RU172772U1 - PIPELINE HEAT AND HYDRO-INSULATION DEVICE - Google Patents

Abstract

The utility model relates to construction and can be used in applying thermal insulation to metal pipes, as well as in the construction of pipelines, including heating networks. The technical result of the utility model is the creation of a new device for thermal waterproofing of the pipeline, which reduces the risk of increased regulatory heat loss and increases the durability of thermal waterproofing of the pipeline by ensuring a high degree of tightness of the end surfaces of the thermal insulation layer and a controlled exit of the transported medium when a defect occurs on a separate steel pipe from the thermal insulation layer through valve devices mounted in end hydro insulating elements, only in the annular space of the butt joints with adjacent pipes, preventing the insulating layer of adjacent pipes from getting wet. The technical result is achieved in the inventive device for thermal insulation of the pipeline containing a layer of thermal insulation coating (1) of polyurethane foam located on a steel pipe (2), and an external waterproofing shell (3) in the form of a pipe made of polyethylene, while between the steel pipe (2) centering supports (4) are placed and an external waterproofing shell (3), and indicator conductors (5) of the operational remote control system are installed along the entire length of the steel pipe (2) in the layer of thermal insulation coating (1), at on each end part of the heat-insulating coating (1) of the steel pipe (2) there is an end waterproofing element (6) of polymer material with an axial hole (7) for the steel pipe with at least two holes (8), (9) for the leads of the conductors -indicators (5) of the operational remote control system and with at least one hole (10) for installing the valve device (11), made in the form of a check valve. In such a device for waterproofing the pipeline, it is preferable: the end waterproofing element (6) is made in the form of a ring, while the outer diameter of the end waterproofing element (6) corresponds to the inner diameter of the waterproofing shell (3); the end waterproofing element (6) in the form of a ring is made of an elastic material, for example polyurethane, polystyrene, rubber or other material having the ability to restore its shape after mechanical action on it; sealing the joints of the end waterproofing element (6) in the form of a ring with a steel pipe (2), an external waterproofing sheath (3), a valve device (11) and indicator wires (5) of the operational remote control system was carried out using an adhesive joint (12) with moisture protective properties; the end waterproofing element (6) is made in the form of a glass, while the outer diameter of the side of the end waterproofing element (6) corresponds to the inner diameter of the waterproofing shell (3); the end waterproofing element (6) in the form of a cup is made of an elastic material, for example polyurethane, polystyrene, rubber or other material having the ability to restore its shape after mechanical impact on it; sealing the joints of the end waterproofing element (6) in the form of a glass with a steel pipe (2), an external waterproofing shell (3), a valve device (11) and indicator wires (5) of the operational remote control system was carried out using an adhesive joint (12) with moisture protective properties; the end waterproofing element (6) is made in the form of a layer of sealant applied to the end surface of the heat-insulating coating (1); end waterproofing element (6) from sealant is made on the basis of mastic or paste; the valve device (11) in the form of a check valve is made with a protective casing (13) to prevent polyurethane foam from entering the valve device (11) when it is poured into the annular space of the butt joint of adjacent pipes (2) of the pipeline. 8 s.p. f-ly, 3 ill.

Description

The utility model relates to construction and can be used in applying thermal insulation to metal pipes, as well as in the construction of pipelines, including heating networks.

A pipeline is known that includes a metal pipe with a heat-insulating coating of a casting type and an external integral polymer waterproofing sheath, while the heat-insulating coating is made of polyurethane foam, and the waterproofing sheath is made of low-pressure polyethylene pipe grades (RF patent No. 2249754 for an invention, class. F16L 59/00 , published on April 10, 2005).

A known method of heat and water insulation of a pipe, in the description of which the heat and water insulation of the pipe obtained as a result, containing a layer of heat-insulating coating of polyurethane foam located on a steel pipe, and an external waterproofing sheath in the form of a pipe of polyethylene, between the steel pipe and centering supports are placed with an external waterproofing shell, and conductive indicators of the operational distant system are installed in the layer of thermal insulation coating along the entire length of the steel pipe monitoring control (RF patent No. 229756 for the invention, CL F16L 59/14, publ. 10.04.2005).

A device is known for thermal insulation of a pipeline containing a layer of thermal insulation coating made of polyurethane foam located on a steel pipe, and an external waterproofing membrane in the form of a pipe made of polyethylene, while centering supports are placed between the steel pipe and the external waterproofing membrane, and the length of the thermal insulation coating is conductors-indicators of the operational remote control system are installed in the steel pipe (GOST 30732-2006 “Steel pipes and fittings with heat insulation polyurethane foam with a protective sheath. Technical conditions ", M .: Standartinform, 2007).

The disadvantages of the known thermal waterproofing pipes are:

- the possibility of wetting the heat-insulating layer in the pipes in contact with the pipe, in which during operation a defect occurred with the coolant leaving the annular space of the butt joint of the pipe pipes through the end surface of the heat-insulating layer or in which a defect in the outer shell and water from the outside with the subsequent spread of moisture from annular space of the butt joint of the pipeline pipes through the end surface of the insulating layer;

- the absence of a high degree of tightness of the end surface of the insulating layer;

- the possibility of water entering the heat-insulating layer of the pipe through the end surface from the side of the butt joints with adjacent pipes.

The closest in technical essence and the achieved result is a thermally insulated pipe containing a heat-insulating layer of polyurethane foam located on a steel pipe, and an external waterproofing sheath in the form of a pipe made of polyethylene, while centering supports are placed between the steel pipe and the external waterproofing sheath, and in the heat-insulating layer along the entire length of the steel pipe, indicator wires of the operational remote control system are installed, while on each end part of a flat insulating layer of a steel pipe there is an end waterproofing element in the form of an end cap made of polymer material with an axial hole for a steel pipe and with holes for the leads of the indicator wires of the operational remote monitoring system (RF patent No. 142892 for utility model, class F16L 9/18, publ. 07/10/2014 - prototype).

The known thermally insulated pipe has the following disadvantage. If moisture enters the heat-insulating layer of the steel pipe, for example, through cracks or other minor mechanical damage to the external waterproofing sheath, or is formed during condensation due to the temperature difference between the environment and the heated surface of the steel pipe, the moisture evaporates and water vapor is constantly in the heat-insulating layer between the steel pipe and the outer waterproofing sheath, which leads to intense corrosion of the surface of the steel pipe.

The technical result of the utility model is the creation of a new device for thermal waterproofing of the pipeline, which reduces the risk of increased regulatory heat loss and increases the durability of thermal waterproofing of the pipeline by ensuring a high degree of tightness of the end surfaces of the thermal insulation layer and a controlled exit of the transported medium when a defect occurs on a separate steel pipe from the thermal insulation layer through valve devices mounted in end hydro grating elements, only in the annular space of the butt joints with adjacent pipes, preventing the insulating layer of adjacent pipes from getting wet.

The technical result is achieved in the inventive device for thermal and waterproofing of the pipeline, containing a heat-insulating layer of polyurethane foam located on a steel pipe, and an external waterproofing sheath in the form of a pipe made of polyethylene, while centering supports are placed between the steel pipe and the external waterproofing sheath, and in the heat-insulating layer along the entire length of the steel pipe, indicator wires of the operational remote control system are installed, while on each end part of the heat insulation of the steel pipe layer there is an end waterproofing element made of a polymeric material with an axial hole for the steel pipe and with holes for the leads of the indicator wires of the online remote control system, according to a utility model, an additional hole is made in the end waterproofing element in which the valve device is installed in the form of a check valve .

In such a thermal waterproofing device of a pipeline, it is preferable:

- the end waterproofing element is made in the form of a ring, while the outer diameter of the end waterproofing element corresponds to the inner diameter of the outer waterproofing sheath;

- the end waterproofing element in the form of a ring is made of an elastic material, for example polyurethane, polystyrene, rubber or other material with the ability to restore its shape after mechanical action on it;

- sealing of the joints of the end waterproofing element in the form of a ring with a steel pipe, external waterproofing sheath, valve device and indicator wires of the operational remote control system is carried out using adhesive bonding with moisture-proof properties;

- end waterproofing element is made in the form of a glass, while the outer diameter of the lateral part of the end waterproofing element corresponds to the inner diameter of the outer waterproofing sheath;

- end waterproofing element in the form of a glass is made of an elastic material, such as polyurethane, polystyrene, rubber or other material with the ability to restore its shape after mechanical impact on it;

- sealing of the joints of the end waterproofing element in the form of a glass with a steel pipe, external waterproofing sheath, valve device and conductors-indicators of the operational remote control system is carried out using adhesive bonding with moisture-proof properties;

- end waterproofing element is made in the form of a layer of sealant based on mastic or paste applied to the end surface of the insulating layer;

- the valve device in the form of a check valve is made with a protective casing to prevent polyurethane foam from entering the valve device when it is poured into the annular space of the butt joint of the pipeline pipes.

A comparative analysis of the proposed utility model and prototype reveals the presence of distinctive features of the inventive device for thermal and waterproofing of the pipeline in comparison with the closest analogue, which ensures that it meets the criterion of "novelty."

The presence of distinctive features allows you to achieve a positive effect, which is expressed in the creation of a new device for thermal waterproofing of the pipeline, which reduces the risk of increased regulatory heat losses and increases the durability of thermal waterproofing of the pipeline by ensuring a high degree of tightness of the end surfaces of the thermal insulation layer and a controlled exit of the transported medium when a defect occurs on separate steel pipe from the insulating layer through the valve Devices mounted in end waterproofing elements only in the annular space of the butt joints with adjacent pipes, preventing the heat-insulating layer of adjacent pipes from getting wet.

The use of the claimed utility model in construction when applying thermal insulation to metal pipes, as well as in the construction of pipelines, including heating networks, ensures that it meets the criterion of "industrial applicability".

The inventive utility model is illustrated by drawings:

FIG. 1 is a longitudinal longitudinal section through the device of thermal waterproofing of the pipeline;

FIG. 2 is a longitudinal longitudinal section through the device of thermal and waterproofing of the pipeline;

FIG. 3 is a General view of the end waterproofing element of the device of thermal waterproofing of the pipeline.

The device of thermal and waterproofing of the pipeline contains a heat-insulating layer 1 of polyurethane foam located on the steel pipe 2, and an external waterproofing sheath 3 in the form of a pipe made of polyethylene, while between the steel pipe 2 and the external waterproofing sheath 3 there are centering supports 4, and in the heat-insulating layer 1, along the entire length of the steel pipe 2, indicator wires 5 of the operational remote monitoring system are installed, while on each end part of the heat-insulating layer 1 of the steel pipe 2 is located n waterproofing the end member 6 of polymeric material with an axial hole 7 for a steel pipe, the holes 8 for terminals conductors indicator system 5 operative remote control and an opening 9 for installation of the valve assembly 10 as a check valve.

In such a thermal waterproofing device of a pipeline, it is preferable:

- end waterproofing element 6 is made in the form of a ring, while the outer diameter of the end waterproofing element 6 corresponds to the inner diameter of the outer waterproofing shell 3;

- the end waterproofing element 6 in the form of a ring is made of an elastic material, for example polyurethane, polystyrene, rubber or other material having the ability to restore its shape after mechanical action on it;

- sealing of the joints of the end waterproofing element 6 in the form of a ring with a steel pipe 2, an external waterproofing sheath 3, a valve device 10 and conductive indicators 5 of the operational remote control system is carried out using an adhesive joint 11 with moisture-proof properties;

- end waterproofing element 6 is made in the form of a glass, while the outer diameter of the side of the end waterproofing element 6 corresponds to the inner diameter of the outer waterproofing sheath 3;

- end waterproofing element 6 in the form of a cup is made of an elastic material, for example polyurethane, polystyrene, rubber or other material having the ability to restore its shape after mechanical impact on it;

- sealing of the joints of the end waterproofing element 6 in the form of a glass with a steel pipe 2, an external waterproofing sheath 3, a valve device 10 and conductive indicators 5 of the operational remote control system is carried out using an adhesive joint 11 with moisture-proof properties;

- end waterproofing element 6 is made in the form of a sealant layer based on mastic or paste deposited on the end surface of the heat-insulating layer 1;

- the valve device 10 in the form of a check valve is made with a protective casing 12 to prevent polyurethane foam from entering the valve device 10 when it is poured into the annular space of the butt joint of the pipe 2 of the pipeline.

Next, a utility model is disclosed in one example of its implementation.

When a defect occurs in the steel pipe 2, the coolant flowing in the pipeline under pressure passes through the defect into the heat-insulating layer 1 made of polyurethane foam, located between the steel pipe 2 and the external waterproofing sheath 3 made of polyethylene, reaches the end waterproofing elements 6 that seal the heat-insulating layer 1 and through valve devices 10 in the form of check valves located on the end waterproofing elements 6, enters the annular spaces of the butt joints with adjacent by pipes 2 pipelines and goes out through the drain valve.

In the absence of end waterproofing elements 6 with valve devices 10 located on them, if a defect occurs on the steel pipe 2, uncontrolled unlimited distribution of the coolant along the heat-insulating layer 1 will take place along the entire pipeline, which will lead to wetting of the extended section of the heat-insulating layer 1, increase heat loss, accelerate corrosion processes of steel pipes 2 and premature failure of the pipeline. In the absence of valve devices 10 on the end waterproofing elements 6 with a significant defect in the steel pipe 2, the coolant may be released into the environment, which poses an increased threat to property and human health when pipelines are laid along the territory of settlements.

If moisture enters the heat-insulating layer 1 of the steel pipe 2, for example, through cracks or other mechanical damage to the external waterproofing sheath 3, or during condensation, when it contacts the heated surface of the steel pipe 2, it evaporates and water vapor is in the heat-insulating layer 1 between steel pipe 2 and the external waterproofing sheath 3. Due to the difference in the partial pressure of water vapor inside the heat-insulating layer 1 and in the surrounding pipeline environment, the steam through the valve device 10 in the form of a return lapane disposed on the end of waterproofing elements 6, gets into the annulus of butt joints with adjacent pipe conduit 2 and out through the drain valve. In this case, the partial pressure in the heat-insulating layer 1 of the steel pipe 2 and in the surrounding medium is equalized, which allows to drain the heat-insulating layer 1 of the steel pipe 2. In the absence of a valve device 10, steam remains all the time inside the heat-insulating layer 1 and the surface of the steel pipe 2 intensely corrodes.

These design features of the inventive device for thermal waterproofing of the pipeline distinguish it from the prototype.

Claims (9)

1. A device for thermal and water insulation of a pipeline containing a heat-insulating layer of polyurethane foam located on a steel pipe and an external waterproofing sheath in the form of a pipe made of polyethylene, while centering supports are placed between the steel pipe and the external waterproofing sheath, and in the heat-insulating layer along the entire length of the steel pipes are installed conductors-indicators of the operational remote control system, while on each end part of the insulating layer of the steel pipe is located The first waterproofing element made of polymer material with an axial hole for the steel pipe and with holes for the leads of the indicator wires of the operational remote control system, characterized in that an additional hole is made in the end waterproofing element in which the valve device is installed in the form of a check valve. 2. The device of thermal waterproofing of the pipeline according to claim 1, characterized in that the end waterproofing element is made in the form of a ring, while the outer diameter of the end waterproofing element corresponds to the inner diameter of the external waterproofing shell. 3. The device of thermal and waterproofing of the pipeline according to claim 2, characterized in that the end waterproofing element in the form of a ring is made of an elastic material, for example, polyurethane, polystyrene, rubber or other material with the ability to restore its shape after mechanical impact on it. 4. The device of thermal and waterproofing of the pipeline according to claim 2, characterized in that the sealing of the joints of the end waterproofing element in the form of a ring with a steel pipe, an external waterproofing sheath, a valve device and conductive indicators of the operational remote control system is carried out using an adhesive joint with moisture protection properties. 5. The device of thermal waterproofing of the pipeline according to claim 1, characterized in that the end waterproofing element is made in the form of a glass, while the outer diameter of the side of the end waterproofing element corresponds to the inner diameter of the outer waterproofing shell. 6. The device of thermal and waterproofing of the pipeline according to claim 5, characterized in that the end waterproofing element in the form of a cup is made of an elastic material, for example polyurethane, polystyrene, rubber or other material having the ability to restore its shape after mechanical impact on it. 7. The device of thermal and waterproofing of the pipeline according to claim 5, characterized in that the sealing of the joints of the end waterproofing element in the form of a glass with a steel pipe, an external waterproofing sheath, a valve device and conductive indicators of the operational remote control system is carried out using an adhesive joint with moisture protection properties. 8. The device of thermal and waterproofing of the pipeline according to claim 1, characterized in that the end waterproofing element is made in the form of a sealant layer based on mastic or paste applied to the end surface of the thermal insulation layer. 9. The pipeline thermal and waterproofing device according to claim 1, characterized in that the valve device in the form of a check valve is made with a protective cover to prevent polyurethane foam from entering the valve device when it is poured into the annular space of the pipe pipe butt joints.

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