RU38887U1 - TEE - Google Patents

Abstract

Usage: in heat pipes in the manufacture of parts of the pipeline, in particular tees, for transporting hot water in the public utilities system. The essence of the utility model: The tee includes a plastic coupler 1 with welded or glued pipes 2 with a heat-insulating coating 3 and an external waterproofing sheath 4. The pipes 2 are equipped with additional sheaths 5 installed on the outer surface of 6 pipes and rigidly connected to them and with thermal insulation 3. The coupler 1 may also have an additional shell 7 mounted on its outer surface 8. In this case, the coupler 1 and nozzles 2 may have rough outer surfaces b and 8, on which x may be disposed longitudinal, transverse or helical lines risks. This provides a strong connection of the coupler 1 and the nozzles 2 with additional sheaths 7 and 5. The additional sheaths 7 and 5 are made of fiberglass, organoplastic, or carbon-plastic material wound on the coupler 2 and the nozzle 2, or of a metal strip or wire wound on them. Additional shells 5 and 7 have a rough outer surface or are provided with transverse, or longitudinal, or helical risks or ribs. This provides a more durable connection of additional shells 5 and 7 with thermal insulation 3 and helps to increase the durability of the structure. Additional shells 7 and 5, having a lower coefficient of thermal expansion, limit the radial expansion of the coupler 1 and nozzles 2 during transportation of hot water and prevent their rupture. In this case, part of the load is perceived by additional shells 5 and 7, which have better strength characteristics, which increases the durability of the tee.

Description

The utility model relates to heat pipes and can be used in the manufacture of pipeline parts, in particular tees, for transporting hot water in the public utilities system.

A well-known pipeline with thermal insulation, in which in the space between the waterproofing one-piece shell and a steel pipe is placed thermal insulation from rigid polyurethane foam (UK patent No. 1441208, CL F 16 L 59/02, 1976 and utility model of the Russian Federation No. 10831. CL F 16 L 59/10, 1999). A disadvantage of the known pipelines is the low durability of the steel pipe due to its corrosion, as well as the pollution of the transported liquid by corrosion products.

A tee with thermal insulation is also known, in which thermal insulation from rigid polyurethane foam (GOST 30732-2001 Steel pipes and fittings made of steel with thermal insulation from polyurethane foam in a polyethylene sheath. Technical conditions, p. 36) is placed in the space between the waterproofing one-piece shell and steel tee. A disadvantage of the known devices is the low durability of steel tees due to their corrosion, as well as the pollution of the transported liquid by corrosion products.

Known and adopted for the prototype tee with thermal insulation, in which in the space between the waterproofing one-piece shell and the tee is placed thermal insulation. In this case, the tee is made of polypropylene (the journal "Pipelines and Ecology", No. 3, 2003, p.1). A disadvantage of the known construction is that, having high anticorrosive qualities, the polypropylene tee does not have sufficient heat resistance: at a temperature above 70 ° C and a pressure of more than 0.6 MPa, the durability of the tee drops sharply due to the fluidity of its material. To increase the durability of the tee at elevated temperature and pressure, it is necessary to increase the thickness of its walls, which increases the material consumption and, consequently, the cost of the tee.

The purpose of the utility model is to increase durability and reduce material consumption and the cost of a tee at elevated temperature and pressure of the coolant.

In the proposed tee, including a plastic coupler with pipes with a heat-insulating coating and an external waterproofing sheath, the goal is achieved by the fact that the pipes are equipped with additional sheaths installed on the outer surface of the pipes and rigidly connected to them and with thermal insulation. In this case, the coupler can also be provided with an additional shell mounted on the outer surface of the coupler and rigidly connected to it and with thermal insulation. The nozzles and the coupler have a rough outer surface, can be provided on the outer surfaces with longitudinal, transverse or located along helical lines risks or grooves, or stiffeners. Additional sheaths are made of fiberglass, organoplastic or carbon fiber material wound around the nozzles and coupler, or a metal strip or wire wound around the nozzles and the coupler. The coefficient of thermal expansion of the material of the additional shells is less, and its strength characteristics are higher than that of the material of the nozzles and coupler. Additional shells have a rough surface and may have transverse, longitudinal or helical risks or ribs on the outer surface. The nozzles and coupler can be made of thermoplastic material: polyethylene, polypropylene, polybutene, crosslinked polyethylene, polyvinyl chloride, polyvinyl chloride, etc. Thermal insulation can be made of

rigid polyurethane foam, or a semi-rigid system of polyurethane foam, or flexible foam, or mastic applied to the shell.

The figure shows a longitudinal section of a tee.

The tee includes a plastic coupler 1 with welded or attached pipes 2 with a heat-insulating coating 3 and an external waterproofing sheath 4. The pipes 2 are provided with additional sheaths 5 mounted on the outer surface of the 6 pipes and rigidly connected to them and with thermal insulation 3. The coupler 1 can also have an additional shell 7 installed on its outer surface 8. In this case, the coupler 1 and the nozzles 2 may have rough outer surfaces 6 and 8, on which can be located Single, transverse or helical risks. This provides a solid connection of the coupler 1 and nozzles 2 with additional sheaths 7 and 5. The additional sheaths 7 and 5 are made of fiberglass, organoplastic, carbon fiber material wound on the coupler 2 and nozzles 2, or of a metal strip or wire wound on them. Winding can be performed in one or more layers. If the number of winding layers is more than one, then each layer is wound with the opposite winding ("right" screw - "left" screw). Additional shells 5 and 7 have a rough outer surface or are provided with transverse, or longitudinal, or helical risks or ribs. This provides a more durable connection of additional shells 5 and 7 with thermal insulation 3 and helps to increase the durability of the structure. The coupler 1 and nozzles 2 are made of thermoplastic material: polyethylene, polypropylene, polybutene, crosslinked polyethylene, polyvinyl chloride, polyvinyl chloride chloride, etc., which eliminates corrosion and contamination of the transported liquid by corrosion products. In addition, the manufacture of the coupler 1 and nozzles 2 of polyethylene, polypropylene or polybutene provides a reliable connection of the tees to each other and to the pipes by welding, which reduces the cost of manufacturing the pipeline. Thermal insulation 3 can be made of rigid polyurethane foam, or a semi-rigid polyurethane foam system, or of flexible foam, or applied to additional mastic shells. The use of rigid polyurethane foam ensures low cost and durability of the structure. Semi-rigid and flexible systems, as well as heat-insulating mastic applied to additional shells, make it possible to lay the pipeline with a “snake”, which compensates for thermal elongations and eliminates the use of compensators, thereby reducing the cost of the pipeline and increasing its durability.

Tee works as follows. When pumping liquid with increased temperature and pressure through it, the coupler 1 and nozzles 2 tend to expand in the radial direction and elongate along their axes. Additional shells 7 and 5, having a lower coefficient of thermal expansion, limit the radial expansion of the coupler 1 and nozzles 2 and prevent their rupture. In this case, part of the load is perceived by additional shells 5 and 7, which have better strength characteristics, which increases the durability of the tee. Also, due to the strong connection of the additional shells 5 and 7 with the coupler 1 and nozzles 2, the longitudinal thermal deformations of the nozzles and coupler are reduced, since the shells, having a lower coefficient of thermal expansion, prevent their elongation.

Claims (14)

1. A tee comprising a plastic coupler with nozzles, a heat-insulating coating and an external waterproofing sheath, characterized in that the nozzles are provided with additional sheaths mounted on the outer surface of the nozzles and rigidly connected to them and insulated. 2. The tee according to claim 1, characterized in that the coupler is provided with an additional sheath installed on the outer surface of the coupler and rigidly connected to it, with thermal insulation and additional pipe shells. 3. The tee according to claim 1, characterized in that the nozzles and the coupler have a rough outer surface. 4. The tee according to claim 1, characterized in that the nozzles and the coupler are provided on the outer surfaces with longitudinal, transverse or located along helical lines risks or grooves. 5. The tee according to claim 1, characterized in that the nozzles and the coupler are provided on the outer surfaces with longitudinal, transverse or stiffening ribs located along helical lines. 6. The tee according to claim 1, characterized in that the additional shells are made of fiberglass, organoplastic or carbon fiber material wound around the nozzles and coupler. 7. The tee according to claim 1, characterized in that the additional shells are made of a metal strip or wire wound around the nozzles and coupler. 8. The tee according to claim 1, characterized in that the coefficient of thermal expansion of the material of the additional shells is less than that of the material of the nozzles and coupler. 9. The tee according to claim 1, characterized in that the strength characteristics of the material of the additional shells are higher than that of the material of the nozzles and coupler. 10. The tee according to claim 1, characterized in that the additional shells have a rough surface. 11. The tee according to claim 1, characterized in that the additional shells have transverse, longitudinal or helical risks or ribs on the outer surface. 12. The tee according to claim 1, characterized in that the nozzles and coupler are made of thermoplastic material: polyethylene, polypropylene, polybutene, crosslinked polyethylene, polyvinyl chloride, polyvinyl chloride, etc. 13. The tee according to claim 1, characterized in that the thermal insulation is made of rigid polyurethane foam or a semi-rigid polyurethane foam system. 14. The tee according to claim 1, characterized in that the thermal insulation is made of elastic foam or mastic applied to the shell.