DE965004C - Articulated connection with two concentric joint parts and elastic bushing in between - Google Patents

Description

Articulated connection with two concentric joint parts and in between lying elastic bushing The invention relates to an articulated connection with between two concentric hinge parts inserted elastic under such compressive stress Body that there is frictional engagement between the joint parts.

It is known per se to produce articulated connections by that between the joint parts, for example two concentric metal sleeves., presses an elastic body, for example made of rubber, under pretension in such a way that that it is connected to the joint parts by frictional engagement. There are for manufacture Such articulated connections already use the most varied of manufacturing processes known. Among other things, it was suggested that the rubber body on both sides with metal plates to be firmly bonded: and with the help of these metal plates pull them apart so that that he is between the metal sleeves with a corresponding reduction in diameter can introduce.

The known arrangements usually have the disadvantage that this is special Devices required. are. The invention has set itself the task of a To propose articulated connection in which the insertion of the elastic body in the simplest possible way and in which the Frictional engagement generating force by a helical spring enclosed in the elastic body is caused.

It is known to produce springs from a helical spring and a rubber body encasing this, but so far these have always been been constructed so that the coil spring in the untensioned state a significant greater length than the space available for them in the operating state between the joint parts. It is only then opened by appropriate pressure devices this space has been compressed.

In contrast, an articulated connection is proposed with the invention, which consists of two concentric joint parts, the outer one of which is a sleeve and between which a bush made of self-damped elastic material with a embedded helical spring is pressed in so that it connects to the two joint parts is in frictional engagement, according to the invention, the spring in the installed state the sleeve is under tension.

In a further development, the helical spring protrudes on both side surfaces out of the socket with their ends. The coil spring can be known per se Way to be connected in the stretched state with the elastic bushing.

The invention has the advantage; that you can use the elastic body Help the protruding ends of the coil spring disassemble in a simple manner and insert it between the joint parts. can .. Once this has happened, it will drag on the coil spring collapses by itself due to its elasticity and deforms in the process the elastic body on the. Space between the joint parts is available for this stands. As a result, the self-damped elastic masses are pressed apart and provide the frictional connection between. the joint parts.

The invention is based on the exemplary embodiment. the drawing explained.

Fig. I shows an elastic joint in cross section, Fig. 2 shows the joint body in the stretched state. According to Fig. I, the articulation consists of the inner metal sleeve I, the outer metal sleeve 2 and the joint bushing 3. The joint bushing consists of the helical spring 4 and the self-damped elastic masses surrounding it 5. In. In the state shown, the helical spring is in the de-energized state, or at least almost voltage-free state. It has the self-damped elastic masses 5 so far apart that this outside and inside of the metal sleeves 2 and I fit tightly with frictional engagement. The ends 6 protrude from the side surfaces Helical spring 4 out of the self-damped elastic masses 5 surrounding it. You can these protruding ends 6 of the coil spring 4 for fixation opposite Use one of the joint parts I or 2. The protruding ends 6 can be hook-shaped be designed, in such a way that the hooks counter to the winding direction of the helical spring 4 ways.

Fig. 2 shows the joint bushing 3 in the expanded state. Here is pulled apart by pulling P at the ends 6 of the helical spring 4. Included the self-damped elastic masses 5 assume a wavy surface, and its outer diameter becomes smaller, its inner diameter larger. One can produce the joint body 3 also in this state; d. i.e., the connection of the self-damped elastic masses 5 with the helical spring takes place when this is in the stretched state. In this case one can already at the manufacturing stage generate a corresponding waveform of the self-damped elastic masses. this has the advantage that in the operating state when the coil spring is contracted the surface is smooth outside and inside.

The mode of operation of the arrangement is as follows: The helical spring is grasped at both ends 6 and pulls them apart. Then the inner sleeve I inserted and the outer sleeve 2 pushed over it. One lets. now the coil spring loosens at the ends 6, then pulls it together again and thus presses the joint bushing so far that frictional engagement between the metal sleeves and the joint bushing 3 will be produced.

Rubber can primarily be used as self-damped elastic masses or use elastic plastics. This gives the joint connection a resilient one Characteristic. If, as an exception, elasticity is to be waived, then you can just as well embed the coil spring 4 in plastic materials.

Claims (6)

PATENT CLAIMS: I. Articulated connection with two concentric joint parts, the outer one of which is a sleeve and between them. a bushing made of self-damped elastic material with a helical spring embedded therein is pressed in so that it is in frictional engagement with the two joint parts, characterized in that the spring (4) is built-in. State of the sleeve is under tension. 2. Joint according to claim i, characterized in that the helical spring (4) in on See, as is known, connected to the elastic bushing (5) in the stretched state. has been. 3. Joint according to claim i or 2, characterized in that the ends (6) of the helical spring (4) protrude from the socket (5) on both side surfaces. 4. Joint according to claim 3, characterized in that the protruding ends (6) of the helical spring (4) designed for connection to one of the joint parts are. 5. Joint according to claim 4, characterized in that the outstanding Ends (6) of the helical spring (4) are hook-shaped are, where preferably point the hooks against the winding direction of the helical spring. 6. Joint according to claim 2, characterized in that when connecting the helical spring (4) to the socket (5) whose wall thickness is reduced between the turns of the helical spring (Fig.2). Considered publications: German Patent Specifications No. 602 798, 834 623.