Apparatus for processing photosensitive material

A processing apparatus including a drying part provided with at least a drying fan and a drying heater to automatically develop a photosensitive material wherein the drying part further includes a means for detecting reduction in air amount of the drying fan.

BACKGROUND OF THE INVENTION 
The present invention relates to an apparatus for processing photosensitive 
materials, and more particularly, to an apparatus for processing 
photosensitive materials where photosensitive materials clogged in the 
inside of a drying part can be reduced in amount by earlier discovery of 
abnormal operation of a drying fan of the drying part to stop the 
processing operation, and the sensitivity is independent of external 
temperatures for obtaining high reliability. 
Conventionally, a photosensitive material processing apparatus (hereinafter 
referred to as processing apparatus) for automatically developing 
photosensitive materials such as paper (photographic paper) effects 
developing, bleaching, fixing and washing operations in the development 
part, with transferring the paper along the transfer route by a roller, 
and then a drying operation of the paper is effected in the drying part. 
The drying part used conventionally is shown in FIGS. 5 through 6. The 
drying part comprises a transfer route 31 having a turn part T at which an 
emulsion face E of the paper P faces externally; a hot blast supplying 
means 32 composed of a drying fan 33 provided on the outside of the turn 
portion T, a drying heater 34 and an exhaust duct 35; a plurality of turn 
rollers 36 provided along the inner side of the turn part T; and a paper 
guide 37 provided between two rollers of the plurality of turn rollers 36 
adjacent to each other so as not to contact with the paper P and having an 
opening through which the hot blast passes. Numerals 38 and 39 are 
transfer roller and guide plate spaced properly in distance along the 
linear portion of the transfer route 31. 
The drying part thus composed is roller-transferring the paper P with the 
use of the air pressure of the drying fan 33. Namely, wind caused by the 
drying fan 33 is heated by the drying heater 34, then dispersed through 
the exhaust duct 35, and is sprayed to each location of the paper P from a 
slit (not shown). Since the paper P is pressed against the surface of the 
turn roller 36 or of the transfer roller 38, smooth transferring operation 
can be effected by the roller without causing slide or deflection. 
In the transfer method using such air pressure, the paper P is not 
depressed any longer against the rollers 36 and 38 with sufficient 
depressing force when the air amount is lowered by abnormal operation such 
as stop of the drying fan, thus resulting in impossible paper transferring 
operation. Therefore, problems of paper clogging or the like are caused in 
the inside of the drying part. 
Conventionally, the abnormal operations such as dying fan stop are detected 
indirectly by various means. 
For example, there is a processing apparatus which issues warnings such as 
buzzer, with an object of fire prevention, by the detection of abnormal 
temperature rise within the interior of the duct 41 with the use of a 
thermostat 40 to prevent overheating in the inside of the drying part as 
shown in FIG. 6. In the processing apparatus, the abnormal operation of 
the drying fan is detected indirectly by detection of the abnormal 
temperature with the use of the thermostat 40, because the temperature of 
the inside of the duct 41 rises because of the reduction in the air amount 
when the abnormal operation such as the drying fan stop occurs. In the 
drying part shown in FIG. 6 where the drying heater 34 is disposed in the 
interior of the duct 41 on the upstream side of the drying fan 33, hot 
blast is fed to each location of the paper through the exhaust duct (not 
shown) provided on the downstream side of the drying fan 33 like in the 
case of FIG. 5. 
Also, there is also a method of detecting the abnormal temperature of the 
inside of the drying part to directly detect the abnormal operation of the 
drying fan by the use of the thermistor sensor (so-called heat-sensitive 
rod) for observing whether or not the temperature of the inside of the 
drying part is a set value, in addition to the above-mentioned thermostat 
for preventing overheat. 
Further, there is another method of, by provision of a means for detecting 
the passing of the paper in the final exit portion of the drying part, 
detecting whether or not the paper has passed the final exit portion after 
the given time lapse required to process a series of paper, and judging 
that the paper has been clogged by the abnormal drying fan or the like if 
the paper does not pass to issue the warning. 
In the detecting means for detecting the temperature rise or the paper 
clogging, the processing operation does not stop till a given time lapse 
from the insertion of the paper into the processing apparatus interior if 
the abnormal drying fan is detected indirectly. In the delivery from the 
printer provided on the upstream of the drying part, the delivering 
operation is to be prohibited after all the paper being delivered has been 
transferred to the drying part even when the warning has been issued. 
Though the warning is issued in the abnormal detection of the drying fan or 
the upper clogging detection using the temperature by the thermostat or 
the like, some time is required to the stop of the transfer of the paper 
from issuance of the warning. The delivering from the printer requires 
some time to the prohibition as described above because the delivery is 
prohibited after the delivering operation for the paper being delivered 
has been completed. Paper loss is more, because successive paper is 
transferred into the drying part under a condition where the paper has 
been clogged during time from occurrence of abnormal drying fan 
abnormality to stop of the paper transportation. 
Timing for issuing warning is not certain, with a problem that sufficient 
reliability is not obtained, because in case of detecting the abnormal 
operation of the drying fan by the temperature detecting means such as 
thermostats and thermistor sensors, the sensitivity is influenced by 
external temperatures. 
The present invention is made to remove such problems. An object of the 
present invention is to provide a processing apparatus which is capable of 
reducing the amount of clogged photosensitive materials in the inside of 
the drying part by earlier discovery of the abnormal drying fan operation 
of the drying part to stop the processing, and of providing higher 
reliability with sensitivity not influenced by external temperatures. 
SUMMARY OF THE INVENTION 
In accordance with a processing apparatus of a first invention, there is 
provided a processing apparatus including a drying part provided with at 
least a drying fan and a drying heater to automatically develop a 
photosensitive material wherein the drying part further includes a means 
for detecting reduction in air amount of the drying fan. 
The means for detecting reduction in air amount is preferably comprises: 
(a) a rotary shaft supported rotatably within an duct which is upstream or 
downstream of the drying fan; 
(b) a flapper secured to the rotary shaft; 
(c) a detecting plate secured to one end of the rotary shaft; and 
(d) a detector capable of detecting movement of the rotary shaft by the 
detecting plate when the air amount of the drying fan has been reduced. 
The means for detecting reduction of air amount is preferably comprises an 
air amount sensor or an air pressure sensor. 
In addition to the means for detecting reduction in air amount, the 
apparatus preferably includes a means for detecting rise of temperature in 
the inside of the drying part and a means for detecting clogging of 
photosensitive material in the inside of the drying part, and controls 
processing of the photosensitive material based on the abnormal detection 
signal to be obtained from the three types of detecting means. 
In accordance with a processing apparatus of a second invention, there is 
provided a processing apparatus including a drying part provided with at 
least a drying fan and a drying heater to automatically develop a 
photosensitive material wherein the drying part further includes a 
rotation detecting sensor for detecting reduction of rotation speed of a 
driving shaft or an output shaft of the drying fan. 
In addition to the rotation detecting sensor for detecting reduction in 
rotation speed of the drying shaft or output shaft of the drying fan, the 
apparatus preferably includes a means for detecting rise of temperature in 
the inside of the drying part and a means for detecting clogging of 
photosensitive material in the inside of the drying part, and controls 
processing of the photosensitive materials based on the abnormal detection 
signal to be obtained from the three types of detecting means. 
Further, the apparatus preferably includes at least one warning means, and 
control of processing of the photosensitive material includes to issue 
warnings by the warning means and to stop the processing of the 
photosensitive material. 
The processing apparatus in accordance with the first invention reduces 
paper loss, because the drying part has a means for detecting reduction in 
air amount of the drying fan so that the operation of the warning means, 
the operation of the paper transferring or the like can be quickly 
effected by the direct and quick detection of the abnormal drying fan 
operation. 
The processing apparatus in accordance with the second invention reduces 
paper loss, because the rotation detecting sensor for detecting reduction 
in rotation speed of the driving shaft or the output shaft of the drying 
fan is provided so that the operation of the warning means, the operation 
of paper delivery or the like can be quickly effected by the direct and 
quick detection of the abnormal drying fan operation.

DETAILED DESCRIPTION OF THE INVENTION 
Referring now to the drawings, there is explained in detail a processing 
apparatus of the present invention. 
A processing apparatus in one embodiment of the present invention, like in 
the conventional processing apparatus shown in FIG. 5, effects developing, 
bleaching, fixing and washing operations in the development part, with 
transferring the paper along the transfer route by a roller, and then a 
drying operation in the drying part. Although conventional one can be 
adopted as a constitution for the processing operations, the constitution 
of the drying part is different from the conventional one. 
Namely, in the drying part of the processing apparatus of the present 
embodiment shown in FIG. 1, an air amount reduction detecting means 3 is 
set within the duct 2 on the upstream side of the drying fan 1. The air 
amount reduction detecting means 3 is composed of a rotation shaft 4 
rotatably supported within the duct 2, a flapper 5 secured onto the 
rotating shaft 4, a limit holding plate 6 secured onto one end of the 
rotating shaft 4, and a limit switch 7. 
Although not shown in FIG. 1, a drying heater, used conventionally, as 
shown in FIG. 6 is set within the duct 2. Also, although not shown, on the 
downstream side of the drying fan 1, the exhaust duct, used 
conventionally, as shown in FIG. 5, is set to feed hot blast through the 
exhaust duct to respective locations of the paper to be carried into the 
drying part. 
In the example of FIG. 1, the flapper 5 is secured to the rotating shaft 4 
within the range of at least the upper half portion thereof so that it can 
be oscillated depending on the change of the air pressure and 
correspondingly rotates the rotary shaft 4. One end of the rotating shaft 
4 is projected externally of the duct 2. The limit holding plate 6 is 
secured to the projected tip end portion 4a as the detecting plate. As a 
detector for detecting the movement of the rotating shaft 4 by the limit 
holding plate 6, the limit switch 7 is secured to such a position on the 
external surface of the duct 2 that the arm 7a is depressed against the 
projection 7b by the limit holding plate 6 when the drying fan 1 is 
normally operating, and that the projection 7b is not depressed when the 
air amount of the drying fan 1 is reduced. 
The limit holding plate 6 can be adopted in any shape if the arm 7a is 
depressed when the limit holding plage 6 has been rotated by a given angle 
around the rotating shaft 4, while the depressing against the arm 7a can 
be stopped when it has been rotated by a given angle in an opposite 
direction. Accordingly, the shape might be rectangular as shown in FIG. 1, 
or might be oval or semicircular or the like. Further, the eccentric cam 
might be employed. 
Although in the embodiment, the limit switch has been explained by way of 
an example as a detector. The present invention is not limited to it. For 
example, photosensor or the like might be adopted as the other example for 
the detector. 
In the drying part of FIG. 1, the limit holding plate 6 is rotating in a 
direction of an arrow A by the air pressure when the given air pressure 
and air amount are caused by the normal operation of the drying fan 1. The 
limit switch 7 is normally in the condition of On by depression of the tip 
end of the limit holding plate 6 against the arm 7a of the limit switch 7 
and then the projection 7b. Thus, the drying fan is judged to be normally 
operating by a central processing unit (CPU) or the like connected with 
the limit switch 7. 
In the case where an abnormal operation such as fan lock has been generated 
with the drying fan 1, the limit holding plate 6 is rotated in a direction 
opposite to the arrow A direction because of the lower air pressure 
(reduction as about half as normal pressure). At that time, the tip end of 
the limit holding plate 6 stops pressing the arm 7a, so that the arm 7a is 
separated from the projection 7b. As a result, the limit switch becomes 
off. It is judged that the abnormal operation has been caused in the 
drying fan by the central processing unit or the like. All the processing 
operations are stopped in emergency, or control of processing operation is 
carried out, i.e. warnings are issued by the various warning means 
(alarms) of buzzer or warning lamps, or messages for warnings use are 
displayed on a monitor. 
Also, in the drying part of the processing apparatus shown in FIG. 2 as 
another embodiment of the apparatus of the present invention, an air 
amount or an air pressure sensor 8 is provided as an means for detecting 
reduction in the air amount within the duct 2 on the upstream side of the 
drying fan 1. 
Although not shown, a drying heater conventionally used as shown in FIG. 6 
is provided within the duct 2. Also, although not shown, an exhaust duct 
conventionally used as shown in FIG. 5 is provided to feed hot blast 
through the exhaust duct to each location of the paper to be carried into 
the drying part. 
As the air amount or the air pressure sensor 8, there can be employed a 
means capable of measuring air amount such as conventionally used mass 
flow control meter, SLK-3500 or SST-3100 (both are air amount/air pressure 
censor made by Effector Kabushiki Kaisha), a means capable of measuring 
air pressure such as semiconductor pressure sensor. 
Such a drying part in FIG. 2 can observe whether or not the given air 
pressure and air amount is caused by the normal operation of the drying 
fan 1 by the air amount or the air pressure sensor 8. When the air amount 
has been lowered (to approximately half normal or less) or the air 
pressure has been lowered (to approximately half of the normal pressure or 
less) because of the abnormal operation such as fan lock in the drying fan 
1, the central processing apparatus or the like connected with the air 
amount or air pressure sensor 8 judges that something went wrong with the 
drying fan. All the processing operations are stopped in emergency, or 
control of processing operation is carried out, i.e. warnings are issued 
by the various warning means (alarms) of buzzer or warning lamps, or 
messages for warnings use are displayed on a monitor. 
Also, as still another embodiment of the processing apparatus of the 
present invention, as shown in FIG. 3 a rotation detecting sensor 9 is 
provided in the drying part of the processing apparatus for detecting 
reduction in rotating speed of the driving shaft 1a of the drying fan 1. 
Although not shown, the conventionally used drying heater as shown in FIG. 
6 is provided within the duct 2. Although not shown, the conventionally 
used exhaust duct as shown in FIG. 5 is provided on the downstream side of 
the drying fan 1 to supply the hot blast through the exhaust duct to each 
location of the paper to be carried into the drying part. 
The rotation detecting sensor 9 is composed of a rotating disc 9c having a 
plurality of holes 9e and secured to the tip end portion of the driving 
shaft 1a, and a counter part 9b with a light emitting part 9c and a light 
receiving part 9d oppositely provided on both the front and rear sides of 
the rotating disc 9a. The rotating speed of the driving shaft 1a (namely, 
the rotating speed of the rotating disc 9a) is counted by the number of 
the hole 9e of the rotating disc 9a passed between the light emitting part 
9c and the light receiving part 9d per unit time as the number of optical 
pulses received by the light receiving part 9d. 
Such a drying part in FIG. 3 can observe whether or not the given air 
pressure and air amount are caused by the normal rotation of the drying 
fan 1 at the normal rotating speed by the air amount or the rotation 
detecting sensor 9. When the rotating speed has been lowered (to 
approximately half the normal pressure or less) because of the abnormal 
operation such as fan lock in the drying fan 1, the central processing 
apparatus or the like connected with the rotation detecting sensor 9 
judges that something went wrong with the drying fan. All the processing 
operations are stopped in emergency, or control of processing operation is 
carried out, i.e. warnings are issued by the various warning means 
(alarms) of buzzer or warning lamps, or messages for warnings use are 
displayed on a monitor. 
Although FIG. 3 explained an example where a rotation detecting sensor has 
been provided on the driving shaft of the drying fan, the present 
invention is not limited to it. The rotation detecting sensor might be 
provided on the output shaft of the drying fan. In this case, the above 
described function can be effected. 
With reference to the flow chart of FIG. 4, the control of processing of 
the photosensitive material by the processing apparatus of the present 
invention is described. 
Before the processing apparatus is driven, the paper is exposed in advance 
and then the paper is kept waiting within the printer. 
The developing conditions (the guide width of the transferring route, 
temperature adjusting conditions, the temperature within the drying part 
or the like) are checked by the central processing unit or the like within 
the processing apparatus. Then, it is checked whether or not the 
processing liquid part cover and the drying part cover are closed. When 
something abnormal has been detected by these checks, the monitor attached 
or the like displays as to which item is wrong. 
Then, when the driving of the processing apparatus is started, the paper is 
fed into the processing apparatus. A development processing in the 
development part is effected, then the paper is transferred to the drying 
part to dry, and is discharged to the outside of the drying part. When the 
paper is fed into the apparatus, the rear end of the paper is detected in 
the processing apparatus entrance by the photosensor or the like. On the 
other hand, when the paper is discharged to the outside of the drying 
part, the rear end is detected by the photosensor or the like even in the 
exit of the drying part to measure, as one time of processing time, the 
time interval between two rear end detections. 
After the paper has been discharged to the outside of the drying part, the 
existence of the paper being processed is checked with the use of the 
photosensor or a touch sensor or the like provided in each location of the 
transferring route. When the paper remains within the processing 
apparatus, the paper is fed again into the processing apparatus to process 
a series of paper. When the paper does not exist, the driving operation of 
the processing apparatus stops. 
While the paper is delivered to the processing apparatus to effect each 
step of development, drying and discharging, the following five items are 
checked in accordance with the subroutine S for abnormal judgment in the 
central processing unit or the like. 
(1) Whether or not the cover of the processing liquid part is opened is 
checked with the use of a touch sensor or the like. 
(2) Whether or not the drying part cover is opened is checked with the use 
of a touch sensor or the like. 
(3) Whether or not the temperature of the interior of the drying part is 
abnormal is checked with the use of a thermostat or the like. 
(4) Whether or the paper is clogged in the interior of the drying part is 
judged by whether or not the paper has passed through the processing 
apparatus by time when the correcting time portion a is added to the 
measured processing time. 
(5) Whether or not the operation of the drying fan is abnormal is checked 
with the use of the air amount detecting means shown in FIG. 1 or FIG. 2. 
When one among the above described (1) through (5) is judged to be true, 
the warnings are issued by various warning means such as buzzer and 
warning lamp provided on the processing apparatus while an emergency stop 
of the driving of the processing apparatus is effected immediately. 
When the abnormal operation of the drying fan in the (5) is checked, it can 
be preferably checked even by the rotation detecting sensor shown in FIG. 
3 in addition to the air amount detecting means. 
The processing apparatus in accordance with the first invention reduces 
paper loss, because the drying part has a means for detecting reduction in 
air amount of the drying fan so that the operation of the warning means, 
the paper transferring operation or the like can be quickly effected by 
the direct and quick detection of the abnormal drying fan operation. Also, 
since the paper is not transferred in a condition where the paper clogging 
operation exists at the abnormal operation of the drying fan, the 
secondary troubles such as parts failures or the like are avoided. 
The driving control can be effected with high reliability, because the 
sensitivity is not influenced at all by the external temperature because 
of direct detection of the reduction in the air amount without the use of 
the temperature detecting means or the like. 
The processing apparatus in accordance with the second invention reduces 
paper loss, because the drying part has a rotation detecting sensor for 
detecting reduction in rotation speed of the driving shaft or the output 
shaft of the drying fan so that the operation of the warning means or the 
paper transferring operation can be quickly effected by the direct and 
quick detection of the abnormal drying fan operation. Also, since the 
paper is not transferred in a condition where the paper clogged exists at 
the abnormal operation of the drying fan, the secondary troubles such as 
parts failure or the like are avoided. 
The driving control can be effected with high reliability, because the 
sensitivity is not influenced at all by the external temperatures because 
of direct detection of the reduction in the rotating speed without the use 
of temperature detecting means or the like.