SU657198A1 - Shock absorber - Google Patents

Description

The invention relates to the field of vibration-proof technology, namely to supports for protecting instruments and radio equipment from the effects of vibrations and shocks.

Known shock absorber, comprising a housing, a support rod, two conical springs and spring-loaded friction elements mounted with a gap between the shields 1.

The disadvantage of such shock absorbers is that such shock absorbers do not perceive shock loads well. The closest to the proposed invention according to the technical essence and the achieved result is a shock absorber comprising a housing, a stem sleeve, friction washers, a spacer between them and radially spring-loaded friction elements, two conical springs supported from the large diameter side in the bottom of the housing , and from the side of smaller diameter - into friction plates, and anti-shock device 2.

However, this shock absorber has an insufficient energy capacity of the shockproof device to absorb the shock at high accelerations and pulse durations.

The purpose of the invention is to improve the protection when exposed to an arbitrarily directed shock load with a large acceleration and a longer pulse duration.

The goal is achieved by the fact that in the proposed shock absorber, the anti-shock device is made in the form of a spring mounted between one of the spring ends and the bottom of the body of two disks with conical flanges, a pull-off washer interacting with the flanging surfaces, and a thrust disk placed between the other end of the spring and the body .

FIG. 1 depicts the described amorizator, longitudinal section; in fig. 2 - friction element, top view.

The shock absorber consists of the housing 1, which after assembly is closed by the cover 2. The housing 1 and the cover 2 are connected between each other by means of four flared hollow bushings 3, the openings of which are used to fasten the shock absorber on the object.

| -)) ii KdpiiNcii is ijO) / KiU; i; iii sleeve 4 with a threaded bore 5, which ii) (, Miui: iii; i4en () for attaching amortization. to the device.

11a rod bolts 4 are fitted with two dry nuts N 6, two (knuckle washers 7 and a distributive sleeve 8, which are attached to the rod sleeve 4 with a screw 9. At the same time, the radial direction of the washers 7 can be freely moved within the gap 10. Pin II prevents screw 9 from self-unscrewing.

The core sleeve 4, assembled with the parts listed above, is held in the position shown in the drawing, the upper conical spring 12 and the lower conical spring 13, which with their tops abut against the pressure washers b, and the bases are fixed in the body 1. shown in the drawing Gl. (1genii have pre-compression.

Inside the Kojniyca I, parts of the shock-proof device are installed: two washers 14 with a conical flange on the inner diameter with a pressing washer 15, have a wedge-shaped section profile, located between the conical flanges of the front 14, which are pressed against the cylindrical spring 16 to the upper inner turn of the housing 1. The coil spring 16 presses the thrust plate with the thrust plate 17 to the supporting cylinder 18, which is tightly fitted into the housing 1.

Split friction rings 19 are seated in the supporting cylinder 18 with tension.

Between the split friction rings 19 and the friction washers 7 in the axial axis, gaps 20 and 21 are provided, in addition, between the friction washers 7 and the supporting cylinder 18 there is a gap 22 in the radial direction

The shock absorber works in the following way.

When the amplitude of oscillations is less than iia.opoB 20, 21 p 22, which takes place in the frequency domain, the damping device is disabled, this will improve the vibration-absorbing properties of amortizat () |:) a. With an increase in the amplitude of oscillations of the core sleeve and in the region of resonant frequencies, a damping device is activated.

Under the impact of a shock load in the longitudinal direction, a gap 23 and 24 is selected, and the rod sleeve 4 with its ledge squeezes the spring 16 through a squeezing washer 14 or through a stop disk.

The shock load in the transverse direction is perceived after selecting the gap 25 with a pull-off washer 15 acting on the discs 14. The spring 16 is preloaded, which increases the energy intensity of the anti-shock device.

Anti-shock device provides ranjenne randomly directed shock with high acceleration and pulse duration.

Claims (2)

Invention Formula A. absorber. containing body, rod (j neva sleeve, friction washers, spacer sleeve installed between them and friction-loaded ionic elements in the radial direction, two conical arms, supporting) 1e from the larger diameter in the bottom of the case, and from the smaller diameter - into the friction washers and anti-shock device, characterized in that. in order to improve protection when exposed to a randomly directed shock load with a large acceleration and a long pulse duration, the anti-shock device is made in the form of a spring installed between one of the spring ends and the bottom of the body of two discs with conical flanging, squeezing washer, interacting with flanging surfaces , and a thrust disk placed between the other end of the spring and the body. Sources of information taken into account in the examination 1 Auto () RSK (K certificate A i 124247, class F 16 f 13/00 1959. 2. Copyright certificate „4 ° 439650, cl. F 16 f 13/00 1974. /four I gz