SU1294936A1 - Central heat supply pipe system - Google Patents

Abstract

The invention relates to construction and makes it possible to increase the operational reliability of the heat pipe system by allowing the temperature distortion of the metal of the pipeline without destroying its thermal insulation layer. The system contains metal pipe 2 placed in channel 1 with rings 3 successively worn on radial struts 4 reinforced with their bases and with thermal insulation layer 5 inferior to racks 4 and the channel is made of a successive set of water-tight asbestos-cement pipes worn on the metal pipe. are cylindrical sleeves, embedded in the walls of asbestos-cement pipes with the possibility of longitudinal displacement inside these sleeves of the tips of the struts 4. Moreover, the length of each sleeve is ki corresponds to the longitudinal temperature displacement of a metal pipe that interacts with it through racks. 2 Il. А-А (Л to со 4 00 со О Сриг.г

Description

The invention relates to the construction and may find application in the construction of heating pipelines with thermal insulation in the channels.

The purpose of the invention is to increase the operational reliability of a duct and a layer of thermal insulation of a heat and heat pipeline system by enabling the temperature distortions of the metal of the pipeline without destroying the layer of thermal insulation.

FIG. 1 shows a system with the front wall of the channel removed, side view; in fig. 2 shows section A-A in FIG. one.

Heat Pipeline System 10

wires 2, is provided by installing asbestos-cement semi-cylinders and external winding from fiberglass on a bitumen base.

Heat distribution piping system is assembled by placing in the channel 1 (from asbestos-cement pipes) individual sections of the heating pipe 2, welding these links in the channel gaps between the asbestos-cement pipes and the subsequent assembly of the channel in connections 7 and 8, respectively, not matching in length and coinciding with the welding connection 8 metal pipeline.

The heat pipeline system works as follows.

When fed through a metal pipe pipe, it contains wire 2 of hot medium placed in channel 1 and its temperature is metal pipe 2 with a series of transverse and longitudinal deformation

there is a choice of the main part of the gaps and between the tips of the uprights 4 and the inner

wear rings 3 on reinforced radial struts 4 and with a lower layer 4

heat insulation 5. The channel is made of a post-20 wire in the direction from the place of its final set of waterproof connections with sliding racks 4 along the surface of asbestos-cement pipes having a length less than the length of the welded pipes of the metal pipeline and the inner diameter is not less than the outer diameter of 2 rings mounted on the pipeline 3. The last 25 are made in the form of cylindrical sleeves, embedded in the walls of asbestos-cement pipes and arranged with a gap relative to the tips of the uprights 4 to allow free longitudinal displacement or bushings inside end walls the fortified their bases racks 4. Sealing sleeves may be formed, for example by truss rods 6 outputted to the edges of asbestos cement pipes. The length of each sleeve corresponds to the longitudinal temperature mixing of the metal pipe 4 that interacts with it through the supports. The water tightness of each joint of 7 asbestos-cement pipes, which do not coincide with the welding connection of 8 pipes of the metal pipeline, is ensured by the coupling of the metal pipe of the ring with rubber seals. The waterpipes are cylindrical sleeves, each asbestos-cement pipes 9 which are extended in length and attached to the inner surface of the joint, coincide with asbestos-cement pipes with a gap relative to

with welding joint 8 of pipe surfaces of radial struts.

thirty

the surface of the rings 3 and the displacement of the pipes 3.

In addition to increasing the operational reliability, the system reduces the labor intensity of its manufacture.

Claims (1)

Invention Formula Heat-engineering piping system consisting of a metal pipe placed in a channel with successive rings on reinforced radial supports and a layer of thermal insulation not exceeding the height of the racks, in order to increase the system’s operational reliability by allowing temperature deformations the metal of the pipeline without destroying the heat insulating layer, the channel is made of a series of watertight connected asbestos-cement pipes, and adetye on wires 2, is provided by installing asbestos-cement semi-cylinders and external winding from fiberglass on a bitumen base. Heat distribution piping system is assembled by placing in the channel 1 (from asbestos-cement pipes) individual sections of the heating pipe 2, welding these links in the channel gaps between the asbestos-cement pipes and the subsequent assembly of the channel in connections 7 and 8, respectively, not matching in length and coinciding with the welding connection 8 metal pipeline. The heat pipeline system works as follows. When feeding through the metal pipeline 2 hot medium and its temperature transverse and longitudinal deformation there is a choice of the main part of the gaps and between the tips of the uprights 4 and the inner the wires in the direction from the place of its fixation with sliding of the pillars 4 along the surface-metal pipeline of the ring are cylindrical sleeves attached to the inner surface of asbesto cement pipes with a gap relative to the surface of the rings 3 and the displacement of the conduit in the direction from the place of its fixation with sliding of the pillars 4 along the surface of the metal conduit; the rings are cylindrical sleeves attached to the inner surface of asbesto cement pipes with a gap relative to 0 rings 3. In addition to increasing the operational reliability, the system reduces the labor intensity of its manufacture. Invention Formula Heat-engineering piping system consisting of a metal pipe placed in a channel with successive rings on reinforced radial supports and a layer of thermal insulation not exceeding the height of the racks, in order to increase the system’s operational reliability by allowing temperature deformations the metal of the pipeline without destroying the heat insulating layer, the channel is made of a series of watertight connected asbestos-cement pipes, and adetye on