RU88098U1 - FIXED SUPPORT FOR INSULATED PIPELINES - Google Patents

Abstract

1. Fixed support for thermally insulated pipelines, including a pipe passed through the plate and connected rigidly in the middle part with it, protective shells that concentrically cover the pipe on both sides of the plate and connected rigidly to it, and heat-insulating material filling the annular spaces between the pipe, protective shells and plate, characterized in that the protective shells are made of metal with the possibility of installation on each of them with the coverage of the protective sleeve connecting the shell of the pipeline with the protective th shell. ! 2. The fixed support according to claim 1, characterized in that the heat-insulating material from the side of the free ends of the protective shells of the fixed support is closed by ring caps. ! 3. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the pipe has a rectangular shape. ! 4. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the pipe has a rectangular shape with rounded corners. ! 5. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the pipe has a circle shape. ! 6. The fixed support according to claim 4 or 5, characterized in that the plate on the outside has an insulating coating, for example shrink. ! 7. The fixed support according to claim 1, characterized in that the metal protective shells made with the possibility of installing on each of them with a protective sleeve connecting the polymer shell of the pipeline with a protective shell have the ability to be covered by heat-shrinkable cuffs that can simultaneously cover the protective coupling

Description

The proposal relates to the field of ensuring the construction of pipelines, to the manufacture with a high degree of factory readiness of one of their parts - a fixed support, and is intended for pipelines, mainly in a polymer shell made of pre-insulated pipes for heating networks, water supply systems and oil pipelines.

A fixed shield shield of a pipeline is known, including a shield buried in the ground, a pipeline with stops and a gap between the shield and the pipeline, while the gap between the pipe and the shield is filled with a gasket of four layers of paronite fixed by concrete, and an elastic-flexible gasket made of heat-resistant is located between the shield and stops rubber. The support shield is made of concrete (RU2396, 1996).

Known fixed support is not intended for the construction of pipelines in the shell of pre-insulated pipes.

A fixed support for heat-insulated pipelines in a polymer shell is known, including a pipe passed through a plate (stop element) and connected rigidly to it, protective shells that concentrically cover a pipe on both sides of the plate and connected rigidly to it, and a heat-insulating material filling the annular spaces between nozzle, protective shells and stove (RU38886, 2004).

A disadvantage of the known fixed support is that the pipe in it is plastic. This circumstance necessitates its strengthening to prevent radial expansion under the influence of the temperature of the pumped medium and, as a result, leads to a complication of the design and a decrease in reliability.

Known fixed support for thermally insulated pipelines in the shell, including a pipe passed through the plate and connected rigidly in the middle part with it, protective shells covering concentrically the pipe on both sides of the plate and connected rigidly to it, and heat-insulating material filling the annular spaces between the pipe, protective shells and stove (ALBUM PS - 326. CONSTRUCTIONAL SOLUTIONS OF INDUSTRIAL PRODUCTS OF FIXED SUPPORTS FOR SHUTTERS ≥ 50 tn. WITH FACTORY THERMAL INSULATION FROM POLYURETHANE FOAM NEW SHELL FOR LAYING HEAT PIPELINES Du = 150 ÷ 1000 mm, Design Institute MOSINZHPROEKT, Moscow, 1995).

The disadvantages of the stationary fixed support are low reliability in operation and high material consumption in manufacturing. Low reliability is due to the fact that the protective shells are made of polymer and, at a concentration of the loads that the support accepts, deformations develop in the area of hard fastening of the protective shells, which lead to a violation of the tightness of the polymer protective shell connecting the pipe shell to the protective shell. Large material consumption is a consequence of its large linear dimensions, caused by the need for reliable fastening of protective shells made of polymer inside an additional element of a fixed support - a metal protective ring.

The technical result of the proposed fixed support is to increase reliability due to the possibility of long-term operation of the support without violating the tightness at the concentration of the loads that it perceives in the field of hard fastening of the protective shells, and when it becomes possible to crimp the connection of the protective shells to the plate in the factory. The linear overall dimensions are reduced, the installation of connections with it on the pipeline construction route is simplified.

The technical result is achieved by the fact that in a fixed support for thermally insulated pipelines, including a pipe passed through a plate and connected rigidly in the middle part with it, protective shells covering concentrically a pipe on both sides of the plate and connected rigidly to it, and a heat-insulating material filling ring the space between the pipe, protective shells and the plate, in accordance with the proposal, the protective shells are made of metal with the possibility of installation on each of them with coverage beyond a shield coupling connecting the pipe shell to the protective sheath.

Contributes to the achievement of the technical result that:

- metal protective shells have the ability to be covered by heat-shrinkable cuffs, capable of simultaneously covering a protective sleeve designed to connect the pipe shell with a protective shell;

- heat-insulating material from the side of the free ends of the protective shells of the fixed support is closed by annular caps, the latter can be curly and rigidly and hermetically connected with the pipe and / or with protective shells;

- the pipe, passed through the plate, is rigidly connected in the middle part with it using scarves;

- in the annular spaces between the nozzle and the protective shells, centering bearings are installed;

- in the same place (in the annular spaces between the nozzle and the protective shells), conductors of the operational remote monitoring system of the insulation state are placed in protective tubes that are passed through holes made in the plate and equipped with guide bushings;

- if there are ring plugs covering the insulating material from the free ends of the protective shells of the fixed support, the conductors of the operational remote monitoring system of the insulation state are also passed through holes made in the ring plugs, which are also equipped with guide bushings;

- the guide bushings and protective tubes are made of polymer, and the protective tubes have through holes, approximately, through 100 mm, and are made mainly of fluoroplastic.

In specific embodiments, a plate of a fixed support in a plane perpendicular to the longitudinal axis of the nozzle may have the form:

- rectangle;

- a rounded rectangle;

- circle.

It is advisable that the plate from the outside has an insulating coating, for example, heat-shrink, which will help prevent overflow of stray electric currents on the elements of the fixed support, which will also increase the reliability of its operation.

Figure 1 shows a fixed support, a longitudinal section; figure 2 shows a fragment A explaining the figured implementation of the annular plugs.

The fixed support for thermally insulated pipelines includes a pipe 1, passed through the plate 2 and connected rigidly in the middle part with it. Protective shells 3 concentrically cover the pipe 1 on both sides of the plate 2 and are rigidly connected to it. The heat-insulating material 4, for example, polyurethane foam, fills the annular spaces between the pipe 1, the protective shells 3 and the plate 2. The pipe 1 is rigidly connected in the middle part to the plate 2 with the help of scarves 5. In the annular spaces between the pipe 1 and the protective shells 3, centering bearings are installed 6.

The holes 2 are made in the plate 2, equipped with guide bushings 7. Protective tubes 9 are passed through the guide bushings 7. Conductors 10 of the operational remote monitoring system of the insulation state are placed in the annular spaces between the nozzle 1 and the protective sheaths 3 and placed in the protective tubes 9. Usually two conductors 10 arranged diametrically to each other. 1 shows one conductor 10. Protective shells 3 may have openings closed by plugs (not shown). In this case, the conductors 10 in the plane perpendicular to the longitudinal axis of the pipe 1 are also located diametrically to each other and at an angle of 90 ° with respect to the holes made in the protective shells 3.

The holes in the annular plugs 8, in the presence of the latter in the set of supports, are equipped with guide bushings 11 capable of hermetically sealing the conductors 10 of the operational remote monitoring system of the insulation state.

The guide sleeves 7 and the protective tubes 9 are made of polymer, and the protective tubes 9 have through holes, approximately through 100 mm, and are made mainly of fluoroplastic.

The protective shells 3 are made of metal, their outer diameter corresponds to the outer diameter of the shell 12 of the pipeline, including thermal insulation material 13, for example, polyurethane foam.

The manufactured fixed support of the proposed design allows its crimping in the factory, i.e. its closed annular spaces between the pipe 1, the protective shells 3, the plate 2 and the annular plugs 8, since the protective shells 3 have openings closed by plugs (not shown).

The use of a fixed support is associated with the need to connect its pipe 1 to the pipe 14, for example, by a welding seam 15. The resulting joint is insulated with a protective sleeve 16 made, for example, of polymer and having openings 17 for filling the space 18 with a polyurethane foam used as thermal insulation material. Subsequently, the holes 17 are closed with plugs.

The metal protective shells 3 are made with the possibility of installing on each of them with a protective sleeve 16 connecting, for example, a polymer shell 12 of the pipeline with a protective shell 3 and can be covered by heat shrink cuffs 19, covering at the same time a protective sleeve 3 connecting the polymer shell 12 pipeline with a protective sheath 3. As the polymer of the protective sleeve 16, the sheath 12 of the pipeline can be applied polyethylene. The presence of the shell 12, for example, polymer (polyethylene) in a thermally insulated pipeline allows it to be waterproofed.

The plate 2 from the outside can have an insulating coating 20, the presence of which will counteract the harmful effects of overflows of stray electric currents on the elements of a fixed support, which will also help to increase the reliability of its operation. The insulating coating 20 can be technologically simpler to install in cases where the plate 2 of the fixed support in the plane perpendicular to the longitudinal axis of the pipe has the shape of a rectangle with rounded corners or a circle.

Possible, shown in fragment A (figure 2), an embodiment of the ring plugs 8 curly, i.e. when their profile in the plane passing through the longitudinal axis of the pipe 1 is not straight. With this embodiment of the annular plugs 8, the zone of their contact with the protective shells 3 will be somewhat removed from the free ends of the protective shells 3, which, presumably, will help to reduce the harmful temperature effects on the protective sleeve 16 due to a more uniform distribution of heat over the metal protective shells 3.

Fixed support for thermally insulated pipelines in a polymer shell works as follows. The plate 2 of the fixed support, as a rule, is embedded in the concrete 21 of the base, including the reinforcement. During installation, the fixed support becomes part of the pipeline. When pumping a fluid through a pipeline, due to changes in its temperature, pressure, and external temperature background, loads arise in the pipeline that are absorbed by the fixed support. Therefore, the reliability of the operation of the entire pipeline largely depends on the reliability of its operation, as an integral part.

Claims (14)

1. Fixed support for thermally insulated pipelines, including a pipe passed through the plate and connected rigidly in the middle part with it, protective shells that concentrically cover the pipe on both sides of the plate and connected rigidly to it, and heat-insulating material filling the annular spaces between the pipe, protective shells and plate, characterized in that the protective shells are made of metal with the possibility of installation on each of them with the coverage of the protective sleeve connecting the shell of the pipeline with the protective th shell. 2. The fixed support according to claim 1, characterized in that the heat-insulating material from the side of the free ends of the protective shells of the fixed support is closed by ring caps. 3. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the nozzle has the shape of a rectangle. 4. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the pipe has a rectangular shape with rounded corners. 5. The fixed support according to claim 1, characterized in that the plate in the plane perpendicular to the longitudinal axis of the pipe has a circle shape. 6. The fixed support according to claim 4 or 5, characterized in that the plate on the outside has an insulating coating, for example shrink. 7. The fixed support according to claim 1, characterized in that the metal protective shells made with the possibility of installing on each of them with a protective sleeve connecting the polymer shell of the pipeline with a protective shell have the ability to be covered by heat-shrinkable cuffs that can simultaneously cover the protective a coupling designed to connect the polymer shell of the pipeline with a protective sheath. 8. The fixed support according to claim 2, characterized in that the annular plugs covering the insulating material from the free ends of the protective shells of the fixed support are made curly. 9. The fixed support according to claim 2 or 8, characterized in that the annular plugs covering the insulating material from the free ends of the protective shells of the fixed support are rigidly and hermetically connected to the pipe and / or protective shells. 10. The fixed support according to claim 1, characterized in that the nozzle, passed through the plate, is connected rigidly in the middle part with it using scarves. 11. The fixed support according to claim 1, characterized in that in the annular spaces between the pipe and the protective shells are installed centering bearings. 12. The fixed support according to claim 1, characterized in that in the annular spaces between the nozzle and the protective shells are placed conductors of the operational remote monitoring of the insulation state, placed in protective tubes, which are passed through holes made in the plate and equipped with guide bushings. 13. The fixed support according to claim 2, characterized in that in the annular spaces between the nozzle and the protective shells are placed conductors of the operational remote monitoring of the insulation state, which are passed through holes made in the plate and in the ring plugs and equipped with guide bushings, while the conductors systems for operational remote monitoring of the insulation state are placed in protective tubes. 14. The fixed support according to claim 12 or 13, characterized in that the guide bushings and protective tubes are made of polymer, and the protective tubes have through holes approximately 100 mm through and are made primarily of fluoroplastic.