SU1585573A1 - Vibration-insulating device - Google Patents

Abstract

The invention relates to mechanical engineering and is intended for vibration protection of electronic equipment and other equipment. The purpose of the invention is to increase the effectiveness of vibration protection under the conditions of simultaneous exposure to intense linear accelerations due to increased energy intensity and uniform amplitude-frequency characteristic in all directions of vibration and linear acceleration effects, which is caused by the sequential increase of the resistance forces of the elastic and elastic-damping elements of the device - helical springs and cable suspension piston. The design of the annular split axis 11 from a cable installed in ellipsoidal grooves of the separation washers 10 with the possibility of its displacement in the radial direction allowed to provide an elastic limitation of the stroke of the piston 5 under the conditions of intense linear accelerations and resonances. The design of the device provides manufacturability of parts manufacturing, assembly and adjustment. 1 hp f-ly, 4 ill.

Description

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The invention relates to mechanical engineering and is intended for vibration protection of electronic equipment and other equipment.

The purpose of the invention is to increase the effectiveness of vibration protection by increasing energy intensity and uniform amplitude-frequency characteristic in all directions of vibration and linear accelerations under the conditions of intense linear accelerations. .

Figure 1 shows a vibration isolation device, a longitudinal section; Fig. 2 is a sectional section L-A in Fig. 1 (with a removed spring); on fig.Z - seal the ends of the elastic annular split axis; Fig. 4 shows the position of the elastic annular split axis with the lid removed; figure 5 - the same, with the cover installed.

The anti-vibration device comprises a housing 1 consisting of conical and cylindrical parts, and a cover 2 connected by means of tension bolts 3 and nuts 4. An sprocket-shaped piston 5 with a rod 6 is installed in the internal cavity of the housing, and cylindrical coil springs 7 and 8, interacting with the cover and, through a floating disc washer 9 with corpuscle 1, respectively. Separating washers 10 with elliptical grooves are installed in pairs with uniform pitch on the inner wall of the cylindrical part of the housing 1, in which an elastic annular circumferential axis 11 with a possibility of radial displacement is installed. Considering that the elastic damping element 12, made of an infinite cable, resiliently round the axle is connected by loop-shaped sections to the axis 13 of the piston 5. On the inner surface of the lid circumferentially, wedge-shaped stops 14 interacting with the elastic annular split axis in the centers of the sections between adjacent pairs separation washers 10..

The lid shank 15 is connected to the installation site of the anti-vibration device. When assembling the cover, the stops move the elastic annular split axis in the grooves of the separating washers 10, providing the preloading of the elastic damping element 12 in the form of an endless cable.

The anti-vibration device works in the following 1 | 4 way.

Under the action of vibrations of the vertical and horizontal directions applied to the shank 15, in the absence of linear accelerations, the device works

as a spring vibration isolator by stretching - compressing the springs 7 and 8.

Under the action of linear acceleration from the side of the shank 15 comes into operation

the elastic damping element 12, further as linear acceleration increases, the elastic annular spindle 11 enters into operation and perceives a part of the load as an elastic multi-span beam with

deflection in the span, limited by the size of the elliptical grooves in the separating washers 10. The elastic-damping element 12 and the annular split axis 11, made of cables, under loading, experience tensile bending and torsion with friction of the wires between themselves, which contributes to the consistent absorption of kinetic energy of exciters as vibrations and linear growth

accelerations.

At high dynamic loads on the rod 6 of the piston 5 of the cable suspension provides an elastic restriction of its stroke. The proposed vibration protection device provides an increase in the effectiveness of vibration protection under conditions of simultaneous exposure to intense linear accelerations.

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Claims (1)

1. An anti-vibration device comprising a cover, a housing in a video truncated cone with a large base and a cylindrical section facing the lid, a coaxially mounted piston with a rod and a coil spring with ends interacting with the lid and the piston, separating washers mounted on the inner wall of the cylindrical section, located in the radially circumferentially circular axis, characterized in that in order to increase the effectiveness of vibration protection under the conditions of intense linear acceleration, the device is equipped with an additional helical spring with ends that interact with the piston and less im base case separating washers are arranged in pairs with uniform pitch, elliptical grooves with a large, perpendicular axis of the housing are made in them, the annular slit axis is placed in the grooves with the possibility of displacement in the radial direction, the device is equipped with an elastic-damping element, made of an endless cable, forming loop-like sections, spanning the annular split axis between the separating points // //