PL218046B1 - Thermal insulation of pipelines - Google Patents

Description

The subject of the invention is thermal insulation of pipelines, especially heating pipelines founded on supports, used to cover and insulate heating, industrial cooling pipes and carrying other media.

From the description of the patent application P - 289226, a method of insulating heating pipelines and a shell for making insulation in this way is known. The method consists in laying the first layer of insulating material resistant to a temperature higher than the temperature of the medium transmitted through the pipeline on the pipeline, and after laying this layer, a second layer of another insulating material with a lower temperature resistance than the resistance of the first insulating material is placed on it. layers. The shell has two layers made of materials with different temperature resistance, the inner first layer is resistant to a temperature higher than the temperature causing damage to the material of which the outer second layer is made.

It is known from the description of the patent application P-305176 for connecting the protective jacket, especially in the thermal insulation of pipelines. The method of connecting the protective jacket is based on the fact that the thermal insulation has the shape of a cylinder consisting of two slots connecting flaps shaped to match the insulated element. The actual insulation is a cover made of heat-insulating material which is permanently bonded to the outer protective jacket. The faces of the lagging and the longitudinal contacting surfaces of the lagging parts of the insulating material are profiled in the shape of overlaps so as to form a tight cylinder after contact, while the protective mantle covering the upper part of the cylinder is longer than the lagging made of heat-insulating material, and is profiled on its entire longitudinal edge. preferably a semi-circular groove in the shape of a gutter and provided with an overlap.

It is known from the patent description No. 179226 compact, segmented thermal insulation, especially of heating and cooling pipelines. The invention solves the problem of a compact segmented insulation structure comprising a sheathing metal jacket of a half segmented structure with attachment lugs provided on its inner surface. The fixing projections are inseparably covered with an insulating layer thicker than the fixing projections, the inner surface of which is adjacent to the outer surface of the pipelines to be protected. After assembling on the protected pipeline, the longitudinal longitudinal edges of the upper, half segment of the metal jacket overlap the longitudinal edges of the lower half segment of the metal jacket, forming on both sides the surfaces of the longitudinal, inseparable connection of the half segments of the metal jacket into one compact structure. On the front surfaces of individual segments of thermal insulation, along the longitudinal axis, safety-connection pins protrude on the one hand, and on the other hand, internal sockets are formed for the snap-in safety-connection pins of adjacent segments of the thermal insulation. On the outer surface of the metal jacket, at the contact point of the front joints of the thermal insulation segments, on both sides, inseparably securing overlays are mounted, additionally connecting the individual half segments of the metal jacket and adjacent thermal insulation segments. At the edges of the butt joints of individual thermal insulation segments, together with the protective overlays on them, there are inseparably fixed protective and protective bands.

Known from the description of the patent application P - 343806 is a compact, segmented thermal insulation, in particular for heating and cooling pipelines. Compact, segmented thermal insulation is characterized by the fact that between the outer surface of the protected pipeline and the inner surface of the insulating layer, a thermal space / air cushion is formed, in which, axially along the circumference, spacing, support elements are located along the entire length, while the On the inner surface of the insulating layer, there is a thermal-stiffening layer permanently connected to the substrate constituting the insulating layer, and the expansion joint is filled with insulating material in the butt plane of the joints formed by joining two adjacent segments of the insulating layer.

A method for insulating pipelines is known from the description of the patent application P-360746.

The invention relates to a method of insulating and insulating pipelines, characterized in that an insulating jacket is produced on a pipeline, in which the sections of the insulating jacket surrounding the pipeline are made by joining with each other with longitudinal edges in relation to the pipeline, at least

Two prefabricated elements of polyurethane foam, separated from the pipeline by ring spacers. Successive sections of the jacket are connected with each other, and then the chambers formed between the pipeline, the interconnected elements, spacers, are filled during the installation of the insulation with polyurethane foam that solidifies in situ, creating an insulating-bonding layer after solidification. The elements are covered with a protective layer, protecting against external influences, joined after the installation of the insulation into a single unit that covers the entire insulating jacket.

From the description of the patent application P-367495, it is known to have prefabricated compact insulation of pipelines, especially overhead pipelines. Prefabricated, compact insulation of pipelines, especially overhead, consisting of at least two polyurethane shells, has in the volume of each polyurethane shell at least one reinforcing strip located transversely to the longitudinal axis of the shell and having at least one groove along its length forming an anchor in polyurethane, with at least one end of the strip extends beyond the shell edge parallel to the pipeline axis. The strip preferably has a width equal to or less than that of the shell and is made of metal.

A method of insulating pipelines transporting hot media is known from the description of the patent application P-368149. The method of insulating pipelines transporting hot media is characterized by the fact that on the outer surface of the steel pipe, at least three spacing elements are attached parallel to its longitudinal axis, and then torus-shaped rubber rings filled with thermal insulation material are slid over the pipe in a row next to each other. The side surfaces of the rubber rings are then glued together to form a waterproofing partition. Automobile tires are preferably used as rubber rings, and their side surfaces are glued with a self-vulcanizing adhesive. Preferably, the thermal insulation material is mineral wool or lightweight concrete.

The segment of thermal insulation, especially heating and cooling pipelines, is known from the description of the patent application P - 379587. The thermal insulation segment, especially of heating and cooling pipelines, is characterized by the fact that it is a half part of one element of the pipeline insulation shell, it contains an outer jacket made of sheet metal, and on its inner side there is an insulating layer, which is shaped so that it adheres to the jacket and adheres directly or indirectly via aluminum foil to the insulated pipeline. Attached to the inner side of the jacket are at least two shaped anchoring elements for the insulation layer, which run preferably parallel to each other, and their free ends are adjacent to the edges of the jacket parallel to each other, each anchoring element being fastened to the jacket halfway along its length along its length. fixed, while in other places and near free ends it is slidably mounted.

The essence of the invention is thermal insulation of pipelines, especially heating pipelines founded on supports, used to cover and insulate heating, industrial cooling and other media pipes, consisting of segmented insulation sections, characterized by the fact that the pipeline supports have thermal insulation on the sides, preferably divided vertically across the pipeline axis, insulating elements which in cross-section are preferably U-shaped, and at the point of contact with the pipeline have angular or radial recesses corresponding to the outer diameter of the pipelines, and are connected with the insulating cover elements or with the recess of a segmented insulating section, the insulating cover and the segmented insulating section and the segmented section with a recess are divided along the pipeline axis, and are preferably connected from the front by a front lock with successive segmented split thermal insulations. The insulating cover elements and the segmented insulating sections surrounding the pipeline have spacers on the inner surface separating the outer surface of the pipelines from the insulation. The outer surfaces of the insulating cover elements and segmented insulating sections, surrounding the pipeline, and side thermal insulation of the pipeline supports are permanently connected to each other. The outer surfaces of the insulating cover elements and segmented insulating sections surrounding the pipeline at the point of division along the pipeline axis have a cascade labyrinth connection.

The solution according to the invention provides an insulation efficiency comparable to that of pre-insulated pipes. It enables pipeline insulation without replacing them with pre-insulated pipes. The works can be performed without the need for transmission shutdowns in the pipelines. Pipeline insulation technology does not require administrative arrangements and can be performed as part of repairs, regardless of the season.

PL 218 046 B1

The subject of the invention is shown in the drawing showing thermal insulation of pipelines in axonometry in the front view.

P r z o l a d e c o n i a I

In the exemplary embodiment, thermal insulation of heating pipelines founded on supports, used to cover and insulate heating pipes, consisting of segmented insulation sections, has pipeline supports 8, thermal insulation 7 surrounded on the sides, constituting insulation elements divided vertically across the pipeline axis, which in in cross-section they have the shape of a channel section, and at the point of contact with the pipeline, they have angular or radial recesses 6 corresponding to the outer diameter of the pipelines 5, and are connected with the elements of the insulating cover 3, while the insulating cover 3 and the segmented insulating section 1 are divided along the pipeline axis 5, and are connected from the front by a front lock 4 to further segmented split thermal insulations 1. The insulating cover elements 3 and the segmented insulating sections 1 surrounding the pipeline 5 have on their inner surface spacers 9 separating the outer surface of the pipelines from the insulation. The outer surfaces of the elements of the insulating cover 3 and the segmented insulating sections 1, surrounding the pipeline 5, side thermal insulation 7 of the pipeline supports 8 are permanently connected to each other. The outer surfaces of the elements of the insulating cover 3 and the segmented insulating sections 1 surrounding the pipeline 5 at the point of separation along the pipeline axis 5 have a labyrinth-cascade connection 2.

T h e x l a d e n i a II

In the exemplary embodiment, thermal insulation of heating pipelines founded on supports, used to cover and insulate heating pipes, consisting of segmented insulation sections, has pipeline supports 8, thermal insulation 7 surrounded on the sides, constituting insulation elements divided vertically across the pipeline axis, which in in their cross-section, they have the shape of a channel section, and at the point of contact with the pipeline, they have angular or radial recesses 6 corresponding to the outer diameter of the pipelines 5, and are connected to a recess in the segmented insulation section 10, the segmental insulation section 1 and the segmented section with recess 10 being divided along the axis of the pipeline 5, and are preferably connected at the front by a front lock 4 to further segmented split thermal insulations 1. The segmented insulation sections 1 and 10 surrounding the pipeline 5 have on their inner surface spacers 9 separating the outer surface of the pipelines from the insulation. The outer surfaces of the segmented insulation sections 1 and 10, surrounding the pipeline 5, and the lateral thermal insulation 7 of the pipeline supports 8 are permanently connected to each other. The outer surfaces of the segmented insulation sections 1 and 10 surrounding the pipeline 5 at the point of separation along the pipeline axis 5 have a labyrinth-cascade connection 2.

Claims (4)

1. Thermal insulation of pipelines, especially heating pipelines founded on supports, used to cover and insulate heating, industrial cooling and other media pipes, consisting of segmented insulation sections, characterized in that the pipeline supports (8) have thermal insulation on the sides (7 ), preferably consisting of vertically divided insulating elements which are preferably U-shaped in cross-section, and have angular or radial recesses (6) at the point of contact with the pipeline, corresponding to the outer diameter of the pipelines (5), and are connected to elements of the insulating cover (3) or with the recess of the segmented insulating section (10), while the insulating cover (3) and the segmented insulating section (1) and the segmented section with a recess (10) are divided along the pipeline axis (5), and from the front they are preferably connected through the front lock (4) with further segmented, split thermal insulations (1). 2. Thermal insulation according to claim The pipe according to claim 1, characterized in that the elements of the insulating cover (3) and the segmented insulating sections (1) and (10) surrounding the pipeline (5) have spacers (9) on the inner surface separating the outer surface of the pipelines from the insulation. 3. Thermal insulation according to claim A method as claimed in claim 1, characterized in that the outer surfaces of the insulating cover elements (3) and the segmented insulating sections (1) and (10) surrounding the pipeline (5), side thermal insulations (7) of the pipeline supports (8) are permanently connected to each other. PL 218 046 B1 4. Thermal insulation according to claim The method of claim 1, characterized in that the outer surfaces of the insulating cover elements (3) and the segmented insulating sections (1) and (10) surrounding the pipeline (5) at the point of dividing along the pipeline axis (5) have a labyrinth-cascade connection (2).