RU93609U1 - FILM ELECTRIC HEATER (OPTIONS) - Google Patents

Abstract

 1. A film electric heater containing two flexible electrical insulating films, between which a resistive heating element is placed, having a meander shape and equipped with leads for connection to an electric network or other electric heater, and a radiating element separated by a layer of flexible electrical insulation film, characterized in that the electric heater It is placed between two layers of a flexible electrical insulating film, connected together as a unit to ensure the tightness of the electric heater. ! 2. The film electric heater according to claim 1, characterized in that the edges of the two layers of flexible electrical insulating film protrude beyond the boundaries of the electric heater, at least from its two sides. ! 3. A film electric heater containing two flexible insulating films, between which a resistive heating element is placed, having a meander shape in plan and equipped with leads for connection to an electric network or another electric heater, and a radiating element separated by a layer of flexible electric insulation film, characterized in that the electric heater placed between two layers of a flexible electrical insulating film in the zone of bending of the bands of the resistive element and / or in the zone of connection of the resistive element with the output mi, interconnected into a single unit with ensuring the tightness of the electric heater. ! 4. The film electric heater according to claim 3, characterized in that the edges of the two layers of flexible electrical insulating film protrude beyond the boundaries of the electric heater, at least from its two sides.

Description

The utility model relates to the field of electrothermics, in particular to flat flexible radiating type electric heaters used for heating domestic, household and industrial premises, as well as in “warm floor” systems, in rooms with high humidity, infrared cabins (saunas), in systems for moisture removal (dryers), as heaters of a liquid medium, operating during immersion.

Electric heaters, incl. radiating type electric heaters used in rooms with high humidity, saunas, dryers, as submersible electric heaters of the medium, should first of all be hermetic, excluding the possibility of penetration of aggressive liquids, substances that lead to deterioration of the insulation state, metal corrosion of conductive elements, short short circuits, and as a result, damage to electric heaters. There are a number of film electric heaters that differ in design and material of their manufacture, while most film electric heaters have a restriction on use in wet rooms, in liquid heated environments as a result of insufficient tightness of the structure.

Known electric heater (RU 2286032, class Н05В 3/34, publ. 20.10.2006), containing two layers of thermoplastic film material with a thickness of 0.1-1 mm, installed between them a resistive layer consisting of resistive elements and associated welding current leads, top closed with two layers of electrical insulation material.

The disadvantage of an electric heater is the unevenness of the emitted infrared heat flow as a result of the placement of resistive elements at a certain distance from each other. For the formation of the necessary uniform heat flux, it is required that resistive elements be located at a distance of no more than 2 mm from each other, which leads to a significant increase in the cost of the electric heater design, approximately 50% of the cost of which is the cost of the material of the resistive elements.

As a prototype, a film electric heater was adopted (RU 84660, class Н05В 3/36, published July 10, 2009), made in the form of two electrically insulating flexible films between which a resistive heating and radiating element is placed in the form of a continuous tape of conductive material foil and a radiating element in the form of aluminum foil installed between an external electrical insulation film and a resistive heating and radiating element, separated by an electrical insulation film, while the thickness of all electrical insulation films same. The resistive heating and radiating element is equipped with leads for connection to an electrical network.

In the process of manufacturing a film electric heater, jamming of the material of the external insulating film is possible, and as a result, it is partially glued with another layer of the insulating film at the jamming points when the layers are connected, for example, by lamination. Moisture containing aggressive impurities or air with aggressive gases can penetrate through microholes in jamming places, which also occur during mechanical damage to an external electrical insulating film, when an electric heater is used in humid environments, and when immersed in a heated medium, conductive bands of a resistive heating and radiating element corrosion of the metal of the conductor, swelling, splitting of the joints of the films. Under such conditions, corrosion of aluminum and its alloys is especially severe, which can lead to complete breakage of the conductor and, therefore, of the conductive circuit. In addition, this leads to deterioration of insulation and a possible shorting of conductors to each other. Thus, the film electric heater does not have sufficient protection against the ingress of water with aggressive impurities or other substances on the resistive element, is not designed to work in humid environments and as a submersible electric heater of the medium.

The task to which the utility model is directed is to increase the reliability of the film electric heater by increasing its moisture resistance and electrical safety during operation.

The solution to this problem in a film electric heater according to the first embodiment, containing two flexible electrical insulating films, between which there is a resistive heating element having a meander shape in plan, and equipped with leads for connection to an electric network or another electric heater and a radiating element separated by a layer of flexible electrical insulating film, is achieved by the fact that the electric heater is placed between two layers of a flexible electrical insulating film, interconnected in a single unit with ensuring the tightness of the electric heater.

The solution to this problem in a film electric heater according to the second embodiment, containing two flexible electrical insulating films, between which there is a resistive heating element having a meander shape in plan, and equipped with leads for connecting to an electric network or another electric heater and a radiating element separated by a layer of flexible electrical insulating film, is achieved by the fact that the electric heater is placed between two layers of a flexible electrical insulating film in the bending zone of the bands of the resistive element and / or the zone of connection of the resistive element with the conclusions connected together as a whole to ensure the tightness of the electric heater.

For each of the options, the layers of a flexible electrical insulating film protrude beyond the boundaries of the electric heater, at least from its two sides.

As a result of the presence of additional flexible electrical insulation films that seal the electric heater completely or only in the area of the contact group (the zone of the resistive element to the leads) and on the opposite side of the electric heater (the zone of bending of the resistive element bands), additional electrical insulation of the resistive element, additional strength and moisture resistance of the structure are provided . In addition, the possibility of the formation of microholes arising from possible jamming of the films during their joining, for example, by lamination, due to the presence of external electrical insulating layers, is practically eliminated.

In this case, the edges of the film protrude beyond the boundary of the electric heater, at least from two sides, when connecting the layers of the film, a sealed “envelope” is obtained in which the electric heater is sealed. This significantly increases the moisture resistance and strength of the electric heater, which makes it possible to operate reliably in humid environments and as submersible electric heaters of a liquid medium when they are partially or completely immersed, expanding the possibility of using known film electric heaters.

The essence of the utility model is illustrated by the drawing: Fig. 1 is a general view of a film electric heater according to the first embodiment, Fig. 2 is a general view of a film electric heater according to a second embodiment, and Fig. 3 is a cross-sectional view of a sheet of a film electric heater according to a first embodiment.

The film electric heater according to the first embodiment contains upper 1 and lower 2 flexible electrical insulation films made of heat-resistant polymer material, for example, lavsan, between which a resistive heating element 3 and a radiating element 4 are placed, separated by a layer of flexible electrical insulation film 5, usually from the same heat resistant polymer material.

The resistive heating element 3 is made in the form of thin parallel strips of conductive material, for example, aluminum foil, connected to form a meander shape or a sinusoid in plan, with an L-shaped bend towards the adjacent strip alternately on one or the other side, with jumpers or continuous laying.

The bands of the resistive heating element 3 occupy, as a rule, from 15 to 70% of the film of the film electric heater, can be connected by spot welding, carried out at the molecular level.

To the extreme bands of the resistive heating element 3 are soldered conclusions 6 for connection to a power supply network or other film electric heater.

The radiating element 4 is made in the form of a thin metal foil, for example, aluminum, as a rule, its size corresponds to the longitudinal sectional area of the electric heater. The radiating element 4 provides a uniform configuration of the temperature field created by the resistive heating element 3.

Additional flexible electrical insulating films 7 and 8 are made of heat-resistant polymer material, for example, lavsan. At the same time, at least two edges of the additional flexible electrical insulating films 7 and 8 protrude beyond the perimeter of the electric heater by a certain distance n, ensuring reliable fastening of all layers of the electric heater into a sealed “envelope”, as shown in Fig. 3, which provides reliable protection against active substances inside the electric heater.

The thickness of each electrical insulating film 1, 2 and 5 varies from 30 microns to 3 mm, depending on the requirements for an electric heater. The applied thickness of the electrical insulation films 1 and 2 protects the heater from electrical breakdown during network congestion and from mechanical damage to the resistive heating element 3. The applied thickness of the internal flexible electrical insulation film 5 determines the rigidity of the film electric heater and protection against short circuit of the resistive heating element 3 to the radiating element 4 The layers of additional flexible electrical insulating film 7 and 8 ensure the tightness of the design of electric heating atelier and provide additional protection against mechanical damage of the resistive element 3.

The tests established that the specific power of the electric heater is in the range of 70-250 W / m ² , while the working current flowing through the resistive heating element 3 does not exceed 1 A.

The magnitude of the current within 1 A flowing through the resistive heating element 3 creates an electromagnetic field that does not exceed the magnetic field of the earth and does not have a harmful effect on the human body.

The device of the film electric heater according to the second embodiment is similar to the construction of the film electric heater according to the first embodiment, the difference is that the film electric heater contains layers of an additional flexible electrical insulating film 7 and 8, partially connected only in the area of the contact group: the zone of connection of the bands of the resistive element 3 with terminals 6 and / or on the opposite side of the electric heater: the bending zone of the bands of the resistive element 3. Figure 2 shows the implementation of the film electric heater with additional flexible electric insulating films 7 and 8, placed on both ends of the electric heater. The edges of the additional flexible insulating film 7 and 8 protrude beyond the boundary of the film electric heater to obtain a sealed “envelope” when they are connected, for example, by lamination. Additional flexible electrical insulating films 7 and 8 are connected with the purpose of additional mechanical strength and tightness of particularly vulnerable places of the electric heater: the places of bending and joining of the strips of the resistive element 3 and the places of fastening of the strips of the resistive element 3 to the terminals 6.

The film electric heater according to the first embodiment is made by producing at the first stage a laminated sheet consisting of five layers arranged as follows: between the top 1 and middle 5 layers of the electrical insulation film there is a resistive heating element 3 made in the form of 5 parallel strips uniformly distributed over the surface of the electrical insulation film, connected by an образ-shaped bend towards an adjacent strip, alternately on one and the other side, with jumpers or continuous laying, and accordingly between the middle 5 and lower 2 layers is a radiating element 4, conclusions 6 are connected to the resistive element 3. Next, the sheet is re-laminated with layers of additional flexible electrical insulation film 7 and 8, while at least two edges of the flexible additional electrical insulation film 7 and 8 protrude overseas electric heater. In order not to damage the metal terminals 6, lamination is carried out by means of hot rubber rolls. After lamination, the conclusions 6 are released by cutting them, for example, with technological scissors.

The manufacture of a film electric heater according to the second variant is similar to the technological process of manufacturing an electric heater in accordance with the first variant, the difference is that at the second stage of lamination, the connection of additional flexible electrical insulating films 7 and 8 is carried out only in the places most vulnerable to damage and penetration of moisture or aggressive environments: the zone of bending and connecting the bands of the resistive element 3 and the zone of fastening of the bands of the resistive element 3 to the conclusions 6. The edges will complement Flax flexible insulating film 7 and 8 extend beyond the film electric heater, providing a reliable connection layers of films 7 and 8.

The operation of the film electric heater for each of the options is as follows.

The conclusions 6 of the film electric heater are connected to the electric network through a step-down voltage element or through another film electric heater connected in series or in parallel. A current flows through the resistive heating element 3, causing it to heat. The resistive heating element 3 heats the radiating element 4, from the surface of which the infrared heat flux is uniformly radiated, which ensures heating of objects and the floor of the room, which generate heat inside the room, as well as heating of the medium into which the electric heater is immersed.

Claims (4)

1. A film electric heater containing two flexible electrical insulating films, between which a resistive heating element is placed, having a meander shape and equipped with leads for connection to an electric network or other electric heater, and a radiating element separated by a layer of flexible electrical insulation film, characterized in that the electric heater It is placed between two layers of a flexible electrical insulating film, connected together as a unit to ensure the tightness of the electric heater. 2. The film electric heater according to claim 1, characterized in that the edges of the two layers of flexible electrical insulating film protrude beyond the boundaries of the electric heater, at least from its two sides. 3. A film electric heater containing two flexible insulating films, between which a resistive heating element is placed, having a meander shape in plan and equipped with leads for connection to an electric network or another electric heater, and a radiating element separated by a layer of flexible electric insulation film, characterized in that the electric heater placed between two layers of a flexible electrical insulating film in the zone of bending of the bands of the resistive element and / or in the zone of connection of the resistive element with the output mi, interconnected into a single unit with ensuring the tightness of the electric heater. 4. The film electric heater according to claim 3, characterized in that the edges of the two layers of flexible electrical insulating film protrude beyond the boundaries of the electric heater, at least from its two sides.