RU178637U1 - INFRARED HEATER - Google Patents

Abstract

The utility model relates to electric heating systems for heating premises of residential or other buildings using infrared radiation. An infrared heater consists of radiating plates (1) with horizontally longitudinal edges, the central part has a cylindrical shape, plates made of extruded aluminum alloy. Heating element - TEN (2). A reflector (8) of a flat shape with a mirror surface is formed by connecting a rigid sheet metal and a flexible sheet metal with a mirror surface (13). Partitions (9) for fixing the radiating plates (1) are made of sheet metal. The figured rail (4) for fixing two radiating plates (1) is made of bent sheet metal. Thermal insulation material (12) with a low coefficient of thermal conductivity. The housing (14) is made of bent sheet metal. Insert (16) made of bent sheet metal. Side covers (17) are made of polymer material. Two side grooves (5) for fixing the inner inserts (16); a groove (7) for mounting the reflector (8); for connection with another radiating plate, the central longitudinal groove (11) on the back in the form of a ring is the holder of the heater (2), two longitudinal grooves (7) in the form of open rings serve as the basis for a threaded connection with partitions, and the remaining longitudinal groove (7 ) serves to mount the reflector. A composite coating (15) is deposited on the emitting plate (1), consisting of a functional layer based on aluminum oxides and transition metal compounds and a surface layer of a paint and varnish material based on organosilicon enamel. The technical result from the application of the utility model is to increase the operational characteristics of the heater while increasing energy saving in the process of its use by applying a composite coating to the radiating element. 4 s.p. f-ly, 7 ill.

Description

The utility model relates to electric heating systems for heating premises of residential or other buildings using infrared radiation.

Known electric radiant heater, comprising a housing with abutment end caps and a central support, made in the form of a variable-profile plate, a heat-emitting element with parallel grooves on its outer surface, a heat-insulating element and a tubular electric heater (see, for example, certificate for utility model RU 12314 UI , 12.16.1999).

This heater allows you to intensify the heating of the premises, however, design features of the heater have a significant impact on the heating efficiency.

Known infrared heater PION Ceramics, consisting of a housing; Peony heater, suspension element; TENA of low temperature; ceramic radiating plate; ceramic heat insulator; power indicator lamps; tie plate. The infrared heater PION Ceramic gives a larger (120 °) than usual angle of dispersion of thermal radiation due to the curved (semi-cylindrical) ceramic plate. The body of the device is made of aluminum alloy and coated with powder paint (manufactured by Fitting Atelier LLC. Internet: http://www.2294229.ru/kontakty.html).

The disadvantages of the known technical solutions are the complexity of the design and manufacturing and assembly technologies and insufficiently efficient heating.

Known electric heater (RF patent No. 50358 U1, IPC ⁷ Н05В 3/40, publ. 12/27/2005), comprising a housing with infrared radiation elements fixed in it, in the middle part of which is mounted an electric heating element in the holder - a heater, a reflector made of a flexible sheet of aluminum alloy with a mirror surface, characterized in that the infrared elements are made in the form of at least two rectangular radiating plates, fastened together on the back with a curved rail and having a wavy bottom there is a surface with perpendicular protrusions, along the longitudinal edges of the plates on the back there are protrusions with grooves that are fasteners and form a single structure with a holder with each radiating plate and made of the same material, the body consists of an upper convex cylindrical surface with perforations along the end faces edges and with longitudinal edges curved outward, bonded to radiating plates by a rail with longitudinal edges curved inward, and two side end caps, fastened GOVERNMENTAL with the housing, wherein on the upper convex cylindrical surface of the housing, two hanger secured.

The disadvantages of the known device are the complexity of the design and manufacturing and assembly technologies and insufficiently efficient heating.

The closest to a utility model in terms of technical nature and the achieved result is an electric heater (RF patent 147101 U1, IPC ⁷ Н05В 3/40, 03/27/2014) containing a housing with infrared elements fixed in it, in the middle part of which electric heating elements are installed in the holders elements - heating elements, a reflector made of a flexible sheet with a mirror surface, and two side end caps fastened to the body, and the elements of infrared radiation are made in the form of at least two emit their plates connected to the back side by a curved rail, and the radiating plates have a wavy bottom surface, along the longitudinal edges of the plates on the back side there are protrusions with grooves, which are fastening elements and forming with the holder a single design with each radiating plate, each of the radiating plates is cylindrical forms with horizontally longitudinal edges, while a ceramic coating is applied to the outer surface of the study plates.

The disadvantages of the known device are insufficiently effective heating, insufficient cost and insufficient aesthetic properties of the protective coating of the radiating plate - the presence of porosity and unevenness of its application.

The problem, which the real utility model is aimed at, is to develop a heater of simple and cheaper technology and assembly, with a high coefficient of performance (COP), with improved aesthetic properties of the protective coating of the radiating plate.

The technical result from the application of the utility model is to increase the operational characteristics of the heater while increasing energy saving in the process of its use by applying a composite coating to the radiating element.

This is achieved due to the fact that in an infrared heater containing a housing with infrared radiation elements fixed in it, in the middle part of which electric heating elements are installed in the holders - heating elements, a reflector made of a flexible sheet with a mirror surface, and two side end caps, fastened to the housing, the elements of infrared radiation being made in the form of at least two radiating plates connected to the back by a curved rail, and the radiating plates dissolved undulated bottom surface, along the longitudinal edges of the plates from the back side, there are projections with grooves and fastening elements which are forming with the holder a unitary structure with each of the radiating plate, according to the utility model, each of the radiating plate formed in a cylindrical shape with a horizontal longitudinal edges; at the same time, a composite coating is applied to the outer surface of the study plates; the reflector is made in the form of interconnected two sheets; wherein one sheet is made of hard sheet metal; while another sheet is made of flexible sheet metal with a mirror surface, which is wrapped with a heat-insulating material; while there are partitions for fixing the radiating plates; there are inserts; at the same time, longitudinal grooves for fixing the inner inserts are made on the radiating plate from the back side; grooves for mounting the reflector; however, on the radiating plate on the sides there are two longitudinal grooves for attachment to the housing and connection with each other.

In this case, a curved rail for connecting two radiating plates is made of bent sheet metal. In this case, the body is made of bent sheet metal. At the same time, a thermal insulation material made of a material with low thermal conductivity is located in the reflector. In this case, the side covers are made of polymer material. At the same time, technological holes are made on the surface of the heater for outputting wires and brackets are provided for fastening the heater to a hook connection to the ceiling.

The utility model is illustrated by drawings.

In FIG. 1 - infrared heater, general view.

In FIG. 2 - the same, rear view.

In FIG. 3 is the same, section AA in FIG. 2.

In FIG. 4 - same, section BB in FIG. 2.

In FIG. 5 is the same, section CC in FIG. 2.

In FIG. 6 - the same, a fragment of the radiating plate.

In FIG. 7 - the same, a fragment of the radiating plate.

Positions indicate: plate (1); Heating elements (2); holder (3), figured rail (4); side groove (5); temperature controller (6); extreme rear longitudinal grooves (7); reflector (8); partition (9); terminal block (10); longitudinal groove (11); thermal insulation material (12); flexible mirror aluminum sheet (13); case (14); inserts (16); end cap (17); wavy surface (18) of the radiating plate (1).

The utility model consists of radiating plates (1) with horizontally longitudinal edges, and the central part has a cylindrical shape, plates made of extruded aluminum alloy. Two side grooves (5) for fixing the inner inserts (16); a groove (7) for mounting the reflector (8); for connection with another radiating plate, the central longitudinal groove (11) on the back in the form of a ring is the holder of the heater (2), two longitudinal grooves (7) in the form of open rings serve as the basis for a threaded connection with partitions, and the remaining longitudinal groove (7) serves to mount the reflector. A composite coating (15) is applied to the study plate (1), consisting of a functional layer based on aluminum oxides and transition metal compounds and a surface layer of a paint and varnish material based on organosilicon enamel (not shown).

The device operates as follows.

The utility model consists of radiating plates (1) with horizontally longitudinal edges, and the central part has a cylindrical shape, plates made of extruded aluminum alloy. Heating element - TEN (2). A reflector (8) of a flat shape with a mirror surface is formed by connecting a rigid sheet metal and a flexible sheet metal with a mirror surface (13). Partitions (9) for fixing the radiating plates (1) are made of sheet metal. The figured rail (4) for connecting two radiating plates (1) is made of bent sheet metal. Thermal insulation material (12) with a low coefficient of thermal conductivity. The housing (14) is made of bent sheet metal. The inserts (16) are made of bent sheet metal. Side covers (17) are made of polymer material.

On the radiating plate (1), on the back there are longitudinal grooves: for attaching the partitions (9), two longitudinal grooves (11); for mounting the reflector (8), the groove (7). On the radiating plate (1) on the sides there are two longitudinal grooves (5) for attachment to the housing and connection with each other. On the front side, the radiating plate (1) has a wavy surface (18). In the radiating plates (1), the heating elements (2) are inserted into the holder (3), then the radiating plates (1) are connected to each other by a figured rail (4), which is inserted into one of the side grooves (5) of the radiating plate (1). A heat regulator (6) is mounted on the heater (2). Then, in the extreme rear longitudinal grooves (7), a reflector (8) is inserted with the mirror side inward. A terminal block (10) is mounted on one of the partitions (9). Next, the radiating plates (1) are fixed on a threaded connection formed by longitudinal grooves (11) on the back side, from both ends by partitions (9). Heat-insulating material (12) wrapped in a flexible mirror aluminum sheet (13) is laid on the reflector (8) from the matte side. The housing (14) is inserted into the groove (5) of the resulting structure and is fixed to an integral rivet connection or to a threaded connection. Then, inserts (16) are inserted into the housing (14). The resulting structure on both end faces is closed with end caps (17) made of a polymer material.

The assembled finished infrared heater is installed in a convenient place for heating in the working hanging position, using two suspensions for this purpose, which are fixed by fastening elements to a supporting horizontal surface, for example, to a ceiling (not shown).

When connected to the mains, heating elements (TEN) (2) heat up the radiating plates (1), which begin to emit infrared rays into the room. Moreover, the wavy bottom surface (18) of the plates (1) allows to increase the radiating heat flux, and the implementation of the cylindrical plates allows to increase the heating sector, thereby increasing the heating efficiency.

Infrared rays heat the room according to the principle of sunlight, they pass through the air almost unhindered, but heat the surface of objects in their area of action: walls, floors, furniture, etc. By choosing the required number of electric heaters of the appropriate power, they achieve a comfortable temperature in the room.

Maintenance of electric heaters does not require special training of users and consists in keeping the electric heater clean and safe.

The inventive electric heater used for primary or secondary heating of premises is made of environmentally friendly materials, fireproof, resistant to mechanical damage, does not contribute to the accumulation of household dust. Its design is easy to manufacture and assemble, provides simplicity and ease of use.

Samples of the inventive device are made and tested in operation. During manufacture and operation, their advantages were confirmed.

The use of such a heater design allows the fulfillment of the task posed in a utility model - increasing the heater's efficiency by applying a composite coating:

1. Reduce energy consumption by increasing the emissivity of the composite coating deposited on the radiating element.

2. Improve aesthetic characteristics by reducing porosity to 0%, surface contaminants are removed without the use of special tools, this allows to reduce operating costs.

3. The use in the design of ventilation holes in the partitions allows us to guarantee the absence of local overheating of the device.

Claims (5)

1. An infrared heater comprising a housing with infrared radiation elements fixed in it, made in the form of at least two rectangular radiating plates, fastened together by a curved rail and having a wavy lower surface, electric heating elements - electric heating elements installed in holders located in the middle part radiating plates, a reflector made of a flexible sheet of aluminum alloy with a mirror surface, and two side end caps fastened to the body; grooves made along the longitudinal edges of the plates on the back side, which are fasteners and form a single structure with a holder with each radiating plate, partitions for fixing radiating plates of sheet metal, inserts of bent sheet metal with a profile in the form of a cylinder segment with horizontal transitions on both sides ; while the radiating plates are made of a cylindrical shape, with a horizontal transition, from an extrusion aluminum alloy with six longitudinal grooves; in this case, two side grooves for fastening with the housing and connecting to another radiating plate, the central longitudinal groove on the back in the form of a ring is the holder of the heater, two longitudinal grooves in the form of open rings serve as the basis for threaded connections with partitions, and the remaining longitudinal groove serves to reflector mounts; the reflector is made of a flat shape with a mirror surface and is formed by connecting a rigid sheet metal and a flexible sheet metal with a mirror surface; while the curved rail for connecting two radiating plates is made of bent sheet metal; while the body is made of bent sheet metal; while the body has a shape formed by the connection of an isosceles trapezoid and a rectangle with an incomplete bottom side; at the same time, a lid made of a material with low thermal conductivity is located on the lid, characterized in that a composite coating is applied to the study plate, consisting of a functional layer based on aluminum oxides and transition metal compounds and a surface layer of a paint and varnish material based on organosilicon enamel, the side walls are equipped with ventilation holes and holes for laying wires. 2. An electric heater according to claim 1, characterized in that the composite coating consists of two layers: functional and surface, the functional layer consists of aluminum oxides and transition metal compounds, and the surface layer consists of a layer of paint and varnish material based on organosilicon enamel. 3. An electric heater according to claim 1, characterized in that the thickness of the functional layer varies from 1 μm to 40 μm. 4. An electric heater according to claim 1, characterized in that the thickness of the surface layer varies from 10 to 200 microns. 5. An electric heater according to claim 1, characterized in that the partitions are provided with ventilation holes and holes for laying wires.

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