SU1006842A1 - Locking device - Google Patents

Abstract

1. A locking device equipped with a sound-absorbing material and consisting of a seat located in the body and a locking member associated with Fig. 1 by a drive shaft, characterized in that, in order to increase the efficiency of damping schum, a glass is placed on the locking organ the seat hole, an axial hole in the valve body, and a damper assembly concentrically mounted on the side of the glass. 2. A device according to claim 1, characterized in that the damping assembly is made of a rod with an emphasis passing through the opening and stem of the locking member and a spring-loaded damping element mounted on the rod and made in the form of a truncated cone with a cylindrical flange entering glass, and on the side surfaces of the glass and the damping element evenly spaced windows, lined with sound-absorbing material. (L. od cx) 4 to J

Description

The invention relates to a technique for controlling noise in valves and can be used to reduce noise when gases are discharged from tanks.

A locking device equipped with a sound absorbing material is known to them, consisting of a seat located in the body and a locking member associated with the actuator stem 1.

A disadvantage of the known valve is that at high exhaust velocities, the efficiency of the sound-absorbing lining is low. In addition, the source of noise in a well-known valve is still rapidly increasing at the opening and at the same time reaching values, close to sound, the velocity of the outgoing gases. Thus, the known valve does not reduce the noise to the standard values.

The purpose of the invention is to increase the efficiency of noise reduction.

The goal is achieved by the fact that in the locking device, equipped with sound-absorbing material and consisting of a seat located in the housing and a locking member connected to the drive rod, a cup is placed on the locking member into the saddle opening, in the locking organ there is an axial hole, and on the side of the cup, a damper assembly is concentrically mounted, which is made up of a shaft with an abutment passing through the opening and stem of the locking member, and a spring-loaded damping element fixed to the rod and complements the frustoconical cylindrical eyelet, extending into the glass, and on the side surfaces of the cup and the damping element are arranged uniformly box lined with sound absorbing material.

FIG. 1 shows a locking device, a longitudinal section; in fig. 2 - a glass; in fig. 3 - damping element.

The locking device consists of a locking member 1 with a hole A, a saddle 2 located in a housing (not shown), a rod 3, a cup 4 is rigidly fixed to the gate on the saddle side, a damper assembly is located on the side of the cup, consisting of a rod 5 with a stop 6 , a spring 7 and a damping element, made in the form of a truncated cone 8 with a cylindrical flange 9 entering the cup 4; Windows B are located on the lateral surfaces of the cup and the damping element and are lined with sound-absorbing material 10.

The locking device operates as follows.

The actuator driven by the actuator lifts the brush 3 with the locking member 1. This increases the flow area between the saddle 2 and the locking member 1, covered with a cup 4, lined with a porous material. Through porous material

2 10 and windows In the glass, the gas enters the internal cavity of the damping element 8. The gas pressure in this cavity is less than at the valve inlet, but greater than at the outlet, i.e. under the damping element 8. Thus, the damper 8 under

0 by the action of gas forces extends from the cup 4, compressing the spring 7 until the gas forces are balanced by the elastic force of the spring. The depth of extension of the damper can be pre-adjusted by the stop 6.

The flow rate of gas flowing out of the damper is significantly lower than the velocity at the inlet to the valve due to hydraulic losses in the porous material and loss of compression energy of the spring 7, which causes a decrease in the noise generated when the valve is opened.

At the moment when the locking member 1 rises to a height, greater than the height of the cup 4, a free annular section between the cup 4 and the saddle 2 opens. Now

The gas pressure in the internal cavity of the damper 8 becomes less than in the cavity under the damper (at all equal to it), as a result of which the damper 8 is pushed into the cup 4 by the action of the elastic force of the spring and gas forces.

 Starting from this moment, the noise reduction is ensured by the sound-absorbing ability of the casing of a porous material located at a distance from the gate.

5 The technical and economic effect is to increase the effectiveness of noise reduction.

Cfv

T

FIG. g

 II s

ten

Feed

Claims (2)

1. The locking device, equipped with sound-absorbing material and consisting of a seat located in the body of the seat and a locking member connected to the actuator stem, characterized in that, in order to increase the noise suppression efficiency, a glass is placed on the locking body, which enters the hole of the saddle, in the locking body an axial hole is made, and a damper assembly is concentrically mounted on the cup side. 2. The device according to π. 1, characterized in that the damper assembly is made of a rod with a stop passing through the hole and the rod of the locking member, and a spring-loaded damping element mounted on the rod and made in the form of a truncated cone with a cylindrical flange entering the glass, and on the side surfaces of the glass and the damping element is evenly spaced windows lined with sound-absorbing material.