NL9001575A - Drying photographic film by microwave heaters - automatically controlled by photodetectors monitoring film passage - Google Patents

Abstract

Resonant cavities are supplied with microwave energy to heat continuous strips of photographic material for drying. This can include paper or synthetic material carrying emulsions for monochrome, colour, transparency or X-ray film. Parallel cavities can accommodate wider film strips. Film enters and leaves the dryer via slots (4) constructed to minimise radiation leakage. Film is guide by fingers (2) and rollers (3) past the radiation sources (1); magnetrons, klystrons or valves. Film can be fed through in a zig-zag. Photo-electric detectors (5) monitor film passage to enable heater power to be controlled.

Description

Jan Drok Wilfried Josephus Johannes Kouijzer

EINDHOVEN EINDHOVEN

Method for drying materials using microwaves

The invention relates to a method for drying materials using microwaves.

Such a method is generally known and is used, for example, in the drying of textile fibers or paper.

However, the applications of such a method are limited to certain technical areas.

The object of the present invention is to provide a method which offers wider application possibilities and which is suitable for use in a photographic development process, as well as to provide a device for carrying out the method, which takes up little space and economically converts electrical energy into thermal energy.

To this end, the method according to the invention is characterized in that the material contains photographic emulsions and that the material with the photographic emulsions is dried by the microwaves.

It is common in the photographic industry in a photographic development process to use drying devices, which include conventional heat sources, such as glow coils, after developing in drying materials with photographic emulsions. Such drying devices then have to be preheated well before they can be used for drying. This costs extra money after switching on the drying device, because electricity is consumed during preheating, which does not benefit the drying of the material. In the highly automated photo-development processes, the supply of the materials to be dried, provided with photographic emulsions, is irregular, which necessitates keeping the conventional drying device switched on, so as not to stagnate the automatic development process for the purpose of heating up the drying device. The space in which the automatic development equipment is installed is indirectly heated continuously when using the conventional method and makes such spaces quite uncomfortable, even if an additional air-conditioning device, such as an air-conditioning system, is used.

The method according to the invention, which can easily form part of practically all photo-developing processes, minimizes the heat loss during drying of the materials with photographic emulsions.

The method according to the invention can in principle be used in combination with all development processes used in the photographic industry, regardless of whether these are. are used in walk-through, leader, hanger or stand alone drying cabinets.

In a method according to the invention, the material to be dried is formed by a photographic emulsion applied to a support.

The advantage of this method according to the invention is that it is also suitable for drying photographic emulsion castings. These castings are used in the manufacture of photographic materials which consist of a support on which a photosensitive layer is cast.

In particular, the support contains paper, which is most commonly used as a support for photographic emulsions. The method according to the invention is furthermore suitable for paper carriers which are provided with a plastic coating, as well as for a plastic carrier.

All kinds of imaginable photographic materials are applicable in the method according to the invention. This includes color and black and white, negative, slide positive, graphic or X-ray films.

The device according to the invention for carrying out the method according to the invention, which requires very little electrical energy for efficient drying, is characterized in that the device comprises electronic detection means coupled to a microwave source, which, when passing the material with the address photographic emulsions and switch on the microwave source connected to a drying room, after which the material is passed through the drying room and the microwave source switches off after drying.

The device according to the invention, which optionally has vibrating cavities connected in series, is preferably arranged such that the electric power supplied to successive vibrating cavities differs and the material to be dried is subjected to microwave radiation with an optimum energy density when the different vibrating cavities are successively passed through. .

The advantage of the device according to the invention is that a uniform and efficient drying of the material takes place.

The invention will be further elucidated with reference to the annexed figure, which shows a microwave drying device according to the invention for explaining the method according to the invention.

Fig. 1 schematically shows a drying space in the form of series-connected vibrating cavities 1, which are excited by means of microwave sources (not shown). The microwave source may include, for example, a microwave oven, a klystron, a transmitter tube, or other type of microwave radiation generating electronic device.

In the shown cavities 1 mechanical means in the form of guide fingers 2 and pairs of rollers 3 are arranged, which guide the material to be fed or discharged through openings 4, respectively, and let it pass through the cavities 1 in the direction of the arrows.

The openings 4 #, which will be designed as slits, are constructed such that the amount of microwave radiation exiting during operation of the cavity 1 is minimal. This is important, among other things, in connection with the safety of the operating personnel, who should be exposed to as little microwave radiation as possible.

On the input side, near the opening 4, electronic detection means 5, equipped with a photocell and a photodetector, are arranged, which switch on the successive microwave sources, optionally individually, or switch them off with a delay.

The mechanical means 2, 3 may, in a manner not shown, be positioned such that the material passes through the drying space in a zig-zag fashion. As a result, the filling of the cavities is greatly improved and the drying capacity of the cavities is optimally utilized.

Parallel to the series-connected cavities 1, not shown, further series-connected cavities can be connected. When parallel vibrating cavities are used, parallel strips of material to be dried can be processed, whereby the yield is greatly increased. When parallel microwave sources are used, the effective width of the material to be introduced increases. If, however, smaller strips are then introduced, this is detected by the detection means 5, so that the unused parallel sources are not switched on. Moreover, the flexibly constructed device saves energy not effectively used for the drying process.

All common types of photographic materials can be subjected to the process.

On the basis of the explanation given, obvious variants for the skilled person are considered to fall within the scope of protection of the following claims.

Claims (11)

Method for drying materials using microwaves, characterized in that the material contains photographic emulsions, and that the material with the photographic emulsions is dried by the microwaves. A method according to any one of claim 1, characterized in that the material contains a photographic emulsion applied to a support. Method according to claim 2, characterized in that the carrier contains paper and / or plastic. Method according to claim 5, characterized in that the carrier contains paper with a plastic coating. Method according to any one of the preceding claims, characterized in that the material with the photographic emulsions is selected from the group of negative, slide positive, graphic or X-ray films. Device for carrying out the method according to one of the preceding claims, characterized in that the device comprises microwave detection means coupled to a microwave source, which, when passing the material, address the photographic emulsions and switch on the microwave source connected to a drying room , after which the material is passed through the drying room and the microwave source switches off after drying. Device according to claim 6, characterized in that the drying space is formed by vibrating cavities connected in series. Device as claimed in claim 6 or 7, characterized in that the drying space is formed by vibrating cavities connected in parallel, through which the maximum width to be processed or separate parallel strips of material are guided. Device as claimed in claim 7 or 8, wherein the electric power supplied to the consecutively connected vibrating cavities increases and is determined depending on the desired degree of drying when passing through a respective vibrating cavity. Device according to any one of claims 6 to 9, characterized in that the drying space contains mechanical means for guiding the material with the photographic emulsions. 11. Device as claimed in claim 10, characterized in that the mechanical means are arranged in the drying space such that the material to be dried can pass through the drying space in zigzag fashion. Eindhoven, June 1, 1990