RU118501U1 - FLEXIBLE SHEET HEATING ELEMENT - Google Patents

Abstract

Flexible sheet heating element containing a meander-shaped resistive heating circuit made of high-resistance wire strands, connected to the electrical network, fixed between electrical insulating films, and a radiating element made of thin aluminum foil, characterized in that the resistive heating circuit is wound in a meander continuously, at the points of connection to electrical network using contact conductors is insulated with heat shrink tube.

Description

The utility model relates to flat electric heaters of a radiating type, in particular to film electric heaters used for heating domestic and industrial premises, in livestock breeding - heating of young animals, in incubators for newborns, when drying various materials and coatings.

Known film electric heater described in patent No. 57070, IPC H05B 3/18. Known electric heater consists of a flat heating resistive element, which simultaneously serves as a radiating element and is made of a meander-shaped foil, which is a precision conductive material based on iron, in the form of strips interconnected without jumpers.

A disadvantage of the known heater is that the parallel strips are arranged so that the distance between their adjacent sides is not more than 2 mm. This leads to a large consumption of expensive precision material, a decrease in reliability.

Closest to the claimed utility model adopted for the prototype is является, IPC H05B 3/14

The film electric heater contains a meander-shaped resistive heating element located between two flexible heat-resistant electrical insulating films and equipped with leads for connection to the electric network, and a radiating element made of thin aluminum foil installed between the external electrical insulating film and the resistive element and the thinnest insulating film separated from it. As a heating element, a circuit is used, consisting of rods of high-resistance wire with a constant cross section along the length of the wires stretched and fixed on a heat-resistant insulating film at the same distance from each other, connected at the ends to each other in a meander using contact plates.

A disadvantage of the known heater is that due to the use of contact plates connecting the threads of the resistive elements, the risk of defects — burnouts, breaks at the junction points and lower reliability in operation — increases. In addition, the placement of the emitting element made of thin aluminum foil between the external insulating film and the resistive element leads to increased noise during operation of the utility model.

The objective of the proposed technical solution is to improve the operational properties - reliability in operation by reducing the risk of defects, burnouts and breaks at the junction, as well as eliminating unwanted noise while reducing the quality of the mains voltage.

The problem is solved due to the fact that in a flexible sheet heating element containing a resistive heating circuit meander form of high-resistance wire strands connected to an electrical network, fixed between electrical insulation films, and a radiating element made of thin aluminum foil, in contrast to the prototype, a resistive heating circuit wound into the meander continuously, at the points of connection to the electric network is insulated with a heat shrink tube, and the radiating element is located on upper insulating film.

The utility model, due to the fact that the resistive heating circuit is wound continuously in the meander, and at the points of connection to the electric network it is insulated with the help of a heat shrink tube, allows to increase reliability in operation by reducing defects, breaks and burnouts at the joints. Due to the fact that the radiating element is located above the upper electrical insulating film, the level of unwanted noise is reduced.

The technical nature of the proposed solution is illustrated in FIG.

In FIG. A flexible sheet heating element and a sectional view A-A are depicted.

A flexible sheet heating element comprises a radiating element 1 (Fig.) Made of aluminum foil located above the upper electrical insulating film, a resistive heating circuit of a meander shape 2 of threads of high resistance wire wound continuously and contact conductors 3 for connecting to an external electrical network, which are a continuation of the resistive element, insulated with heat shrink tubing. The heating circuit of the meander form 2 is laminated between two heat-resistant electrical insulating films 4.

Continuous winding of a resistive heating circuit from high-resistance wire strands is carried out using movable roller carriages between the bearings of which a high-resistance wire is fed from a bay, after which the resulting meander is stretched to the desired length determined by a standard size series of flexible sheet heating elements.

The utility model works as follows. Electric current is supplied through the contact conductors 3 and, flowing along the heating circuit 2, generates heat. The surface temperature of the electric heating element is equalized using aluminum foil of the radiating element 1. The radiating element 1, evenly heated, emits a stream of infrared radiation.

A flexible sheet heating element is installed in the pigsties, in a number of clubs as the main element of the heating system.

The use of the utility model eliminates failures in the operation of the heating element associated with defects and breaks in the threads of the high-resistance wire and several times reduce the noise level of the working device.

Claims (1)

A flexible sheet heating element comprising a meander-shaped resistive heating circuit made of high-resistance wire strands connected to an electric network, fixed between electrical insulation films, and a thin aluminum foil radiating element, characterized in that the resistive heating circuit is continuously wound in the meander at the points of connection to electrical network using contact conductors is insulated by heat shrink tube.