RU79970U1 - PIPE COMPENSATOR - Google Patents

Abstract

The pipeline compensator can be used in pipeline transport, gas and heat supply, to compensate for temperature deformations of pipelines. The pipe compensator is made of two nozzles coaxially mounted with the possibility of axial movement. The nozzles are connected by a rubber sleeve with metal rings sealed at the ends, which create a tight connection with the nozzles by means of bolts. The design is greatly simplified and the performance of the pipe compensator is increased.

Description

The utility model relates to pipeline transport and can be used in hydrotransport, gas and heat supply, to compensate for temperature deformations of pipelines.

A pipe compensator is known (see copyright certificate N 945581, IPC F16L 51/00), consisting of nozzles telescopically entering one another, an elastic sleeve and a chamber made on the inner pipe and forming a cavity filled with liquid or gas and communicating with an elastic sleeve with the chamber by means of check valves with the opposite stroke for liquid or gas, seals placed on the outside of the chamber, hermetically moving along the inner surface of the elastic sleeve. Each nozzle has a travel stop.

The disadvantage of this compensator is the presence of check valves with an opposite stroke and seals located on the outside of the chamber. The transported medium usually contains mechanical particles, the ingress of which into the valves and seals will interfere with the operability of these devices.

These devices complicate the design and reduce the reliability of the pipeline compensator.

The technical result of the proposed utility model is to simplify the design and increase the reliability. The specified technical result is achieved by the fact that the sleeve is made of rubber with metal rings sealed at the ends to ensure tight connections with nozzles by means of bolts.

The proposed utility model is illustrated in the drawing. In Fig.1 shows a pipe compensator - General view. A pipe compensator comprising two coaxially mounted axially movable nozzles 1, 2 and an elastic sleeve 3 connected to them, forming a cavity of variable volume. The sleeve 3 is made of rubber with metal rings 4 sealed at the ends to ensure tight connections with the nozzles 1, 2 by means of bolts 5. The nozzle 2 has an opening 6 through which the transported product can enter or leave the cavity of variable volume. Each pipe has travel stops 7, 8.

The compensator is installed with a preliminary stretch of 0.5 of the calculated value of axial strain δ. Because rubber has a large relative deformation (600 ... 800%), then the value of δ can be very significant. Upon receipt of the cold transported product, the value of δ will increase and the transported product through the hole 6 will enter the cavity of the variable volume. Upon receipt of a heated transported product, the value of δ will decrease, and the transported product will leave the cavity of variable volume. An increase in internal pressure will not affect

on the performance of the elastic sleeve 3, because the entire load will be taken by pipes 1, 2.

Thus, the use of the proposed pipeline compensator can simplify the design and increase the reliability of its operation.

Claims (1)

A pipe compensator comprising two coaxially mounted axially movable nozzles and an elastic sleeve connected to them, forming a cavity of variable volume, characterized in that the sleeve is made of rubber with metal rings sealed at the ends to ensure tight connections with the pipes by means of bolts.