RU83823U1 - TUBE UNIT - Google Patents

Abstract

1. The pipe block, including pipes installed inside a single protective sheath filled with heat insulating material, characterized in that in parallel with the main transport pipes, separated from the touch by heat insulating material, there are satellite pipes inside the protective sheath with the possibility of filling with a circulating coolant or laying a heating cable. ! 2. The pipe block according to claim 1, characterized in that polyurethane foam is used as the heat-insulating material. ! 3. The pipe block according to claim 1, characterized in that the protective sheath is made in the form of a waterproof coating. ! 4. The pipe block according to claim 3, characterized in that the waterproof coating is made of metal. ! 5. The pipe block according to claim 3, characterized in that the waterproof coating is made of polymeric materials. ! 6. The pipe block according to claim 3, characterized in that the waterproof coating is made of composite materials.

Description

The utility model relates to heat engineering and pipelines and can be used in all areas of human life, where transportation of several liquid and gaseous substances is necessary.

A known pipeline, mainly for heating networks, comprising a metal pipe with a heat-insulating coating of a casting type and an external integral polymer waterproofing shell, the heat-insulating coating is made of polyurethane foam based on ozone-depleting freons with a volume fraction of closed pores after foaming and curing of the foam of at least 88%, and the composition of the polyurethane foam before foaming contains water, an ozone-depleting soft freon and polyisocyanate, and the waterproofing membrane is made of low-pressure polyethylene of pipe grades, while the average statistic of the volume fraction of closed pores is 94.27%. / RU 2249754, 2005 /

The well-known pipeline is not sufficiently technological in repair and operation, does not have sufficient reliability to restore functioning after temporary interruptions in the supply of the agent at subzero temperatures.

Known heat conduit containing a thermally insulated return pipe and a supply pipe located inside it made of non-metallic material, characterized in that the return and supply pipelines are made coaxially by links, inside the thermo-waterproof layer there is a twisted flexible

a pipeline, the cavity of which is filled with an inert gas, and at the beginning of the links of the return pipeline, spiral-shaped cycloidal conductors are provided. / RU 2176759, 2001 /

The well-known heat pipe is structurally complex and not technologically advanced in repair and maintenance, relatively expensive, involves the use of inert gas.

The closest is a pipe block for laying heat conduits, containing two pipes jointly coated with a supporting sheath, which serves as the basis for a heat-insulating layer protected from external atmospheric influences by a durable material equipped with clamps, one of the pipes being straight - supplying coolant, and the second - return moreover, the pipes are placed in a bearing shell with a fixed gap of not more than half the diameter of the smaller of the pipes. / RU 2236626, 2004 /

The well-known pipe block is low-tech during installation, is more applicable for repairing existing pipelines and is limitedly applicable for laying new pipelines for cold and hot water, it involves only two types of transported agent.

The objective of the utility model is to expand the functionality of the pipe unit, reduce heat loss, increase the reliability of operation in any climatic conditions with the possibility of transporting a significant number of liquid and / or gaseous agents.

The problem is solved in that in a pipe block including pipes installed inside a single protective shell filled with heat-insulating material, according to the solution, in parallel with the main transport pipes, separated from the touch by heat-insulating material, there are satellite pipes inside the protective shell with the possibility of filling with circulating coolant or gaskets

heating cable, polyurethane foam is used as a heat-insulating material, and the protective sheath is made in the form of a waterproof coating made of metal or polymeric materials or composite materials.

The utility model is illustrated by drawings, in which Fig. 1 is a cross-sectional view, and Fig. 2 is a longitudinal section along A-A of a pipe block. The pipe block includes a single protective shell 1, heat insulating material 2, the main transporting pipes 3,4,5, pipes - satellites 6,7.

The pipe block operates as follows. The block contains pipes 3,4,5 transporting various products (both direct and counter-directed flows). The number of pipes and their material are determined in each case, depending on the characteristics of the pumped product. For example: direct and return pipelines of heating, sewage, fire water and compressed air pipelines, in this case, heating pipelines are heating satellites for the rest. Satellite pipes 6, 7 play the role of heating when filled with a circulating coolant or laying a heating cable, and vice versa - to function as a cooler (at high ambient temperature), and transport the refrigerant. Pipes - satellites 6, 7 can be used as pneumatic mail channels or as a cable-channel of fiber-optic communication. Thermal insulation material 2 provides temperature stability in all pipes of the pipe block along the length of the pipeline.

The pipe block is made according to the following technology: pipes of the same length are assembled into a bundle (pipe assembly) using special supports that fix the pipes at an estimated distance from each other, ensure their parallelism and center the assembly in a protective sheath; pipe assembly is placed in a protective shell, in the cavity between

a protective shell and pipes (annulus) introduces a liquid mixture of components, which, foaming and curing, forms a continuous heat-insulating layer of polyurethane foam.

Installation of pipelines is carried out by pipe blocks up to 12 meters long on overpasses, tunnels, passage channels, etc., and pipe blocks are connected using one of the known methods (welding, couplings, “socket”, etc.). Joints are closed with couplings filled with polyurethane foam.

The pipe block provides enhanced functionality, reduced heat loss, increased reliability in any climatic conditions with the possibility of transporting a significant number of liquid and / or gaseous agents, increases the productivity and manufacturability of installation, environmental friendliness of laying in environmental protection zones, and reduced installation and operating costs.

Claims (6)

1. The pipe block, including pipes installed inside a single protective sheath filled with heat insulating material, characterized in that in parallel with the main transport pipes, separated from the touch by heat insulating material, there are satellite pipes inside the protective sheath with the possibility of filling with a circulating coolant or laying a heating cable. 2. The pipe block according to claim 1, characterized in that polyurethane foam is used as the heat-insulating material. 3. The pipe block according to claim 1, characterized in that the protective sheath is made in the form of a waterproof coating. 4. The pipe block according to claim 3, characterized in that the waterproof coating is made of metal. 5. The pipe block according to claim 3, characterized in that the waterproof coating is made of polymeric materials. 6. The pipe block according to claim 3, characterized in that the waterproof coating is made of composite materials.