RU2435999C1 - Hydraulic damper - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: damper consists of base and of guiding and damping devices. A rod is rigidly fixed in a bottom of the cylinder sleeve forming a pressure tight circular cavity. The bottom of the cylinder sleeve is secured in a bush rigidly jointed to the base of a protected object. A spring in the circular cavity with its lower end rests against the bottom, while with its upper end - against a piston. The piston corresponds to a disk with a throttling orifice relative to a rod. A cover moveable relative to the rod is positioned in an upper section of the rod. The cover consists of a circular flange with a packing and a bush rigidly tied with the flange. The bush envelops external surface of the cylinder sleeve by means of the packing. A spring, an upper end of which rests against the cover, while a lower one - against the piston, is located coaxially to the rod. A bearing element of the vibration insulated object is fixed on the cover.

EFFECT: raised efficiency of vibration insulation.

1 dwg

Description

The invention relates to devices for vibration isolation of operator seats and technological equipment.

The closest technical solution to the technical nature and the achieved result is a damper containing a base, a guiding device and a shock absorber pivotally connected by an arm to the base (AS USSR No. 971687, class B60N 1/02, 1981).

The disadvantages of the known device are the relatively low vibration isolation properties in the horizontal direction, as well as the difficulty of servicing the pneumohydraulic shock absorbing device.

The technical result is an increase in the effectiveness of vibration isolation.

This is achieved by the fact that in the hydraulic damper containing the base, the guiding device and the shock-absorbing device, there is additionally a rod rigidly fixed in the bottom of a cylindrical sleeve coaxial with it to form a sealed annular cavity between the outer surface of the rod and the inner surface of the cylindrical sleeve, the bottom of which is fixed in the sleeve, rigidly connected with the base of the protected object, and in the annular cavity there is a spring which abuts against the bottom with the lower end and the piston with the upper end made in the form of a disk and located with a throttling gap relative to the rod, while in the upper part of the rod there is a cover movable relative to the rod, consisting of an annular flange with a seal relative to the rod and rigidly connected to the sleeve flange, coaxial with the rod and covering the outer surface of the cylindrical sleeve through the seal, and coaxially to the rod, there is a spring, the upper end of which abuts against the cover, and the lower end - against the piston, and the support element of the vibration-insulated object is fixed on the cover.

The drawing shows a diagram of the proposed device.

The hydraulic damper contains a rod 1, rigidly fixed in the bottom 10, of a cylindrical sleeve 7 coaxial with it, with the formation of a sealed annular cavity 9 between the outer surface of the rod 8 and the inner surface of the cylindrical sleeve 7, the bottom 10, which is fixed in the sleeve 11, rigidly connected to the base of the protected object (not shown in the drawing). A spring 14 is located in the annular cavity 9, which abuts against the bottom 10 with the lower end and the piston 12, made in the form of a disk and located with a throttling clearance 13 relative to the rod 1, with the upper end.

In the upper part of the rod, a cover 2 is movable relative to the rod 1, consisting of an annular flange 3 with a seal relative to the rod 1 and rigidly connected to the flange 3 of the sleeve 4, coaxial with the rod 1 and covering the outer surface of the cylindrical sleeve 7 through the seal 6. Coaxially to the rod 1 is located a spring 5, the upper end of which abuts against the cover 2, and the lower end against the piston 12. On the cover 2, a support element of the vibration-insulated object is fixed (not shown in the drawing).

The hydraulic damper operates as follows.

The vibrations of the vibration-insulated object through the cover 2 are transmitted to the springs 5 and 14, which absorb vertical loads, thereby weakening the dynamic effect. It is possible to significantly increase the damping in the system at resonant operating modes due to energy dissipation when the medium passes through the throttling gap 13 in the piston 12.

In general, the design of the damper is efficient, technological and meets the requirements of ergonomics and design.

Claims (1)

A hydraulic damper comprising a base, a guide device and a shock absorber, characterized in that it further comprises a rod rigidly fixed to the bottom of a cylindrical sleeve coaxial with it to form a sealed annular cavity between the outer surface of the stem and the inner surface of the cylindrical sleeve, the bottom of which is fixed in the sleeve rigidly connected with the base of the protected object, and in the annular cavity there is a spring which abuts against the bottom with the lower end, and with the upper end against the piston, filled in the form of a disk and located with a throttling clearance relative to the rod, while in the upper part of the rod there is a cover movable relative to the rod, consisting of an annular flange with a seal relative to the rod and rigidly connected to the sleeve flange, coaxial with the rod and covering the outer surface of the cylindrical sleeve through the seal and a spring is coaxial to the rod, the upper end of which abuts the cover, and the lower end - against the piston, and the support element of the vibration-insulated object is fixed on the cover.