RU35938U1 - Electric infrared heater (options) and heat-radiating unit - Google Patents

Description

Electric infrared heater (options) and heat insulation ayup block

The utility model relates to the field of electrical engineering, namely to devices for electric heating (heating) due to infrared radiation, and can be used to heat rooms, both industrial and domestic, with people, animals, plants in them, as well as in various fields of science and technology, the national economy for heating various products and materials, for evaporating liquid both from the surface and from the volume of products and materials (drying), for polymerization, etc.

Known electric radiant heater (RF patent No. 2168115, IPC F24D 13/00, publ. 05.27.2001), comprising a housing, a heat-radiating element in the form of a variable-profile plate with parallel grooves on its outer surface, a heat-insulating element, an electric heater installed in the holder.

A radiant heater is known (certificate for utility model No. 12314, IPC П05В 3/40, publ. 07/05/1999), containing a heating unit installed in the housing, reflective and heat-insulating elements, the housing is made with a C-shaped cross-section, supporting end caps and a central support, the heating unit is made in the form of a tubular electric heater mounted on the end caps of the housing. The reflective element is placed outside the housing and is made of heat-conducting material in the form of a plate with heat transfer grooves parallel to the outer plane, and the plate has a variable cross section from the center to the lateral longitudinal edges. In addition, the grooves are made in various

2 about 3 1 g 9 s g s

7 N 05 V 3/40, F 24 D 13/00

forms, and the reflective element can be made of various heat-conducting materials.

A heat-reflecting element is known (certificate for utility model No. 13131, IPC Н05В 3/30, publ. 08/17/1999), including a heating unit mounted on a reflective plate and heat-insulating elements, the reflective plate has heat-transmitting grooves and a variable cross section from the center to the lateral longitudinal edges and is equipped with a fixture with a U-shaped cross section rigidly fixed to the housing.

Known electric radiant heater (options) and a heat-emitting element (certificate for utility model No. 24065, IPC Н05В 3/40, F24D 13/00, published 09.11.2001), containing an electric heater, a heat-emitting element, including a holder in which the electric heater is installed , radiating plate and reflector. The heat-emitting element has fastening elements on its non-radiating side, made in the form of protrusions along its longitudinal edges. In each higher groove, a groove is made, and the grooves are located towards each other or opposite to each other. Fasteners are mounted on the reflector in the form of profile brackets or in the form of a profile with an H-like cross section.

The closest in technical essence and adopted for the prototype is an electric radiant heater (options) and a heat-emitting element (certificate for utility model. No. 24066, IPC Н05В 3/40, F24D 13/00, published 09.11.2001), containing an electric heater, heat-emitting an element, including a holder in which an electric heater is installed, 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 and there are two fasteners that are mounted on the reflector and on the ends of the hanging plate or cover.

Known heaters allow you to intensify the heating of rooms, however, by their design solution they can not be used in industrial premises, in which the heater must be protected from external solid objects (dust) and / or water.

The technical result to which the proposed utility model is aimed is to expand the scope of application of electric heaters in rooms in which they must be protected from external solid objects (dust) and / or from water while maintaining the optimum radiation efficiency of the heater - the ratio of energy converted in radiation to the supplied energy, as well as in simplifying the design and increasing its reliability.

The technical result is achieved by the fact that in an electric infrared heater (option 1) comprising a heat-emitting unit installed in the housing, including a radiating plate with fasteners, a holder in which the electric heater is installed, and a screen, a sealing is installed between the housing and the radiating plate around its perimeter, th laying, cable gland is fixed on the heater body. The radiating plate on the inner side along the longitudinal edges has protrusions with grooves that are fastening elements, the grooves are made on the outer and inner sides of the protrusions, the sealing gaskets are fixed to the radiating plate in the grooves on the outer side of the protrusions. The protrusions and the holder are made in the form of a single design with a radiating plate and from the same material.

The housing has a limb located along the radiating plate, which is an element for fastening the sealing gasket to the housing. The back wall of the heater body has a window equipped with a removable roof and a sealing gasket.

The technical result is achieved by the fact that in the electric infrared heater (option 2) comprising a heat insulating element located in the housing, a heat emitting unit including a radiating plate with fastening elements, a holder in which the electric heater is installed, and a screen, an additional screen is located between the radiating plate and the screen and between the casing and the radiating plate around its perimeter a sealing gasket is installed, the cable gland is fixed to the heater casing. The radiating plate on the inner side along the longitudinal edges has protrusions with grooves which are fastening elements, the grooves are made on the external and internal sides of the protrusions. An additional screen is mounted on the radiating plate in the grooves on the inside of the protrusions, and the sealing gaskets are in the grooves on the outside of the protrusions. The protrusions and the holder are made in the form of a single design with a radiating plate and from the same material. The screen and the secondary screen are installed relative to each other at a distance of at least 3-5 mm.

The housing has a limb located along the radiating plate, which is an element for fastening the sealing gasket to the housing. The back wall of the heater body has a window equipped with a removable cover and a sealing gasket.

Sealing gaskets according to options 1 and 2 Morjrr be made of heat-resistant polymers, structural heat-resistant polymers, or porous flame-retardant materials with low

thermal conductivity not exceeding 0.2-0.3 W / (), or foil and attached to the body and the radiating plate with glue.

The technical result is achieved in that the heat-emitting unit includes a radiating plate, a holder in which an electric heater is installed, the radiating plate on the inner side along the longitudinal edges has protrusions with grooves which are fastening elements, the grooves are made on the outer and inner sides of the protrusions, and the holder made in the form of a single design with a radiating plate and from the same material with it.

Figure 1 presents a cross section of an electric infrared heater (option 1).

In FIG. 2 is a cross-sectional view of an electric infrared heater (option 2).

In FIG. 3 is a cross-sectional view of a tenon-radiating block.

Where: 1 - building; 2 - a radiating plate; 3 - holder; 4 electric heater; 5 - screen; 6 - sealing gasket; 7 cable tight input; 8 - protrusions; 9 - grooves on the outside of the protrusions; 10 - bending of the body; 11 - a window in the rear wall of the housing; 12 removable hull roof; 13 - sealing gasket of the housing cover; 14 - heat insulating element; 15 - supplement. 11th screen; 16 - grooves on the inside of the protrusions.

An electric infrared heater (option 1) comprises (Fig. 1) a housing 1 in which a heat-emitting unit is installed, including a radiating plate 2, a holder 3, with an electric heater 4, and a screen 5. A sealing is installed between the housing 1 and the radiating plate 2 around its perimeter gasket 6. Cable tight entry 7 (gland) is fixed on the heater body 1. The radiating plate 2 on the inner side along the longitudinal edges has projections 8, with external

the sides of each protrusion 8 are grooves 9 with dimensions corresponding to the dimensions of the sealing gasket 6. In the grooves 9, the sealing gasket is fastened to the radiating plate 2. On the inner sides of the protrusions 8 are grooves 16. The housing 1 has a bend 10 located along the radiating plate 2, which is fastening element of the sealing gasket 6 to the housing 1. The rear wall of the heater casing 1 has a window 11 provided with a removable cover 12 and a sealing gasket 13. The screen 5 is installed in the housing 1 and is fixed (suspended) in gibah 10 of the housing 1. A heat radiating unit and a screen mounted in the housing with the side plates or bars.

The heater can be made with several radiating plates 2 or with several electric heaters 4 installed in one radiating plate 2.

The electric infrared heater (option 2) comprises a heat-insulating element 14 located in the housing 1 (Fig. 2), a heat-emitting unit including a radiating plate 2, a holder 3 in which an electric heater 4 is installed, and a screen 5. Between the radiating plate 2 and the screen 5 is located additional screen 15. Screen 5 and additional screen 15 are installed relative to each other at a distance of at least 3-5 mm. A sealing gasket 6 is installed between the housing 1 and the radiating plate 2 along its perimeter. A cable-tight cable entry 7 (gland) is fixed to the heater casing. The radiating plate 2 on the inner side along the longitudinal edges has protrusions 8, in each protrusion 8 there are grooves 9 on its outer side and grooves 16 on the inner side. An additional screen 15 is mounted on the radiating plaster 2 in the grooves 16c of the inner sides of the protrusions 8. Sealing gaskets 6 are installed in the grooves 9 on the extruded sides of the projections 8. The dimensions of the grooves 9

correspond to the size of the sealing gaskets 6. The rear wall of the heater body 1 has a window 11 provided with a removable cover 12 and a sealing gasket 13. The screen 5 is installed in the housing 1 and fixed (spring-loaded) by the bends 10 of the housing 1. The heat-emitting unit and the screen are fixed in the housing with side plates or trims.

Sealing gaskets according to options 1 and 2 can be made of porous flame-retardant materials, heat-resistant or structural heat-resistant polymers with thermal conductivity values not exceeding 0.2-0.3 W / (), or made of foil and attached to the housing 1 and the radiating plate 2 with glue.

The heat-emitting unit (Fig. 3) includes a radiating plate 2, a holder 3, in which an electric heater 4 is installed. The radiating plate 2 along the longitudinal edges on the inner side has protrusions 8 made integral with the radiating plate, on the outer and inner sides of the protrusions 8 are made , respectively, the grooves 9 and 16. The protrusions 8 with the grooves 9 and 16 are fasteners. The protrusions 8 and the holder 3 are made in the form of a single structure with a radiating plate 2 and from the same material.

In order for the electric heater to be used in dusty, gassed industrial premises, which require protection of the equipment from ingress of external solid objects (dust) and / or water, it is necessary to exclude the possibility of their penetration to the internal elements of the electric heater and to the contacts of the electric heater, those. provide sealing of the electric heater. For this, a sealing gasket 6 is installed between the housing 1 and the radiating plate 2, the cable gland 7 (gland) is mounted directly on the housing

to simplify the assembly work, the heater body 1 has a limb 10 located around the perimeter of the radiating plate 2, which is also an element for attaching the sealing gasket 6 to the housing 1 and the screen fixing element 5, and the window 11 in the rear wall of the housing 1 is closed by a removable cover 12 through the second sealing gasket thirteen.

The radiation efficiency is affected by the directivity of the radiant flux. The radiation radiation energy losses of the plate for heating the casing and other parts of the heater are quite significant .. To maintain the optimal radiation UVD of the heater, the ratio of energy converted to radiation to the supplied energy by preventing the loss of thermal energy of the plate through the gaskets 6 and 13 to the casing, in the proposed utility model, the sealing gaskets 6 and 13 are made of heat-resistant or structural heat-resistant polymers, or of porous flame-retardant materials with low thermal conductivity, not exceeding 0.2-0.3 W / (), or foil.

In addition, the sealing gasket 6 can be attached to the housing 1 and to the radiating plate 2, and the sealing gasket 13 to the housing 1, using glue.

In the second embodiment, between the housing 1 and the screen 5 there is an additional screen 15, which is also designed to reduce radiation energy loss and maintain optimal efficiency of the electric heater. To reduce these losses, the additional screen 15 (option 2) and screen 5 are separated by an air gap of at least 3-5 mm.

The proposed heat-radiating block for an electric heater with fastening elements (in the form of protrusions 8 with grooves 9 and 16) and a holder made integrally with the radiating plate 2 and from one with it

material provides simplicity and reliability of the design, ease of assembly of the entire electric heater, as well as reducing radiation energy losses.

Thus, the proposed utility model eliminates the penetration of moisture and dust into the body of the electric heater when it is used in difficult conditions of industrial premises (dust, water) and ensures a degree of protection of at least IP54 according to GOST 1425496 while maintaining the optimal efficiency of the electric heater.

Claims (22)

1. An electric infrared heater comprising a heat-emitting unit located in the housing, including a radiating plate, a holder in which an electric heater is installed, and a screen, characterized in that a sealing gasket is installed between the housing and the radiating plate along its perimeter, the cable gland is fixed to the heater body . 2. Electric infrared heater according to claim 1, characterized in that the radiating plate on the inner side along the longitudinal edges has protrusions with grooves that are fastening elements, the grooves are made on the outer and inner sides of the protrusions. 3. Electric infrared heater according to claim 1 or 2, characterized in that the sealing gaskets are mounted on the radiating plate in the grooves on the outside of the protrusions. 4. Electric infrared heater according to claims 1 or 2 and 3, characterized in that the protrusions and the holder are made in the form of a single design with a radiating plate and from the same material. 5. Electric infrared heater according to claims 1 or 2 to 4, characterized in that the housing has a limb located along the radiating plate, which is an element for attaching the sealing gasket to the housing. 6. Electric infrared heater according to claim 1, characterized in that the rear wall of the heater body has a window equipped with a removable cover and a sealing gasket. 7. Electric infrared heater according to claims 1 or 2 to 6, characterized in that the sealing gaskets are made of a heat-resistant polymer with low thermal conductivity not exceeding 0.3 W / (m · K). 8. Electric infrared heater according to claims 1 or 2 - 6, characterized in that the sealing gaskets are made of structural heat-resistant polymers with a thermal conductivity of not more than 0.3 W / (m · K). 9. Electric infrared heater according to claims 1 or 2 - 6, characterized in that the sealing gaskets are made of porous flame-retardant materials with a thermal conductivity of not more than 0.3 W / (m · K). 10. Electric infrared heater according to claims 1 or 2 to 6, characterized in that the sealing gasket between the housing and the radiating plate is made of foil. 11. Electric infrared heater according to claims 1 or 2 to 10, characterized in that the sealing gaskets are attached with glue. 12. An electric infrared heater comprising a heat insulating element located in the housing, a heat emitting unit including a radiating plate, a holder in which an electric heater is installed, and a screen, characterized in that there is an additional screen between the radiating plate and the screen, between the housing and the radiating plate A sealing gasket is installed around the perimeter, a cable gland is fixed on the heater body, a radiating plate on the inside along the longitudinal edges t projections with grooves which are fastening elements, the grooves formed with the outer and inner sides of the projections, and the projections and the holder are formed as a unitary structure with a radiating plate and from one material to it. 13. Electric infrared heater according to item 12, characterized in that the additional screen is mounted on the radiating plate in the grooves on the inside of the protrusions, and the sealing gaskets in the grooves on the outside of the protrusions. 14. Electric infrared heater according to item 12 or 13, characterized in that the screen and the additional screen are installed relative to each other at a distance of not less than 3-5 mm. 15. Electric infrared heater according to paragraphs 12 or 13 and 14, characterized in that the housing has a limb located along the radiating plate, which is an element of the fastening of the sealing gasket to the housing. 16. The electric infrared heater according to claim 12, characterized in that the rear wall of the heater body has a window provided with a removable cover and a sealing gasket. 17. Electric infrared heater according to claims 12 or 13 to 16, characterized in that the gaskets are made of heat-resistant polymer with low thermal conductivity not exceeding 0.3 W / (m · K). 18. Electric infrared heater according to claims 12 or 13 to 16, characterized in that the sealing gaskets are made of structural heat-resistant polymers with a thermal conductivity of not more than 0.3 W / (m · K). 19. Electric infrared heater according to claims 12 or 13 to 16, characterized in that the sealing gaskets are made of porous fire-resistant materials with a thermal conductivity of not more than 0.3 W / (m · K). 20. Electric infrared heater according to claims 12 or 13 to 16, characterized in that the sealing gasket between the housing and the radiating plate is made of foil. 21. Electric infrared heater according to claims 12 or 13 to 20, characterized in that the sealing gaskets are attached with glue. 22. A heat-emitting unit including a radiating plate, a holder in which an electric heater is installed, characterized in that the radiating plate along the longitudinal edges on the inner side has protrusions with grooves that are fastening elements, the grooves are made on the outer and inner sides of the protrusions, while the protrusions and the holder is made in the form of a single design with a radiating plate and from one material with it.