SU1453370A1 - Actuating device of gas flow regulator - Google Patents

Abstract

The invention relates to automation, in particular to the transport of gas, and can be used at gas distribution stations and in the blocks of the Block Next / Vf / D for the preparation of fuel gas at compressor stations. The aim of the invention is to increase the reliability of the device by preventing hydrate formation and clogging in the area of the throttling working section by telling the working surface of the saddle of ultrasonic vibrations. The device includes a housing 1 with an inlet 2 and an outlet 3 with nozzles arranged on one axis, a hollow 4 cylinder 4, connected to the housing by a membrane 5, saddle 6, rigidly fixed in the housing. The working surface of the saddle 6 has hardfacing 7 of hard alloy. Saddle 6 is designed as an ultrasonic wave concentrator; on the tail part of the saddle there is a source of ultrasonic vibrations 8. The hollow cylinder 4 is spring-loaded to the body with a spring 9. 2 Cp. f-ly, 1 ill. C 4 JV

Description

The invention relates to the field of automation, in particular to the transport of gas, and can be used at gas distribution stations and in the preparation of fuel gas at compressor stations.

The aim of the invention is to increase the reliability of the device by preventing hydrate formation and clogging of mechanical impurities in the area of the throttling working section by telling the working surface of the seat of ultrasonic vibrations.

The drawing shows the actuator control gas flow.

The device comprises a housing 1 with an inlet 2 and an outlet 3 with nozzles located on the same axis, a shutter filled in the form of a hollow cylinder 4 connected to the case by a membrane 5, a saddle 6 rigidly fixed in the housing, a saddle 6 and a shutter 4 form a throttling body. The working surface of the saddle 6 has hardfacing 7 of hard alloy, the saddle is made in the form of an ultrasonic wave concentrator cylinder, the inner surface of which has the shape of an exponent, on the tail part of the saddle there is a source 8 of ultrasonic vibrations (magnetostrictor). The hollow cylinder 4 is spring-loaded to the body by a spring 9.

During operation of the actuating device, the regulated gas flow is directed to the internal cavity of the hollow cylinder 4. The gas passes through the annular gap between the right end of the hollow cylinder 4 and the saddle 6. In this case, the magnetostrictor 8 informs the working surface of the saddle 6 (concentrator) ultrasonic oscillations

The gas flow, the saddle over the saddle 6, also comes in oscillation that

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prevents the formation of crystalline hydrates and the accumulation of mechanical impurities, which increases the reliability of the device.

Performing the inner surface of the concentrator cylinder in an exponential form in the case of designing large throttling working sections leads to an increase in the amplitude of ultrasonic vibrations of the end face. The hard-facing ring surfacing on the working end of the saddle increases wear resistance.

Claims (3)

1. The actuator of the gas flow regulator, comprising a housing in which the inlet and outlet nozzles are located on the same axis, a shutter in the form of a hollow cylinder mounted coaxially with the inlet nozzle, spring-loaded to the housing and connected to it with a membrane, a saddle rigidly connected to the housing and installed between the gate and the outlet nozzle, characterized in that, in order to increase the reliability of the device by preventing hydrate formation and clogging in the throttling area of the working section, by the working surface of the saddle ultrasonic vibration, the saddle is designed as a cylinder-concentrator ultrasonic waves, and its tail portion is provided with a source of ultrasonic vibrations. 2. A device according to claim 1, characterized in that the inner surface of the concentrator cylinder is made exponential. 3. A device according to claim 1, characterized in that the working end of the cylinder is provided with an annular fusion of hard alloy.