DE9215112U1 - Infrared zone heating element - Google Patents

Description

DR.-ING. JÜRGEN SCHMiDT-BOGATZkV

Patent Attorney
European Patent Attorney

Warburgstraße 50 D-2000 Hamburg Applicant« Telephone (0-40) 44 46

Fax : <o-4O)4io se

HAK Anlagenbau GmbH for
Process engineering, radiation technology

And drying technology Our Reference

2000 Hamburg 74 G 926220 DE

Your Reference

Designation:

Infrared zone heating element

Date
02.11.1992

The invention relates to an infrared zone heating element for targeted surface heating.

It is known that halogen radiators can be used as infrared radiators to heat surfaces. However, these have the disadvantage that they require relatively large dimensions.

The object of the invention is to improve an infrared zone heating element of the type mentioned above so that the housing has a flat cross-section and the heating element can be easily maintained.

According to the invention, the object is achieved by the characterizing features of claim 1. Advantageous embodiments of the invention are described in the dependent claims.

The modular design of the infrared zone heating element enables the housing to be easily adapted to different requirements. The flat cross-section of the housing, which can be made of V2A stainless steel, for example, is an advantage. Since all components are accessible from the front, the radiator can be changed quickly without tools. By choosing an aluminum reflector, even radiation and heat distribution can be achieved

G92 62 2 0 . DOC ^{Dresdner Bank} (bank code 200 800 00) Account No. ¹ 020 080 CO · Fostgiroamt Ilamburg (bank code 200 100 20) Account No. 2167 23-207

By creating openings in the housing in the area of the reflector, the housing temperature is limited to a maximum of approx. 100° C by convection, so that the thermal load on the components of the infrared zone heating element is limited. The infrared zone heating element can be equipped with a heat output regulator, an automatic on and off switch, for discontinuous operation with an individual device fuse and with a switch on the device or a socket on the device. A device fuse is possible here.

The invention is explained in more detail below using the embodiment of an infrared zone heating element shown in the drawings. It shows:

Fig. 1 an infrared zone heating element in a side view,

Fig. 2 the infrared zone heating element according to Fig. 1 in plan view,

Fig. 3a a mounting profile for holding a base
up to 3d for the infrared heater in a side view, top view and two cross views,

Fig. 4a a cover to cover the housing
and 4b sections of a base in a side view and a transverse view,

Fig. 5 a blank as a base for a lid according to Fig. 4a and 4b,

Fig. 6a a transverse wall of the housing of the infrared zone 6c heating element with a socket in a

Front view, a cross view and a

Top view,

Fig. 6d a view of a transverse wall of the infrared zone heating element with a socket with fuse,

Fig. 7a a transverse wall of the housing of the infrared zone 7c heating element with switch in a view from the front, a transverse view and a top view,

Fig. 8a a cover module of the infrared zone heating element and 8b with an infrared or ultrasonic transmitter in

the top view and side view,

Fig. 9 shows a design of a reflector in side view.

The infrared zone heating element 1 has a housing 2 that is open on one side. A mounting profile 10 is connected to the bottom 3 of the housing 2 on the edge. Each mounting profile 10 serves to accommodate a base 4, 5, with an electrical connection means 8 being assigned to the base 4. Between the bases 4, 5 there is a rod-shaped infrared radiator 6 in front of a reflector 7 that is held in the housing 2. The electrical connection means 8 is connected on the input side to an electrical current limiter 45, to which the current conductor of a connection cable (not shown in detail) is connected. The current limiter 45 prevents the infrared radiator 6 from being subjected to a current that is greater than the nominal current when the infrared zone heating element 1 is switched on. The current limiter 45 can, for example, be designed as an electronic NTC element. The current limiter 35 is arranged on an insulator (not shown in detail) which is attached to the mounting profile 10. The insulator can be made, for example, of a ceramic material or a suitable

-A-

Plastic such as ζ. B. a phenolic laminate with a paper resin carrier. The outlet opening 46 assigned to the infrared radiator 6 can be covered as a contact protection, e.g. with a grid or a glass pane. On the outer base surface 9 of the housing 2, two support pieces 34 are formed, which have an opening. A threaded pin 33 is guided through each of these openings, which is arranged on the base plate 17 of the mounting profiles 10. The threaded pin 33 can be used to attach the infrared zone heating element 1 to a holder (not shown in more detail). It is also possible to provide spacers instead of the support pieces 34. The support pieces 34 or the spacers form a cavity between the base surface 9 and the holder, so that the base-side openings 47 remain open and the cooling of the infrared radiator 6 is not impaired. Openings 47 for cooling the infrared radiator 6 are also formed in the side walls of the housing 2. An opening 35 is formed on the bottom of the housing sections 28, 29 assigned to the bases 4, 5 and in the transverse walls 14, 15. These openings 35 serve to accommodate a cable duct 36 or a screw plug 37. The housing sections 28, 29 can each be covered with a cover 12, 13 which is connected to the transverse wall 14, 15 by means of a screw 44. The housing sections 28, 29 are connected to one another by a cable duct 53 formed on the bottom 3 of the housing 2. This is arranged on the side of the bottom 3 on one side wall 54. The current conductors required for the electrical connection of components in the housing sections 28, 29 can be guided through the cable duct 53. In addition, the power connection cable, for example, can also be introduced into the housing section 29 and connected to the current limiter 45 with a current conductor guided through the cable duct 53 (Fig. 1 and 2).

The bases 4, 5 are attached to the plate sections 16 of the mounting profiles 10, which are assigned to the transverse walls 14, 15 and are arranged perpendicularly to the base 3 of the housing 2. These plate sections 16 have a recess 18 that merges into the base plate 17 of the mounting profile 10. The electrical current conductors can be guided through this recess 18 for connection to the electrical connection means 8. The plate sections 20 of the mounting profiles 10, which face each other and are arranged perpendicularly to the base 3 of the housing 2, have two prongs 21 arranged at a distance from one another with a material thickening 22. This material thickening 22 can be formed, for example, by beading. When the housing 2 is closed with the covers 12, 13, each material thickening 22 engages in openings 23 in the covers 12, 14. These openings 23 are formed on the plate section 24 of the L-shaped plate cuts of the covers 12, 13 that protrude into the housing. On these plate sections 24, two prongs 25 with a material thickening 26 are also formed at a distance from one another, which engage in openings 27 in the plate sections 20 of the mounting profiles 10. Nuts 19 are formed on the plate sections 16 of the mounting profiles 10, which are used to fasten the bases 4, 5 using screws. The base plate 17 of each mounting profile 10 has openings 11 through which screws for fastening the mounting profile 10 to the base 3 of the housing 2 can be guided (Fig. 3a to 4b).

Fig. 5 shows schematically a blank 30 made of plastic, which is clamped into the housing space 28, 29 before closing the housing spaces 28, 29 with a cover 12, 13. On one side of the blank 30, a recess 31 is provided through which the screw 44 is guided when closing the cover 12, 13.

-β-�I the notches 32 take into account the shape of the transverse walls 14, 15.

The transverse walls 14, 15 can also be provided with a socket 39, 49 or a switch 38 (Fig. 6a to 7c). In this case, the cable ducts 36 are either formed on the opposite transverse wall or only in the base 3 of the housing 2. Several sockets 39, 49 can also be provided on the housing 2 of an infrared zone heating element 1, with five different installation positions being possible. The sockets 49 have a fuse 48, while the sockets 39 are formed without a fuse.

Fig. 8a and 8b show a cover module 50 that can replace one of the covers 12, 13. An infrared or ultrasonic transmitter 51 is arranged in the cover module 50. This automatically switches the infrared zone heating element 1 on when an object or a person enters the beam cone 52 of the infrared or ultrasonic transmitter 51. Likewise, the infrared zone heating element 1 is automatically switched off when the object or the person leaves the beam cone 52 again.

The reflector 7 has a parabolic cross-section. The reflector 7 is preferably designed so that the reflector surface 40 consists of parabolic sections that merge seamlessly into one another. The reflector inner surface 41 is preferably designed to be high-gloss. It can be gold-plated, silver-plated or chrome-plated, for example. The reflector 7 can also consist of pure aluminum. It is advantageous to design the surface of the reflector inner surface 41 hammered. As a result, the radiation of the infrared radiator 6 is reflected by the reflector 7 in different directions from the reflector inner surface 41, which results in uniform radiation via the outlet opening 46 of the infrared zone heating element 1.

This surface performance without any pronounced peak values enables even heating of objects.

The infrared zone heating element 1 can also be inserted into a support tube that is suspended from a ceiling as a lighting fixture, for example. The support tube then has a recess corresponding to the outlet opening 4 6. Furthermore, a fan for cooling the infrared zone heating element 1 can be provided in the support tube.

Claims (30)

-8-CLAIMS FOR PROTECTION 1. Infrared zone heating element for targeted surface heating with a cuboid housing open on one side, on the outer bottom surface of which means for fastening the housing in a horizontal or vertical direction and on the bottom of which bases for holding a rod-shaped infrared radiator in front of a reflector are arranged, one base of which is connected to electrical connection means to which a power cable guided through an opening in the housing can be connected, characterized in that the bases (4, 5) are fastened to a mounting profile (10) which is generally U-shaped in cross section, which is screwed onto the bottom (3) of the housing (2) and is detachably connected to a cover (12, 13) arranged next to the reflector (7) and which can be connected to the transverse wall (14, 15) of the housing (2). 2. Infrared zone heating element according to claim 1, characterized in that the bases (4, 5) are fastened to the plate sections (16) of the mounting profiles (10) facing the transverse walls (14, 15) and arranged perpendicular to the base (3) of the housing (2). 3. Infrared zone heating element according to claim 2, characterized in that the plate sections (16) have a recess (18) merging into the base plate (17) of the mounting profile (10). 4. Infrared zone heating element according to claims 1 to 3, characterized in that the plate sections (20) of the Mounting profiles (10) have two prongs (21) with a material thickening (22) at a distance from one another, which engage in openings (23) in the covers (12, 13). 5. Infrared zone heating element according to claim 4, characterized in that the covers (12, 13) are designed as L-shaped plate cuts, on the plate sections protruding into the housing (2) (24) the openings (23) are formed. 6. Infrared zone heating element according to claim 4 and 5, characterized in that on the plate sections (24) at a distance from each other two prongs (25) are formed with a material thickening (26) which engages in openings (27) in the plate section (20) of one of the mounting profiles (10). 7. Infrared zone heating element according to claims 1 to 6, characterized in that a cut-out (30) made of plastic covering the housing space (28, 29) located below the cover (12, 13) is arranged between the cover (12, 13) and the base (4, 5). 8. Infrared zone heating element according to claim 1, characterized in that a threaded pin (33) is formed on the base plate (17) of the mounting profile (10), which is guided through the base (3) of the housing (2). 9. Infrared zone heating element according to claim 8, characterized in that the housing (2) is fastened to a holder by means of a washer pushed onto the threaded pins (33) and a nut. 10. Infrared zone heating element according to claims 1 to 9, characterized in that the housing space (28) for the base (4) with electrical connection means (8) in the base (3) of the housing (2) and/or in the transverse wall (14) has an opening (35) for receiving a cable feedthrough (36) or a screw plug (37). 11. Infrared zone heating element according to claims 1 to 9, characterized in that an opening (35) for receiving a cable feedthrough (36) or a screw plug (37) is formed in the base (3) of the housing (2) in the region of the housing sections (28, 29) receiving the bases (4, 5) and/or in the transverse walls (14, 15). 12. Infrared zone heating element according to claims 1 to 11, characterized in that the housing sections (28, 29) are connected to one another by means of a cable duct (53) which is arranged on the floor (3) of the housing (2). 13. Infrared zone heating element according to claims 1 to 12, characterized in that the electrical connection means (8) connected to one base (4) or (5) are connected to an electrical current limiter (45). 14. Infrared zone heating element according to claim 13, characterized in that the electrical current limiter (45) is arranged on the mounting profile (10) and is connected on the input side to the electrical current conductor of the connecting cable and on the output side to the electrical connection means (8). 15. Infrared zone heating element according to claim 13 and 14, characterized in that the electrical current limiter (45) is an NTC element. 16. Infrared zone heating element according to claim 15, characterized in that the current limiter (45) is arranged on an insulator. 17. Infrared zone heating element according to claim 16, characterized in that the insulator consists of a ceramic material or of plastic. 18. Infrared zone heating element according to claims 1 to 17, characterized in that a switch (38) is arranged in a transverse wall (14, 15). 19. Infrared zone heating element according to claims 1 to 18, characterized in that at least one socket (39, 49) is arranged on the housing (2). 20. Infrared zone heating element according to claim 19, characterized in that the socket (49) has a fuse (48). 21. Infrared zone heating element according to claim 19, characterized in that a socket (39, 49) is arranged in a transverse wall (14, 15). 22. Infrared zone heating element according to claim 1, characterized in that the reflector (7) has a parabolic cross-sectional area. 23. Infrared zone heating element according to claim 22, characterized in that the reflector surface (40) in cross section has the shape of parabolas which merge seamlessly into one another. 24. Infrared zone heating element according to claim 22 and 23, characterized in that the inner surface of the reflector (41) is of high gloss. 25. Infrared zone heating element according to claim 24, characterized in that the reflector inner surface (41) is gold-plated. 26. Infrared zone heating element according to claim 24, characterized in that the reflector inner surface (42) is silver-plated. 27. Infrared zone heating element according to claim 24, characterized in that the reflector inner surface (41) is chrome-plated. 28. Infrared zone heating element according to claim 23 and 24, characterized in that the reflector (7) consists of pure aluminum. 29. Infrared zone heating element according to claim 24 to 28, characterized in that the reflector inner surface (41) has a hammered surface. 30. Infrared zone heating element according to claims 1 to 29, characterized in that the infrared zone heating element (1) is arranged in a support tube, which has a recess corresponding to the outlet opening (46) of the housing (2) and a fan for cooling the infrared zone heating element (1).