SU1033816A1 - Industrial heat pipeline - Google Patents

Abstract

1. INDUSTRIAL HEAT CONDUCTOR, including an inner metal pipe and a coaxially arranged outer casing of a polymer or asbestos cement material, the annular space between which is filled with thermal insulation and is divided into sections in stubs, characterized in that, in order to increase its reliability during operation, the stubs are made in the form of an annular disk, rigidly Attached to the inner tube And elastically with skayazhe-. by the external pipe, 2, Heat pipe according to claim 1, about the first pipe with the fact that the plugs are installed along the length of the pipeline with a step of 1-3 m. l with ± 00 00 00 CD

Description

The invention relates to the construction of pipelines and can be used to arrange their thermal and anti-corrosion insulation. A heat pipe is known, consisting of two coaxially arranged steel tpy6 steeply insulated in the annular space, divided at the ends of the pipes by special co-shaped partitions into separate sections TI. the shell is made of polymer or asbestos cement material, the annular space between which is filled with thermal insulation and is divided by plugs / into sections. A disadvantage of the known heat pipe is the possibility of disrupting the coaxiality of the pipes during bending and sagging of the inner metal pipe with respect to the outer one, as well as low reliability and tightness of the pipeline during thermal movements of the inner pipe, with any damage and defective outer shell or shear of rigid plugs due to Temperature deformations moisture can freely propagate in the annular space, causing corrosion of significant sections of the heat network and dramatically increasing heat loss. The installation of rigid end caps does not give the desired effect, since during thermal displacements of the inner pipe heated to 150 ° C relative to the outer casing pipe, the leaktightness of the heat pipe device is disturbed due to the shear of the end cap on the inner or outer tube. The aim of the invention is to increase the reliability of the heat pipe during operation. This goal is achieved by the fact that in a heat pipe including an internal metal pipe and an outer pipe-shell of a polymer or asbestos-cement material coaxially located, the tube between them is filled with thermal insulation sections, plugs are made. in the form of an annular disk, rigidly poi16 - 2 fortified, to the inner tube and elastically sliding to the outer. The plugs are installed along the pipeline length with a step of 1-3 m. The drawing shows an industrial heat pipe. The industrial heat pipe includes an inner metal pipe 1, an outer pipe-shell 2 coaxial with it, made of a polymer asbestos-cement or carbon-resistant orostable-resistant material 3. located in the annular space. The annular space of the heat pipe is divided into separate closed sections through 1-3 m with hermetic plugs in the form of a disk made of heat and water resistant material. The insulating layer is discharged from a filler polymeric intumescent composition or a lightweight heat insulating material, preferably with an open porosity. Supporting rigid non-tight centering hubs 5 can be located in the annular space between elastic hermetic plugs it is rigidly performed, and to the outer one it is elastic, which prevents the occurrence of stresses during temperature deformations of pipes. The sealing plugs are rigidly fastened to the metal pipe by welding, mortar or heat-resistant glue 6 and are elastically adjacent to the outer shell through rubber sealing rings 7, which allow slipping without any distortions or leakage. The low temperature near the outer casing pipe contributes to the long-term preservation of rubber sealing discs. The plugs can be made in the form of T-disks or L-shaped sections made of steel, aluminum with a low sheet thickness so as not to create excessive heat loss, or from light or silicate concrete, heat-resistant rubber, and it is possible to use a corrugated structure that creates additional elasticity and extinguishes thermal stresses. The plugs are installed perpendicular to the section of the pipe and fixed, thus providing a gesture 3 10338164

the visibility and centering of the internal area that can be detected

pipe., and due to the elasticity of the crepe | - and fixed. The rest of the pipeline

lazy stubs are allowed to be extended longitudinally, it will not suffer, and the ingress of moisture into

The movement of the inner tube and this closed compartment will be limited to the tightness of the structure-j limited character.

Tsi. ..

Even in the event of a defect, the technical and economic effect of a socket or leakage at any point in reducing costs of replacing

The external pipe moisture is non-proliferation and Remo, nt heat lines, reducing

8 longitudinal direction of heat loss, while ensuring a minia, can penetrate only into one

ku, slightly increasing the heat loss i due to the use of relatively cheap, increasing the corrosion rate in single types of heat insulation.

Claims (2)

1. INDUSTRIAL HEAT PIPE, including an inner metal pipe and a coaxially located outer sheath pipe made of polymer or asbestos-cement material, the annular space between which is filled with thermal insulation and divided by plugs into sections, characterized in that, in order to increase its reliability during operation, plugs are made in the form of annular disks rigidly attached to the inner tube AND resiliently sliding to the outer tube. 2. The heat pipe according to claim 1, which is related to the fact that the plugs are installed along the length of the pipeline in increments of 1-3 m. SU „„ 1033816. 'ζΖΣΣΖΣΖΣΖ. . · · · · ’· * ·% ΕΖΖΖΖΖΖΣΣΖ2ΖΖ ^ ΖΖ2ΖΖ22Σ2Ζ? Ζ ^^ 4 - UYA & 777777 _l · · · · · “• * KS • · ·· h • ·. s • · »J .SK 5 τζζζζζζζζζζζ