UA49887C2 - Thermoinsulation for pipes - Google Patents

Abstract

Thermo-insulation having half-cylinders, in which by atmospheric-resistant case at one of the ends of thermo-insulation material of half-cylinders, and along side ribs of the upper half-cylinder aprons are formed. End aprons have markers, showing the place of installation of the yoke connecting half-cylinders. Thermo-insulation material can be made of at least two layers with different thermal stability. Outer layer of thermo-insulation material is a connecting element between the atmosphere-resistant case and the layer being in contact with the pipe. On the surface of connection of the layers of thermo-insulation material centering bosses and depressions are provided, those have length that is close to the apron length. Due to the aprons joints are protected between the upper and the lower and the adjacent pairs of half-cylinders, and “tile” covering of those is provided at mounting on the pipe.

Description

Description of the invention

The proposed invention relates to the field of production and supply of energy carriers, to 2 energy-saving means during their transportation through pipelines.

Well-known heat insulation for pipes in the form of half-cylinders made of heat-insulating material, which is made according to the following technology (see Information sheet Мо86-2763 УДКб29.10.061:66.045.3) |11: paint the surface of the pipe with anti-corrosion primer in two layers; cover with half-cylinders and fasten them with clamps; 70 seal the joints between half-cylinders with polyurethane foam foam tapes; wrap with polyethylene insulating tape in two layers; wrapped with fiberglass and fastened with special clamps.

In the given example, polyethylene insulating tape and fiberglass play the role of an weatherproof layer and protect the heat-insulating material from the harmful effects of the environment (solar 12 radiation, moisture, pollution, etc.)

The wide application of this solution is hindered by several of its significant drawbacks: first, very low productivity of the isolation process, since all elements of the technology are lined up "in the back of the head" directly at the location of the pipe; secondly, insulation workers are in a difficult situation, because the pipeline can be located in a narrow trench, climb up, "dive" down, pass through holes in the walls, and half-cylinders must be sealed, wrapped with film, fiberglass. These materials and many tools need to be kept somewhere, arranged, which is far from a dangerous and tiring process; thirdly, in case of necessity (prevention or repair), it is impossible or unlikely to reach the pipe and dismantle without damage either half-cylinders, fiberglass film, or sealant, therefore, it is necessary to keep in reserve a certain amount of the entire range of materials that are components of thermal insulation, and if take into account that the Ge) components of almost all components have a chemical basis and have a limited life time - then the disadvantages of operating pipelines with such insulation become clearer. Specialists know a large number of solutions that protect either the composition of the heat-insulating material, or the shape of the half-cylinders, or means of insulation with the help of half-cylinders. So, for example: - in the magazine "Shipbuilding Technology" Mo4 for 1982, page 34 |2| information is given about shells ee) (half-cylinders) made of liquid foamed glass; in the magazine "Novosti nauki i tekhniki" Mo12 for 1982, p. 5 |2) in the article "Teploizolyatsiya rezkorovov i so trovodovov" it is told about the combination of an atmospheric-resistant layer with a heat-insulating material, aleneu dF) in the form of half-cylinders, and in the form of mats, which are wrapped pipes; 3o in the US patent Mo4231825, 1980 Or. |4) there is a description of the machine for forming pipe insulation in the form of M half-cylinders; application of the Federal Republic of Germany Mo2841236, 198 Or., E161 -59/14 I5| gives the original shape of the half-cylinders along the plane of the connection, so that when pressed during the connection due to the elastic deformation of the protrusions-wells of the lower and upper half-cylinders, they hold each other without additional fastening elements; There is some difference between the means of fastening half-cylinders to each other from those indicated above in the application from Great Britain Mo2041482, E161I-59/14 "Insulator for pipes" |B), where elastic properties are also used

From" the material of cone-shaped pins interacting with the corresponding holes when connecting the half-cylinders; in assistant USSR Mo750213, 1980, 161 -59/02 |7| to simplify the installation of half-cylinders ("a pair of cornice elements"), they have ribs near the ends; and the insulation of the pipe elbow, the design of which is given in the application of Great Britain Mo1581132 161 -59/02 |8) shk contains a pair of solid semi-insulators, each of which is cut from one piece of foam. (se) The semi-insulators have tongues and sockets on the plane of connection and on the ends, interacting with each other when the semi-insulators are mounted on the pipe elbow. because Another close to the proposed decision on the application of the Federal Republic of Germany Mo2943123 E161 -59/14 (МКВ) about 20 "Elements of pipe insulation" |9) is worthy of attention, according to which two insulation half-shells due to ring-shaped protrusions and holes on their ends and a stepped profile of the transverse of the cross-section along the connection plane are connected to each other without mutual displacement in the radial and axial directions.

But all these known solutions are characterized by the problem of sealing the joints both on the plane of the connection of half-cylinders with each other, and on the ends of adjacent pairs of half-cylinders. In order to somehow solve this problem, when installing half-cylinders, it is necessary to use additional means in the form of tapes or to lubricate the joints

GF) planes with various glues, sealants, etc.

And all these means: firstly, they certainly complicate the installation; secondly, they connect the half-cylinders into a single chain, which during heating-cooling of the metal pipe due to 60 different physical and mechanical properties of the materials of the pipe and half-cylinders (for example, the coefficients of linear expansion differ by an order of magnitude) leads to the destruction of the weakest places of insulation.

Heat-insulating material of the VIT brand is also known (see Information sheet /Мо87-1303

UDCbb62.09.998:66) |10) (prototype), which is also produced in metal forms in the form of half cylinders. In sharp contrast to the previous decision |1| when forming this material, an weatherproof layer (in this case, aluminum foil) is placed on the bottom and lid of the metal mold before pouring and foaming the heat-insulating material. In this way, the VIT material consists of a weather-resistant layer and heat-insulating material connected to each other.

But the VIT material does not solve the problem of joints, therefore it is characterized by the disadvantages of thermal insulation (1) associated with their compaction.

The invention is based on the task of improving heat insulation for pipes made of half cylinders by forming an weatherproof layer on one of the ends of the heat-insulating material of the half cylinders and along its side edges of the upper half cylinder of visors, which ensure a "tiled" connection when connecting to the pipe, while the end visors have markers , determining the place of installation of one of the clamps; 7/0 Heat-insulating material can be made of at least two layers with different heat resistance, and the outer layer is a connecting element between the weather-resistant layer and the layer of heat-insulating material in contact with the pipe, and the projections-holes on the ends of the heat-insulating material have a length close to the length of the visor and can be made along the plane of the connection of layers.

This allows you to predict in advance, in factory conditions, the difficulties of the process of heat insulation of pipes and, /5 Hopovne, to reduce its time due to this; also essential factors for achieving the technical result are the ability to ensure effective use of insulation properties despite different coefficients of linear expansion of the materials of pipes and semi-cylinders, to make it possible to expand the range of operating temperatures of energy carriers by applying layers of materials of semi-cylinders with different thermophysical properties, and, if necessary, to easily reach the pipe without destruction of thermal insulation during prevention or repair of the pipe. Since the half-cylinders are held on the pipe only by clamps, a very important factor is the place of their mounting, namely, a visor formed by an weatherproof layer on the end face of the heat-insulating material of the half-cylinders, in order to protect the joints from the harmful effects of the atmosphere by pressing it against the surface of the neighboring half-cylinder. In order to simplify the installation of clamps and to control its quality, the end visors have markers that determine the place of installation of one of the clamps. with

The materials of the invention are illustrated by drawings with three figures on two sheets. Fig. 1 shows pipe 1, clamp 2, upper C and lower 4 half-cylinders, which consist of weatherproof layer 5 and heat-insulating i) material 6; weather-resistant layer 5 on the ends of the upper Z and lower 4 half-cylinders and along the side edges 7 of the upper half-cylinder, visors 8 and 9 are formed, and on the outside of the visors 8 are marked with markers 10. Fig. 2 shows a section B-B from view A, where it can be seen that the heat-insulating material can be made of at least two layers 11 and 12.

On the ends 13 and 14 and along the plane 15 (see Fig. 3), protrusions are made - holes 16, 17, 18 and 19, and the protrusions 16 and 18 and holes 17 and 19 are centering elements of both the upper and lower half-cylinders - and of neighboring pairs of half-cylinders.

The technique of using the invention is as follows: Me 1) In accordance with the seasonal nature of the work of operators of heating networks and according to the state "E standards for pipes and temperatures of energy carriers, the manufacturing company selects the most effective material and design of half-cylinders according to the formula of the invention and works out the required number of them; 2) Specialized organizations prepare the heat pipe, receive thermal insulation from the manufacturing company and install it in the following order: from c if the thermal insulation is installed from left to right, then put the first upper half cylinder C on pipe 1 from above

And in such a way that the end visor 8 is on the right; and?" wind the lower half-cylinder 4 also with the visor 8 to the right, making sure that the visors 9 of the upper half-cylinder Z cover the surface of the lower half-cylinder 4, and the ends 13 and 14 of the upper and lower half-cylinders are in the same plane; they are mounted with clamps 2 - one in the middle of the half-cylinders and tighten it, and the second - on the visor 8, where markers 10 are marked with contrasting paint, but do not tighten it; and put the second upper half-cylinder Z to the connection of the end 13 of the second upper half-cylinder with the end 14 of the first half-cylinder, while its visor 8 should cover the surface of the second half-cylinder; in the same way as the first lower half-cylinder, bring the second, also to the connection of the ends 13 and 14; so tighten the previously mounted second clamp 2, which should cover the markers 10, which confirms the fastening "M of the first and second pair of half-cylinders to each other and warns of the possibility of their displacement; mount clamps 2 - the third in the middle of the second pair of half-cylinders and tighten it, and the fourth - on the visor 8, where the markers 10 are marked with contrasting paint, but do not tighten it; and so gradually mount the half-cylinders of thermal insulation (similar to how tiles are laid) to the end of the route.

Due to protrusions 16,18 and holes 17,19, installation of half-cylinders is facilitated, because they perform the role

F) centering elements, and also form thermal labyrinths after the connection of half-cylinders, which prevent heat loss.

Taking into account the lightness of half-cylinders (the weight of the largest half-cylinder is only a few kilograms) and the simplification of their installation, labor productivity when insulating pipes increases dramatically.

The proposed construction of Lego thermal insulation adapts to the parameters of the energy carrier. For example, on steam pipelines, glass wool, organo-basalt or carbon fiber is used for layer 11, as their heat resistance is higher than 250"C. For superheated water routes, mineral wool is enough, and for the secondary heat supply network - light foamed polyurethane. 65 Very convincing quality for operators thermal insulation according to the invention is an opportunity to carry out disassembly and assembly of half-cylinders without any destruction of its components.

The closest analogues taken into account:

PI Information sheet Mo86-2763 UDCb29.10.061:66.045.3).

I2) Information sheet Mo87-1303 UDCbb62.09.998:66). 119) Application Mo2943123 of the Federal Republic of Germany, E161 -59/14.

Claims (6)

The formula of the invention 70 1. Thermal insulation for pipes containing upper and lower half-cylinders, which consist of interconnected weatherproof casing and heat-insulating material, and the casing protrudes beyond the end face and the longitudinal surface of the separation of the heat-insulating material with the formation of visors, which is characterized by that the weatherproof casing of the upper half-cylinder protrudes beyond the longitudinal surface of the separation of the heat-insulating material on both sides of the half-cylinder and the formed visors provide a "tiled" overlapping of the casings when the half-cylinders are connected to the pipe. 2. Thermal insulation according to claim 1, which differs in that the half-cylinders are connected by clamps. C. Thermal insulation according to claim 2, which differs in that the end visor has a marker that determines the place of installation of the clamp. 4. Thermal insulation according to claim 1, which is characterized by the fact that centering projections and holes are made on the surface of the heat-insulating material. 5. Heat insulation according to claim 4, which is characterized by the fact that the centering projections and holes on the ends of the heat-insulating material have a length close to the length of the visor. 6. Heat insulation according to claim 1, which is characterized by the fact that the heat-insulating material is made of at least two layers with different heat resistance, and the outer layer is a connecting element between the weatherproof jacket and the layer of heat-insulating material in contact with the pipe. o cha (ee) (ee) (o) « - with . and? sh» se) (ee) (ee) what has) 60 b5