DE936548C - Ring-shaped fuse body - Google Patents

Description

Annular fuse body are known are closed, annular Machine elements that are undersized to their inner contour on cylindrical or prismatic bodies, such as axles, shafts or journals, are pushed on and under Exploitation of the elastic forces inherent in their material on them Frictional forces adhere, and they generally take over the function of retaining rings the movement of parts on the cylindrical or prismatic support in the direction limit its axis. Furthermore, such fuse bodies are oversized known for their inner contour, which narrows so far through plastic deformation that they are with their smooth inner surface under tension on that of them the enclosed, cylindrical or prismatic body.

However, in the first-described type of circlips, these due to the scraping movement of its inner contour when it is pulled onto the support body (Axis, shaft, etc.) easily injure the surface, so that for example at On a finely machined axle, the scarred part of the axle is no longer good can serve as a bearing point for a moving part. If, in addition, the elastic expandability of such a securing element by attaching radial; from the central bore of the locking plate outgoing cuts effectively enlarged is, the locking ring can only be pulled in a single due to its design given axial direction, but cannot be pushed back again without him and the surface of the support body difficult to damage, which is an accurate adjustment difficult on the axis or shaft. Furthermore, the securing effect of such is Circlip only in one single axial direction well defined, while in the opposite axial direction and in the circumferential direction Even small forces acting on the ring can cause its movement. After all, all elastically resilient retaining rings made of materials must also be included high elastic limit; made of well-hardened spring steel, therefore require a material that is expensive to manufacture and process.

In the case of the second-named4 known type of fuse body, only the frictional force between the smooth inner surface of a twisted spring wire loop and the smooth surface of the support body used as a securing force, the maximum value of which thus solely from the cross-section of the fuse body for a given strength depends on its material. Great security forces therefore require great cuts, However, they are often constructive, e.g. B. in apparatus engineering, are not to be accommodated. Furthermore, a required for attaching such a fuse body - required Radially protruding handle a lot of space.

On the other hand, there is the formation of the ring-shaped fuse body According to the invention, the idea is based on an annular machine part for securing to use, the inner periphery of which is formed by protruding retaining means and that with a considerable excess of the inner diameter of these retaining means the supporting body (axle, shaft, pin, etc.) is moved exactly to the point on which it should exert its effect. The surface of the support body can never be damaged. Then the shape of the ring-shaped fuse body changed so that its inner contour .stark is narrowed, so that it is due to the pressure on the contact surfaces on the support body sits tight. In the case of the deformation mentioned, the edges of the holding means mentioned are here strives to penetrate into the contact surfaces of the support body, whereby the ring, as it were, claws in the contact surface when the hardness of these edges is larger than that of the support body. The locking force of this ring-shaped locking body is therefore composed of two components, namely the one corresponding to the pressing Frictional force and that results from the form fit in the surface of the support body penetrated edges resulting in resistance. Due to the considerable size of the second force component proves this fuse body of the known constructions compared to being advantageous.

In the embodiment of the annular fuse body; how illustrated in Figures i and 2, its form and application will be described. After this he for example on a cylindrical shaft with a smaller diameter than that its inner contour, which is represented by the bang surfaces 3 (holding means), moved and its position on the shaft has been precisely adjusted, the Connecting webs i of the claw-shaped pegs 2 by the forces P, which for example be exercised by a pair of pliers, bent towards the axis of the ring, like Fig..2 shows, which not only reduces the distance between opposing claw surfaces 3, but also the claw-shaped ones due to the bending of the connecting webs i Pin 2 can be pivoted from its original radial position. The specific Surface pressure on the edges q. the claw-shaped pin 2 is sufficient Hardness of the edges q. so high that they tend to penetrate the wave surface, whereby the adhesion of the ring-shaped securing body reaches a considerable size. The -significant securing force is not only in both axial directions, but also available in almost the same size in the circumferential direction, which was the case with the previously known Constructions is not the case.

If necessary, the ring-shaped fuse body can then through a forceps pressure in which standing perpendicular to the line of action of the forces P. Direction opened again by plastic deformation and pulled off the shaft without destroying it or damaging it in the process to use again.

Further embodiments of the annular fuse body are in Fig. 3 and q. shown, their application and treatment in the same way Way done.

The ring-shaped securing body is preferably designed with four claw-shaped pins 2, but can also have more or less such holding means (FIG. Q.). It is preferably made of soft, easily deformable steel, but also: made of other metallic or non-metallic materials which are readily plastically deformable and at the same time sufficiently elastic, the claw surfaces 3 in particular at the edges q. must be the harder, the greater the bang effect is to be. The desired increase in hardness at the edges q. can be achieved by hardening when using steel, if the edges q: are not produced separately from particularly hard and solid material and attached or used, which is preferred when using non-metallic materials for the production of the ring-shaped locking body.

The connecting webs i can be used as a carrier of constant cross-section or with a weaker cross-section in the middle (Fig. 3) if the Deformation forces should be kept small. The connecting webs i can before their deformation be straight (Fig. i) or curved (Fig. 3).

The ring-shaped fuse body is preferably made of plane-parallel Plates or sheets manufactured; so that it has the same thickness in all places (Fig. I). However, the flexural strength of the connecting webs i with the same tensile strength to reduce the thickness of the fuse body in the radial weakening Link victories i larger than in the claw-shaped pin 2 be measured. Should the level of the fuse body after touchdown as possible are exactly perpendicular to the axis of the support body, the thickness is in the claw-shaped Pin 2 to increase compared to the thickness in the connecting webs i.

Claims (3)

PATENT CLAIMS: i. Ring-shaped fuse body, which is mounted on a prismatic, cylindrical or conical axis, shaft or a similar conical body is firmly seated and an axial displacement of the shaft and the part surrounding it prevented against each other, characterized in that he with the on his inner Circumference provided holding means has a greater clear width than the outer dimensions the associated axis, shaft or the like. Has and on this by plastic Deformation of its outer circumference with the holding means attached to the inner circumference is firmly adhering pressable. 2. Annular fuse body, characterized in that that the holding means on its inner periphery to strengthen the adhesion with the Edge (q.) In the shaft od. The like. Penetrating claw-shaped pins (2) have. 3. Annular fuse body according to claim i and 2, characterized in that that the edges (¢) hardened or separated from particularly hard and solid material produced and attached to the claw-shaped pin (2) or inserted into it are. q .. Ring-shaped fuse body according to claim i and 2, characterized in that that it has the same thickness in all places. . Annular fuse body according to Claim i and 2, characterized in that its thickness in the claw-shaped Pin (2) is larger or smaller than in the connecting webs (i). Dressed Publications: German Patent No. 841 o85; U.S. Patent No. 2,081 677.