SU1099217A1 - Device for testing pipe-line joints for fluid-tightness - Google Patents

Abstract

DEVICE FOR TESTING THE TIGHTNESS OF PIPELINE CONNECTIONS at low temperatures, containing split into forming a cylindrical case with openings at the bottom for installation on the test pipeline, seals in the openings and a partition dividing the housing into the cavities, the source of refrigerant and the leak indicator. connected to the cavities of the housing, characterized in that, in order to increase reliability by bringing the test conditions to operational conditions, the partition is formed as spring-loaded axial half-walls installed in each of the detachable parts of the housing and dividing its cavity into an internal cavity connected to the leak indicator , and an external cavity connected to a source of coolant, and the device is equipped with removable gas-permeable inserts made of heat-conducting material installed in the internal cavity orpusa, brackets mounted on Dong's body and removable (L E elastic elements with heat insulating bushings at the ends, binding brackets.

Description

The invention relates to a leak testing device connected to 1st pipelines operating with streams of cryogenic liquids or under low temperature conditions.

A device for monitoring the tightness of the welds of the shells, comprising a sealing element applied to the test product, a perforated gasket placed between the test product and the sealing element, and a leakage indicator connected to the cavity of the sealing element lj.

The drawback of the device lies in the impossibility of conducting tests at low temperatures.

The closest to the invention in its technical essence and the achieved effect is a device for testing the tightness of pipeline joints at low temperatures, containing a separable part forming a cylindrical case with openings at the bottom for installation on the test pipeline, seals in the holes and a partition a cavity, a coolant source and a leak indicator connected to the cavities of the housing.

The partition is formed in the form of annular projections dividing the body into three cavities, the central of which is connected to the leak indicator, and the other two to the source of the refrigerant. Zj.

The drawback of the device is the low reliability of the tests, due to the difference in test conditions from the operational ones, due to the lack of means simulating the force effects on the test pipeline when it is cooled to low temperatures.

The purpose of the invention is to increase reliability by bringing test conditions to operational conditions.

This goal is achieved by the fact that in a device for testing the tightness of pipe joints at low temperatures, containing a separable along forming cylindrical; The body with the holes in the bottoms for installation on the Test Pipeline, the seals in the holes and the partition dividing the housing to the cavities, the source of the refrigerant and the leak indicator connected to the cavities of the housing, the partition is filled in the form of spring-loaded cylindrical

half-walls installed in each of the detachable parts of the housing and separating its cavity to the internal cavity connected to the leak indicator and the external cavity connected to the source of the refrigerant, and the device is equipped with removable gas-permeable inserts of heat-conducting material installed in the internal cavity of the case brackets mounted on the bottom of the casing and removable elastic elements with heat insulating sleeves on the ends connecting the brackets.

The drawing shows a device for testing the tightness of pipe joints.

The device contains detachable along forming a cylindrical case 1 with openings at the bottom for installation on pipe 2 with test connection 3, seals 4 holes and a partition made in the form of cylindrical half-casings 5 with corrugations 6 installed in each of the detachable parts of housing 1 and dividing its cavity into two — an internal cavity 7 and an external cavity 8, removable gas-permeable inserts 9 of heat-conducting material, mounted in the internal cavity 7 of the housing 1, removable brackets 10 fixed to the bottom of the building Usa 1, removable elastic elements 11c with thermal insulating sleeves 12 at the ends connecting the bracket 10, leakage indicator (not shown) connected via pipe 13 to the internal cavity 7, and coolant source (not shown) connected through the pipe 14 to the external cavity 8. The housing 1 is fixed to the pipeline 2 by means of flanges 15 and has an annular protrusion 16 in the center to compensate for the resulting temperature stresses.

The inserts 9 are manufactured by sintering metal powders (e.g. copper) and have a relatively high thermal conductivity. Possessing sufficient gas permeability, they provide access to the control gas from possible through defects in connection 3 to the leak indicator. The various thermal conductivities of inserts 9 are necessary to obtain a wide range of cooling rates for test pipe joints;

selecting the sizes of the granules from which they are sintered.

In order to effectively cool the test surface and create the necessary sealing of the housing 1, the gas-tight liners 9 have a profile that repeats the profile of the test surface and is in close contact with it.

The quantity, arrangement, magnitude and direction of the possible preloading of the elastic elements 11 with the aid of the fixing bolts 17 are selected from the condition of providing the values, direction and end titration of the stresses in the test joint, identical to the operational ones.

The device works as follows.

In the detachable parts of the housing 1, liners 9 are installed, the heat conduction of which provides the necessary cooling rate of the test compound. The parts of the housing 1 together with the seals 4 are installed on the pipeline 2 and fastened thereto with the help of flanges 15. At the same time, due to the spring properties of the half-walls 5, pressing the liners 9, their tight contact with the pipeline is ensured. water 2.

Elastic elements 11 are placed on the brackets 10. In the cavity of the pipeline fi, a 2, a test gas is supplied under the working pressure. The cavity 7 through the pipe 13 is evacuated and communicates with the leak indicator. In the cavity 8 of the housing 1 through the pipe 14, a refrigerant from the source is supplied.

Cooling of the pipeline 2 to low temperatures (for example, to the temperature of liquid nitrogen) leads to the appearance of temperature deformations in it. mats, which are entirely perceived by thermally insulated elastic elements 11, which are not deformed when the device is cooled. As a result, the required power stresses occur in the test compound 3. The temperature deformations of the housing 1 do not significantly affect the stress state of the joint 3, due to the compensating action of the protrusion 16. The leakage indicator measures the tightness of the joint 3 at normal temperature and after cooling. when it is affected by temperature and force deformations.

The use of replaceable gas-permeable liners, the thermal conductivity of which is specifically chosen to cool the test connection of pipelines with the required speed, improves the quality of testing by simulating the operating conditions of pipelines at low temperatures. A similar effect is achieved by using replaceable elastic elements.

The device allows testing of compounds at high temperatures, where, instead of the refrigerant, hot air is supplied to the body cavity.

Using the invention allows to increase the quality of control of the tightness of pipe joints in the process of their manufacture, installation and in the course of routine maintenance.

Claims (1)

TEST DEVICE FOR TIGHTNESS OF PIPELINE CONNECTIONS at low temperatures, containing a cylindrical body detachable along the generatrix with holes in the bottoms for installation on the test pipe, seals in the holes and a partition dividing the body into cavities, a refrigerant source and a leak indicator connected to the body cavities, different the fact that, in order to increase reliability by approximating the test conditions to operational. the partition is made in the form of spring-loaded cylindrical half shells installed in each of the detachable parts of the housing and dividing its cavity into an internal cavity connected to a leak indicator, and an external cavity connected to a refrigerant source, and the device is equipped with removable gas-permeable inserts of heat-conducting material installed in the inner body cavities, brackets mounted on the bottoms of the body, and removable elastic elements with heat-insulating sleeves at the ends connecting the nsteins. SU p „1099217>