RU2130148C1 - Method of compensation for temperature elongation of heat supply pipe line - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: initial deformation occurs freely, after which pipe line is jammed forming stresses which do not exceed permissible limits; to this end, stop is welded to pipe line at rated clearance between stop and fixed support. EFFECT: enhanced reliability of pipe line. 2 dwg

Description

 The invention relates to methods for compensating thermal elongations of heat pipes.

The following methods are known for compensating thermal elongations of heat pipes:
1) in the case of channelless laying - an uncompensated method in which, due to jamming of the pipelines with the ground, there are no piping movements at any changes in the temperature of the coolant [1],
2) with overhead and duct installation - the use of various kinds of axial compensators: stuffing box, bellows, U-shaped [2] - prototype,
3) for all types of laying - the use of the natural flexibility of pipelines at the turning angles of the route [1, 2].

 Complete jamming of the pipeline during overhead and channel installation is not used, since the temperature difference possible in this case (exceeding the difference during channelless installation) will cause stresses d exceeding the permissible ones to the wall of the pipeline.

 The use of axial expansion joints reduces reliability, increases construction costs and operating costs.

 The objective of the invention is to increase reliability, reduce construction costs and operating costs by reducing the number of axial expansion joints.

 The problem is solved using partial pinching of pipelines, as well as methods for achieving partial pinching.

 The term "partial pinching" means a technical solution in which the initial deformation of the pipeline (when the temperature changes from the installation temperature to the pinching temperature) occurs freely, and then the pipeline becomes pinched and its further deformation stops.

 The pinch temperature is determined by calculating from the condition that stresses arising as a result of pinching in the pipeline do not exceed the permissible ones.

 A distinctive feature of the claimed technical solution is the use of partial jamming of straight pipelines by leaving a mounting gap between the fixed support structure and the stops welded to the pipeline if there is a turn of the route near the straight section, and by equipping the axial compensator with special stops if next to the straight the plot does not have a turn of the track.

 Partial pinching examples are shown in FIG. 1 and 2.

 Example 1. Near the site under consideration there is a site with a turn of the track (Fig. 1).

 The initial deformation of the pipeline in section AB occurs freely due to the fact that there is a mounting gap M between the construction of the fixed support 1 and the stops 2 welded to the pipeline (the value of M is determined by calculation). To exclude longitudinal bending during compression of the pinched pipeline, guide bearings 3 are used.

 The compensating ability of the pipeline in section BC should ensure that the initial deformation of section AB is perceived.

 Example 2. Near the site under consideration there is no site with a turn of the track (Fig. 2). The initial deformation of the pipeline is perceived by the axial (bellows) compensator 4. The jamming of the pipeline occurs due to the fact that the compensator is equipped with special stops 5. The stops work after the compensator is stretched (compressed) by the size of the mounting gap M.

 Stops 5 also perform the function of protecting the compensator from damage in the event that the actual deformations exceed the compensating ability of the compensator.

 Due to the fact that most of the temperature deformation of the pipeline is removed due to the use of partial pinching, it is possible to reduce the number of axial compensators used (Fig. 2) or completely eliminate these compensators (Fig. 1).

 Thus, the proposed method of compensating for temperature extensions of pipelines can improve reliability, reduce construction costs and operating costs by reducing the number or elimination of axial expansion joints.

Sources of information
1. Departmental building codes for the design and channelless installation in Moscow of urban two-pipe heating networks from pipes with industrial thermal insulation from polyurethane in a polyethylene sheath. BCH 29-95. -M., 1995
2. Glukhenky T.E. Station pipelines, their manufacture and installation. M .: Energy, 1977, p. 122, 123.

Claims (1)

 A method of compensating for the thermal elongations of the above-ground and channel gasket heat pipes, which consists in using the natural compensating flexibility of the heat pipe at its rotation angles, installing an axial compensator in a straight section of the heat pipe, characterized in that fixed supports are installed in the heat pipe turning section, and stops are welded onto the heat pipe to form mounting the gaps between them and the fixed supports with the possibility of partial pinching during thermal elongation of straight sections of the heat conduit or on the latter axial compensators provide stops with the possibility of partial pinching of the heat conduit.

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