RU82811U1 - COMMISSIBLE HEAT AND WATERPROOF COATING OF THE PIPELINE (OPTIONS) - Google Patents

Abstract

1. The collapsible heat-and-waterproof insulation coating of the pipeline, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of half-cylinders and provided along the entire contour with elements of thermal locking joints of the protrusion-cavity type, with which the shells are sewn along perimeter and in length, and the transverse seams are protected by sealants, characterized in that it additionally contains protective visors that overlap the longitudinal connecting seams, under erzhennye ingress of moisture into the shell cavity, the protective shield is in the form of a strip with the upper and lower limb, the top of which is mounted inside the upper half-cylinder, in a slot formed in its outer insulating layer, from the locking depressions location. ! 2. The collapsible heat-and-waterproof insulation coating of the pipeline, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of segments and provided along the entire contour with elements of thermal locking joints of the protrusion-cavity type, with which the shells are sewn along perimeter and in length, and the transverse seams are protected by sealants, characterized in that it additionally contains protective visors that overlap the longitudinal connecting seams, subject to nnye ingress of moisture into the shell cavity, the protective shield is made as a T-shaped strip with upwardly bent flange installed in the outer insulating layer of the upper segment, a protective coating layer in each segment is in the form of

Description

The utility model can be used in industrial and civil engineering in the implementation of thermal insulation of outdoor pipelines.

Known collapsible thermal insulation for underground and above-ground channelless pipelines, containing the annular space between the protective sheath and the insulated pipe, filled with removable shells fastened with bandages, having two layers: the inner one is heat-extinguishing and the outer one, providing mechanical strength and heat and moisture protection, moreover, the integumentary membrane is pulled over the shells (RU 2000106633 A, application filing date 03.20.2000, publication date 04.10.2002, authors Shilov V.P. et al.).

The disadvantages of the known analogue are the labor costs during assembly associated with the installation of the integument and low thermal protection due to the susceptibility of damage to the insulating layer due to the presence of gaps and structural design of shells that do not provide effective thermal protection of the joints.

As a prototype, a collapsible heat-insulating coating of the pipeline was adopted, including composite shells mounted along the length of the pipeline fastened with bandages, while monolithic modular elements with two heat-insulating layers and a protective cover were used as composite shells, depending on the diameter of the insulated pipeline in the form half cylinders or segments, along the entire contour of the shells, elements of thermal locking joints of the protrusion-cavity type are made using shells are sewn along the perimeter and in length, with the transverse seams offset by half the length of the shell and protected by sealants (Application for invention No. 2007177777/06, filing date 04.06.2007, author Kuzmin SS, RU, decision to grant a patent from 04/18/2008, prototype).

The disadvantage of the prototype is the ineffective waterproofing protection of the heat-insulating coating, due to the susceptibility of longitudinal butt joints to moisture in the cavity of the shell, which can warp the heat-insulating coating and reduce heat-shielding properties.

The objective of the utility model is to increase the effectiveness of waterproofing protection of the thermal insulation coating.

To solve the problem, a collapsible heat-and-water-insulating coating of the pipeline according to option 1, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of half-cylinders and are provided with elements of thermal locking joints of the protrusion-cavity type with with the help of which the shells are sewn around the perimeter and in length, and the transverse seams are protected by sealants, according to the utility model, it additionally contains protective visors, rekryvayuschie longitudinal connecting seams exposed to ingress of moisture into the shell cavity, the protective shield is in the form of a strip with the upper and lower limb, the top of which is mounted inside the upper half-cylinder, in a slot formed in its outer insulating layer, from the locking depressions location.

To solve the problem, a collapsible heat-and-water-insulating coating of the pipeline according to option 2, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of segments and equipped with elements of thermal locking joints of the protrusion-cavity type, with with the help of which the shells are sewn around the perimeter and in length, and the transverse seams are protected by sealants, according to the utility model, it additionally contains protective visors, cross longitudinal longitudinal joints, subject to moisture entering the shell cavity, while the protective visor is made in the form of a L-shaped strip with a shelf bent up, installed in the outer heat-insulating layer of the upper segment, the protective coating layer in each segment is made in the form of a galvanized sheet with bends, located inside the outer heat-insulating layer, and in the upper segment along the bends on both sides, slots are made in which bent shelves of protective visors are installed.

To solve the problem, a collapsible heat-and-waterproof insulation coating of the pipeline according to option 3, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of upper and side segments and are provided with elements of thermal locking joints of the protrusion type hollow, with which the shells are sewn around the perimeter and in length, and the transverse joints are protected by sealants, according to a utility model, it is equipped with galvanized steel bubbled sheets used as a removable protective coating

layer of the upper segments and overlapping the longitudinal connecting seams on both sides, while the galvanized steel sheet is overlapped fixed to the lower side segment using fasteners when its edges coincide with the location of the transverse connecting seams of the side segments and are tightened with bandages along the transverse butt joints of the upper and lower segments .

Figure 1 presents a cross-sectional diagram of a collapsible heat-waterproofing coating of a pipeline of half-cylinders with one-sided protection of longitudinal joints with protective visors according to option 1; figure 2 is a diagram of a cross section of a collapsible heat and water insulation coating of a pipeline of segments with two-sided protection of longitudinal joints with protective visors according to option 2; figure 3 shows a fragment of a mounted section of the pipeline using protective steel galvanized sheets according to option 3.

The collapsible heat-and-waterproof insulation coating of the pipeline according to three options contains composite shells of heat-insulating materials with a protective cover layer of full factory readiness, made in the form of modules in the form of half-cylinders 1 (Fig. 1) or segments 2 (Fig. 2, Fig. 3). The inner most heat-insulating layer 3 of the shell is made of block polyisocyanurate foam, and the outer heat-insulating layer 4 is made of molded polyurethane foam. The protective coating layer 5 is made, for example, of fiberglass (figure 1), or galvanized steel (figure 2, figure 3). The shells around the circuit are equipped with elements of thermal locking joints of the protrusion-cavity type, formed by the displacement of words when forming the outer heat-insulating layer 4. Using protrusions and depressions at the ends (not shown conditionally), as well as protrusions 6, 7 and depressions 8, 9 at the edges the shells are sewn around the perimeter and along the length using transverse and longitudinal thermal lock joints and with a shift of the transverse seams by half the length of the shell, like brickwork, as shown in Fig.3. To protect the longitudinal joint seams from moisture penetrating into the internal cavity of the shells, the thermo-waterproofing coating is equipped with either protective visors installed during installation (options 1-2) or galvanized steel sheets (option 3).

When installing a thermal waterproofing coating according to option 1 on pipelines predominantly up to 630 mm in diameter, shells are used in the form of half-cylinders 1 with a protective cover layer 5, for example of fiberglass and protective caps 10 installed on one side in the form of Z-shaped strips with upper 11 and lower 12 bends . The upper bend 11 is installed in the slot 13,

made in the upper half-cylinder, in its outer heat-insulating layer 4, from the location of the castle cavity 8 (Fig. 1).

When installing a thermal waterproofing coating according to option 2 on pipelines with diameters up to 1220 mm, shells in the form of segments 2 are used with a protective cover layer 5 of galvanized steel, made with bends 14 located in the outer heat-insulating layer 4. In the upper segment along the bends 14 on both sides are made the slots 15, in which the protective visors 16 are installed, made in the form of L-shaped strips with the shelf 17 bent up, installed in the slot 15 (Fig. 2).

When installing a thermo-waterproofing coating according to option 3, shells in the form of segments 2 are used on pipelines with diameters up to 1220 mm, of which only the side segments are provided with a protective cover layer 5. For the formation of a protective coating of the upper segments, galvanized steel sheets 18 are used, overlapping longitudinal connecting seams on both sides . Moreover, each galvanized steel sheet 18 is lapped fixed to the side segment below, using, for example, two fasteners 19 (self-tapping screws or rivets), when its edges 20 coincide with the location of the transverse connecting seams of the side segments and are tightened with bandages 21 along the transverse butt joints of the upper and side segments (figure 3).

The shells installed along the length of the pipeline, forming the coating of the pipeline with protective peaks, are also fastened with bandages (not shown conditionally). In all cases, the installation of bandages is performed on the joint joints treated with sealants.

The advantage of the claimed utility model is to improve performance by increasing the effectiveness of waterproofing protection of a collapsible heat-waterproofing coating of the pipeline due to the overlapping protective joints of the longitudinal connecting joints that are susceptible to penetration of moisture into the shell cavity, to avoid warping of the coating.

Claims (3)

1. The collapsible heat-and-waterproof insulation coating of the pipeline, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of half-cylinders and provided along the entire contour with elements of thermal locking joints of the protrusion-cavity type, with which the shells are sewn along perimeter and in length, and the transverse seams are protected by sealants, characterized in that it additionally contains protective visors that overlap the longitudinal connecting seams, under erzhennye ingress of moisture into the shell cavity, the protective shield is in the form of a strip with the upper and lower limb, the top of which is mounted inside the upper half-cylinder, in a slot formed in its outer insulating layer, from the locking depressions location. 2. The collapsible heat-and-waterproof insulation coating of the pipeline, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of segments and provided along the entire contour with elements of thermal locking joints of the protrusion-cavity type, with which the shells are sewn along perimeter and in length, and the transverse seams are protected by sealants, characterized in that it additionally contains protective visors that overlap the longitudinal connecting seams, subject to moisture penetration into the shell cavity, while the protective visor is made in the form of a L-shaped strip with a shelf bent up, installed in the outer heat-insulating layer of the upper segment, the protective coating layer in each segment is made in the form of a galvanized sheet with bends located inside the outer heat-insulating layer and in the upper segment along the bends on both sides there are slots in which bent shelves of protective visors are installed. 3. The collapsible heat-and-water-insulating coating of the pipeline, including composite shells equipped with a protective coating layer, installed along the length of the pipeline and fastened with bandages, the shells are made in the form of upper and side segments and are provided with elements of thermal locking joints of the protrusion-cavity type along the entire contour, with which the shells are sewn around the perimeter and in length, and the transverse seams are protected by sealants, characterized in that it is equipped with galvanized steel sheets used as removable protective cover layer of the upper segments and overlapping longitudinal connecting seams on both sides, while the galvanized steel sheet is overlapped with the fastening elements located below the lateral segment when its edges coincide with the location of the transverse connecting seams of the side segments and are tightened with bandages along the transverse butt joints of the upper and lower segments.