UA26642U - Electric heater "termo-r12" - Google Patents

Abstract

An electric heater relates to electric engineering, to devices with resistive heating, in particular to electric heaters that may be used for heating of living spaces, offices and working arias, and also for manufacturing electric heaters of various constructions.

Description

Description of the invention

The useful model belongs to electrical engineering, to resistive heating devices, namely, to 2 electric heating devices that can be used for heating residential, office and industrial premises, as well as for the manufacture of electric heaters of various designs.

A well-known electric heater (patent of the Russian Federation Mo2213432, IPC" NOBV 3/34, Publication date: 27.09.2003). According to this patent, the electric heater consists of two layers of an electrically insulating base, a conductive resistive layer placed between them and current leads electrically connected to it, then located on two sides along the edges of this layer, each current conductor is formed by a pair of metal strips superimposed on each other, the conductive resistive layer is made of carbon bundles or threads, the ends of the carbon bundles or threads of the conductive resistive layer are placed between a pair of metal strips on two sides, metal the pairs of strips are connected to each other by spot welding, and the layers of the insulating base are connected to the resistive layer by means of glue. basalt fibers or fabric impregnated with non-flammable elastomer For connecting the layers of the electric heater, elastomers that do not support combustion or liquid glass are used. Two layers of fabric with asbestos, glass or basalt fibers are additionally glued to the current leads.

In addition, the electric heater has an external decorative insulating coating made of rubberized fabric or glass wallpaper. According to the authors of the patent, in the proposed heater, the high reliability of the contact of the carbon filaments with the current leads is achieved by spot welding, which ensures a strong compression of a pair of metal strips between themselves and thus a strong connection and high-quality contact of the ends of the carbon filaments with them.

Common features with the claimed technical solution are the presence of two layers of electrical insulating base, a conductive resistive layer placed between them and current leads electrically connected to it. 29 The reasons preventing the achievement of the desired technical result are the excessive complexity of the design of the electric heater, which requires the use of expensive scarce materials.

The famous electric heater described in (patent of the Russian Federation Mo2286032, IPC NOBV 3/34 (2006.01), published on 20.10.2006). The electric heater consists of two layers of electrically insulating material, a resistive layer placed between them, consisting of conductive resistive elements and cm 3o electrically connected to them by welding current leads, and additionally contains on both sides of the "I resistive layer a thermoplastic film material with a thickness of 0, 1st Imm. Current feeders are equipped with conductors that ensure the switching of current feeders between themselves. Current leads are made in the form of a pair of metal strips with carbon resistive elements located between them and connected to each other by spot welding or roller welding. Power supplies are located at the ends and in the intermediate areas

From resistive elements, dividing them into areas with the required resistance. Conductors in the form of a core of a flexible stranded wire, the other end of which goes outside the heater, are connected to the current leads by means of soldering, an electrical block, disconnection or clamp. The flexible stranded wire at the exit from the electric heater is additionally fastened with rivets. Power supplies are made in sections and connected to each other by flexible electrical wires soldered to them. The layers of the thermoplastic film are made of non-woven or woven material based on polypropylene, polyethylene, mylar, kapron, polyamide, polyimide or polyvinyl chloride. c Electrically insulating layers are made of flexible electrical insulating material and are fastened with thermoplastic film material by stitching around the perimeter. Electrically insulating layers are made of electrically insulating, chemically resistant, high-strength sheet structural materials, connected to thermoplastic film materials with a heat-resistant binder. Resistive elements are made of carbon threads, harnesses, tape, yuyu 395 fabric. Resistive elements can also be made of metallic materials, nichrome, constantan, steel, copper or aluminum wire. Current leads and resistive elements additionally (o) contain insulation from electrical insulating tape or polymer. The electric heater contains outer layers made of moisture-proof, chemically resistant, electrically conductive materials. One of the outer surfaces of the electric heater contains a decorative film layer. Areas of resistive elements located between current leads,

ChK" 50 is additionally tinned. The electrical insulating layers are multi-layered. "with common features with the claimed technical solution is the presence of two layers of electrical insulating material, a conductive resistive layer placed between them and current leads connected to it.

The reasons preventing the achievement of the desired technical result are the excessive complexity of the design of the electric heater, which requires the use of expensive scarce materials. 59 The prototype was chosen as an electronic heater (Declaratory patent for an invention of Ukraine Mo58762, IPC NOBV 3/14, with the date of publication of the patent 15.08.2003), which contains a flat resistive element made of carbon fabric, which is made of unidirectional threads with a distance between them not exceeding the diameter of the thread bases, which are connected by weft threads with a distance between them greater than the diameter of the threads, and covered on both sides with an insulating polyester film, a contact group made in the form of two metal strips connected to the fabric by means of rivets inserted between current-carrying warp threads. The device is equipped with a case, the resistive element is made of carbon threads with a distance of 5 to 20 mm between them, arranged in an O-shape, and as a contact group, metal plates with clamps are used, the area of which is from 0.07 to 0.15 cm 2 per 1 W, resistive the element is attached with screws to the metal plate, which is located in the upper part of the housing, and the heat-insulating material is placed in the lower part of the housing.

Common essential features with the claimed device are the presence in the design of the housing prototype,

which contains a resistive element made of carbon material, covered on both sides with insulation, as well as a contact group.

The reasons that prevent obtaining the desired technical result are the not quite successful design of the device according to the prototype, which requires an excessive consumption of metal for the manufacture of the plate, which is located in the upper part of the case, as well as the plate with clamps, which have an area from 0.07 to 0, 15 cm per 1 W. In addition, the presence of a metal plate with clamps in the design of the prototype leads to mechanical deformation and even partial destruction of the carbon material of the resistive element, which can impair the reliability of the connection of the resistive element with the current leads and the reliability of the device according to the prototype. Therefore, such a design /o has relatively low reliability and safety in operation.

The basis of the proposed useful model is the task in the electronic heating device by changing the design and structural elements to ensure a reduction in metal consumption while maintaining high reliability and safety in operation.

The task is solved by the fact that the "Thermo-P12" electric heating device, which consists of a case, /5 resistive element made of carbon material covered with insulation on both sides, and a contact group, according to a useful model, the case consists of a base and a dielectric bar, a resistive element made of carbon material is mounted in the replaceable heating element together with contact bars attached to the carbon material, and the replaceable heating element has the shape of a cylinder or an ellipse, the contact group consists of contact bars that are placed on the replaceable heating element and mounted in the body of contact sockets and switching wires for connection to the power source, which are closed by a dielectric bar, the base of the housing in the upper part has seats and contact sockets for two or more heating elements, and the dielectric bar has slots for contact bars.

According to the useful model, a spherical cavity, horizontal slots and vertical holes are made in the lower part of the base of the case.

According to a useful model, the resistive element is made of carbon filament and/or harness, and the busbars are attached to the resistive element using conductive glue.

According to a useful model, the heating elements have the shape of a flattened cylinder.

According to the useful model, heating elements of different diameters and heights are placed on the base coaxially.

According to a useful model, heating elements of a cylindrical shape and a flattened cylindrical shape are placed together on the base.

According to a useful model, in the heating elements of the shape of a flattened cylinder, the surface has a different radius of curvature. "at

According to a useful model, a resistive element in the form of a carbon harness and/or carbon filament is wound on a fiberglass cylinder. ise)

According to a useful model, the winding pitch of the carbon tow and/or carbon thread has a constant value. with

According to a useful model, the winding pitch of the carbon tow and/or carbon thread has a variable value.

The essence of the useful model is explained by the drawing, where Fig. 1 schematically presents the image of a vertical section of the electronic heating device "Thermo-P12", Fig. 2 shows the section A of the contact group with

Fig. 1, Fig. 3 shows a top view of the electronic heating device "Thermo-P12", Fig. A4 schematically shows a vertical section of the heating element, Fig. 5 - a horizontal section of the heating element, Fig. b pt) c shows a section along B-B of the heating element.

The electric heating device "Thermo-P12" consists of the base 1 of the body and replaceable heating elements 2, З, ;» 4. The base 1 of the case has seats 5, 6, 7 for placing heating elements 2, З, 4 and contact sockets 8, 9, 10, to which wires 11 for electric power are connected. Contact sockets 8, 9, 10 are closed by a dielectric strip 12 with slots for contact bars of heating elements. In the lower part of the base 1 of the housing, a spherical cavity 13, horizontal slots 14, 15 and vertical holes 16, 17, 18, 19, 20 are made. Heating elements 2, 3, 4 have a similar design and differ only in size.

Me, The heating element (Fig. 4, 5, 6) has the shape of a cylinder or an ellipse. The heating element consists of

He" cylinder 21, which is made of fiberglass. A resistive 5p element 22 made of carbon material (carbon thread, carbon harness) is wound on the outer surface of the cylinder 21. The outer surface of the cylinder 21 with the wound resistive element 22 is covered with insulating material 23. The ends of the carbon thread or

The carbon harness wires are connected to the contact bars 24 and 25 with conductive glue 26. The contact bar 25 is covered with insulating material 27.

The drawings, as well as the following examples of a specific implementation of the "Thermo-P12" electric heating device, only explain the essence of the utility model, in no way limiting the scope of rights defined by the utility model formula that is claimed. So, for example, the heating element can have more than two busbars, which are connected in different parts of the resistive element, which makes it possible to change the power due to the parallel or serial connection of the busbars to the power supply network. The switching wires can be connected to the control device, which provides the possibility of both parallel and serial switching on of the heating elements.

The electric heating device "Thermo-P12" works in the following way. When connected to the electrical network, the heating elements 2, 3, 4 radiate heat into the room, and also increase the temperature of the convection currents of air passing through the spherical cavity 13, horizontal slits 14, 15 and vertical holes 16, 17, made in the base 1 of the housing. 18, 19, 20. The design of the claimed device has an ergonomic shape, efficiently transfers heat for space heating. So. for example, for heating a typical room with an area of 18-20 m? electricity consumption within 0.2 kW/h.

The electric heating device "Thermo-P12", which is declared, can work in three modes: 1. Switching on and adjusting the operation of the electric heating device "Thermo-P12" can be carried out using a switch located directly on the body of the device (not shown in the drawings). 2. Turning on and adjusting the heating of the device being applied for is possible remotely using a heat-regulating device located in the room. 3. Turning on and controlling the operation of the "Thermo-P12" electric heating device and the temperature in the room is possible in remote and automatic modes from the control unit.

Tests and long-term operation of the electronic heating device "Thermo-P12", which is claimed, showed 7/0 high reliability in operation. The claimed device meets the requirements of safety technology and fire safety.

The electric heating device "Thermo-P12" is manufactured on standard equipment, and various variants of appearance, power, dimensions, etc. are possible.

Claims (10)

The formula of the invention 1. An electric heating device consisting of a body, a resistive element made of carbon material, covered on both sides with insulation, and a contact group, which is characterized by the fact that the body consists of a base and a dielectric bar, a resistive element made of carbon material is mounted in a replaceable heating element together with contact bars attached to the carbon material, and the variable heating element is cylindrical or elliptical in shape, the contact group consists of contact bars that are placed on the variable heating element, and body-mounted contact sockets and switching wires for connection to the power source, which are closed by a dielectric bar, the base of the housing in the upper part has seats and contact sockets for two or more heating elements, and the dielectric bar has slots for contact bars. 2. The electric heating device according to claim 1, which differs in that the lower part of the base of the case has a spherical cavity, horizontal slits and vertical holes. C. An electric heating device according to claim 1, which is characterized by the fact that the resistive element is made of carbon thread and/or harness, and the contact bars are connected to the resistive element using a conductive adhesive. 4. Electric heating device according to claim 1, which is characterized by the fact that the heating elements have the shape of a flattened cylinder. "co 5. Electric heating device according to claim 1, which is characterized by the fact that heating elements of different diameters and heights are placed coaxially on the base. |se) 6. An electric heating device according to claim 1, which differs in that the heating elements of a cylindrical shape and a flattened cylinder shape are placed together on the base. 7. Electric heating device according to claim 1, which differs in that the surface has a different radius of curvature in the heating elements of the shape of a flattened cylinder. 8. Electric heating device according to claim 1, which is characterized by the fact that the resistive element in the form of carbon "0 harness and/or carbon thread is wound on a fiberglass cylinder. from the village 9. Electric heating device according to claim 8, which is characterized by the fact that the winding step of the carbon harness and/or carbon thread has a constant value. :with" 10. Electric heating device according to claim 8, which is characterized by the fact that the winding step of the carbon harness and/or carbon thread has a variable value. name) (22) (22) iz 50 Ko) s 60 b5