SU1270444A1 - Disc spring - Google Patents

Abstract

The invention relates to mechanical engineering and is intended, in particular, for use in depreciation devices for units and units of electronic equipment. The aim of the invention is to increase the damping capacity of the spring by increasing the friction force. An increase in friction forces is achieved by making radial cuts in the elastic disk 1 and ring with opposite direction and with the formation of sectors 2 and 4 with the opposite direction of their free ends and with overlapping of the slots. 4 il.

Description

The invention relates to mechanical engineering and is intended, in particular, for use in devices for depreciation of nodes and blocks of electronic equipment.

The purpose of the invention is to increase the damping ability of the spring by increasing friction.

On fs. 1 shows a Belleville spring, a longitudinal section; in Fig.2 is a view A in Fig.1, in Fig.Z a section B b in Fig.2 (an embodiment with preliminary pressing of an overlapped disk and ring); in Fig. 4, section B-B in Fig. 2 (an embodiment with a preliminary clearance a of the disk and the ring).

The Belleville spring contains an elastic disk I with radial slots (not marked) diverging from the periphery to the center. made in such a way that sectors 2 are formed between them, a ring 3 with radial slots (not marked) diverging from the center to the periphery, made in such a way that sectors 4 are formed between them. Ring -3 is mounted coaxially to the elastic disk 1 and overlaps the passage of the latter.

Belleville spring works as follows.

When axial load is applied, the elastic DISK 1 and ring 3 are deformed and move relative to each other. 11, we pave the free ends of the sectors 3 of the elastic disk 1 from the periphery of the spring to the center, and move the free ends of the sectors 4 of the ring 3 from the center to the periphery. Thus, the relative displacement of the elastic disk I and ring 3 during axial deformation of the spring is equal to the sum of the displacement of each of these elements separately. Overlapping ring 3 of the disk 1 with guaranteed pressure provides mutual sliding and the emergence of the dry friction force simultaneously with the beginning of spring deformation. Since the energy dissipated in the system during frictional damping is directly proportional to the magnitude of the axial movement of the rubbing surfaces, the spring ensures effective energy absorption by increasing the relative displacement of the elastic disk 1 and ring 3.

When performing an elastic disk 1 and a stake of ⁵ by 3 with a preliminary clearance a, in the initial stage of spring deformation, its stiffness is determined by the stiffness of elastic disk 1. With a further increase in deformation, ring 3 is included in the work. In this case, 2Q spring stiffness and dry friction forces increase.

Claims (1)

Claim A disk spring containing an elastic disk with radial slots diverging from the periphery to the center, made in such a way that sectors are formed between them, characterized in that, in order to increase the damping ability, it is provided with a ring with radial slots diverging from the center to the periphery so that sectors are formed between them, and the ring is mounted coaxially with the elastic disk and overlaps the slots of the latter. VNIIIPI Order 6222; Zo Circulation 880 Signed Branch of the PPP "Patent", Uzhhorod, st. Project, 4