RU230153U1 - Electric heater for thermal cover - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to flexible heating elements on a woven base, which can be used in various industries or in everyday life. An electric heater for a thermal cover comprises a heating element made of conductive fabric and placed between polymer layers of the coating made of an electrically insulating material, wherein along the edges of the conductive fabric there are edge electrodes electrically connected to it, connected to an electric cord, at the point of connection of the latter to the edge electrodes on the polymer layer of the coating there is a thermal lead, the heating element is made of a rectangular shape, one of the edge electrodes is made in the form of a flat strip, and the other is made in the form of an L-shaped strip, wherein in the latter, on the section of the strip located outside the conductive fabric, a gap is made into which a thermostat is connected, fixed on the outer surface of the electric heater, and a grounding element made of conductive material is fixed on the polymer coating, wherein the edge electrodes are made of metals, the specific electrical resistance of which at a temperature of 20 ° C does not exceed 3.0⋅10 ^-8 Ohm⋅m, and the thickness of the edge electrode located along the short side of the rectangular heating element, and a portion of the L-shaped edge electrode located along the opposite short side of the heating electrode exceeds the thickness of the portion of the L-shaped edge element located along the long side of the heating element without contact with the latter, wherein the cross-sectional area of the metal strip from which the edge elements are made is the same along the length of the metal strip. As a result, the reliability of the electric heater is increased due to the optimization of the design of the edge electrodes in the electric heater for the thermal cover.

Description

The utility model relates to the field of electrical engineering, namely to flexible heating elements on a woven base, which can be used in various industries or in everyday life, primarily for heating equipment that is used at low ambient temperatures.

An electric heater is known that contains a heating element made of conductive fabric and placed between polymer layers of a coating made of an electrically insulating material, wherein along the edges of the conductive fabric there are edge electrodes electrically connected to it, connected to an electric cord, and where the latter is connected to the edge electrodes, a thermal lead is made on the polymer layer of the coating (see patent RU No. 2155461, class H05B 3/34, published 27.08.2000).

However, this electric heater does not have any devices to control the heating of the electric heater, which does not exclude the possibility of the electric heater failing due to its overheating. In addition, due to the use of plastics as insulating materials, it is possible for electrostatic electricity to accumulate and, as a result, the electric heater to fail due to breakdown of the insulating layer.

The closest to the utility model in technical essence and the achieved result is an electric heater for a thermal cover, containing a heating element made of conductive fabric and placed between polymer layers of the coating made of electrically insulating material, wherein along the edges of the conductive fabric there are edge electrodes electrically connected to it, connected to an electric cord, wherein at the point of connection of the latter to the edge electrodes on the polymer layer of the coating there is a thermal lead, the heating element is made of a rectangular shape, one of the edge electrodes is made in the form of a flat strip, and the other - in the form of an L-shaped strip, wherein in the latter on the section of the strip located outside the conductive fabric there is a gap made into which a thermal limiter or thermostat is connected, fixed on the outer surface of the electric heater, and on the polymer coating there is a grounding element fixed, made in the form of a metal mesh or metal foil or in the form of a coating made of conductive (resistive) material, (see patent RU No. 2392779, class H05B 3/34, published 20.06.2010).

However, this electric heater does not have any disclosed features of the edge electrodes, the design of which largely determines the reliability of the electric heater.

The problem that this utility model is aimed at solving is the elimination of the noted shortcomings.

The technical result consists in increasing the reliability of the electric heater operation by optimizing the design of the edge electrodes in the electric heater for the thermal cover and thereby preventing overheating of the edge electrodes.

The problem is solved and the technical result is achieved due to the fact that the electric heater for the thermal cover contains a heating element made of conductive fabric and placed between polymer layers of the coating made of electrically insulating material, while along the edges of the conductive fabric there are edge electrodes electrically connected to it, connected to an electric cord, at the point of connection of the latter to the edge electrodes on the polymer layer of the coating there is a thermal lead, the heating element is made of a rectangular shape, one of the edge electrodes is made in the form of a flat strip, and the other - in the form of an L-shaped strip, and in the latter on the section of the strip located outside the conductive fabric, a gap is made into which a thermostat is connected, fixed on the outer surface of the electric heater, and a grounding element made of conductive (resistive) material is fixed on the polymer coating, while the edge electrodes are made of metals, the specific electrical resistance of which at a temperature of 20 ° C does not exceed 3.0⋅10 ^-8 Ohm⋅m, and the thickness of the edge electrode located along the short side of the rectangular heating element and the part of the L-shaped edge electrode located along the opposite short side of the heating electrode exceeds the thickness of the part of the L-shaped edge element located along the long side of the heating element without contact with the latter, and the cross-sectional area of the metal strip from which the edge elements are made is the same along the length of the metal strip.

The conducted research revealed the need to manufacture electric heaters with increased requirements for the reliability of their operation as part of a thermal cover. It was found that in order to increase the reliability of the electric heater, it is important not only to supply the electric heater with a thermostat fixed to the electric heater and included in the gap of one of the electrodes, taken out of the conductive fabric and to make a grounding element on the polymer coating, made in the form of a metal mesh, or metal foil, or in the form of a coating of their conductive (resistive) material, but also how and in what way the edge electrodes are made.

On the one hand, it is necessary to ensure the flexibility of the electric heater, and on the other hand, to ensure the reliability of the connection of the edge electrodes with the conductive fabric and at the same time to ensure uniform heating of the electric heater with the exclusion of local overheating of individual elements of the electric heater structure, in this case, the edge electrodes.

To achieve the above technical result, the metal strip from which the edge electrodes are made was made of metals whose specific electrical resistance is significantly lower than the specific electrical resistance of the conductive fabric. As a result, during the operation of the electric heater, the edge electrodes are heated to a temperature not exceeding the heating temperature of the conductive fabric. This was achieved by making the metal strip from metals with a specific electrical resistance that does not exceed 3.0⋅10 ^-8 Ohm⋅m at a temperature of 20°C. At the same time, many metals with the specified value of specific electrical resistance, such as copper, are sufficiently flexible materials, which allows them to be used in the composition of the electric heater of the thermal cover. In addition, the combination of flexibility and uniformity of heating of the conductive edge electrodes was achieved by making the part of the strip of the edge L-shaped electrode located along the long side of the heating element thinner, but at the same time wider than the part of the edge element located along the short side of the heating element, wherein the latter made it possible to increase the reliability of the connection of the conductive threads of the conductive fabric with the edge electrodes, for example, during soldering or welding, eliminating the possible burning of the conductive electrode, and, taking into account the good thermal conductivity of the metal strip from which the edge electrodes are made, for example, copper, a metal widely used in electrical engineering, taking into account that the cross-sectional area of the metal strip from which the edge elements are made is the same along the length of the metal strip, more uniform heating of the electric heater is ensured over the area.

Thus, in the course of the work carried out, it was possible, due to the set of features given in the formula, to create a flexible and at the same time reliable electric heater, which is especially important when using an electric heater in a thermal cover for heating various technological equipment, in particular instrumentation and control devices, valves, and valves of main oil and gas pipelines.

Fig. 1 shows the external appearance of the assembled electric heater.

Fig. 2 shows the external appearance of the electric heater without the thermal limiter and electric cord connected to it.

Fig. 3 shows a longitudinal section A-A of the electric heater in Fig. 1).

An electric heater for a thermal cover comprises a heating element 1 made of conductive fabric and placed between polymer layers 2 of a coating made of an electrically insulating material. Along the edges of the conductive fabric forming the heating element 1, edge electrodes 3 and 4 are electrically connected to it and connected to an electric cord 5. At the point where the latter is connected to the edge electrodes 3 and 4, a thermal lead 6 is made on the polymer layer 2 of the coating. The heating element 1 is made of a rectangular shape, one of the edge electrodes 3 is made in the form of a flat strip, and the other 4 is made in the form of an L-shaped strip, wherein in the latter, on a section of the strip located outside the conductive fabric forming the heating element 1, a gap is made into which a thermostat 7 is connected, fixed, for example glued, to the outer surface. The connection point of the thermostat 7 to the electrode 4 is covered with a thermal lead similar to the thermal lead 6. On the polymer coating formed by the polymer layers 2, a grounding element 8 is fixed, made in the form of a coating made of a conductive (resistive) material, for example, a metal mesh or metal foil.

Edge electrodes 3 and 4 are made of metals whose specific resistance at a temperature of 20°C does not exceed 3.0⋅10 ^-8 Ohm⋅m. The thickness of edge electrode 3 and the part of the edge L-shaped electrode 4 located along the opposite short side of the rectangular heating element 1 exceeds the thickness of the part of the L-shaped edge element 4 located along the long side of the heating element 1, but not in contact with the latter, and the cross-sectional area of the metal strip from which edge elements 3 and 4 are made is the same along the length of the metal strip.

When the electric heater is operating, the latter is connected to the electric power source via the electric cord 5 through the control unit. The control unit sets the required operating mode of the electric heater, and the electric current passing through the heating element 1 causes its heating, which is necessary for heating the equipment located in the thermal cover.

The operation of the electric heater is controlled via a control unit (not shown in the drawing), which allows setting the range of ambient temperatures at which the electric heater is switched on and off. The number of electric heaters in one thermal cover is determined by the size and shape of the heated equipment, as well as the required total power of the electric heaters located in the thermal cover, which depends on the operating conditions of the thermal cover with the described electric heater(s), which ensures trouble-free operation of heated objects and equipment, for example, an oil and gas complex in low-temperature conditions, which made it possible to expand the operating temperature range of devices and equipment when the ambient temperature can reach -60°C.

This utility model can be used in the oil, gas and other industries where it is necessary to ensure and maintain the required temperature in a certain local zone formed by a thermal cover placed on equipment protected from overcooling.

Claims (1)

An electric heater for a thermal cover, comprising a heating element made of conductive fabric and placed between polymer layers of the coating made of an electrically insulating material, wherein along the edges of the conductive fabric there are edge electrodes electrically connected to it, connected to an electric cord, at the point of connection of the latter to the edge electrodes on the polymer layer of the coating there is a thermal lead, the heating element is made of a rectangular shape, one of the edge electrodes is made in the form of a flat strip, and the other is made in the form of an L-shaped strip, wherein in the latter, on a section of the strip located outside the conductive fabric, a gap is made into which a thermostat is connected, fixed on the outer surface of the electric heater, and a flat grounding element made of conductive material is fixed on the polymer coating, characterized in that the edge electrodes are made of metals, the specific electrical resistance of which at a temperature of 20 ° C does not exceed 3.0⋅10 ^-8 Ohm⋅m, and the thickness of the edge electrode located along the short side of the rectangular heating element and the part of the L-shaped edge electrode located along the opposite short side of the heating electrode exceeds the thickness of the part of the L-shaped edge element located along the long side of the heating element without contact with the latter, and the cross-sectional area of the metal strip from which the edge elements are made is the same along the length of the metal strip.

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