RU2047019C1 - Damper - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: damper has housing, chamber for working fluid, and force rod. The chamber is provided with inlet and outlet openings which connect the chamber space with the housing space. The chamber for working fluid is made up as a bellows coupled with the force rod. The controllable throttle is received in the outlet opening. EFFECT: improved damping. 1 dwg

Description

 The invention relates to actuators for reciprocating motion, including to shut-off locking devices with a membrane drive on technological product pipelines.

Known damper one-way damping, consisting of a working pair of cylinder-piston with a seal in the form of a rubber ring on the piston gland. The piston is connected through the rod to the disk of the shut-off device. The working chamber is connected to the cavity of the cutter through a valve and an adjustable throttle. The closing time of the shut-off valve is regulated by the throttle needle [1]
The disadvantage of the damper is the incomplete tightness of the seal, as a result of which the instability of the response time, and with a decrease in the response time, instantly closes the cutter, the occurrence of water hammer.

Closest to the proposed technical essence is a damper, consisting of a housing and a cylinder placed in this housing, the working cavities of which are interconnected by inlet and outlet openings, the inlet is blocked by a ball valve, a plunger connected to the valve opening lever is placed in the cylinder cavity [ 2]
The disadvantage of this damper is that the sealing of the working chamber is carried out by a rubber seal with an oil seal. When the seal is worn or a foreign solid gets in, an additional leak appears, the response time of the damper decreases, and the meaning of damping is violated.

 The purpose of the invention is to provide a rigid temporal characteristic of the movement of the power rod of the damper to adjust for a given response time of the actuator and the possibility of damping vibrations.

 The goal is achieved by the design of a sealed working chamber from a bellows with a calibrated, adjustable damper for the working fluid duct. When the movement mechanism and the damper are triggered, the bellows chamber contracts, the displaced working fluid flows out only through the adjustable throttle. With partial clogging of the throttle, the response time of the damper is reduced by, i.e., the damping is not violated.

 Comparative analysis with the prototype shows that an elastic sealed, variable in volume working chamber without a packing gland with a calibrated outflow opening during operation rigidly provides the required time for the mechanism to operate.

 The drawing shows the proposed damper.

 The damper consists of a cylinder body 1, which is closed from above by a flange 2 with an oil seal 3. The bottom 4 of the body has two axial 5 and 6 and a radial hole 7. In the housing, a sealed bellows chamber 8 is attached to the lower bottom.

 A power rod 10 is fixed in the upper cover 9 of the bellows chamber, one end of which passes through the gland 3 of the housing flange.

 At the bottom of the bellows chamber 8 has a bottom stand 11 with radial 12, 13 and axial 14-16 holes. The hole 14 serves as a cylinder, inside of which the lower end of the power rod moves as a piston. A ball valve 17 is located in the cylinder. The axial holes 15 and 16 of the rack of the bottom 11 of the bellows chamber coincide with the holes 5 and 6 of the bottom of the housing. A throttle tube 18 is inserted into the hole 16 to prevent clogging.

 A throttle 19 with an adjusting screw and a calibrated hole 20 is located in the hole 7 of the bottom of the housing. The damper housing has a control tube 21 for filling with working fluid.

 For operation, the cavity of the working bellows chamber 22 is completely filled with damping fluid, and the cavity 23 between the bellows chamber and the housing is up to the level of the upper bellows cover in the working position.

 The damper is mounted on the mechanism so that the movement unit is connected to the power rod 10 of the damper, and the housing is attached to a rigid base structure.

 The device operates as follows.

 When moving the power rod 10 upward, the valve 17 opens and the fluid from the cavity 23 through the hole 12 and 13 fills the bellows chamber 22. When the movement mechanism is activated, the power rod 10 moves down, presses the bellows 8, which is compressed, the ball valve 17 closes, the liquid from the bellows chamber 22 through the tube 18 through the holes 16 and 6, the calibrated hole 20, an adjustable throttle 19, holes 5 and 12 flows into the cavity 23.

 The time of fluid flow from the chamber 22 into the cavity 23 is determined by the setting of an adjustable throttle.

 When the damper is activated, the working fluid from the sealed chamber flows out only through the adjustable adjustable throttle, which eliminates extraneous leaks and ensures a constant time for the damper to be set to operate.

 Thus, when using the invention, a smooth, time-controlled operation of the damper and the shut-off locking device occurs on the shut-off shut-off valve, and hydraulic shocks on technological product pipelines are prevented.

Claims (1)

 A DAMPER containing a housing and a chamber for the working fluid located in it with an inlet and outlet openings connecting its cavity to the cavity of the body, and a power rod, characterized in that the chamber for the working fluid is made in the form of a bellows connected to the power rod, and the damper is provided an adjustable throttle mounted in the outlet.

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