UA146684U - IR RADIATOR HEATING RADIATOR - Google Patents

Abstract

The infrared heating radiator contains a flat radiating element made in the form of a tape of amorphous alloy ohmic resistance, located between flexible heat-resistant electrical insulating film elements and provided with terminals for connection to the mains, in which a continuous radiating tape flexible thermal insulating film elements superimposed on the screen with the property of reflecting infrared radiation and uniform distribution of rays over the entire surface of the electric heating element, the terminals for connection to the electrical network of the radiating element are additionally equipped with connecting sleeves. the surface of the film electric heater is protected by double-sided lamination with polyethylene terephthalate film. The flat element of infrared radiation is structurally made of plate and heating-radiating, of a certain length, thickness and width according to a predetermined area of thermal radiation of a long spectrum of radiative action in the range of 7-12 μm, of amorphous alloy material in the form of , 0.05 mm thick, with a specific electrical resistance of less than 10 Ohm / m, with optimal placement in accordance with the type of purpose and configuration between flexible thermal insulation, electrical, waterproof, fire-resistant films superimposed on the screen of reinforced aluminum foil from the property and uniform distribution of storage rays over the entire surface of the electric heating element and dehydration of 100-350 W per 1 liter of evaporated moisture, and the terminals for connection to the electrical network of the radiating element are equipped with copper sleeves, which are pressed contact groups of the ends of the continuous tapes and power cords.

Description

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The useful model belongs to electrical devices of the heating-radiating type, namely to film infrared heating emitters of a long spectrum of radiation action, which are intended for heating, prevention/destruction of mold fungi in residential, household, warehouse, industrial, other areas and premises, can be placed separately elements in overhead, hinged, suspended positions, to be installed in electrical devices, installations and other equipment, and can be used in infrared saunas and for high-quality dehydration of vegetables, fruits, mushrooms, berries, medicinal herbs, flowers and other raw materials, as for disinfection and resistance to fungi of products of plant origin, and as a countermeasure

MAFANM, BGKP (coliform bacteria) and other antibacterial action in food processing and other industries.

A film resistive electric heater is known, which 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 a transition element, for example, copper. Conductive buses are located on the main heater, along its edges. Due to the formation of a conductive transitional layer, which is included in the common electric circuit together with the main heater, 9595 heat is transferred due to direct radiation (Patent KO 94041312 A1i NOBV 3/16. Resistive electronic heater / Voronkova 3.P., Balkov A.V. Publ. 05/27/1996, Mo 141 Blvd.

However, the use of the reflective property of the additional transition layer provides a sufficiently wide spectrum of 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.

A film resistive electric heater (infrared film for underfloor heating) is also known, in which a resistive composition based on carbon paste applied to the film in the form of strips and hermetically sealed into a strong laminating film is used as a radiation element (peEr://tsiiitaisot.cha/ipaeeh. rpr/t-ir/epi-ehma)|.

The electric heater is characterized by an increased effective area and high operational properties, it 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

From a film temperature of 90 95, its radiation is in the range of 5-20 microns. The air in the room is heated due to secondary thermal radiation.

However, the use of a film as the basis of the entire structure, which has a high coefficient of thermal conductivity, because the heating proceeds evenly over the entire area of the heater on both sides, leads to an irrational use of electricity, since heating is used only on one side, and the heat that passes through the base is spent on heating of an unnecessary area.

The closest to the useful model, which is claimed in terms of technical essence, is the infrared electric heating unit, which contains a flat resistive radiating element, made in the form of a continuous tape from a precision amorphous alloy of ohmic resistance, located between flexible heat-resistant electrical insulating film elements and provided with terminals for connection to electrical network, in which the continuous tape of the radiating element is made with a width of 3.2 mm and a thickness of 0.03 mm from a precision amorphous alloy with a specific electrical resistance of less than 30 Ω/m, while the alloy contains (90 wt); iron - 22-47, chrome - 13-16, nickel - 16-22, OA 82659 | 4 aluminum - 6-12, tungsten - 1-3, boron - 14-18, silicon - 2-6, phosphorus - no more than 0.3, sulfur - no more than 0.15, with the total content of iron, chromium, nickel, aluminum and tungsten 78-82 95 wt., boron, silicon, phosphorus and sulfur 18-22 Uo wt. and laid with a non-intersecting combinational heating track, with the possibility of returning the tape by 90 degrees at the transition of the vertical track to the horizontal and at different angles on surfaces of different types, between two flexible heat-insulating film elements superimposed on a screen made of film fabric of the "Folar" type, with a thickness of at least 0.06 mm, containing a glass mesh covered on both sides with aluminum foil with the property of reflecting infrared radiation and evenly distributing heat over the entire surface, the terminals for connecting to the electric network of the radiating element are additionally equipped with sleeves, which are used to press the contact groups of the ends of the continuous tape and installation wires, and the surface of the film electric heater is protected by double-sided lamination with a polyethylene terephthalate film. The infrared electric heating unit provides for the possibility of combining the continuous tape of the radiating element in the form of a snake, in the form of a double spiral, in the form of a basic shell or linear-shell, or mirror-shell linear laying and in the form of a serpentine basic or mirror-serpentine laying, or a combined serpentine laying ( Patent of Ukraine for a utility model Mo 82659, NOBV 3/00. 60 Publ. 08/12/2013, Bull. Mo 151.

However, the production of a continuous tape of the radiating element from a precision amorphous alloy and its structural arrangement do not fully provide high and high-quality operational properties, which also leads to the irrational use of electricity and the narrowing of its scope of application.

The useful model is based on the task of producing a more efficient heating infrared emitter, with the possibility of connecting to an electrical network, by means of its plate constructive manufacturing and the use of amorphous alloy material in the design of the radiating element of a certain width and length, and its optimal arrangement to ensure high efficiency of the heating emitter infrared, its quality, reliability, safety and durability in use with minimal consumption of electrical energy for heating and specified dehydration of 100-350 W per 1 liter of evaporated moisture with an increase in heat capacity and expansion of its scope of application.

The task is solved by the fact that in the infrared heating emitter, the flat infrared radiation element is structurally made of plate and heating-radiating, of a certain length, thickness and width, according to a predetermined area of long-spectrum thermal radiation in the range of 7-12 microns, from a material amorphous alloy in the form of a tape of a certain length with a width of 2-20 mm, a thickness of 0.05 mm, with a specific electrical resistance of less than 10 Ohm/m, with an optimal layout in accordance with the type of purpose and configuration between flexible heat-insulating, electrical, waterproof, fire-resistant films, superimposed on the screen of reinforced aluminum foil with the property of high-quality reflection of infrared radiation and uniform distribution of saving rays over the entire given surface, and the terminals for connecting to the electric network of the radiating element are equipped with copper connecting sleeves, which are used to press the contact groups of the ends continuous tape and power cords.

Due to the fact that the flat element of infrared radiation is structurally made of plate and heating-radiating, of a certain length, thickness and width, according to the predetermined area of long-spectrum thermal radiation in the range of 7-12 microns, from the material of an amorphous alloy and its placement between

With flexible heat-insulating films, which are constructively superimposed on a screen made of reinforced aluminum foil, gives the electric heating element the property of high-quality reflection of infrared radiation, uniform distribution of saving rays over the entire surface of the electric heating element, contributes to the refraction of the heat wave, breaking it, forms a uniform heat flow density, which in turn, increases efficiency and expands the limits of application of the proposed useful model.

At the same time, unlike the closest analogue, the terminals for connecting the emitting element to the electrical network are equipped with copper connecting sleeves, which are used to press the contact groups of the ends of the amorphous tape and mounting wires, which increases the conductivity and reliability of the contact group at the connection point, preventing burnout, oxidation, increasing both durability and additional protection of the surface of the heating structure by double-sided lamination with a polyethylene terephthalate film.

Thus, with the set of proposed essential features, their cause-and-effect relationship, we have a new technical problem, sufficient to ensure the solution of the set task of a useful model.

Drawings explain the essence of a useful model.

In Fig. 1 - schematically, in section, the infrared heating radiator is given, where pos. 1 shows heat-insulating films, 2 - heating radiator tape, C - screen made of reinforced aluminum foil, 4 - film. In Fig. 2 - Scheme of laying out the radiating element, where on pos. 1 - thermal insulation films, 2 - amorphous alloy material, C - screen, 4 - double-sided laminating polyethylene terephthalate film, 5 - copper connecting sleeves with wire terminals - 6.

The tape of the heating radiator (2) is placed between flexible heat-resistant electrical insulating films (1), which are made, as an example, from PET-E-125 μm film according to DSTU 24234-80 (2), which are superimposed on a reflective screen made of reinforced aluminum foil (3 ), which supplements the thermal resistance by K-0.5 t2 "S/V), withstands significant mechanical loads in a wide range of environmental conditions, temperature regime from -60 to 4200 "C.

Due to these properties, the screen (3) performs a capacitor function, evenly distributing the high-quality reflection of infrared radiation and the uniform distribution of the saving rays over the entire given surface. The heating-radiating element is protected by double-sided lamination with a polyethylene terephthalate film (4), as an example of PET-E-50 μm according to

DSTU 24234-80, equipped with copper connecting sleeves (5), as an example 4x0.5x12, with which the contact groups of the ends of the continuous tape (2) and mounting wires are pressed, as an example

ZIB-0.5 tt: according to DSTU 17535-72, with terminals for connection to the electrical energy network (6).

For power supply, a voltage of 220 V alternating current with a frequency of 50 Hz is used. The DC electrical resistance under normal conditions is 285 Ohms (7-15 5 965). The leakage current of the working product is no more than 0.25 mA.

It is extremely important in the design to protect the surface of the plate heating and radiating element (electric heater) (2) by double-sided lamination with a polyethylene terephthalate film (4), as an example of 9iI-2702 laminating polyethylene terephthalate film according to UKTZED: 39206219, including possible simultaneous lamination with two or three block heaters , united by a parallel electrical circuit, which ensures moisture resistance, strength, structural reliability and electrical conductivity insulation.

The offered heating infrared emitter provides high energy efficiency, quality, reliability, safety and durability in use, belongs to plate (film, flexible) electric heaters of infrared emitters of a long spectrum of radiation action, in the range of 7-12 microns, which are intended for heating, prevention/destruction of mold of mushrooms in residential, household, warehouse, industrial, other areas and premises, can be placed as separate elements in overhead, hinged, suspended positions, installed both in electrical devices, installations and other equipment, and under various types of covering of stretch ceilings, suspended ceilings with plasterboard, under Armstrong ceiling elements, and can be used in infrared saunas and for high-quality dehydration of vegetables, fruits, mushrooms, berries, medicinal herbs, flowers and other raw materials as disinfection and resistance to fungi of plant products, as an antidote to MAFAnNM, BGKP (coliform bacteria ) and another antibacterial agent day of action in food processing and other industries.

Claims (1)

USEFUL MODEL FORMULA Infrared heating radiator containing a flat radiating element, Zo is made in the form of a ribbon of an amorphous alloy of ohmic resistance, located between flexible heat-resistant electro-insulating film elements and provided with terminals for connection to the electrical network, in which a continuous strip of radiating element is laid out by a combinational heating path that does not intersect, between two flexible thermo-insulating film elements superimposed on a screen with the property of reflecting infrared radiation and evenly distributing rays over the entire surface of the electronic heating element, the terminals for connecting to the electrical network of the emitting element are additionally equipped with connecting sleeves, which are pressed into the contact groups of the ends of the continuous tape and power wires, and the surface of the film electronic heater is protected by double-sided polyethylene terephthalate lamination film, which is distinguished by the fact that the flat element of infrared radiation is structurally made of plate and heating-radiating, defined length, thickness and width according to a predetermined area of thermal radiation of a long spectrum of radiation action in the range of 7-12 μm, made of an amorphous alloy material in the form of a tape of a certain length with a width of 2-20 mm, a thickness of 0.05 mm, with a specific electrical resistance of less than 10 Ohm/m, with an optimal layout in accordance with the type of purpose and configuration between flexible heat-insulating, electrical, waterproof, fire-resistant films superimposed on a screen of reinforced aluminum foil with the property of high-quality reflection of infrared radiation and uniform distribution of saving rays over the entire surface of the electric heating element and dehydration 100 -350 W per 1 liter of evaporated moisture, and the terminals for connecting to the electrical network of the emitting element are equipped with copper connecting sleeves, which are used to press the contact groups of the ends of the continuous tape and power wires. х M More things about the Day on the s With snnnnnn--- MVV WASHING- DISAPPEARING VYY 7 tn in NNNNvkN ШПНТПНТНТБРПТООТTTTTTTTTTTS zyusyuyukkkyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyuyu Fig. 1 With her INNNNNENNENNNNO Mona NN NN EEEnya U py Ne I 5 ke savannas / V ren ya: ne Z hiv TEH Fig.2