RU169667U1 - ELECTRIC HEATER - Google Patents

Abstract

The utility model relates to electric heaters. The electric heater contains a heat-generating heating element in the form of a filament of carbon fiber material, located between the layers of the polymer film, the upper and lower current-carrying copper busbars, the power cord and straps. According to a utility model, the current-carrying copper busbars are made equal in length from a stranded wire without a sheath. The ends of the carbon fiber are glued to the tires and additionally attached to them by metal fasteners. One of the strips is hollow to accommodate a node for connecting the power cord to the current-carrying buses, and the power cord at the outlet of the bar is additionally equipped with a locking element. The technical result of the utility model is to increase the reliability and safety of the electric heater. 5 cp f-ly, 1 ill.

Description

The utility model relates to electric heaters, which are used for comfortable and efficient heating of the room.

Known household electric heater (RU No. 97624, class IPC A61F 7/00; Н05В 3/54; Н01Н 75/00, 2010), containing a flexible shell and located inside it in the form of a "snake" heating element with a cord for connecting to the source current and the mode switch placed on it. The heating element is made with protection against overheating along the entire length and is a flexible heating wire enclosed on top in elastic insulation, containing a copper conductive core coated with an insulating layer over which a heating spiral made of nichrome wire is wound. In this case, the melting temperature of the insulating layer of the current-carrying core is lower than 70 ° C and lower than the temperature of the heating coil and the elastic insulation of the heating element having a melting temperature above 100 ° C.

However, this electric heater is not economical to use due to the high consumption of electricity, as well as the high cost of component parts.

The prototype of the utility model is an electric heater (RU No. 149510, class MPK Н05В 3/18, 2013), which contains a heat-generating heating element located in a waterproof shell in the form of a compressed two-layer elastic polymer film with a decorative element located on the front side and a connecting contact connector with supply strips (tires) for connecting the heating element to the power cord. The decorative element is pressed into a two-layer elastic polymer film, and the heat-generating heating element is made in the form of a carbon fiber material from a technical elastic viscose thread. The filaments of the heating element are placed on the back side of the decorative element in the form of at least one block. The conductive ends of the threads of the heating element are connected to the supply strips (current-carrying copper busbars). The connecting contact connector is additionally equipped with a thermostat with the possibility of limiting the heating temperature not higher than 65 ° C. At least two sides of the electric heater, upper and lower, are equipped with decorative strips with fastening elements to the wall.

This electric heater has several disadvantages. The weakest point is the connection node of the heating thread with a metal current-carrying bus. In this place, overheating most often appears and burnouts are formed, affecting the reliability and safety of the entire electric heater. In addition, due to insufficient fixation of the power cord, it can be involuntarily removed during operation, which also affects the reliability and safety of heating equipment.

The objective of the utility model is the development of an electric heater with reinforced fastening of the ends of the carbon fiber to the current-carrying tires and reliable fixation of the power cord.

The technical result of the utility model is to increase the reliability and safety of the electric heater.

The task and, as a result, the specified technical result are achieved by the fact that the electric heater contains a heat-generating heating element, in the form of a filament of carbon fiber material located between the layers of the polymer film, the upper and lower current-carrying copper busbars, the power cord and strips. According to a utility model, the current-carrying copper busbars are made equal in length from a stranded wire without a sheath, while the ends of the carbon filament are glued to the busbars and additionally attached to them by metal fasteners. One of the strips is hollow to accommodate the connection node of the power cord to the current-carrying buses, and the power cord at the outlet of the functional strip is additionally equipped with a locking element.

It is advisable to make metal fasteners for connecting the carbon filament to the upper and lower current-carrying copper bars from nickel or a nickel alloy in the form of a paper clip, rivet or clip.

The layers of the polymer film can be interconnected by lamination, gluing or pressing.

It is advisable to equip the network wire with a device of a temperature power regulator of the type РМТ-05.

The fixing element of the power cord at the exit of the functional strip can be made in the form of a bracket, or a clamp, or boss, or adhesive filling.

It is advisable to perform trims of polymer material.

Using all the essential features of a utility model allows to obtain the expected technical result. The connection of the ends of the carbon filament with the upper and lower current-carrying copper bus by gluing with an additional connection with metal (nickel fasteners) in the form of a clip, rivet or clip (or any other metal retainer) increases the reliability of the connection without burnouts and overheating. Experimental studies have shown that the best contact can be achieved when used as a fastener made of nickel or its alloys.

The implementation of the upper and lower current-carrying copper busbars from a stranded copper wire without an insulating sheath increases the reliability of the connecting contact of the copper busbars with carbon thread, and the execution of busbars of equal length provides increased reliability from burnout of current-carrying elements, heater ignition, weight reduction and reduces the overall cost of manufacturing a heater.

The execution of one of the hollow strips creates favorable conditions for the reliable location in it of the node connecting the power cord to the current-carrying buses.

The presence on the power cord at the place of its exit from the lower functional strip of the fixing element, made either in the form of a bracket, or a collar, or boss, or in the form of adhesive filling ensures the immobility of the cord inside the strip and protects it from bending or longitudinal impact from involuntary disconnection from current-carrying tires, thereby increasing the reliability and durability of the electrical connection, and therefore the entire device as a whole.

The network wire can additionally be equipped with a device of a temperature power regulator type РМТ-05, which also further increases the reliability of the device and the comfort during its operation, allowing you to adjust the temperature, power consumption and spectral composition of the heater radiation. Transferring the power temperature regulator of the electric heater to a longer wavelength range, the deep penetration of the heat flux into the human body is ensured, which helps to relieve spasms of blood vessels, relieves stress conditions, and gives an increase in the feeling of comfort.

The implementation of the upper and lower strips of polymer material and hollow simplifies and reduces the cost of manufacturing a heater, makes it more reliable and easy.

A utility model is illustrated in the drawing, where in FIG. 1 shows a general view of an electric heater.

The electric heater includes a fuel heating element 1, in the form of a filament of carbon fiber material, which is located between the layers of the polymer film 2. The electric heater contains a lower current-supplying copper bus 3 and an upper current-supplying copper bus 4 for connecting the heating element 1 with a power cord 5. the lower 3 and upper 4 current-carrying copper busbars are made of stranded copper wire without a sheath and of equal length. The electric heater contains the upper 6 and lower 7 strips. To improve the contacts of carbon filament 1 with the lower 3 and upper 4 current-carrying copper bus, their ends are connected by an adhesive seam 8 and additionally metal fastening elements 9. The fastening element 9 of the carbon fiber 1 to the lower 3 and upper 4 current-carrying copper busbars is made of nickel or nickel alloy. The lower bar 7 is hollow, and the power cord 5 is equipped with a fixing unit 10, made in the form of a bracket, or clamp, or boss, or in the form of adhesive filling. The power cord 5 is equipped with a device 11 temperature regulator type PMT-05. The upper and lower hollow strips 6 and 7 are made of polymeric material, while the fastening element 12 to the wall is placed on the upper bar 6. The front side of the electric heater may be equipped with a decorative element 13.

The electric heater is used as follows. The electric heater is placed on the wall (or other surface) for the fastening element 12 attached to the upper hollow strip 7. The power cord 5 is plugged into a socket, after which the current flows to the lower and upper current-carrying copper busbars 3 and 4. Due to the rigid connection of the heat-generating heating element 1 with lower and upper copper busbars 3 and 4, thread 1 of carbon fiber material is heated. Due to this, the layers of the polymer film 2 are heated, interconnected by lamination, gluing or pressing. In this case, the temperature, power consumption and spectral composition of the heater radiation (heating level) can be changed using the device 11 of the temperature power regulator PMT-05.

The utility model is easy to manufacture and convenient to use. At present, an experimental batch of electric heaters has been manufactured.

Claims (6)

1. An electric heater containing a heat-generating heating element, in the form of a filament of carbon fiber material located between the layers of a polymer film, upper and lower current-carrying copper busbars, a power cord and straps, characterized in that the current-carrying copper busbars are made equal in length from the stranded wire without a sheath, while the ends of the carbon filament are glued to the tires and additionally attached to them by metal fasteners, one of the strips is hollow to accommodate the bonds a mains power connections to current-carrying bus bars, wherein the power cord at the outlet from the strip is further provided with a locking element. 2. An electric heater according to claim 1, characterized in that the metal fasteners are made of nickel or a nickel alloy in the form of a paper clip, rivet or clip. 3. An electric heater according to claim 1, characterized in that the layers of the polymer film are interconnected by lamination, gluing or pressing. 4. An electric heater according to claim 1, characterized in that the network wire is additionally equipped with a device of a temperature power regulator of the type РМТ-05. 5. An electric heater according to claim 1, characterized in that the fixing element of the power cord at the outlet of the functional strip is made in the form of a bracket, or a clamp, or boss, or adhesive filling. 6. An electric heater according to claim 1, characterized in that the planks are made of polymer material.

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