SE455709B - Strip material heat treatment appts. - Google Patents

Abstract

The appts. contains infra-red radiators, e.g. halogen lamps, pref. in adjacent modules forming the roof of a tunnel through which strip material travels, air being supplied to flow parallel to the strip material to stabilise it and urge it towards the heating radiators at set distance from them. Pref. each module has a glass or foil cover and a reflector, and air is supplied into the module for cooling and is directed towards the radiator ends by baffles. The modules having quick-release mountings.

Description

455 709 ~ 2 Fig. 8 shows a principle sketch regarding the function of known devices.

A device 1 according to the present invention, which is suitable for use for drying and / or heating or other heat treatment of web-shaped articles 2 at heat treatment plants 3, which comprises a number of lamps 4 operating with infrared radiation, in order to enable, for example, drying / heating of a paper web running in the direction of a paper web manufacturing machine 5 for subsequent processing of the dried paper web 2, for example, may comprise a plurality of separate heat treatment modules 7 attachable to a common heat treatment ramp 6. Said modules 7, which may be formed of box-shaped chassis 8, in which a desired number of rod-shaped filament having infrared-acting halogen lamps 4 can be supported with its respective ends 4A, 4B received by preferably clamping action acting, for example, resilient lamp holder 9, 10, in a row in a lamp receiving space 11, which is formed between a reflector and a cover guard 13, may be arranged to be attached r in the form of said ramp 6, as shown for example in Fig. 1. A number of fastening pins 14, grooves or fastening means with another suitable shape projecting from one end 8A of the reflector chassis are arranged to be received by suitable recesses 15 of the ramp 6 to enable simple and rapid assembly of modules 7 at the heating side 6A of the ramp, and to enable thermal expansions without risk of the modules 7 being deformed. By means of a screw or other suitable fastening elements, which are for instance received by screw holes 16 and 17, respectively, of the module chassis 8 and of the ramp 6, the other end 8B of the module can be fastened lockably to the ramp 6. The lamp holders 9, 10 can be located at plates 18 and 19 or other. similar spoiler, which is arranged to be able to conduct cooling air 20 or other suitable heat treatment medium, which is introduced into an air reception space 21 formed between the reflector 12 and the chassis 8, towards the respective lamp ends 4A, 4B, in order to first provide cooling thereof, suitably to a temperature below about 300 ° C, to prevent the glass from cracking at the respective glass / metal connection. Said plates 18, 19 can be attached to the module chassis 8 by means of screw 22, which enables releasable attachment of the plate holders 9, 10 having, for example, the desired number of 455 709 airflow-adapted lamp holders 9, 10 to the module chassis 8. in the intended lamp holders 9, 10 1 clamp the desired number of IR lamps 4, for example four, six, ll eight, ten, twelve pieces, etc.

The air 20 is introduced into the space 21 via a number of air supply openings 23 opening to said space 21 from the rear side of the chassis 8, at least one opening 23 being arranged to extend through the chassis plate, suitably an opening 23 centered at the center area of the lamps 4 in question.

Suitably, said openings 23 are arranged to enable between 70-500 m3 of cooling air to pass / h, depending on the number of lamps 4. The size of the openings can also be adapted to the amount of air in question.

Furthermore, a part 24 of the supplied air stream 20 is led into the lamp receiving space 11 and cools the lamps 4, to a temperature which is at least below about 900 ° C, and the reflector plate 12.

The reflector disk 12, which is arranged to reflect the radiation emitted from the IR lamps 4 as far as possible in the direction from the disk 12 and out through the cover shield 13 against dust and other contamination to the front side 7A of the module, is simultaneously cooled as well as the side 13A of the cover 13, which is facing away from the product web 2 of the air stream 24. The reflector plate 12 may be made of suitable temperature-resistant material, such as ceramics, and it may be surface-treated, for example coated with a gold layer, if desired for to improve reflectivity. Said reflector disc 12 is easily replaceable thanks to the simple construction of the module.

The cooling air 25 is further led to flow past a number of parts 27 provided with electrical connecting means 26 and a fastening part 28 projecting from the chassis end 8B, which has a number of slot-shaped recesses 29, which are arranged to be able to receive fitting from a part 31 provided with air outlet holes 30. protruding mounting tongues 32.

Said part 31 can form a protective glass holder which can be cooperated with a number of suitable fastening elements 33, such as fastening screws, in the event that the lamp cover 13 is formed by a glass plate. A foil or a protection of a similar kind may also be considered. The fastening screw 33 is then arranged to be received by a half-mounted fastening part 35 projecting from the chassis side 8B towards the open receiving space 34 of the chassis body.

The air 36 flowing through the air outflow holes 30 is led to flow substantially parallel along said article web 2, and along the upper side 13B of the cover protection 13, as shown in Figs. 4 and 7, respectively. Suitable flow velocity may be between 5-40 m / s. The web 2 will then be affected by a force F, which strives to push the web 2 in the direction of the respective module 7.

However, this force F is offset by the static pressure P, which is built up by the outflowing air 36. This results in a stabilization of the web 2 at an optimal distance from the modules 7, which means that the compressive force on the web 2 decreases, which is advantageous due to the poor strength of the web in the wet state, and that the heat transfer between air 36 and web 2 increases, which results in good discharge of water vapor evaporated from the web 2 due to the influence of the heated air stream 36.

Suitably, a plurality of heat treatment modules 7 of the above type are arranged to be easily detachably attached in a row to a ramp 6 provided with an inlet duct 37 for air 38 and a ramp 6 for used air 40 and water vapor, etc., as shown in Fig. 1, for example. said fastening elements 14, 16, 17. At least the exhaust air duct 39 is insulated by means of suitable insulating material 41 against the surroundings 47 and preferably against the inlet duct 37. Said ramp 6 suitably has a number of air discharge holes 42 located along one side of the ramp GB. may be arranged to extend through an elongate or a split channel 43 at said side 6B of the ramp, are arranged to receive the air stream 36 containing liquid for diversion to the exhaust air passage 44 connecting between them 42 and the exhaust air duct 39, for further diversion to the exhaust duct 39.

Fig. 8 shows how a web 21 is affected by air 45, which is supplied to the web 21 substantially straight towards the web 21, which causes the web 21 to strive to be moved in the direction of the associated air supply device 11, which means that the influencing force risks breaking the web , and that no controlled diversion of air is easily made possible.

A device 1 arranged according to the invention makes it possible, among other things, to provide an optimized air system for cooling reflector construction and lamps 4 and for influencing, for example, paper webs 2 with air in order to achieve efficient and safe evaporation of liquid from the webs 2. Further possible quick replacement of consumable details is made, such as, for example, lamps and that the heating effect can be easily regulated by arranging the desired number of lamps 4.

On the back of the respective module 7, electrical devices 46 are intended to be connected to electrical supply cables. The extracted heat-containing air stream 40 can be conducted so that the heat can be utilized in a suitable manner. It is also possible to direct the air flow 36 directly out to the open air or out into the room where the plant 3 is received. The air can, for example, have a temperature of between 50-150 ° C after the treatment of the web 2. The invention is not limited to the above-mentioned embodiment shown in the drawings but can be varied within the scope of the claims without departing from the inventive concept.

For example, in order to provide more favorable conditions for the lamp ends 4A, a number of additional air vents. link plates etc. are arranged to deflect the air stream 24, which is conducted between the reflector 12 and the protective glass 13, and which due to the heat from the lamps 4 can have a high temperature, when it reaches said lamp ends 4A. Cooling of said lamp ends 4A is thus effected by means of the air stream 20, 25 which is conducted between the chassis bottom BC and the reflector 12. These plates can be permanently or releasably attached to the chassis 8.

Claims (7)

455 709 5 P a t e n t k r a v 1. 1. Device at a treatment plant (3) arranged for heat treatment of web-shaped articles (2), which comprises a number of lamps (4) operating with infrared radiation, and means for supplying air (36) or other suitable heat treatment medium to the article web (2) in question via a heat treatment ramp (6) applicable to the web (2), characterized in that the ramp (6) comprises said lamps (4), full glass, foil or the like covered with the article web (2) protection (13), along whose side (13A) facing away from the article web (2) air (24) or other suitable heat treatment medium is arranged to flow substantially parallel. Device according to claim 1, characterized in that the air (36) etc. is arranged to flow at a speed of between 5-40 m / s. Device according to one of Claims 1 to 2, characterized in that the lamps (4) are received at their respective ends (4A, 4B) by a reflector chassis (8) having a clamping action provided with a clamping action (12). - holder (9, 10). Device according to claim 3, characterized in that the lamp holders (9, 10) are located at a plate (18, 19) or similar spoiler, which is arranged to direct the air towards the respective lamp end (4A, 4B). . Device according to Claim 4, characterized in that the reflector chassis (8) has a number of air supply openings (23) forming an air receiving space (23) formed between the reflector (12) and the chassis (8). Device according to one of the preceding claims 3-5, characterized in that the reflector chassis (8) is arranged at one end (88) of it to support a part (31) provided with air outflow hole (30). Device according to claim 6, characterized in that said part (31) forms a protective glass holder which can cooperate with fastening elements (33). lfl