UA109731U - FLEXIBLE INFRARED RESISTIVE HEATER - Google Patents

Abstract

The proposed utility model contains a polyethylene terephthalate (PET) base, on which the mixture (composition) is applied, which includes flame retardants, a base with a thickness of at least 25 microns, on which the method of screen printing, applied a heating layer, resistive composition. After application of the heating layer (resistive paste), on the base, along the edges are conductive copper spikes, after which the method of lamination covers the top layer, the thickness of which is at least 50 μm, electrical, heat-resistant, laminating (PET) film, which provides water resistance.

Description

The flexible resistive infrared heater is made in the form of a multi-component structure with a heating layer and conductive tires, the design of which; differs in that it is a film infrared resistive heater with a thickness of no more than 0.5 mm, which has a multi-component structure and includes an inseparably interconnected polyethylene terephthalate (PET) base, on which a mixture (composition) is applied, which includes flame retardants (Fire retardants - substances that make it difficult for materials to ignite and reduce the speed of flame propagation. Flame retardants give materials fire resistance), a heating layer that uses a resistive composition that is applied by the method of screen printing, according to a given area, and located on the edges of conductive copper busbars that are laminated electrical, waterproof, fireproof film. 111 Information that confirms the possibility of implementing a useful model.

The task is to increase the fire resistance class of the entire structure, which will positively affect fire safety and the possibility of implementing a useful model. The useful model belongs to flat electronic heaters of long-range infrared radiation, namely to film (flexible) infrared resistive electric heaters, and is intended for the creation of radiant heating systems such as: warm floor; ceiling, wall, any residential, industrial and non-industrial premises. At the same time, the proposed useful model can be used under different types of covering: linoleum, screed, laminate, tile, carpet, stretch ceiling, etc.

The useful model belongs to electric heating devices, namely film infrared heaters of far radiant effect, intended for the creation of radiant heating systems for residential and non-residential premises.

The well-known film resistive electric heater (Patent NIS 94041312 A1 110583/16.

Resistive electric heater. / Voronkova 3.P., Balkov A.V. Publ. 05/27/1996 Bull. Me14) has a substrate made of sital, on which the main heater is applied in the form of a film made of the dioxide of an element of the 4th group with the addition of an α-transition element, for example, copper. Conductive buses are located on the main heater along its edges. Due to the formation of a conductive transition layer, which, together with the main heater, is included in the common electrical circuit, 9595 heat is transferred due to direct radiation. However, the use of the reflective property of the additional transition layer provides a sufficiently wide spectrum

From heat rays, which reduces the comfort of such heating. In addition, additives are introduced into the conductive layer at high temperatures, which pollutes the environment.

The closest in terms of technology and principle is the well-known film resistive electric heater per://psiitai sot.cha/paeh.rpr/t-yir/епы-ехма (infrared film for warm floors), chosen as a prototype here, a resistive composition based on carbon paste is used SMT technology (sagrop papo ishbe), which is applied in the form of strips to increase the effective area, and is hermetically sealed in a strong laminating film to ensure operation.

The electric heater is environmentally safe, as it consists of natural components - graphite, carbon, copper and silver. Due to the increased surface area and better heat distribution, the temperature of the film is reduced to 25-45 "С. Due to the relatively low temperature of the 90 95 film, its radiation is in the range of 5-20 μm. The air in the room is heated due to secondary heat radiation.

The disadvantage of this heater can be considered: the use of silver in the manufacture, which increases the price and complicates the production, the well-known design uses conductive carbon material with SMT technology (sagrop papo yshre), which increases the cost and complicates the technological process, the fire safety class is lower than the proposed useful model.

The useful model is based on the task of developing a design of a flexible resistive electric heater, which would have no worse performance characteristics than analogues: a simpler production technology, the use of the proposed design with a mixture layer, which includes flame retardants, allows to increase the fire safety class, which will positively affect the use of the useful model .

The problem is solved by the fact that a flexible resistive infrared heater, made in the form of a multi-component structure with a heating layer and conductive tires, according to a useful model, a film infrared resistive heater, with a thickness of no more than 0.5 mm, has a multi-component structure and includes inseparably with interconnected polyethylene terephthalate (PET) base, on which a mixture (composition) is applied, which includes flame retardants, a heating layer, which uses a resistive composition, which is applied by the method of screen printing, according to the given area, and located on the edges of current-conducting 60 copper tires laminated with an electrotechnical, waterproof, fire-resistant film.

The useful model belongs to flat electric heaters of long-range (5-20 microns) infrared radiation, namely to film (flexible) infrared resistive electric heaters, and is intended for the creation of radiant heating systems such as: warm floors, ceilings, walls, any residential, production and non-production premises.

At the same time, the proposed useful model can be used under different types of covering: linoleum, screed, laminate, tile, carpet, stretch ceiling, etc.

Therefore, to increase the efficiency of the system, it is necessary to develop a design for use in any coating and increase the fire safety class.

Claims (1)

USEFUL MODEL FORMULA Flexible infrared resistive heater, made in the form of a multi-component structure with a heating layer and conductive busbars, which is distinguished by the fact that the film infrared resistive heater, with a thickness of no more than 0.5 mm, has a multi-component structure and includes inseparably connected between them, a base of polyethylene terephthalate (PET), on which a mixture (composition) is applied, which includes flame retardants, a heating layer, which uses a resistive composition, which is applied by screen printing, according to a given area, and conductive copper busbars located on the edges, that are laminated with an electrical, waterproof, fire-resistant film.