DE938812C - Guide for disc springs - Google Patents

Description

Guide for disc springs So far, disc springs are either by means of a hardened guide pin or by means of a steel sleeve during their spring movements guided. These guide links must axial evasive movements when the spring is compressed perform in relation to the spring abutment or abutments. That requires a lot of space and additional guides for the guide link, often eliminating the need for disc springs is prevented at all.

Attempts have also been made to create disc springs with the help of embedded rings to center and guide. This design is cumbersome and expensive.

Disc springs have also been proposed, their mutual Guidance takes place with the help of noses and corresponding counter recesses. These Disc springs tend to break prematurely due to the notch effect. According to the invention the guide member is a bolt or a sleeve made of elastic material, e.g. B. Rubber, synthetic rubber, plastic, etc. Such a guide member has the advantage that it is compressed to the same extent when the spring is compressed, so that there is no additional space and no further guide elements for his movements, Guide surfaces or the like. Needs. The guide member itself is also essential easier and cheaper to manufacture than steel bolts or sleeves. Keep working the guide member according to the invention noiseless and also offers lubrication technology Advantages for spring storage.

According to a further feature, the spring plates are on the guide member set against axial movements with respect to the guide member. That can done so that the surface of the guide member facing the spring plates with Grooves are provided to accommodate two abutting spring plate walls, wherein the ribs standing between the grooves are advantageously given a semicircular shape. Instead, a cylindrical guide member can be used, and the abutting spring plate pairs are at their contact surface with the guide member attached to this in the manner of the known rubber-metal connection. This adhesive connection can also be combined with the grooves for holding the spring plate. Through this Fixing the spring plate, the spring becomes a unit with the guide member connected, which can be handled like a coil spring during assembly.

The drawing illustrates some exemplary embodiments of the subject matter the invention. Fig. I shows an embodiment in the left half in longitudinal section, in the right half in side view; Fig. 2 shows in the same way of representation a second embodiment; Fig. 3 is a cross-section along the line I-I of FIG Fig. I; Fig. 4 shows a third embodiment partly in section, partly in Opinion; Fig. 5 shows a fourth embodiment partly in section, partly in Opinion.

In the examples, the central bore is used as the spring guide member I a the spring plate 2 penetrating, made of elastic material such as rubber, synthetic rubber, Plastic or the like manufactured, essentially cylindrical body provided, I, 3 and 4 tubular or sleeve-shaped, according to FIGS. 2 and 5 solid or bolt-shaped can be formed.

According to FIGS. I and 2, the is standing with the spring plates in contact Peripheral surface of the guide member I is provided with annular grooves 3 or grooves, each the abutting inner edges of two adjacent spring plates without an axial Record game.

When springs are relative movements between the spring and their guide member, which would cause increased wear, avoided, and As already mentioned, the spring and guide member are easy to use Unit connected.

The outer edges 5 of the spring plate edges seated in the grooves become preferably rounded. The ribs 4 remaining between the grooves 3 are retained preferably a semicircular contour shape, so that the play of the spring column a lighter one Push through is to be achieved.

According to FIGS. 4 and 5 is a smooth cylindrical guide member I used, and the butting inner pairs of edges each two adjacent Spring plate 2 are glued or bonded to the circumferential surface of the guide member. Welding 6 firmly connected, which has the same effect as the grooves 3 according to FIG and 2 results. In FIGS. 4 and 5, the deformation is indicated by dash-dotted lines, which the guide member experiences when the spring is compressed.

The adhesive connection 6 can of course also have circumferential grooves or ribs on the circumference of the guide member, for. B. according to Fig. I and 2, be combined.

Although only guide members arranged within the spring are described here a sleeve-shaped guide member according to the invention can also be used as an outer sleeve to find spring guidance application, the spring plate on the inner surface of the Bushing can be set by grooving, gluing, or both.

Claims (4)

PATENT CLAIMS: I. Guide for disc springs, characterized in that that the guide member (I) is a bolt or a sleeve made of elastic material, e.g. B. rubber, synthetic rubber, plastic or the like. Is. 2. Guide according to claim I, characterized characterized in that the spring plate (2) on the guide member (I) against axial movements are set with respect to the guide member. 3. Leadership according to claim I and 2, characterized in that the surface of the guide member facing the spring plates (2) (I) provided with grooves (3) to accommodate two abutting spring plate edges is. 4. Guide according to claim i bis- 3, characterized in that the guide member (i) is connected to the adjacent edges of the spring plate (2) by gluing or welding (6). Cited publications: German Patent Specifications No. 692 665, - 727 44; Swiss patent specification No. 139 g94.