RU184137U1 - QUICK HEAT INSULATION - Google Patents

Abstract

The utility model relates to heat-insulating equipment, namely to thermal insulation of steam shirts of railway tanks.

The purpose of the utility model is to reduce the complexity of installation and removal of quick-detachable thermal insulation and provide thermal protection for the entire surface of the equipment, including in the presence of protrusions, pipes, hatches, etc., and its individual parts.

The essence of the utility model is that quick-detachable thermal insulation contains sections located on the surface of the insulated equipment, and the sections are made of light material and have permanent magnets on their surface; sections on the inside have elements of temperature-resistant material up to 10 cm high; the surface of the light material is covered with heat-insulating paint - 9 liquid thermal insulation; sections along the docking lines have communication elements.

Description

The utility model relates to heat-insulating equipment, namely to thermal insulation of steam shirts of railway tanks.

A device is known for thermal insulation of a slide gate valve comprising a collapsible structure with an internal surface made of non-combustible heat-insulating material, of two or more parts connected by fastening elements, and sealing joints between collapsible elements using sealing gaskets (Patent RU No. 119843, IPC F16L 59 / 00, published on August 27, 2012).

Known block removable thermal insulation, comprising a housing in the form of tie braces with threaded sockets placed with constant pitch on the external surface of the heat-insulated equipment, identical heat-insulating blocks that are joined together by side walls and have holes for threaded fasteners (Patent RU No. 2259510, IPC F16L 59/00, published on August 27, 2005).

The closest technical solution is removable thermal insulation, containing on the outer surface of the insulated equipment sequentially in the longitudinal direction and adjacent to each other sections of N identical blocks joined together by longitudinal side walls, each block including a frame made of metal corners, thin facing metal sheets and a filler of heat-insulating material (Patent RU No. 2493473, IPC F16L 59/00 F16L 59/14, publ. 09/20/2013). The ends of the corner racks of the frame protruding relative to the rear and front walls form the same first end sections facing the heat insulated equipment and the same second end sections facing the opposite side. The first end sections of each beam facing the heat-insulated equipment are detachably fastened to each other by means of the corresponding latch-support, which freely rests on the surface of the heat-insulated equipment. The second end sections of each beam are detachably bonded to each other using a corresponding spring in the form of a symmetrical closed cross-shaped contour with four loop-shaped sections located orthogonally relative to each other.

However, this technical solution has the following disadvantages:

- the high complexity of the work, consisting in the need to install latches, supports on the first end sections and springs on the second end sections for every four blocks;

- the impossibility of thermal insulation only on parts of the insulated equipment (for example, on the lower part of the railway tank - its steam jacket) due to the lack of fixing on the insulated object and to ensure stability only when the frame is assembled into annular sections along the cylindrical surface of the object;

- the impossibility of installing thermal protection with the complex shape of the insulated object, the presence of fixtures, pipes, manholes, etc., due to the identical shape of the section blocks.

The objective of the proposed utility model is to reduce the complexity when installing quick-detachable thermal insulation, ensuring reliable fastening on a heat-insulated object or part thereof, regardless of the complexity of the shape and the presence of protruding elements in the form of pipes, hatches, mounts, etc.

The essence of the utility model is that the quick-detachable thermal insulation contains sections located on the surface of the heat-insulated equipment, while the sections are made of light fabric and have permanent magnets on their surface; sections on the inside have elements of temperature-resistant material up to 10 cm high; the surface of light fabric is covered with heat-insulating paint (liquid thermal insulation); sections along the docking lines have communication elements.

The technical result.

Reducing the complexity of installation and removal of quick-detachable thermal insulation and providing thermal protection for the entire surface of the equipment, including the presence of protrusions, pipes, manholes, etc., and its individual parts.

The specified task is achieved:

- using light natural or non-natural fabric (for example, tarpaulin fabric) as the material of the thermal insulation sections, providing a light weight for the sections, reducing the heat transfer coefficient and covering the surface having any shape and containing elements like pipes, hatches, etc .;

- using permanent magnets as fasteners for the thermal insulation sections, which ensure fast fastening of insulation on the equipment surface at any angle;

- the use of elements made of temperature-resistant material (with a maximum maximum temperature not less than the maximum temperature of the heat carrier (steam) - 150 ° C) (Mikheev MA Fundamentals of heat transfer, 1956) on the inner surface of the sections providing the creation of an air gap, as well as coating surfaces of light fabric of heat insulation sections with heat-insulating paint (liquid thermal insulation), which reduce the coefficient of heat transfer from equipment to the environment;

- the use of communication elements in the form of, for example, Velcro for connecting sections of thermal insulation along the lines of their docking, ensuring the speed of installation and removal of quick-detachable thermal insulation and eliminating heat loss through the lines of docking sections.

The essence of the utility model is illustrated by drawings, where in FIG. 1 - quick-detachable thermal insulation on the surface of the insulated object; FIG. 2 - node docking sections quick-detachable thermal insulation; FIG. 3 - quick-detachable thermal insulation.

Quick-detachable thermal insulation on the surface of the insulated object - the steam jacket of the railway tank 1, contains sections of quick-detachable thermal insulation 2 made of light fabric coated with liquid thermal insulation (heat-insulating paint) with permanent magnets 3, elements made of heat-resistant material 4, and having communication elements (Velcro) 5 along the docking lines.

The utility model is used as follows.

On the surface of the insulated object - the steam jacket of the railway tank 1, quick-detachable heat insulation sections 2 of light fabric coated with heat-insulating paint and fixed with permanent magnets 3 are installed. 3. Quick-detachable thermal insulation sections 2 are connected along the lines of their connection with each other by means of communication elements (Velcro) 5. When this elements of temperature-resistant material 4 sections quick-detachable thermal insulation 2 when installed in the working position due to its shape and size prevent leganiyu thermal insulation material (tissue) to the surface equipment 1, creating an air layer, which provides a low value of heat transfer coefficient as the thermal conductivity of air is very small - 0.02 kcal / (m ² ⋅ ° S⋅chas). The use of elements made of temperature-resistant material with a height of more than 10 cm leads to the creation of conditions for convective heat transfer, an increase in windage of quick-detachable thermal insulation on the surface of an insulated object, and complicates the process of installation and fastening, as well as storage of quick-detachable thermal insulation. The resistance of the elements to temperature effects up to 150 ° C ensures the normal operation of thermal insulation at operating steam temperatures.

The use of quick-detachable thermal insulation of light tissue as the material of the sections provides lightness and flexibility of insulation, as well as the possibility of thermal protection of complex objects or having elements in the form of pipes, hatches, etc. The use of permanent magnets as fasteners to a thermally insulated object and the connection of thermal insulation sections to each other by means of communication elements provides the speed and ability to install quick-detachable thermal insulation on surfaces at any angles and in different areas. The use of heat-insulating paint sections on the surface of the material of the heat insulation material (fabric) and the creation of an air gap between the surface of the insulated object and the material of the heat insulation sections ensures a reduction in the heat transfer coefficient and the heat-insulating properties of quick-detachable heat insulation.

Claims (4)

1. Quick-detachable thermal insulation containing sections located on the surface of the insulated equipment, characterized in that the sections are made of light fabric and have permanent magnets on their surface. 2. Quick-detachable thermal insulation according to claim 1, characterized in that the sections on the inside have elements made of heat-resistant material up to 10 cm high. 3. Quick-detachable thermal insulation according to claim 1 or 2, characterized in that the surface of the light fabric is coated with heat-insulating paint (liquid thermal insulation). 4. Quick-detachable thermal insulation according to any one of paragraphs. 1-3, characterized in that the sections along the docking lines have communication elements.

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