SU1629680A1 - Cryogenic pipe line section connection unit - Google Patents

Abstract

The invention makes it possible to increase the reliability and efficiency of the node connecting the sections of cryogenic pipelines by reducing the loss of the transported cryogenic product. Extensions 3 and 4 are installed in one another with a gap. One end of each of the extenders 3 and 4 is connected to the inner tube 1, the other to the outer tube 2. The spring-loaded gland seal 8 is located in the gap between the extenders 3 and 4. Bypass line 9 is completed in the form of a heat exchanger 10 and a flow restrictor 11 communicated on one side with the pipe 1, and on the other with a gap. As a result of the elimination of the liquid cryoproduct in the warm zone of the node, the depressurization of the joint node and the increase in heat influx from the environment to the product are excluded. 1 il.

Description

The invention relates to cryogenic technology and can be used in cryogenic pipelines and aviation,

The aim of the invention is to increase reliability and efficiency by reducing losses of cryoproduct.

The drawing shows a connection node sections of cryogenic pipelines, a cross section.

The connection unit contains inner pipes 1, outer pipes 2, interconnected by extenders 3 and 4, installed one in the other. Extenders 3 and 4 are attached to the flange connection 5, which contains a gasket

6. In the gap 7 between the extensions 3 and 4, the stuffing box seal 8. The connection unit is provided with a bypass line 9 on which the heat exchanger 10 is installed, a flow restrictor 11 and a detachable joint 12. The stuffing box 8 consists of the stuffing box 13, the sleeve 14, the ring 15 , springs 16 and restrictive ring 17. The flange connection is equipped with a fitting 18 crimping. The cavities 19 between the pipes 1 and 2 are evacuated.

The packing 8 is installed on the extension 4. When assembling the connection unit, the sleeve 14 reaches the annular part of the extension 3, after which further movement of the flange with the extension 4 leads to compression of the spring 16. The presence of the sleeve 14 on one side of the stuffing box 13, ring 15 and the compressed spring 16 on the other side of the packing, the packing is sealed.

After assembling the connection node, the tightness of the sealing gasket 6 and stuffing box 13 is checked by applying pressure through the fitting 18 and the connector 12, respectively. The tightness of the gasket and packing is determined by the pressure drop.

If there is a liquid cryoproduct in the inner pipes 1, the liquid, entering the bypass line 9 to the heat exchanger 10, evaporates, heats up to a temperature of approx. through stuffing box packing. In the 10 case of depressurization of the gasket 6, the flow limiter 11 limits the flow rate through the bypass line 9, while all the liquid cryoproduct is evaporated and heated in the heat exchanger 10.

The restrictive ring 17 fixes the packing 8 when disassembling the connection unit.

As a result of eliminating the ingress of liquid cryoproduct into the warm ”zone of the joint assembly 20, at its arbitrary location, depressurization of the joint assembly, as well as an increase in heat gain from the environment to the liquid cryogenic product, is excluded.

Claims (1)

25 claims The junction section of the sections of cryogenic pipelines, containing extenders installed with a gap in one another, one end of each of which is connected to the 30 inner tube of the section, and the other to the outer tube, characterized in that, in order to increase reliability and efficiency by reducing losses transported cryoproduct, it is equipped with a spring-loaded stuffing box seal located in the gap between the extension cords and a bypass line made in the form of a heat exchanger and flow limiter communicated on one side with 40 morning pipe, and on the other, with a gap between the extensions after the stuffing box packing. ’