '.

- The use of inlaid, on the spring cup base supporting, additional spring element, especially with a small bearing diameter is no longer required.

- Compliance with the spring characteristics in the required. Tolerance is given in mass production.

- The sprung plank can be fitted according to the requirements with respect to power, and the spring characteristic can be selected to be soft or hard due to the shape or combination of the spring flange.

- The machining of the contact surface can be omitted if this is made according to exactly, 2. B. the quality of the die-cast is sufficient.

A example,. ''

The invention will be explained in more detail below using an example embodiment. In the accompanying drawings show:

the elastic element in view in lamellar design ein.Seitenansicht of Fig. 1 in section a bearing design with spring plunger in a through hole. _n '' partially the resilient flange in possible embodiments in cross section

Fig. 5: a combination of the resilient, formed flange. in view. , ,

Fig. Β: A side view of Fig. 5 in section with partial representation of the contact surface.

According to the invention, the elastic element is designed in such a way that - as shown in FIGS. 1 and 2 - resilient lamellae 4 are provided on the bottom 1 with wave-shaped transverse or longitudinal lobes 3. "The undulating transverse or Längesbuckel 3 ensure the radial tolerance compensation.The formed as a flange 5 upper ends of the circumference of the spring tap 7 of Fig '. 1 forming lamellae 4 allow in connection with the bottom 1 of the spring tappet 7 in a smooth through hole axially Fixed bearing installation without additional contact surface in the bore (eg bottom, shoulder, blasting or retaining rings).

In Pig. 2 is shown as the outer edge 12 of the flange 5 is formed "any 'is any design in leaf spring shape possible, as from Pig. 4 is apparent from some embodiments. The solution according to the invention can be realized both with closed shell 10 and closed planch 5 and with a closed shell TO and slats 4 split plansch 5. Pig. 3 shows a Lagerausführimg with spring cap 7 in a through hole. The axial tolerance compensation is taken over by the resiliently formed plank 5, in that the planchet 5 according to the invention transmits all occurring axial forces from the bearing which is supported on the base 1 to the surface 13. Xn Pig.5 is an embodiment of the planchet 5, the lamellae forming the planchet 5 have different lengths, for example in alternating poles, so that only individual lamellas are supported by their outer edge 12 on the surface '× 13' recognize that there is an air gap between the short lamellae or the outer edge 14 * With increasing axial load (arrow direction), the outer edges 12 spring apart until the outer edges 14 come into contact with the surface 13 Spring characteristic now no longer runs linearly, but increases by the increased spring force abruptly by this resilient training of the planter 5 are independent of the size ßenverhältnissen the bearing all axial and coaxial'Toleranzen safely balanced, the planch can be designed according to the requirements 5 peder, spring force and travel.

Claims (2)

Erfindungsansprach 1. Elastic element for tolerance-compensating installation of bearings with a closed or any number of fins existing dumbbell "whose lamellae or the jacket on the side facing away from the bottom flanschar- tig are formed, characterized, dai3 by den-coat (10) or any number of lamellae (4) formed Plansch (5) formed such that the outer edge (12; 14) of the flange (5) in the axial direction, on a surface (13) resiliently supported. 2. Elastic element according to point T, characterized in that the flange (5) forming lamellae (4) have different lengths, widths or cross sections. For this 2 sheets of drawings