RU178447U1 - COMPOSITION HEATING ELECTRIC DEVICE - Google Patents

Abstract

The utility model relates to electrothermics and can be used for the manufacture of flexible and rigid composite electric heating devices for domestic and industrial use with a high degree of moisture and electrical protection, which can be used, in particular, in the manufacture of containers and other products from fiberglass heating, in the manufacture of rugs for heated machines, for the installation of underfloor heating and walls, and can also be used in animal husbandry, in the manufacture of heating panels used for I am a local heating zones in the reproduction of young and drinkers for animals heating. Composite heating electric device containing an insulating layer, a resistive heating element made in the form of a flexible sheet resistive heating element enclosed in an insulating layer made in the form of a shell consisting of at least one composite layer based on an impregnated synthetic resin with the addition of a woven catalyst or non-woven reinforcing material with a density of from 0.01 kg / mdo to 2 kg / m. The composite heating electric device may also comprise a decorative layer or a heat insulating layer. 3 of FIG.

Description

The utility model relates to electrothermics and can be used for the manufacture of flexible and rigid composite electric heating devices for domestic and industrial use with a high degree of moisture and electrical protection, which can be used, in particular, in the manufacture of containers and other products from heated fiberglass, in the manufacture of rugs for cars with heating, for the installation of underfloor heating and walls, and can also be used in animal husbandry, in the manufacture of heating panels used for I am a local heating zones in the reproduction of young and drinkers for animals heating.

In recent years, great importance has been attached to the production and use of flexible sheet electric heating elements made in the form of multilayer polymer devices, between the layers of which a heat-generating resistive element is sealed, but their scope is quite limited.

It is known "Flexible heating device", patent for utility model of the Russian Federation No. 2356, MKI H05B 3/34, which contains a resistive element connected to an insulating layer, which in turn borders on the one side with a heat-insulating layer, and on the other hand with a release layer layer. On the outside of the insulating layer is a moisture insulating layer.

The disadvantage of this flexible heating device is that the heating resistive element is made in the form of a multi-wire wire enclosed in a metal braid-screen, and the braid-screen is enclosed in an electrical insulating tube, one side of the heating device is moisture-proof, which in turn leads to uneven heating of the surface and reduces the operational capabilities of the device.

The closest in technical essence is “Electric heating panel”, patent for utility model of the Russian Federation No. 86707, MKI F24D 13/00, H05B 3/28, H05B 3/34, containing two electrical insulation layers made of a polymeric material, and an electric heating resistive element located directly on the insulating layer and connected through connecting wires to the mains. A protective and decorative layer of polymer material is applied on top of the resistive element.

The disadvantage of this heating panel is that it has a large weight, brittle, not moisture resistant, the surface warms up unevenly, there is a zebra effect, a complex and expensive manufacturing process.

The objective of the utility model is to increase the strength, reliability, moisture resistance, heat resistance and increase the electrical insulation properties of a composite heating electric device.

This is achieved by the fact that in a composite heating electric device containing an insulating layer and a resistive heating element, which is connected to a power source by means of conductive leads, the resistive heating element is made in the form of a flexible sheet resistive heating element enclosed in an insulating layer made in the form of a shell, consisting of at least one composite layer based on a synthetic resin impregnated with the addition of a woven or non-woven catalyst of reinforcing material density of 0.01 kg / m ² to 2 kg / m ^2.

A synthetic resin in a composite heating electric device is, for example, a polyamide resin, a polyurethane resin, a polyester resin, an epoxy resin or an acrylic resin.

On the one hand, a decorative protective layer based on synthetic resin with the addition of a catalyst is applied to the outer surface of the insulating layer of the composite heating electric device.

The composite heating electric device contains a heat-insulating layer with a thickness of 3 mm to 100 mm and a density of 20 kg / m ³ to 900 kg / m ³ in contact with the insulating layer and located on one side of the flexible sheet resistive heating element, and on the outer surface the heat-insulating layer is coated with a synthetic resin with the addition of a catalyst and a composite layer based on impregnated with a synthetic resin with the addition of a catalyst of a woven or non-woven reinforcing material with a density of 0.01 kg / m ² up to 2 kg / m ² .

The heat-insulating layer of the composite heating electric device is made, for example, of mineral wool, foam glass, glass fiber, polyurethane foam, expanded polystyrene, foamed polyethylene, expanded perlite, vermiculite, cork, wood, DVGL, chipboard, foam concrete, asbestos, polyurea, foam rubber, cellulose or textile material.

In FIG. 1 shows a top view with a layered section of a composite heating electric device.

In FIG. 2 shows a top view with a layered section of a composite heating electric device containing a decorative layer.

In FIG. 3 shows a top view with a layered section of a composite heating electric device containing a decorative and heat-insulating layer.

The composite heating electric device comprises a flexible sheet resistive heating element 1 having conductive leads 2 connected to a power source and enclosed in a sheath 3 consisting of at least one composite layer based on a synthetic resin impregnated with an added catalyst of a woven or non-woven reinforcing material density from 0.01 kg / m ² to 2 kg / m ² .

Composite heating electric device may contain a decorative protective layer 4 made of synthetic resin with the addition of a catalyst, and located on one side of the shell 3.

Also, a composite heating electric device may include a heat-insulating layer 5 located on one side of the sheet heating element 1, and a decorative protective layer 4.

Composite heating electric device can be manufactured by various molding methods, for example, by contact manual molding.

A release layer is applied to the cleaned and degreased matrix of the future product, then, for example, a layer of fiberglass material is laid and impregnated with synthetic resin with the addition of a catalyst, then a flexible sheet resistive heating element with conductive leads smaller than the size of the matrix by 1-2 cm is laid, and rolls onto fiberglass impregnated with synthetic resin. As a flexible sheet resistive heating element, for example, an electric heating film based on a nonwoven electrically conductive material with a deposited or impregnated carbon layer with a thickness of 0.2 mm to 2 mm laminated (or non-laminated) with polyethylene terephthalate can be used. Next, a layer of fiberglass material is laid on a flexible sheet heating element, which is also impregnated with a synthetic resin with the addition of a catalyst and rolled. As a synthetic resin, for example, a polyester resin with the addition of a catalyst can be used, and as a catalyst, for example, peroxide can be used. After curing, the product is removed from the mold, the product is trimmed and aligned at the edges.

In the manufacture of a composite heating electric device with a decorative protective layer, a release layer is applied to the cleaned and degreased matrix of the future product, after it is dried, a decorative protective layer (gelcoat) is applied based on, for example, synthetic resin with the addition of a catalyst and, after curing, is laid down, for example, a layer of fiberglass material, then impregnated with a synthetic resin with the addition of a catalyst, a flexible sheet resistive heating element with conductive terminals, the size of which is smaller than the size of the matrix by 1-2 cm, and rolls onto the fiberglass material impregnated with synthetic resin. Then, a synthetic resin with the addition of a catalyst is applied to a flexible sheet resistive heating element, a layer of fiberglass material is laid, which is also impregnated with a synthetic resin with the addition of a catalyst and rolled. After curing, the product is removed from the mold, the product is trimmed and aligned at the edges.

Composite heating electric device with a heat-insulating layer is made in the following sequence. An anti-adhesive layer is applied to the cleaned and degreased matrix of the future product, after it is dried, if necessary, a decorative protective layer (gelcoat) is applied based on, for example, synthetic resin with the addition of a catalyst, after curing, for example, a layer of fiberglass material is applied and impregnated with synthetic with resin with the addition of a catalyst, a flexible sheet resistive heating element with conductive leads is laid, the dimensions of which are smaller than the dimensions of the matrix by 1-2 cm, then applied tsya synthetic resin with addition of a catalyst layer is laid fiberglass material impregnated with synthetic resin with addition of a catalyst and is rolled. After this, a heat-insulating layer, made, for example, of basalt wool, is laid. The thickness of the insulating layer can be from 3 mm to 100 mm, with a density of 20 kg / m ³ to 900 kg / m ³ . The heat-insulating layer is impregnated with a synthetic resin with the addition of a catalyst, then at least one layer of fiberglass material is laid, impregnated with a synthetic resin with a catalyst and rolled until a uniformly impregnated surface appears. After curing, the product is removed from the mold, the product is trimmed and aligned at the edges.

Composite heating electric device operates as follows.

The conductive terminals 2 of the flexible sheet resistive heating element 1 are connected to a power source, after which the flexible sheet resistive heating element 1 is heated and generates heat. The insulating layer 3 warms up quickly and evenly, transferring heat to the heated medium.

The heat-insulating layer 5 in the composite heating electric device accumulates heat and prevents the cooling of the device.

The heating temperature of the flexible sheet resistive heating element 1, if necessary, can be adjusted by connecting it to a power source through a thermostat, this will save energy consumption by half.

The claimed composite heating electric device can be used as a durable and electrically safe underfloor heating, which is made in the following sequence. An adhesive layer based on, for example, synthetic resin with the addition of a catalyst is applied to a cleaned and degreased foundation of a future warm floor, then, for example, a layer of fiberglass material is laid and impregnated with a synthetic resin with the addition of a catalyst, then a flexible sheet resistive heating element with conductive leads is laid, the dimensions of which less than the size of the layer of fiberglass material by 1-2 cm, and rolls onto the fiberglass impregnated with synthetic resin aterialu. As a flexible sheet resistive heating element, it is possible to use, for example, an electric heating film based on a non-woven electrically conductive material with a deposited or impregnated carbon layer, 0.2 mm to 2 mm thick, laminated (or non-laminated) with polyethylene terephthalate. Next, a layer of fiberglass material is laid on a flexible sheet resistive heating element, which is also impregnated with a synthetic resin with the addition of a catalyst and rolled. After curing the layers, the device is ready for use as intended.

As a synthetic resin, for example, a polyester resin can be used, and as a catalyst, for example, peroxide can be used.

A composite heating electric device having a size of 0.5 m × 1.2 m, with a supply voltage of 220 V, consumes 120 W power, is capable of supporting a surface temperature of 10 to 60 ° C and has technical characteristics corresponding to GOST R IEC 60335-2-30 -99, GOST IEC 60335-1-2008, GOST 30805.14.1-2013, GOST 30805.14.2-2013, GOST 30804.3.2-2013, GOST 30804.3.3-2013.

Composite heating electric device, depending on the purpose, can be made in different sizes, colors and configurations.

This device is highly reliable in operation, technologically advanced, moisture resistant, heat resistant, electrically safe, does not require sophisticated equipment - presses, and finds a wide range of applications.

Claims (5)

1. Composite heating electric device containing an insulating layer and a resistive heating element, which is connected to a power source by means of conductive leads, characterized in that the resistive heating element is made in the form of a flexible sheet resistive heating element enclosed in an insulating layer made in the form of a shell, consisting of at least one composite layer based on a synthetic resin impregnated with the addition of a woven or non-woven catalyst o reinforcing material with a density of from 0.01 kg / m ² to 2 kg / m ² , further comprises a heat-insulating layer located on one side of the flexible sheet resistive heating element and in contact with the insulating layer. 2. The composite heating electric device according to claim 1, wherein the synthetic resin is, for example, a polyamide resin, a polyurethane resin, a polyester resin, an epoxy resin or an acrylic resin. 3. The composite heating electric device according to claim 1, characterized in that, on the one hand, a decorative protective layer based on synthetic resin with the addition of a catalyst is applied to the outer surface of the insulating layer. 4. The composite heating electric device according to claim 1, characterized in that it contains a heat-insulating layer, a thickness of 3 mm to 100 mm and a density of 20 kg / m ³ to 900 kg / m ³ in contact with the insulating layer and located on one side from a flexible sheet resistive heating element, with a synthetic resin with the addition of a catalyst and a composite layer based on impregnated with a synthetic resin with the addition of a woven or non-woven reinforcing catalyst applied to the outer surface of the heat-insulating layer a material density of 0.01 kg / m ² to 2 kg / m ^2. 5. A composite heating electric device according to claim 4, characterized in that the heat-insulating layer is made, for example, of mineral wool, foam glass, glass fiber, polyurethane foam, polystyrene foam, foamed polyethylene, expanded perlite, vermiculite, cork, wood, fiberboard, particleboard, foam concrete, asbestos, polyurea, foamed rubber, cellulose or textile material.

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