JPH08152705A - Film drier and its usage - Google Patents

Abstract

PURPOSE: To provide a film drier with the number of rollers reduced and the drying efficiency improved. CONSTITUTION: This drier consists of a couple of feed rollers 20 for supplying a water-washed film to the lower part, a thin rectangular duct 40 having a surface heater 43 to dry the film supplied from the couple of feed rollers 20, a suction duct 51 connected to the lower end 40b of the duct 40, a suction blower connected to the suction duct 51 and a couple 22 of rollers for discharging the film from the lower end 40c of the duct 40. The film is allowed to descend in a space 2 in the duct 40 while keeping self stability by the laminar flow and dried as desired.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a film dryer and a method of using the same. More specifically, the present invention relates to a film drying device having a simplified film transport mechanism and improved drying efficiency, and a method of using the same.

[0002]

2. Description of the Related Art Conventionally, an X-ray photographed film or a film on which a digital image such as CT or MRI has been printed is used by an automatic developing device g as shown in FIGS. , Development, fixing, washing with water and drying. As is clear from FIG. 4, the drying device k in the conventional automatic developing device g has a large number (10 to 20) of rollers r, r, r, ... Staggered arrangement, and these rollers r, r, r. The width of the film F of the warm air blowing device e, e, e, ..., which is arranged so as to face the rollers r, r, r, ... While conveying the film F washed with water by the upper direction. The hot air is blown almost perpendicularly to the film F from the nozzle n having the opening corresponding to the above to dry the film F. In addition,
The warm air for drying the film F is obtained by heating the air blown from the air blower f by the heater h provided in the middle of the air blow duct d ₁ .

The warm air blown onto the film F is returned to the suction side of the blower f by the recovery duct d _{2 in} order to prevent thermal dilution and to effectively utilize heat energy.

However, since the conventional drying device k of the automatic developing device g has the following problems, improvement by medical personnel is eagerly desired.

Since the hot air is blown from the wide nozzle n to dry the film F, it is difficult to uniformly blow the hot air to the film F from the nozzle n, and the nozzle n is arranged at a predetermined interval. It is difficult to heat the film F uniformly because it is arranged in advance.

Since the hot air is blown almost perpendicularly to the film F surface, the film F surface is in a pressurized state, which prevents evaporation of water in the film F. Moreover, since the hot air after spraying is circulated and used, the steam has a high partial pressure of water vapor. Therefore, the evaporation of water from the surface of the film F is hindered and the drying efficiency is poor.

Since the drying efficiency is poor, the temperature of the warm air is set to 7
The desired drying cannot be achieved unless the temperature is set to a high temperature of 0 to 80 ° C.
As a result, the roller r, on which this warm air is blown through the film F, also has a high temperature of 70 to 80 ° C.

The film surface is not heated uniformly,
Since the roller r is also at a high temperature of 70 to 80 ° C,
Drying unevenness is likely to occur.

Since the drying efficiency is poor, the energy consumption rate is naturally high and not economical.

Due to the large number of transport rollers r,
Power consumption is large.

Due to the large number of transport rollers r,
This leads to an increase in the size of the drying device k, an increase in weight and an increase in cost.

Due to the large number of transport rollers r,
It often damages the surface of the film F.

Due to the large number of transport rollers r,
Maintenance is complicated.

[0014]

SUMMARY OF THE INVENTION The present invention has been made in view of the problems of the prior art, and provides a film drying apparatus in which the number of rollers is reduced and the drying efficiency is improved. Is the main purpose.

[0015]

A first aspect of a film drying apparatus of the present invention is a film drying apparatus for drying a washed film after development, which is a film feeding means for feeding the washed film downward. And a thin rectangular duct-shaped drying section having a flat plate-shaped heating section for drying the film supplied from the film supply means, and an air suction section for sucking air in the drying section from the lower end of the drying section. An air suction unit connected to the air suction unit and a film discharge unit for discharging the film from the drying unit are provided.

More specifically, in the first aspect of the film drying apparatus of the present invention, a film supply roller pair for supplying the washed film downward, and a surface for drying the film supplied from the film supply roller pair. A thin rectangular duct having a heater, a suction duct connected to a lower end of the thin rectangular duct, a suction blower connected to the suction duct, and a film discharge for discharging a film discharged from the lower end of the thin rectangular duct. It is characterized by comprising a pair of rollers.

The second aspect of the film drying apparatus of the present invention is
A film drying apparatus for drying a film washed with water after development, comprising a film supply means for supplying the washed film downward, a flat heating part and a film for drying the film supplied from the film supply means. A thin rectangular duct-shaped drying section having a conveying means, an air suction section for sucking air in the drying section from a lower end of the drying section, an air suction section connected to the air suction section, and the drying section. And a film discharge means for discharging the film from the section.

More specifically, in the second aspect of the film drying apparatus of the present invention, a film feed roller pair for feeding the washed film downward and a surface for drying the film fed from the film feed roller pair. A thin rectangular duct having a heater, a film transport roller pair provided in an intermediate portion of the thin rectangular duct, a suction duct connected to a lower end of the thin rectangular duct, and a suction blower connected to the suction duct. And a film discharge roller pair for discharging the film discharged from the lower end of the thin rectangular duct.

In the film drying apparatus of the present invention, is at least the inner surface of the drying section or the inner surface of the thin rectangular duct made of a material that promotes the emission of far infrared rays, for example, a metal element oxide or a metal element halide. , Or black alumite treatment is preferable.

The method of using the film drying apparatus of the present invention is as follows.
The method for using the film drying apparatus according to any one of the above, wherein the air flow velocity in the descending space where the film formed in the drying unit or the thin rectangular duct descends is set to be a laminar flow velocity. .

[0021]

The air in the descending space in which the film in the drying section made up of the thin rectangular duct descends is sucked by the air sucking means such as a suction blower to make the inside of the space negative pressure.
An air flow having a laminar flow velocity is formed in the space from the upper side to the lower side. In this state, the film is lowered into the space by a film supply means such as a film supply roller pair. However, as described above, the airflow having the laminar flow velocity is formed from the upper side to the lower side in the descending space, so that the film descends in a stable state. Therefore, the film does not contact the wall surface forming the same space. Then, while the film is descending in the same space, the entire surface is uniformly heated by a heating means such as a surface heater, and the moisture contained in the film is evaporated. The evaporation of the water is promoted by the laminar flow velocity of the air flowing in the descending space from the upper side to the lower side, and the negative pressure in the space. Therefore, the heating means minimizes the required heating.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described based on embodiments with reference to the accompanying drawings, but the present invention is not limited to such embodiments.

Example 1 A film drying apparatus according to Example 1 of the present invention (hereinafter,
1 and 2 show a schematic view of a drying device D), which is a drying device main body (hereinafter simply referred to as a main body) 10 and a film supply roller pair 20 for supplying a film F to the main body 10. The main parts are a film discharge roller pair 22 for discharging the film F from the main body 10 and a suction blower 30 for sucking the air in the main body 10.

The main body 10 has openings 1 at the top and bottom.
0a and 10b are provided, a drying section 40 is provided at an intermediate portion, and an air suction section 50 is provided at a lower end portion of the drying section 40 to form a thin rectangular duct-like structure. In addition, in FIG. 1, the distance between the rollers, the thickness of the thin rectangular duct, and the like are exaggerated for easy understanding.

The opening 10a provided in the upper portion is
In order to prevent the supply of the film F from the film supply roller pair 20 provided above or inside the film intake port 40a of the drying section 40 provided at the lower end of the opening 10a, without any hindrance, And, in order to smoothly suck air, the cross-sectional area is widened toward the tip, that is, the cross-sectional shape is so-called divergent.
The film drying section 40 is provided at the lower end of the upper opening 10a, as described above.

The drying section 40 is, for example, a thin rectangular duct, and is for drying the film F descending toward the discharge roller pair 22 below, while the film F is descending, and before and after the descending space 42 of the film F. It is composed of a pair of flat plates 41, 41 that form a wall and are opposed to each other, and surface heaters 43, 43 that are embedded in the flat plate 41 or attached to the outer surface of the flat plate 41. Here, this flat plate 41,
The interval of 41 is set to, for example, about 5 mm, and the film F descends almost in the middle thereof. In addition, the inner surface of the flat plate 41 (the surface facing the film F), that is, the radiation surface is made of Al, which has a high radiation efficiency of far infrared rays.
An oxide of a metal element such as ₂ O ₃ or SiO ₂ or a halide of a metal element is preferable. Alternatively, it is preferably black alumite processed. The air suction unit 50 is provided at the lower end 40b of the drying unit 40 as described above. The height of the drying unit 40 and the size of the surface heater 43 are adjusted to a height and a size at which desired drying is performed while the film F descends and is discharged in the descending space 42.

The air suction unit 50 is formed by the suction ducts 51 and 5 formed upright from the lower end 40b of the drying unit 40.
1, and its open ends 51a, 51a are connected to the suction side of the suction blower 30 via a communication duct 60, as shown in a block diagram in FIG. The opening 10b described above is provided at the lower end 50a of the air suction portion 50.

Inside or below the opening 10b, a film discharge roller pair 22 is arranged so as to face the film discharge port 40c of the drying section 40. When the film discharge roller pair 22 is housed in the opening 10b, it is preferable that the opening 10a has a semicircular cross section that covers the arc of the roller, as shown in FIG.

Next, the drying of the film by the film drying device D having the above-mentioned structure will be described.

The suction blower 30 is activated and the descending space 42
The inside is made negative pressure, and the surface heaters 43, 43 are activated to raise the temperature in the space 42. In this case, the flow velocity of the air in the descending space 42 is adjusted so that the tip of the film F descending from the film supply roller pair 20 into the space 42 does not shake.

The film supply roller pair 20 is driven to lower the film F into the lower space 42. in this case,
As described above, since the air flow velocity in the space 42 is adjusted so that the tip of the film F does not swing, the film F moves in the space 42 and the flat plate 41 forming the front and rear walls of the space 42. , 41 without touching.
That is, the film F descends in the space 42 while maintaining self-sustaining stability.

The film F descends and the surface heater 4
Since the heat rays are irradiated by 3, 43, the contained water evaporates from the surface. Here, the descending space 42
Due to the negative pressure inside and the air in the space 42 flowing from the upper side to the lower side, the air flows along the surface of the film F as a result. Therefore, evaporation of water from the surface of the film F is promoted.

After the predetermined drying in the descending space 42, the film F is discharged to the outside of the main body 10 by the film discharge roller pair 22.

Thereafter, the film F is transferred to the tray (not shown), for example, by the following film transport roller pair 24.
Be delivered to. On the other hand, the air after the film is dried is discharged into the atmosphere by the suction blower 30.

As described above, according to the first embodiment, since the surface heater 43 is opposed to the surface of the film F to dry the film F, the surface of the film F can be heated uniformly and uneven drying occurs. Absent. Further, the air flow velocity in the descending space 42 is adjusted so that the tip of the film F does not shake, and the film F is lowered in a self-sustaining manner. Therefore, a film conveying roller pair is provided in the drying section 40. No need. Therefore, the number of rollers or roller pairs used can be minimized. further,
The pressure in the descending space 42 is set to a negative pressure, and the space 4
Since the air in 2 is made to flow along the film F surface, the evaporation of moisture from the film F surface is promoted.
Therefore, the heating by the surface heater 43 can be minimized, and as a result, the heating temperature can be set to a low temperature of about 40 ° C., and even if the dried air is released into the atmosphere as it is, the drying device D is installed. There is no possibility of causing an abnormal rise in room temperature in the area where it is used. Further, since the air is not circulated, the partial pressure of water vapor in the air used for drying is not increased.

In this specification, the flow velocity adjusted so that the tip of the film F does not shake is referred to as a laminar flow velocity.

Example 2 A film drying apparatus D'according to Example 2 of the present invention is shown in FIG. 3, and in Example 2 a storage section 46 is formed in the middle of the drying section 40 in Example 1, and the inside thereof is formed. The film transport roller pair 26 is arranged in the above, and the surface heater 43 is divided into the divided bodies 43A and 43B accordingly. With such a configuration, it is possible to obtain an effect that cannot be obtained in the first embodiment that a film having a short length in the feeding direction can be dried. Since the other points are the same as those in the first embodiment, the description of the configuration and the operation / effect thereof will be omitted.

Although the present invention has been described above by taking the case of being applied to the drying of medical films as an example, the application of the present invention is not limited to medical films, and is suitably applied to the drying of various films. it can.

[0039]

As described in detail above, according to the present invention, the following excellent effects can be obtained.

(1) Since the surface heater is opposed to the film surface to heat the film, uniform heating is performed and uniform drying is possible.

(2) Since there is no unevenness in drying, the image quality of the film does not deteriorate.

(3) The surface heater is opposed to the film surface to heat the film, air is allowed to flow along the film surface, air is not circulated, and inside the descending space. By setting the pressure to a negative pressure, evaporation of water from the film surface is promoted, so that the drying efficiency is good.

(4) Since the drying efficiency is good, less energy is required for drying. That is, energy saving can be achieved.

(5) Since the film is lowered in the descending space while being self-sustained and stable, it is not necessary to provide a film conveying roller in the descending space in principle. Therefore, the number of required rollers can be significantly reduced. Further, since the contact of the film with the roller is minimized, the risk of damage by the roller of the film can be significantly reduced.

(6) Since the number of required rollers is remarkably reduced, the power for driving the rollers is also reduced.

(7) Since the number of required rollers is remarkably reduced, the size, weight and cost can be reduced.

(8) Since the drying efficiency is good and the required number of rollers is remarkably reduced, the running cost is reduced.

(9) Since the number of required rollers is remarkably reduced, the maintenance can be simplified.

[Brief description of drawings]

FIG. 1 is a schematic sectional view of a drying device according to a first embodiment of the present invention.

FIG. 2 is a schematic front view of the same.

FIG. 3 is a schematic sectional view of a drying device according to a second embodiment of the present invention.

FIG. 4 is a schematic view of a conventional film developing device.

FIG. 5 is an explanatory view of a drying device used in the film developing device.

[Explanation of symbols]

 10 Drying device main body (main body) 20 Film supply roller pair 22 Film discharge roller pair 24, 26 Film carry-out roller pair 30 Suction blower 40 Drying section (thin square duct) 41 Flat plate 42 Descent space 43 Surface heater 43A surface Heater split body 43B surface Heater division body 46 Storage section 50 Air suction section 51 Suction duct 60 Communication duct D, D'Film drying device F Film

Claims (9)

[Claims] 1. A film drying device for drying a film washed with water after development, comprising a film supply means for supplying the washed film downward, and a flat plate shape for drying the film supplied from the film supply means. A thin rectangular duct-shaped drying section having a heating section, and an air suction section for sucking air in the drying section from the lower end of the drying section,
A film drying apparatus comprising: an air suction means connected to the air suction section; and a film discharge means for discharging a film from the drying section. 2. A film drying apparatus for drying a film washed with water after development, comprising a film supply roller pair for supplying the washed film downward, and a film supplied from the film supply roller pair. A thin rectangular duct having a surface heater, a suction duct connected to the lower end of the thin rectangular duct, a suction blower connected to the suction duct, and a film for discharging the film discharged from the lower end of the thin rectangular duct. A film drying apparatus comprising a pair of discharge rollers. 3. A film drying device for drying a film washed with water after development, comprising a film supply means for supplying the washed film downward, and a flat plate shape for drying the film supplied from the film supply means. Thin rectangular duct-shaped drying section having a heating section and film conveying means, an air suction section for sucking air in the drying section from the lower end of the drying section, and an air suction section connected to the air suction section A film drying apparatus comprising: a means and a film discharging means for discharging a film from the drying section. 4. A film drying apparatus for drying a film washed with water after development, comprising a film supply roller pair for supplying the washed film downward, and a film supplied from the film supply roller pair. A thin rectangular duct having a surface heater, a film conveying roller pair provided in an intermediate portion of the thin rectangular duct, a suction duct connected to a lower end of the thin rectangular duct, and a suction blower connected to the suction duct And a film discharge roller pair for discharging the film discharged from the lower end of the thin rectangular duct. 5. The film drying apparatus according to claim 1, wherein at least the inner surface of the drying section or the inner surface of the thin rectangular duct is made of a material that promotes the emission of far infrared rays. . 6. The film drying apparatus according to claim 5, wherein at least the inner surface of the drying section or the inner surface of the thin rectangular duct is made of a metal element oxide or a metal element halide. 7. The film drying apparatus according to claim 5, wherein at least the inner surface of the drying section or the inner surface of the thin rectangular duct is black alumite treated. 8. A method of using the film drying apparatus according to claim 1, wherein an air flow velocity in a descent space in which the film formed in the drying section or the thin rectangular duct descends. Is a laminar flow velocity. 9. A film developing apparatus comprising the film drying apparatus according to claim 1. Description: