JPH02100050A - Drying apparatus for photosensitive material - Google Patents

Abstract

PURPOSE:To make it possible to dry a silver halide photosensitive material comprising a hydrophilic colloidal layer, without generating problems about film quality and drying marks of the photosensitive material, with a small power consumption by using the heating part of a heat pump for a heating means. CONSTITUTION:The heat pump 24 is constituted of a cooler 26 which condenses a moisture contd. in a moist air by cooling the moist air obtd. after drying the photosensitive material and exhausted from the drying means 9, and a heater 28 for heating the dry air after removing the moisture contd. in the moist air, and a compressor 34 for compressing a cooling medium led to the heater 28. The dry air removed the moisture contd. in the moist air by passing the cooler 26 is led to the heater 28 via a duct 36. In the heater 28, the temp. of the cooling medium is rised by compressing it by the compressor 34, thereby being heated the dry air removed the moisture. The dry air heated by the heater 28 is fed to the duct 20 by means of a blower 40, and again is blown into the drying means 9 by blowing it whereby the dry air heated is used for drying a color printing paper or a color photographic film 15. Thus, the photosensitive material is dried with the small power consumption. As the dry air heated is heat-exchanged with the material by a simple construction, the drying efficiency of the photosensitive material is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a photosensitive material drying apparatus for drying a photosensitive material such as a photographic film or photographic paper, and particularly for drying a photosensitive material after development processing.

[Conventional technology]

This type of photosensitive material drying device is installed, for example, in a development processing device that continuously processes silver halide photosensitive materials.

An example of such a development processing apparatus is an automatic processing machine, which supplies a silver halide photosensitive material such as an exposed film into the main body of the apparatus, and transfers this photosensitive material to a developing device installed inside the device. When passing through a processing section such as fixing,
It is treated with a processing liquid.

Most of the photosensitive material drying devices used in such development processing devices dry the photosensitive materials using hot air, and in order to effectively utilize the amount of heat contained in the hot air, heat exchange is performed between the exhaust air and the intake air. Some do this.

For example, a silver halide photosensitive material drying apparatus disclosed in JP-A-62-102246 heats air using a heater and uses this air to dry the photosensitive material. In this apparatus, the heat of the exhaust air after drying the photosensitive material is recovered using a heat pipe, and the load on the heater is reduced by using the recovered heat to preheat the air used for drying.

[Problem to be solved by the invention]

However, since such a photosensitive material drying apparatus uses a heating means that converts electric power into heat to generate hot air, a large amount of electric power is required, resulting in high running costs.

In addition, since the space in which the drying device is installed is relatively small, the temperature of the drying device atmosphere increases due to heat radiation from the drying device, and the water-containing air released from the drying device increases the temperature of the drying device.
Humidity in the drying equipment atmosphere increases. Therefore, high temperature,
In addition, the high humidity and the bad odor of the processing solution cause discomfort to workers.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and to provide a photosensitive material drying apparatus that dries a photosensitive material with a simple structure without increasing the temperature and humidity of the surrounding air.

[Means and effects for solving the problem] The above object of the present invention is to heat the air taken in by the blowing means using the heating means and blow it into the drying section, and in particular, to remove exposed and developed silver halide. In a photosensitive material drying apparatus for drying a photographic photosensitive material, the heating means is achieved by a photosensitive material drying apparatus in which the heating unit is a heat pump.

That is, by using the heating section of a heat pump as a heating means, it is possible to dry a silver halide photosensitive material having a hydrophilic colloid layer with a small amount of electric power without causing problems in film quality or uneven drying.

In addition, by condensing moisture from the water-containing air using the cooling section of the heat pump, high-humidity air is not discharged from the drying device.Furthermore, by using this discharged air to dry the photosensitive material, drying efficiency can be improved. can be significantly increased.

A heat pump consists of a compressor, condenser, and evaporator.
Using fluorocarbon gas or the like as a refrigerant, it is possible to give heat to (heating) or remove heat from (cooling) air, etc., and the temperature and humidity of the air, etc. can be adjusted.

Therefore, by utilizing the heating effect of the heat pump, the photosensitive material can be dried.

In addition, by using the cooling effect of a heat pump,
The moisture can be removed from the air and the dry air can be discharged from the dryer. Furthermore, it is also possible to suppress bad odors caused by the development processing solution.

Conventional photosensitive material drying equipment uses a nickel heater wire, infrared heater, or far infrared heater as a heat source to convert electricity into heat, whereas the photosensitive material drying equipment of the present invention uses a heat pump. Since heat is obtained using Can be dried separately.

Furthermore, since the structure of the heat exchanger is simple and compact, it can be incorporated into an automatic developing machine or the like.

Silver halide light-sensitive materials used in the method of the present invention include silver halide color light-sensitive materials as well as silver halide black and white light-sensitive materials. For example, color paper. Color reversal paper, color negative film for photography, color reversal film, negative or positive film for movies, direct positive color photosensitive materials, X-ray film, photosensitive materials for printing,
Examples include microfilm and black and white film for photography.

[Embodiment]

Embodiments of the present invention will be described below based on the accompanying drawings.

FIG. 1 is a schematic diagram of an automatic developing machine to which a photosensitive material drying apparatus according to an embodiment of the present invention is applied.

In the figure, reference numeral 1 denotes an automatic developing machine, in which a processing section consisting of a developing tank 2, a bleach-fixing tank 3, and a washing or stabilizing tank 4 is provided successively adjacent to each other.

Note that this processing section may be composed of a developing tank, a bleaching tank, a fixing tank, a washing tank, or a stabilizing tank.

In this processing section, a transfer means 6 having rollers 5 connected thereto is provided.
The image-exposed photosensitive material, for example, a roll or sheet photosensitive material, is supplied into the main body of the apparatus from the photosensitive material insertion lower, and the transfer means 6 is connected to each of these tanks 2, 3.4.
Each process is performed by passing through each section in turn.

After being appropriately processed in each of these ff2 and ff3.4, the photosensitive material is passed through a squeeze roller 8, a drying device 9 placed on the top of the automatic developing machine 1, and a cutter 10 provided as necessary, and then stored. It is collected in case 11.

FIG. 2 is a schematic view of the drying device 9 seen from above, and the drying device 9 is connected to a heat pump 24, which will be described later, through two ducts 20 and 22. In addition, the heat pump 24
may be provided integrally with the drying device 9, or the automatic developing device 1
It may be provided integrally with the

The drying device 9 is provided with rollers 14 for conveying color photographic paper or color photographic film 15, and the color photographic paper or color photographic film 15 is conveyed by being held between the rotating rollers.

FIG. 3 is a configuration diagram of the heat pump 24.

The heat pump 24 has a cooler 26 that cools the water-containing air used for drying discharged from the drying device 9 to condense moisture, a heating 428 that heats the air after dehumidification, and a cooler 26 and a heater 28. Vibrator 3 that is connected and has refrigerant flowing inside it
0, an expansion valve 32 that expands the refrigerant guided to the cooler 26, and a compressor 34 that compresses the refrigerant guided to the heater 28. A duct 36 is provided between the cooler 26 and the heater 28, and this duct 36 includes:
A damper 38 is provided to introduce outside air and adjust the temperature.

Further, the cooler 26 is connected to a duct 22 that guides air used for drying discharged from the drying device 9. Further, the heater 28 is connected to a duct 20 that guides air to the drying device 9 via an air blower 40.

The moist air that is used for drying in the drying device 9 and has absorbed moisture from the color photographic paper or color photographic film 15 is
It is sent through a duct 22 to a cooler 26. Cooler 26
In this case, the refrigerant expands by opening the expansion valve 32, the refrigerant temperature decreases, and the water-containing air guided through the duct 22 is cooled. The supersaturated water in the cooled water-containing air is condensed and liquefied. The liquefied water is collected in a water collecting section (not shown) and then discharged to the outside of the drying device 9. Note that by coating the portion of the cooler 26 that comes into contact with the water-containing air, that is, the portion where the condensed water condenses, with a lubricating agent such as fluorinated ethylene resin, the formation of water droplets is promoted, making it easier to collect water. .

Furthermore, by providing a water-absorbing resin in the water layer, it becomes possible to collect water effectively.

The dehumidified air passing through the cooler 26 is guided by a duct 36 to the heater 28 . In the heater 28, the refrigerant temperature increases by being compressed by the compressor 34,
The air after dehumidification is heated.

Here, the dehumidified air is mixed with outside air guided to the damper 38 so that the temperature becomes 25 to 60° C. when heated by the heater 34.

The dry air heated by the heater 28 is sent to the duct 20 by the blower 40 and blown into the drying device 9 again.
It is used for drying color photographic paper or color photographic film 15.

The drying device 9 described above can dehumidify and further heat the water-containing air by simply compressing and expanding the refrigerant by operating the compressor 34 and the expansion valve 32, so that the required electric power is small and the running cost is low. will also be lower.

〔Effect of the invention〕

According to the present invention, since the cooling section of the heat pump dehumidifies the water-containing air and the heating section heats the dry air, it is possible to dry the photosensitive material with a small amount of electric power, and the heat exchange can be performed with a simple structure. It is also possible to miniaturize the heat exchange section and integrate it into a processing device such as a drying device or an automatic processor.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration diagram of an automatic developing machine to which the present invention is applied; Figure 2 is a schematic diagram of the drying device; FIG. 3 is a schematic diagram of the heat pump. Code in the figure: 1 Automatic developer machine 2 Developer tank bleach-fix tank roller Photosensitive material insertion slot Sufu Isrola drying equipment storage case photosensitive material heat pump Heater expansion valve duct blower 4 Stabilization tank 6 Transport means cutter roller 22 Duct Cooler pipe compressor damper Part 2 figure D --- Kazuichi

Claims (2)

[Claims] (1) A photosensitive material drying apparatus that dries the photosensitive material by heating air taken in by a blower using a heating means and blowing it into a drying section, wherein the heating means is a heating section of a heat pump. (2) The water-containing air discharged from the drying section is brought into contact with a cooling section of a heat pump to condense and remove moisture, and then the dehumidified air is sent to the drying section using a blowing means to dry the photosensitive material. The photosensitive material drying device according to (1).