RU21991U1 - FLEXIBLE ELECTRIC HEATER - Google Patents

Abstract

1. A flexible electric heater containing a conductive base, on which, due to adhesion, heating conductors made of a conductive paste are fixed with power supply elements, characterized in that the conductive paste contains a mixture of a polymer conductive paste and a polymer resistive paste. 2. The flexible electric heater according to claim 1, characterized in that one of the sides of the non-conductive base is coated with an adhesive. Flexible electric heater according to claims 1 and 2, characterized in that the non-conductive base is made of polyethylene terephthalate film. 4. The flexible electric heater according to claim 1, characterized in that the mixture of conductive paste is made of a polymer conductive paste PSP-1 with a specific resistance of 10 Ohm / A and a polymer resistive paste PURP-GP with a specific resistance of 200 Ohm / A.

Description

2000126881

.-ШРРЦРРДНППга cl. N05VZ / 34 FLEXIBLE ELECTRIC HEATER

The utility model relates to the field of electrical engineering, namely to flexible electric heaters that can be used in the construction of electric heating devices for household and technical purposes, for example, in vehicle seats, medical equipment, anti-fogging devices and other structures.

Known flexible electric heater / cm. RF patent No. 2074524, cl. Н05В 3/34, 1997 /, containing a non-conductive base on which a flexible conductive resistive module and associated flexible electrodes are mounted with contact pads at the ends for connection to a power source.

A disadvantage of the known design is the difficulty of manufacturing a heater, and the use of a braided copper wire as an electrically conductive cord reduces the resource under prolonged exposure to an alternating load.

Known flexible electric heater / cm. testimonial. Utility Model No. 13457 of the Russian Federation, class C, Н05В 3/34, 1999 /, selected as a prototype, containing a non-conductive base, on which, due to adhesion, heating conductors made of conductive paste are fixed with contact pads at the ends for connection to a power source .

A disadvantage of the known design is the high complexity and energy consumption due to layer-by-layer polymerization, high consumption of poly1; 1-dimensional paste and uneven heating of the surface.

The task of creating a utility model was to reduce the complexity of manufacturing due to the use of new material of paste paste, and by reducing its consumption to reduce the cost of manufacturing a heater. In addition, due to the density of the pattern, to achieve a more uniform heating of the surface.

- 2 The problem is solved in that a flexible electric heater containing a non-conductive base, on which, due to adhesion, heating conductors made of a conductive paste are attached, with elements for connecting to a power source, the conductive paste contains a mixture of polish, 5-wire conductive paste and polshlerny resistive paste . In addition, one of the sides of the non-conductive base can be coated with glue B and 1 composition, and

the non-conductive base is made of polyethylene terephthalate film mixture. It is advisable to carry out the perforating paste from polsh -1ernoy

conductive paste P (11-1 with a distinct IVI resistance of 10 ohm / a; and polshlerny resistive paste PSh1-GP with a specific resistance of 200 ohm / a.

A distinctive feature of the claimed utility model from the prototype is the new material of the heating conductors, which is a mixture of two polymer pastes: conductive and resistive. Mixing the famous ndl-I half-yarn conductor paste with ud. resistance of 10 ohm / a with the well-known polystyrene resistive paste PUNT-GP. with beats. resistance 200 ohm / a, we get a paste with beats. resistance less than 100 ohm / a. This allows you to reduce the complexity by performing heating conductors with one layer of paste, accordingly, drying of one layer is excluded from the process and paste consumption is reduced, because the width of the conductive heating conductor decreases from 18 to 3 IM. As a flexible non-conductive base, it is advisable to use the well-known polyethylene terephthalate self-adhesive film, but you can use other films that meet the same requirements.

The essence of the claimed utility model is illustrated by the Chertelum, where the plan shows a general view of the electric heater.

2nd / 2nd UI

a film on which the adhesive side is applied on the non-visible side. On a non-conductive base I using a stencil / to hell, not shown / applied heating conductors 2 and elements of connection to the power source in the form of pads 3. To pads 3 in a known manner attached terminal 4 with wire 5 from the supply device. The fastening of the conductors 2 to the current-conducting onova I is carried out due to the adhesion of the conductive paste to the dacron film during polymerization.

For the industrial production of a flexible electric heater, a polyethylene terephthalate / dacron / film with an adhesive composition applied on one side was used. A conductive base I was cut from the film of the required size. On the side of the base I, which does not contain an adhesive layer, conductors 2 are applied by screen printing, which are a thin layer of conductive paste made up of a mixture of two polymer pastes:

conductor PSP-1 with beats, resistance 10 ohm / a and resistive PUSH-GP with beats. resistance 200 ohm / a. The conductive paste applied to the base I is polymerized at a temperature of 80-130 C for 60 minutes. In this case, the heating conductors 2, adhering to the material of the non-conductive base I, make a strong connection with it. If necessary, the heating conductors 2 can be insulated with the same Dacron film or other / known material that does not reduce the flexibility of the electric heater. The adhesive layer of the polyethylene terephthalate film is used to fix it as insulation of the heating conductors 2, as well as to fix the heater in devices for domestic or technical use. x7 -: Authors: Ch ,, - Krivenko A.I.,

GOiZ f

- 3 Petina E.M.,

Claims (4)

1. A flexible electric heater containing a conductive base, on which, due to adhesion, heating conductors made of a conductive paste are fixed with power supply elements, characterized in that the conductive paste contains a mixture of a polymer conductive paste and a polymer resistive paste.  2. The flexible electric heater according to claim 1, characterized in that one of the sides of the non-conductive base is coated with an adhesive.  3. Flexible electric heater according to claims 1 and 2, characterized in that the non-conductive base is made of polyethylene terephthalate film. 4. The flexible electric heater according to claim 1, characterized in that the mixture of conductive paste is made of a polymer conductive paste PSP-1 with a specific resistance of 10 ^-6 Ohm / A and a polymer resistive paste PURP-GP with a specific resistance of 200 Ohm / A.