RU2645190C1 - Locking technology of heat-insulating material for seamless welding of connecting locks - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction industry, in particular to the installation of external and/or internal insulation of various construction sites using Tepofol®, a heat-insulating material. Locking technology of seamless welding of connecting locks of heat-insulating material, the size of which varies from 10 to 250 mm, includes two layers of roll insulation, consisting of non-cross-linked polyethylene foam (non-cross-linked PE foam) and heat-reflecting coating, the surfaces of which are glued together with a heat gun by heating the surfaces to be glued to a temperature of 110–120 °C to achieve an integral, pressure-tight, seamless, heat-insulating web, fully formed from the roll insulation of non-cross-linked PE foam. Connecting locks are cut in two ways: directly during the production process of insulation, becoming in that case an integral element of the finished product, or at the time of installation work on the site when an additional locking connection is required to comply with the installation conditions.

EFFECT: invention allows to increase the energy efficiency of the facilities in the subsequent long-term operation, to reduce the labor costs and the costs of carrying out repair and insulation works during the installation of the thermal insulation Tepofol® due to simple and easy technology of installation and welding of locking systems.

4 cl, 1 dwg

Description

The invention relates to the construction industry, in particular to repair and insulation works (installation) with external and / or internal insulation of various structures of buildings and structures (construction objects) using thermal insulation material Tepofol® (insulation Tepofol®). The present invention can find its application both in individual house-building and in industrial construction. More objectively, the present invention reflects a method for forming a single sealed heat-insulating shell (heat-insulating sheet) of a construction object, consisting of a Tepofol® heater of a roll format.

The inventive method of castle technology has no analogues in the construction market.

The invention allows to solve the technical problem aimed at improving the heat-operational characteristics of buildings and structures in general and, as a result, at reducing the cost of their maintenance and reducing energy consumption for heating. During the operation of houses and buildings, the energy efficiency of the applied thermal insulation systems directly affects the heat-shielding properties of building envelopes and the amount of heat loss. The application in this regard of an innovative highly effective technical solution - lock technology for seamless welding of joint locks of heat-insulating material - allows to eliminate heat-technical defects of the heat-insulating shell and to provide a one-piece sealed fabric of the heat insulation system.

The present invention relates to a method for the device and / or restoration of a thermal insulation system for objects for various purposes, under construction or already put into operation. The invention is a technological solution and a method of forming a sealed heat-insulating shell of insulated structures of construction objects (buildings and structures), designed to improve the energy efficiency of these objects in the conditions of subsequent long-term operation. Easy to use innovative technical solution can fundamentally affect the temperature and humidity conditions and the indoor microclimate, creating optimal conditions for a comfortable stay.

The objective of the invention is also to reduce labor costs and the cost of repair and insulation work during the installation of insulation Tepofol® due to the simple and easy technology of installation and welding of castle systems.

Production company Tepofol has developed a new generation of modern thermal insulation material, which is produced under the Tepofol® brand. It consists of two layers: the first layer is made of non-cross-linked foamed polyethylene (NPE), the second layer is made of heat-reflecting coating (foil, lavsan film). Thermal insulation Tepofol® is available in rolls of any length, which significantly distinguishes it from conventional thermal insulation materials.

For fastening the coils to each other in the heater, there is provided a lock connection of the Tepofol® thermal insulation material ranging in size from 10 mm to 250 mm, designed for seamless welding of the castle system of coil insulation.

The castle system of two rolls is welded together using a conventional building hair dryer. As a result of gluing at a temperature of 110-120 ° C, a single seamless web is obtained consisting of a heat-insulating material of a roll format. Such a single sheet is simpler and easier, from the point of view of labor and efficiency, to lay on the surface of structures that are subject to insulation.

The resulting single web is airtight, that is, there are no gaps and joints in it, which prevents the heat flow from going out. This approach to warming ensures the preservation of heat inside and significantly increases the heat-saving properties of the thermal insulation system.

The essence of the invention lies in the fact that, unlike other heaters, the thermal insulation material Tepofol® (available in rolls) has a locking system that ensures the tightness of the thermal insulation system, which is achieved with strict observance and compliance with the proposed installation technology. At the same time, the material is light, flexible, elastic.

The technical task posed is solved sequentially both at the production stage and at the installation stage. At the production stage, in the process of extrusion and duplication of foamed polyethylene until the required thickness is achieved, a heat-insulating roll material Tepofol® is made, on which the locking system is cut using special tools on the machine. At the installation stage, when attaching roll insulation to the structures of buildings and structures, the castle joints of the two rolls are glued together by heating them.

The technical result of the invention is achieved by forming a single integral fabric of the heat-insulating shell of buildings and structures, in which, due to the tightness achieved, there are no gaps, crevices and joints, which prevents heat loss during cooling of warm air and the penetration of cold air into the interior. Due to the neutralization of these negative aspects, moisture and condensate are not formed inside the thermal insulation system, as a result of which there are no prerequisites for deformation and / or crushing of the insulation sheet, and there is no need for subsequent repair, which involves the complete or partial replacement of the insulation material.

The technical result of the claimed invention is confirmed by the results of tests conducted by NIIC AT NII of the Ministry of Defense of Russia in the climatic conditions of the Arctic (No. 0000483 of 12/28/2015). In the conditions of temperature and humidity differences that occurred during the tests, the Tepofol® material provided relative constancy of the controlled parameters of the internal volume.

The advantages of the claimed invention, in addition to reducing heat loss, include the innovative technology of seamless welding of the joint locks of the insulation Tepofol®, which significantly reduces labor costs (estimated by company experts, half) and the cost of installation. In addition, the application of the proposed technical solution reduces the costs associated with the subsequent repair of the thermal insulation system in the long term.

Application of the invention: rolls of thermal insulation Tepofol have a locking system for connecting to each other. When warming, the rolls are laid out and fastened to the construction of buildings and structures, and then welded together in places of the castle system using a building hair dryer. Bonding is achieved by heating the locks to a temperature of 110-120 ° C.

The effect of the application of this technical solution:

1) a significant reduction in heat loss in the interior and increased energy efficiency of insulated buildings and structures in the conditions of subsequent operation;

2) lack of prerequisites for the formation of moisture and condensate;

3) the absence of reasons for deformation and / or creasing of the insulation sheet and the need for subsequent repair or complete / partial replacement of the insulation.

Thus, there is indirectly an economic effect from the introduction of the proposed technology, associated with mitigating the risks of a possible subsequent repair (or the complete absence of the cost of repairs), that is, we are talking about saving on subsequent operation. In fact, the present economic benefits are deferred, as they are in the long run.

On the callout In the drawing, a top view is shown, in which two pieces of the Tepofol® heat-insulating material with a lock connection are cut from a roll. At the same time, in the drawing, the right piece of insulation is slightly shifted forward so as to show the locking part in approximation. Callout In the drawing clearly demonstrates the correct fit of the castle connection to each other.

On the callout C of the drawing, a side view is shown, which shows the result of the formation of a solid heat-insulating canvas, where the first and second pieces of roll are already connected to each other.

Claims (4)

1. Lock technology for seamless welding of connecting locks of heat-insulating material, the size of which varies from 10 to 250 mm, containing two layers of roll-type insulation, consisting of non-cross-linked foamed polyethylene (NPE) and heat-reflecting coating, the surfaces of which are glued together by means of a building hair dryer, by heating glued surfaces up to a temperature of 110-120 ° C to achieve a seamless hermetic seamless heat-insulating cloth, fully formed from a roll NPE insulation format. 2. The locking technology according to claim 1, characterized in that the connecting locks are cut in two ways: directly during the production of insulation and are an integral element of the finished product or at the time of installation work at the facility when additional locking connection is required by the installation conditions. 3. The castle technology according to claim 1, characterized in that there is no gap in the entire hermetic seamless heat-insulating sheet made of roll-type NPE insulation resulting from the application of this technology, which prevents the cooling of warm air from the inside to the outside, as well as the contact of cold flows and warm air, which contributes to the formation of moisture and condensation in the interior. 4. The locking technology according to claim 1, characterized in that, as a result of the application of this technological solution, the installation process is significantly accelerated in terms of time and simplified in terms of technological parameters due to the reduction of labor costs when laying and securing the roll insulation on the surface of the insulated structure, and due to the two-layer thermal insulation material, which does not require the use of additional types of films and / or membranes.

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