RU119843U1 - GATE HEAT INSULATION DEVICE - Google Patents

Abstract

1. A device for thermal insulation of a gate valve, containing a collapsible structure, characterized in that a non-combustible heat-insulating material is attached to the inner surface of the protective shell using mastic, collapsible thermal insulation elements are attached using fasteners, and the joints between the collapsible elements are sealed with sealing gaskets, this provides access to the gate valve for its maintenance and repair. ! 2. The device according to claim 1, characterized in that the thermal insulation device of the gate valve can consist of two or more parts, while its shape (rectangular or shaped design) is determined taking into account the shape and size of the gate valve, design features, type of connection to the pipeline (welded, flanged) and installation method. ! 3. The device according to claim 1, characterized in that when placed above ground, the protective shell is made of thin sheet galvanized steel, and when it is underground, it is made of mastic and reinforcing material. ! 4. A device according to claim 1, characterized in that the parts of the thermal insulation are fastened using fastening elements - metal ties with locks, bolts with nuts, self-tapping screws, etc.! 5. The device according to claim 1, characterized in that the device contains non-removable thermal insulation of the bottom of the gate valve (mounted at the factory) and collapsible thermal insulation (mounted in the field). ! 6. The device according to claim 1, characterized in that a non-combustible heat-insulating material - foam glass is used as thermal insulation. ! 7. The device according to claim 1, characterized in that inside the

Description

The utility model relates to thermal insulation of main and technological oil pipelines and oil product pipelines, and specifically to thermal insulation of a slide gate valve.

It is known "Thermal insulation design" (see patent RU No. 40433U8 of 09/10/2004, IPC F16L 59/00), in which the thermal insulation design is collapsible, including removable shells fastened with bandages, characterized in that the removable shells are made in the form of segments from extruded polystyrene foam with a density of at least 33 kg / m ³ n and compressive strength at 10% deformation of at least 0.25 MPa, which can be machined to give the necessary shape of the shell, the segments are combined into a structure that forms a heat-insulating shell in the district of the pipeline and consisting of N sectors united in a diametrical direction into a lock, and the bandages are made in the form of tightening tapes secured by a protracted device equipped with a stopper.

The disadvantage of the design lies in the difficult installation of the heat-insulating structure in the field due to the presence of fastening of structural elements using coupling braces.

It is known "Quick-detachable thermal insulation" (see patent RU No. 2259510C1 dated 08/27/2005, F16L 59/10), which presents a quick-detachable thermal insulation, which is a set of frame elements installed on coupling braces along the insulating surface and repeating its profile, each of which contains a protective metal sheath, a heat-insulating layer and means for fixing it, the protective metal sheath is made in the form of a box with a lid, and the edges of the box are made with a bevel around its perimeter and provided with staple brackets, with elongated support flanges, with which the brackets are mounted on the bevel of the ribs and secured along the bevel with a given pitch and overhang of the shelves, washers are installed on the bottom of the box with the necessary frequency, on which the support pins are mounted, against which the support pins are mounted, against which on the lid flanged holes are made, threaded sockets are located on the tie-down bandages of the frame, interacting during the assembly of insulation with means for securing the block elements, and in the joints formed by the bevels of the ribs protective shells of each pair of adjacent block elements, a heat-insulating cord is laid, held in a pressed state at the joint due to the elastic forces of the shelves of the curly braces, after which decorative zigzag plates are installed along the cord under the curly braces.

The disadvantage of this design is the difficulty of attaching the heat-insulating structure using the support pins and tie rods.

The well-known "Block removable thermal insulation" (see patent RU No. 55083U1 of 07.27.2006, F16L 59/00), in which block removable thermal insulation, consisting of heat-insulating blocks installed in rows, made in the form of welded boxes filled with heat-insulating material, fastened together by quick-locks and mounted directly on the case of vertically oriented equipment, characterized in that at least one row of heat-insulating blocks is installed, at least one supporting element, made in the idea of a strip repeating the external relief of the equipment, fixed to the equipment case with fasteners, moreover, corners evenly spaced along the length of the strip are rigidly fixed to the support element in an amount equal to at least the number of heat-insulating blocks in a row, each corner additionally reinforced with a scarf located along the longitudinal axis of symmetry of the corner, and in the heat-insulating blocks of the row located below the support element and next to the heat-insulating elements installed on the support element blocks, made sampling.

The disadvantage of this design is the difficulty of fixing the heat-insulating structure.

Closest to the proposed technical solution is "Collapsible design for thermal insulation (options)" (see application RU, No. 3918U1, published July 20, 2004, IPC F16L 59/16), containing a collapsible design for thermal insulation, consisting of two half-cases made of heat-insulating material, for example, foamed polyurethane, each half-case of which has one or more connecting surfaces with protruding ribs and grooves for their connection and grooves for fixing tapes obtained during the casting and located along the perimeter of the connecting surfaces symmetrically to the central axis. The half-cases are made with an additional reinforcing heat-insulating layer, for example, of hard or flexible polyurethane foam with a density of 300-1000 kg / m ³ , a thickness of 1-10 mm, the upper and end mating surfaces of the half-cases are provided with grooves to accommodate the sealing rings or half rings in them, when connecting the upper cases the mating surfaces form a truncated cone.

However, combustible materials are used in this device, which increases the fire hazard of the heat-insulated unit, and also the possibility of access to the gate valve for its maintenance and repair is not provided.

The objective of the utility model is to insulate the gate valve using fireproof materials with access for its maintenance and repair.

The technical result that can be obtained by implementing this utility model is expressed in the creation of fireproof thermal insulation of the slide gate valve with the possibility of its maintenance and repair.

The technical result is achieved by using a heat-insulating layer of non-combustible material and the creation of removable structural elements that provide access to the slide gate valve for its maintenance and repair.

At the same time, the thermal insulation device of the slide gate valve, which contains a collapsible design, according to the utility model, has a protective shell, to the inner surface of which a non-combustible heat-insulating material is attached with mastic, collapsible heat insulation elements are fastened with fastening elements, and the joints between collapsible elements are sealed with sealing gaskets. This provides access to the gate valve for its maintenance and repair.

The thermal insulation device of the slide gate valve can consist of two or more parts, while its shape (rectangular or shaped design) is determined taking into account the shape and size of the slide gate valve, design features, type of connection to the pipeline (welded, flanged) and installation method.

When placed above ground, the protective insulation sheath is made of galvanized sheet steel, and when underground, it is made from mastic and reinforcing material.

The parts of the thermal insulation are fastened with the help of fastening elements - metal ties with locks, bolts with nuts, self-tapping screws, etc.

The device has a non-removable thermal insulation of the bottom of the slide gate valve (mounted in the factory) and a collapsible thermal insulation (mounted in the field).

Non-combustible heat-insulating material - foam glass is used as thermal insulation.

Inside the containment with thermal insulation, gas analyzers and nozzles are installed to purge the internal cavity of the insulation before dismantling with an increased content of oil vapor according to the readings of gas analyzers.

An anti-abrasive is applied to the inner surface of the thermal insulation in contact with the gate valve, which protects the anti-corrosion coating of the valve.

The device is illustrated by drawings 1 and 2.

Figure 1 shows a diagram of a utility model, and figure 2 - fastening of structural parts using locks.

The drawings show thermal insulation, sealing gasket, protective shell, non-removable thermal insulation of the bottom, mastic, fastening elements (metal ties with locks, bolts with nuts, self-tapping screws, etc.).

The thermal insulation device for the slide gate valve is individually designed and manufactured for each slide gate valve, taking into account the geometric dimensions of the equipment, design features, type of connection to the pipeline (welded, flanged) and installation method (on the foundation, without foundation).

The gate valve thermal insulation device is a protective shell (metal casing) with thermal insulation installed in it. Thermal insulation is attached to the inner surface of the protective shell using mastic. The casing structure is divided into two or more parts, the joints between which are sealed with gaskets. The shape of the casing (rectangular or shaped) is determined taking into account the dimensions of the equipment during design.

Parts are fastened using fasteners (metal ties with locks, bolts with nuts, self-tapping screws, etc.).

Work.

The thermal insulation device for the slide gate valve provides for work in the factory and in the field.

In factory conditions, non-removable thermal insulation of its bottom is manufactured and mounted on a valve, and also folding elements of thermal insulation are manufactured. The thermal insulation is attached to the inner surface of the protective shell of the thermal insulation elements using mastic.

In the field, collapsible heat-insulating elements are mounted on the gate valve, the joints between which are sealed with foam rubber gaskets.

The gate valve thermal insulation device provides for the possibility of installing gas analyzers and nozzles inside the duct for purging the internal insulation cavity before dismantling with an increased content of oil vapor in the internal volume of the thermal insulation structure according to the readings of gas analyzers.

The carried out experimental design works at LLC NII TNN showed that it is advisable to use non-combustible heat-insulating materials based on foam glass - foam glass as thermal insulation.

Acceptable for the proposed device, the technical characteristics of the foam glass are shown in table 1.

Table 1 Technical characteristics of foam glass Name of indicator Indicator value 1 Density, kg / m ³ 110-180 2 Compressive strength at 10% deformation, MPa, not less 0.70 3 Thermal conductivity at a temperature of 25 ° C, W / (m · K), no more 0.05 4 Water absorption in 24 hours,% by volume, no more 2.5 5 Combustibility group non-combustible

The thickness of the insulation of the slide gate valve is determined on the basis of thermal engineering calculations (see TR 12310-TI.2006. Foam glass insulation products in the construction of thermal insulation of equipment and pipelines. Severspetskomplekt LLC, M. - 2006).

The materials used as a protective shell protect the thermal insulation from environmental influences, from mechanical damage, and are also an element of thermal insulation fastening.

When placed above ground, the protective shell of the thermal insulation of the slide gate valve is made of galvanized sheet steel with a thickness of 1.0 mm.

For underground installation, the protective shell of the thermal insulation of the slide gate valve serves to strengthen the surface of the foam glass and is made of mastic and reinforcing material.

The elements of the device are fastened with metal ties with locks, bolts with nuts, self-tapping screws, etc.

An anti-abrasive is applied to the inner surface of the thermal insulation in contact with the gate valve, which protects the anti-corrosion coating of the valve.

The application of the proposed device provides thermal insulation of the gate valve using fireproof materials with access for its maintenance and repair.

Claims (8)

1. The thermal insulation device of the slide gate valve, comprising a collapsible design, characterized in that non-combustible heat-insulating material is attached to the inner surface of the protective sheath using mastic, the collapsible insulation elements are attached using fasteners, and the joints between the collapsible elements are sealed with gaskets, this provides access to the gate valve for its maintenance and repair. 2. The device according to claim 1, characterized in that the thermal insulation device of the slide gate valve can consist of two or more parts, while its shape (rectangular or shaped design) is determined taking into account the shape and size of the slide gate valve, design features, type of connection to the pipeline (welded, flanged) and installation method. 3. The device according to claim 1, characterized in that when placed above ground, the protective sheath is made of galvanized sheet steel, and when underground, it is made from mastic and reinforcing material. 4. The device according to claim 1, characterized in that the fastening of the insulation parts is carried out using fastening elements - metal ties with locks, bolts with nuts, self-tapping screws, etc. 5. The device according to claim 1, characterized in that the device has a non-removable thermal insulation of the bottom of the slide gate valve (mounted in the factory) and a collapsible thermal insulation (mounted in the field). 6. The device according to claim 1, characterized in that non-combustible heat-insulating material, foam glass, is used as thermal insulation. 7. The device according to claim 1, characterized in that gas analyzers and nozzles are installed inside the containment with thermal insulation to purge the internal cavity of the insulation before dismantling at an increased oil vapor content according to the readings of gas analyzers. 8. The device according to claim 1, characterized in that on the inner surface of the insulation in contact with the gate valve, is applied anti-abrasive that protects the anticorrosive coating of the valve.