RU116204U1 - ELECTRIC INFRARED HEATER (OPTIONS) - Google Patents

Abstract

 1. An electric infrared heater comprising a housing, fastening elements fixed therein, in which heat-radiating elements, connecting plates, a heat-insulating element are installed, characterized in that the fastening elements are made in the form of side plates located on opposite sides of the housing, in each of which respectively at least one bushing is installed for each heat-radiating element, and each heat-radiating element has at least one contact to the rod, respectively, on each side, which are passed through the corresponding bushing insulators, while the diameter of the contact rods is smaller than the diameter of the internal bore of the bushing insulators, the contact rods of adjacent heat-emitting elements are connected to each other in series and / or parallel by means of connecting plates, and the contact rods of the extreme heat-emitting elements are connected with electrical terminals of terminal block or terminal blocks. ! 2. The electric infrared heater according to claim 1, characterized in that the diameter of the contact rods is less than the diameter of the internal holes of the bushing by at least 0.2 mm. ! 3. The electric infrared heater according to claim 1, characterized in that the heat-emitting elements are made with a profile cross section. !4. The electric infrared heater according to claim 3, characterized in that the cross section of the heat-emitting element is made in the form of a sawtooth or C-shaped profile. ! 5. The electric infrared heater according to claim 1, characterized in that it contains a reflector, made�

Description

The utility model relates to the field of electrical engineering, namely to devices for electric heating by infrared radiation, and can be used in various fields of science and technology, the national economy for more efficient heating of rooms, wagons and railway tanks with frozen cargo, for heating various products and materials, for the evaporation of liquid, both from the surface and from the volume of products and materials (drying), for polymerization, heating of premises, both industrial and domestic, with people, animals, plants in them etc.

Known electric radiant heater (options) and a heat-emitting element (certificate for utility model No. 24066, IPC H05B 3/40, F24D 13/00, published 09.11.2001), containing an electric heater, a heat-emitting element including a holder in which is installed an electric heater, and a radiating plate and a reflector. The heat-emitting element is provided with a cover and fastening elements made along the longitudinal edges, in which the cover is installed and there are two fasteners that are mounted on the reflector and on the ends of the radiating plate or cover.

Known electric infrared heater (options) (certificate for utility model No. 35939, IPC H05B 33/40, F24D 13/00, publ. 02/10/2004), which includes a heat-emitting unit installed in the housing, a reflector, a heat-insulating element, while the heat-emitting unit includes at least one tubular emitter with an electric heater located inside it, with its end faces the tubular emitter is mounted in holders that are attached to the reflector by fasteners, the reflector is rigidly attached to the housing. The emitter holders are made in the form of cups with spring elements securing the tubular emitter, and have openings in which the electric heater wires and ring grooves are inserted, into which the forks of the fastening elements are inserted, rigidly fixing the holders during assembly by crimping their ends.

Known electric heater (patent for utility model No. 45584, IPC H05B 3/22, B65G 69/20 publ. 10.05.2005), the closest in technical essence and adopted as a prototype containing a supporting structure, fasteners mounted on a supporting structure , connecting plates mounted on fasteners, heating tapes connected in pairs with their respective ends to respective connecting plates forming a zigzag connection form of heating tapes and busbars fixed their ends on the free ends of the heating tapes, and the fasteners are movably mounted with their protrusions made in the lower part of the fasteners, in the slots made in the supporting structure, or fasteners movably installed with their protrusions made in the lower part of the fasteners, in the slots, made in the supporting structure, and spring-loaded relative to each other.

However, in the known heater, during heating (800 ... 900 ° C), the heating tapes expand and, despite the fact that their ends are spring-loaded through the fastening elements, they do not return to their original state upon cooling (deform). The most severe residual deformation occurs when the tape thickness is more than 0.5 mm, because springs pull the tape not along its longitudinal axis, but around a circle with a radius depending on the length of the fasteners. When the heaters are turned on and off repeatedly, the deformation increases, which changes the characteristics of the heater during operation and shortens its service life. The design of the heater is quite complex and not technologically advanced to manufacture. In addition, in many cases it is necessary to obtain a more uniform heating of the product (space heating, etc.), which is not possible to achieve with a tape emitter. In the known heater there is no fencing of heating tapes, which during operation can lead to burns and electrical injuries of the operating personnel, since the heating tapes are not electrically insulated and are heated to a temperature of 800 ... 900 ° C and there are no protective covers for the output "contact buses". In this regard, the operation of this heater is possible only in fenced areas inaccessible to people, which is what happens in practice.

The technical result, which is achieved by the proposed utility model, is to simplify the design of the electric infrared heater, increase its reliability and improve technical and operational characteristics, increase the safety of operation and maintenance.

The technical result (option 1) is achieved by the fact that in the electric infrared heater containing the housing, fastening elements fixed therein, in which heat-radiating elements, connecting plates, heat-insulating element are installed, it is new that the fastening elements are made in the form of side plates located on opposite sides of the housing, in each of which, respectively, are installed at least one bushing for each heat-radiating element, and each heat-radiating the element has at least one contact rod, respectively, on each side, which are passed through the respective bushing, the diameter of the contact rods being less than the diameter of the inner bore of the bushing, the contact rods of adjacent heat-emitting elements are connected to each other in series and / or in parallel by means of connecting plates, and the contact rods of the extreme heat-radiating elements are connected to the electrical terminals of the terminal block or terminal blocks.

In an electric infrared heater (option 2) comprising a housing, fastening elements fixed therein, in which a heat-emitting element, a heat-insulating element are installed, it is new that the fastening elements are made in the form of side plates located on opposite sides of the housing, in each of which respectively, at least one bushing is installed, and the heat-radiating element has at least one contact rod, respectively, on each side that are missing Erez corresponding bushing, the diameter of the contact legs smaller diameter of the inner hole of the bushing, with the contact pins of the heat radiating member by flexible connecting elements are connected to the electrical terminals of the terminal block.

Common to options 1 and 2 are the following features.

The diameter of the contact rod is less than the diameter of the inner bore of the bushing by at least 0.2 mm.

The heat-emitting elements (option 1) or the heat-emitting element (option 2) are made with a profile cross-section, while the cross-section of the heat-emitting element is made in the form of a sawtooth or C-shaped profile.

The electric infrared heater contains a reflector made of a material with a high reflectance of at least 0.85, mounted at a distance of at least 5 mm from the heat-emitting elements. The reflector or its surface layer is made of material with an emissivity of not more than 0.3: from non-ferrous metals, or from non-ferrous alloys, or from structural polymers, or from reinforced polymers. The reflector is made with a profile cross-section, or in the form of a flat plate.

The heat-insulating element is made of structural heat-resistant polymers or heat-resistant mineral materials with a thermal conductivity of not more than 0.06 W / (m * ° K), is located between the reflector and the housing and has a layer of material shielding from radiation with an emissivity of not more than 0 on the reflector side, 3, for example, foil.

The electric infrared heater has a fence in the form of a coarse-mesh rigid grid mounted above the heat-emitting elements (option 1) or above the heat-emitting element (option 2) and mounted on the housing.

The terminal blocks of the electric infrared heater are provided with covers.

Figure 1 presents a General view of an electric infrared heater.

Figure 2 is a view aa of figure 1.

Figure 3 is a view bB of figure 1.

Where: 1 - building; 2 - heat-radiating element; 3 - heat insulating element; 4 - side plates; 5 - bushing insulators; 6 - housing cover; 7 - contact rods; 8 - electrical terminals of the terminal block; 9 - terminal block; 10 - reflector; 11 - fencing; 12 - terminal block cover; 13 - connecting plates.

The electric infrared heater comprises, a housing 1 in which heat-radiating elements 2 are installed, a heat-insulating element 3 and fasteners in the form of two side plates 4 located on opposite sides of the housing 1, each of which, respectively, has at least one passage insulator 5 for each heat-emitting element 2. Side plates 4 are attached to the housing 1 or to the cover of the housing 6 with screws or rivets.

The heat-emitting elements 2 have contact rods 7, which are connected to them by welding. The contact rods 7 are passed through the corresponding bushing insulators 5, while their diameter is less than the diameter of the inner holes of the bushing insulator 5 by at least 0.2 mm, which allows the heat-emitting elements 2 to expand freely when heated within the specified gaps between the heat-emitting element 2 and bushing 5 (with a length of heat-emitting elements of 500 mm and a maximum temperature of 850 ... 900 ° C, the gaps are 10 mm), which increases reliability and improves the technical and operational characteristics of the heater. The contact rods 7 are connected to the contact rods 7 of the adjacent heat-emitting elements 2 by means of connecting plates 13, and the contact rods 7 of the extreme heat-emitting elements 2 are connected to the electrical terminals 8 of the terminal block 9 or terminal blocks in accordance with the electric circuit in series or in parallel by welding or other way. If there is one heat-emitting element 2 in the electric infrared heater (option 2), then the connection to one of the terminals 8 of the terminal block 9 is made by a flexible electric conductor.

To increase the efficiency, the electric infrared heater contains a reflector 10 made of a material with a high reflection coefficient (at least 0.85), installed at a distance of at least 5 mm from the surface of the heat-emitting elements 2. The reflector 10 or its surface layer is made of material with an emissivity not more than 0.3, for example, from non-ferrous metals, from non-ferrous alloys, from structural polymers, from reinforced polymers. The reflector 10 is made with a profile cross section, or in the form of a flat plate.

The heat-insulating element 3 is located between the reflector 10 and the housing 1 (housing cover 6), is made of structural mineral or polymer materials with a thermal conductivity of not more than 0.06 W / (m * ° K), and has a material shielding from radiation from the side of the reflector 10 with an emissivity of not more than 0.3 (for example, aluminum foil).

To create the necessary heat flow distribution diagrams, the heat-emitting elements 2 are made with a profile section, for example, a sawtooth or C-shaped profile. The profiled heat-radiating element 2 has a significantly greater bending strength, which is especially important when its thickness is less than 1 mm

To prevent injuries by operating personnel, the electric infrared heater comprises a guard 11 mounted on the housing 1, mounted above the heat-emitting elements 2 and made in the form of a rigid grid, and also contains a cover 12 of the terminal block 9.

The design of the proposed electric infrared heater is simple, reliable and safe to operate. Due to the free thermal expansion of heat-emitting elements within the specified gaps, as well as due to the use of effective materials, the reliability is increased and the technical and operational characteristics of the heater are improved, and its service life is increased.

Claims (25)

1. An electric infrared heater comprising a housing, fastening elements fixed therein, in which heat-radiating elements, connecting plates, a heat-insulating element are installed, characterized in that the fastening elements are made in the form of side plates located on opposite sides of the housing, in each of which respectively at least one bushing is installed for each heat-radiating element, and each heat-radiating element has at least one contact to the rod, respectively, on each side, which are passed through the corresponding bushing insulators, while the diameter of the contact rods is smaller than the diameter of the inner hole of the bushing insulators, the contact rods of adjacent heat-emitting elements are connected to each other sequentially and / or in parallel via connecting plates, and the contact rods of the extreme heat-emitting elements are connected with electrical terminals of terminal block or terminal blocks. 2. The electric infrared heater according to claim 1, characterized in that the diameter of the contact rods is less than the diameter of the internal holes of the bushing by at least 0.2 mm. 3. The electric infrared heater according to claim 1, characterized in that the heat-emitting elements are made with a profile cross section. 4. Electric infrared heater according to claim 3, characterized in that the cross section of the heat-emitting element is made in the form of a sawtooth or C-shaped profile. 5. The electric infrared heater according to claim 1, characterized in that it comprises a reflector made of a material with a high reflection coefficient of at least 0.85, installed at a distance of at least 5 mm from the heat-emitting elements. 6. The electric infrared heater according to claim 5, characterized in that the reflector or its surface layer is made of material with an emissivity of not more than 0.3. 7. Electric infrared heater according to claim 5 or 6, characterized in that the reflector or its surface layer is made of non-ferrous metals, or non-ferrous alloys, or structural polymers, or reinforced polymers. 8. The electric infrared heater according to claim 5, characterized in that the reflector is made with a profile cross section or in the form of a flat plate. 9. The electric infrared heater according to claim 1, characterized in that the heat-insulating element is made of structural heat-resistant polymers, or heat-resistant mineral materials with a thermal conductivity of not more than 0.06 W / (m · ° K). 10. Electric infrared heater according to claim 1 or 5, characterized in that the heat insulating element is located between the reflector and the housing. 11. The electric infrared heater according to claim 1 or 5, characterized in that the heat-insulating element has a layer of material shielding from radiation on the reflector side with an emissivity of not more than 0.3. 12. The electric infrared heater according to claim 1, characterized in that it has a fence in the form of a coarse rigid mesh mounted over heat-radiating elements and fixed to the housing. 13. The electric infrared heater according to claim 1, characterized in that the output pads are provided with covers. 14. An electric infrared heater comprising a housing, fastening elements fixed therein, in which a heat-emitting element is installed, a heat-insulating element, characterized in that the fastening elements are made in the form of side plates located on opposite sides of the housing, in each of which are respectively installed at least one bushing, and the heat-radiating element has at least one contact rod, respectively, on each side, which are passed through respectively uyuschie bushings diameter smaller than the diameter of the contact rod bushing internal bores, the contact pins of the heat radiating member by flexible connecting elements are connected to the electrical terminals of the terminal block. 15. Electric infrared heater according to 14, characterized in that the diameter of the contact rod is less than the diameter of the inner hole of the bushing, at least 0.2 mm. 16. The electric infrared heater according to claim 14, characterized in that the heat-emitting element is made with a profile cross-section. 17. The electric infrared heater according to clause 16, wherein the cross-section of the heat-emitting element is made in the form of a sawtooth or C-shaped profile. 18. Electric infrared heater according to 14, characterized in that it contains a reflector made of a material with a high reflection coefficient of not less than 0.85, installed at a distance of not less than 5 mm from the heat-emitting element. 19. The electric infrared heater according to claim 18, characterized in that the reflector or its surface layer is made of material with an emissivity of not more than 0.3. 20. The electric infrared heater according to claim 18 or 19, characterized in that the reflector or its surface layer is made of non-ferrous metals, or non-ferrous alloys, or structural polymers, or reinforced polymers. 21. Electric infrared heater according to p, characterized in that the reflector is made with a profile cross-section or in the form of a flat plate. 22. The electric infrared heater according to claim 14, characterized in that the heat-insulating element is made of structural heat-resistant polymers or heat-resistant mineral materials with a thermal conductivity of not more than 0.06 W / (m · ° K). 23. An electric infrared heater according to claim 14 or 18, characterized in that the heat insulating element is located between the reflector and the housing. 24. The electric infrared heater according to claim 14 or 18, characterized in that the heat-insulating element has a layer of material shielding from radiation from the side of the reflector with an emissivity of not more than 0.3. 25. The electric infrared heater according to claim 14, characterized in that it has a fence in the form of a coarse-mesh rigid grid mounted above the heat-radiating element and fixed to the housing, and the output pads are provided with covers.