RU2249734C2 - Viscous-friction type shock absorber - Google Patents

Abstract

FIELD: hydraulic shock absorbers.

SUBSTANCE: viscous friction damper includes housing, partition with openings and rod passing through central opening of partition. Two similar corrugations of elastic material are fastened in housing; central partition is clamped between said corrugations. The last define two different-volume and variable-dimension cavities filled with shock absorbing liquid. Rod has two sites for fluid-tight securing of it to said two corrugations. Openings of partition through which shock-absorbing liquid is pressed are covered by means of flexible membrane providing possibility for controlling their number and size.

EFFECT: enlarged manufacturing possibilities, improved efficiency of shock absorber.

1 dwg

Description

The invention relates to hydraulic shock absorbers.

Known hydraulic viscous friction dampers containing a housing filled with a damping fluid and divided into two parts by a partition with holes, and a rod. (“The Big Encyclopedic Dictionary of the Polytechnic”, M., BDT, 1998, p.216 (Fig.)).

The closest to the claimed technical essence and the achieved effect is a viscous friction damper (see AS No. 279265 of 04/15/1969, class IPC F 16 F 5/00 - prototype).

Known damper contains a housing filled with a damping fluid and divided into two cavities by a partition with holes, and a rod. The walls of the housing parallel to the partition are made in the form of membranes, rigidly connected with the rod passing through the central hole in the partition. Known damper works as follows.

When the rod oscillates, fixed relative to the housing, the damping medium is forced through the gap formed by the hole and the rod, and through the holes, due to which the energy of the oscillations is dissipated.

A disadvantage of the known damper is the limited stroke of the rod and membranes and, accordingly, the time of their movement, i.e. limited capabilities and low productivity.

The aim of the invention is to eliminate this drawback, i.e. expanding its capabilities and improving the performance of the damper.

The problem is solved due to the fact that into the viscous friction damper containing the body, the baffle with holes and the stem, two similar corrugations of elastic material are inserted, fixed in the body, between which the central baffle is clamped, and form two different in volume and variable in size cavities, filled with a damping fluid, the stem has two pads for tight bonding with two corrugations, and the holes in the partition through which the damping fluid is pressed are covered by a flexible membrane Oh, providing the ability to adjust their size and quantity.

The drawing shows the described damper in longitudinal section.

The walls of the damper, which are similar corrugations 1 (conditionally upper) and 2 (conditionally lower), are fastened with a nut 3 in the housing 4. Between these corrugations a partition 5 with holes 6 is clamped. The holes 6 are closed by a flexible membrane 7 so that it is open the required area of these holes, corresponding to a certain speed of the rod 8 at a certain viscosity of the damping fluid 9, occupying the cavity of both corrugations. The rod 8 has two platforms for tight bonding with two corrugations, and its length and the length of the protrusion of the partition 5 form different corrugations of the corrugations 1 and 2. In the upper platform of the rod and corrugation 1 there are holes 10, muffled by the gasket 11 and nut 12, for filling damping fluid. The rod 8 passes through the partition 5 so that the gap between it and the protrusion of the partition does not affect the operation of the holes 6. Corrugations 1 and 2 are made of elastic material, such as rubber.

The described damper works as follows.

When the rod 8 moves down, the corrugation 1 will be compressed, the volume of the cavity formed by the corrugation 1 will decrease, and the damping fluid 9 will be transmitted through the openings 6 of the partition 5 into the cavity formed by the corrugation 2. In this case, the rod 8 and the pressure of the flowing damping fluid 9 will expand the corrugation 2 and increase the volume of its cavity. When the fluid 9 flows from the cavity of the corrugation 1 into the cavity of the corrugation 2 through the holes 6, a loss of the energy of movement of the rod and damping of its movement occurs.

Due to the variable volume of the cavities formed by the flexible corrugations 1 and 2, the piston stroke increases significantly, and changing the size or number of holes 6 in the baffle 5 using the diaphragm 7 allows you to vary the degree of damping and the speed of the rod 8, which expands the capabilities of the damper and increases its productivity.

Claims (1)

Viscous friction damper comprising a housing, a baffle with holes and a rod passing through a central hole in the baffle, characterized in that two similar corrugations of elastic material are inserted into it, fixed in the housing, between which the central baffle is clamped, and forming two different in volume and cavity-size variables filled with damping fluid, the rod having two pads for tight bonding with two corrugations, and holes in the partition through which the damping liquid, covered by a flexible membrane, providing the ability to adjust their size and quantity.