SU1698560A1 - Gas pipeline vibration isolator - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the connection of gas pipelines operating under vibration conditions. The purpose of the invention is to increase the reliability of the vibration damping device of the pipeline. The vibration insulation of a gas pipeline consists of a hollow body, inlet and outlet nozzles, and a sealing element. The internal cavity of the housing is filled with liquid above the level of the sealing element. The inlet is fixed to the body, fitted with a nozzle in the form of a truncated cone, placed inside the body above the liquid level and fixed at the end of the nozzle with a smaller base, and the mountaineer of the outlet nozzle is installed coaxially with the inlet of the inlet, 2 hp f-l1, 4 ill.

Description

The invention relates to mechanical engineering and can be used in the connection of gas pipelines operating under vibration conditions.

A vibroisolation device for a gas pipeline is known, which contains a closed case with sealing elements, an outlet and an outlet connected by an elastic spacer to form a cavity between the outer surface of the channel and the inner surface of the case. The internal cavity is filled with liquid above the level of sealing elements, and a part of the body that is free from liquid is connected to the gas pipeline.

A disadvantage of the known device is the large labor intensity and low reliability due to the presence of four sealing assemblies.

The purpose of the invention is to improve the reliability of the vibration isolation device of the pipeline

The goal is achieved by the fact that the inlet nozzle is fixedly connected to the body, provided with a nozzle in the form of a truncated cone placed inside the body above the liquid level and fixed at the end of the nozzle with a smaller base, and the end nozzle of the inlet nozzle.

Figure 1 shows the vibration isolation device of a gas pipeline with horizontally inlet and outlet nozzles, a longitudinal section; figure 2 - the same, with vertically arranged inlet and outlet nozzles; on fig.Z - the same, with inlet and outlet nozzles located at an angle to each other.

ABOUT

about

00

sl o about

The vibration isolation device of the pipeline consists of a hollow body 1, an inlet 2 with a nozzle 3 in the form of a truncated cone, an outlet nozzle 4, a sealing element 5. The internal cavity of the housing 1 is filled with liquid 6 above the level of the sealing element 5.

Vibration isolation device of the pipeline operates as follows.

The gas from the inlet pipe 2 enters the outlet pipe 4, as well as through the nozzles 3 of the inlet pipe 2, into the upper part of the internal cavity of the housing 1, which is free of liquid 6. The liquid level b is above the sealing element 5 placed between the outlet pipe 4 and body 1. When the inlet nozzle 2 vibrates with body 1, the sealing element 5 deforms. In this case, the vibration energy is damped in the sealing element 5 due to internal friction. Since the liquid level 6 is above the sealing element 5, there is no contact between the high-pressure gas and the connection of the housing 1 to the outlet 4 through the sealing element 5, therefore gas leakage is excluded.

Leakage of liquid 6 to the outside is eliminated, since sealing to prevent leakage of liquid is much more reliable than to prevent gas leakage, especially for gas mixtures based on superfluid helium.

The conical nozzle 3 of the inlet 2 provides for the dispersion of gas of high

pressure inside the housing 1, which ensures the exclusion of oscillations of the liquid 6 and. as a result, the ability of the sealing element 5 to operate under constant pressure.

The proposed design will increase the reliability of the vibration isolation device of the gas pipeline. The use of devices with inlet and outlet nozzles arranged at an angle to each other allows the devices to be used more widely.

Claims (1)

Invention Formula 1, Vibro-insulating gas pipeline device containing an inlet nozzle, a hollow body filled with liquid above the level of a sealing element placed between the outlet nozzle and the body, characterized in that, in order to increase reliability, the inlet nozzle is connected to the body with a fixed nozzle in the form of a truncated cone placed inside the body above the level of the liquid and fixed at the end of the nozzle with a smaller base, and the end of the outlet nozzle is installed coaxially with the end of the inlet nozzle. 2 Device pop. 1, characterized in that the inlet and outlet connections are arranged vertically. 3 The device according to claim 1, of which it is, so that, in order to install the device at the bends of the pipeline, the inlet and outlet connections are angled to each other U777 ////////////// 77777 / L FIG. / ABOUT about to 1L oo oo oo 0 hr g v | 3 $ FIG. four