RU2362068C1 - Complex resilient member by kochetov - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to mechanical engineering. Resilient member contains connected to each other flat annular resilient members. On holder there are flat members consistently fixed interchanging relative to each other, located through space plate, implemented of elastomer. Each of resilient members contains at least two resilient co-axial located rings, external and internal with center hole. Rings are rigidly connected to each other by means of at least two resilient diametrically located members in the form of elastic rods of round or square profile, or plate. Elements can be implemented as bodily with rings, as fixed on it by means of clinkers from each end of plate. Plates ends can be rotated relative to each other for 180° or 360°. One of resilient members contains elements with through center groove. Groove is symmetrical inside each member. Side surfaces of groove are conjugated by ends with diametrical surfaces, formed by reach-through holes, located on external and internal rings. Side surfaces of center groove are implemented as inclined relative to axis of resilient members.

EFFECT: it is achieved effectiveness increase of vibration insulation in resonant mode and simplification of design and mounting.

3 dwg

Description

The invention relates to mechanical engineering, instrumentation and can be used for vibration isolation of technological equipment, machine tools, devices.

The closest technical solution to the claimed object is an elastic element according to the patent of the Russian Federation No. 2285831 F16F 7/00, 2006 (prototype) containing elastic flat elements made in the form of a spring suspension.

A disadvantage of the known device is the complexity of the elastic element and the lack of efficiency at the resonance due to the lack of vibration damping.

The technical result is an increase in the effectiveness of vibration isolation in resonance mode and simplification of design and installation.

This is achieved by the fact that in the elastic element containing interconnected flat annular elastic elements, it contains successively fixed to the holder alternating flat elements located through a spacer made of elastomer, each of the elastic elements containing at least two coaxially elastic rings, external and internal with a central hole, rigidly interconnected by at least two diametrically elastic elements, to which can be made in the form of elastic rods of a round or square profile or plate, and the elements connecting the outer and inner rings can be made integrally with the rings, and can be fixed to them by rivets of at least one , from each end of the plate, while the ends of the plates can be rotated relative to each other by 180 ° or 360 °, and one of the elastic elements contains elements with a through central groove symmetrically located inside each element, with side rhnosti conjugate groove at its ends with cylindrical surfaces formed by the through holes, respectively, located on the outer and inner rings and the side surface of the central groove are inclined relative to the axis of the elastic elements.

Figure 1 presents the layout diagram of the combined elastic element, figure 2 is a General view of a flat elastic element A, Figure 2 is a General view of a flat elastic element B with slots.

The combined elastic element (figure 1) contains sequentially fixed to the holder D alternating flat elements A and B, located through a spacer B made of elastomer.

Each of the elastic elements A and B contains at least two elastic coaxially arranged rings, an external 1 and an internal 2 with a central hole rigidly interconnected by at least two diametrically elastic elements 3 and 4, which can be made in the form of elastic rods of a round or square profile (not shown), or plates (rectangular profile). Elements 3 and 4 connecting the outer and inner rings can be made integrally with rings 1 and 2, and can be fixed to them by rivets of at least one from each end of the plate. Coaxially located rings, outer 1 and inner 2 form an annular gap between them. Elements 3 and 4, connecting the outer and inner rings, can also be fixed to them by welding, for example contact, or fastening threaded elements, or as an adhesive joint. The ends of the plate 3 and 4 can be rotated relative to each other by 180 ° or 360 °.

The elastic element B, in contrast to the elastic element A, contains elements 3 and 4 with a through central groove 5 and 6 symmetrically located inside each element, the side surfaces of the groove being mated at the ends with cylindrical surfaces formed through holes 7, 8, 9, 10, respectively located on the outer 1 and inner 2 rings. The lateral surfaces of the central groove can be made inclined with respect to the axis of the elastic elements 3 and 4 (not shown).

Combined elastic element operates as follows.

With vibrations of the vibration-insulated object installed through the holder G, spatial vibration protection and shock protection are provided. Vibration damping occurs due to hysteresis losses in elastomer B and friction losses between elements A, B, B. Elements A and B can be interconnected by vulcanization of the elastomer, and damping will be determined only by hysteresis losses in elastomer B.

Claims (1)

A combined elastic element comprising interconnected flat annular elastic elements, characterized in that it contains alternating flat elements sequentially fixed to the holder, located through a spacer made of elastomer, each of the elastic elements containing at least two coaxially located elastic rings, external and internal, with a central hole rigidly connected to each other by at least two elastic diametrically elements that can be made in the form of elastic rods of round or square profile, or plate, and the elements connecting the outer and inner rings can be made integrally with the rings, and can be fixed to them by rivets, at least one from each end of the plate, while the ends of the plates can be rotated 180 or 360 ° relative to each other, and one of the elastic elements contains elements with a through central groove symmetrically located inside each element, and the side stems conjugate surface groove at the ends with cylindrical surfaces formed by the through holes, respectively, located on the outer and inner rings and the side surface of the central groove are inclined relative to the axis of the elastic elements.

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