JPH07277570A - Image processing system and post-processing device - Google Patents

Abstract

PURPOSE:To provide an image processing system and a post-processing device which can surely carry out film conveyance, warning-indicate some failure in film conveyance surely, if any, and can hardly make erroneous operation of sorting. CONSTITUTION:This image processing system, which is composed of a processor 30 which develops a film F and a post-processing device 50 which sorts the film F and the like, is provided with an upper roller 32, a lower roller 331 equipped with a protruding part 37 and a film conveyance means 51 which incorporate the film F into the film outlet part 31 of the processor 30.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image recording system having an image recording device for forming an image on a film, a processing device for developing the film, and a post-processing device for sorting the film. It relates to an aftertreatment device.

[0002]

2. Description of the Related Art Conventionally, there is a multi-modality connection in which several diagnostic devices are connected to one image recording device. In this case, an image-formed film is developed by one processing device, and sorting work is manually performed. I was dependent on. Further, as a technique for conveying the film, for example, Japanese Utility Model Publication No. 61-3875, Japanese Patent Laid-Open No. 5-232665, and Japanese Patent Publication No. 52-47329 are disclosed.

However, there is an upper roller and a lower roller for conveying the film, and the lower roller has a protruding portion, and the film is conveyed by these two upper rollers and the lower roller, but the film is curled. I found that the film was pushed out, and the film was not pushed out completely. In addition, if a new film processing operation is performed without knowing the defective film conveyance, the film sorting of the post-processing device malfunctions, and when it is necessary to feed the film one by one, the I found that there was a problem because the film never pushed out.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to solve at least one of the above-mentioned problems, and it is possible to surely convey a film and surely detect the presence or absence of the conveyance of the film. Another object of the present invention is to provide an image processing system and a post-processing device that detect when there is an abnormal conveyance of the sheet and are less likely to be missorted.

[0005]

The above object can be achieved by the following means. That is, (1) in an image processing system having a processing device for developing a film and a post-processing device for sorting the film, the film is sent to the post-processing device at the film outlet of the processing device and / or The image processing system is characterized in that a film feeding means for feeding a film to the bin of the post-processing device is provided with an upper roller of a lever type and a lower roller provided with a protruding portion.

(2) In the image processing system according to (1), the bite amount of the roller type roller is from 1 mm to 5 mm.

(3) In an image processing system having a processing device for developing the film and a post-processing device for sorting the film, the film is sent to the post-processing device at the film outlet of the processing device, and / or Alternatively, the image processing is characterized in that a film transport means for feeding the film into the bin inlet of the post-processing device, the upper roller and the lower roller provided with a groove for pushing out the rear end of the film on a vertical surface is provided. System.

(4) In the image processing system according to (3), the groove of the lower roller has a depth of 2 mm to 4 mm and / or a width of 10 mm or more.

(5) In an image processing system having a processing device for developing a film and a post-processing device for sorting the film, the film is sent to the post-processing device at the film outlet of the processing device, and / or Alternatively, the film is fed to the bin inlet of the post-processing device, a film transport means with a lower roller with a collar provided with an upper roller and a deformable flange portion on the outer peripheral surface of the roller to push out the rear end of the film on a vertical surface, The image processing system is characterized by being provided.

(6) In the image processing system according to (5), the lower roller with a collar is an elastic member.

(7) In the image processing system according to any one of (3) to (6), the film is sent to the post-processing device at a film outlet of the processing device, and / or
Alternatively, the image processing system is characterized in that it is provided with a film transfer means of an upper roller and a lower roller of a lever type for feeding the film into the bottle inlet of the post-processing device.

(8) The image processing system according to (7), characterized in that the amount of bite of the lever type roller is 1 mm to 5 mm.

(9) In an image processing system having a processing device for developing the film and a post-processing device for sorting the film, the film is sent to the post-processing device at the film outlet of the processing device, and / or Alternatively, it is provided with a film transport means for feeding the film to the bin inlet of the post-processing device, and an upper roller and a lower roller provided with a groove for pushing the rear end of the film on a vertical surface in at least a part of the roller axial direction, The image processing system is characterized by that.

(10) In the image processing system described in (9), the groove of the lower roller is provided in a range of one third to two thirds of the entire axial length of the roller.

(11) In an image processing system having a processing device for developing a film and a post-processing device for sorting the film, the film is sent to the post-processing device at the film outlet of the processing device, and / or Alternatively, it is provided with a film conveying means for feeding the film to the bin inlet of the post-processing device, and an upper roller and a lower roller provided with a twist groove for pushing the rear end of the film on a vertical surface in a part of the roller axial direction. The image processing system is characterized by that.

(12) In a post-processing device such as a film sorter connected to a processing device for developing the film, the storage surface of the film and the detection surface for detecting the presence or absence of the film in the recess from the storage surface are substantially perpendicular to each other. The post-processing device is characterized by including the provided film detection means and reducing the influence of ambient light, dust on the detection surface, and the like.

(13) In a post-processing device for sorting the films processed by the processing device, the film storage surface is provided at the entrance of the post-processing device, and at least two films are provided substantially parallel to the storage surface. The present invention is characterized in that it comprises a detecting means and a timer means for starting a timer at the same time when one of the film detecting means is turned on, and if a film detecting means other than the film detecting means does not turn on after a predetermined time, it is judged as a defective film conveyance. It is a post-processing device that does.

(14) In the post-processing device for sorting the films processed by the processing device, a film detection signal means for reading a detection signal for a fixed time of presence / absence of the film in the film transport path, and the detection signal is within a predetermined time. Is a normal signal when the detected output exceeds a certain value, and when the detected output is below a certain value within a predetermined time after the detected output exceeds the certain value, a judgment control means for controlling to judge an abnormal signal is provided. The post-processing device is characterized by eliminating the abnormal signal due to the above.

(15) A processing apparatus having at least a transporting means for transporting a film along a transporting path, comprising a vibrating means for vibrating at least a part of a transporting member for transporting the film. Is.

(16) The above-mentioned carrying member is a carrying guide for carrying the film to a predetermined carrying path (15)
It is the processing device described.

The image recording device is a device having at least a function of writing image information on the film of the photosensitive material. For the writing, for example, an image memory is written by a laser scanner, an image of a CRT is directly printed on a film by a lens, and the image recording apparatus may include a memory of image information.

The processing device is a device for developing the film and may be a printing process. The exit portion of the processing device means an exit portion having an upper roller and a lower roller of the film transport path of the processing device. Further, the upper roller is a roller which makes a pair with the lower roller, and the roller conveys the film above the parallel direction. The lower rollers are a pair of lower rollers of the film conveying means and convey the film above the parallel by the rollers.

There are various roller shapes such as a protrusion and a groove. Further, the bite means the overlap of the outer peripheral portions of the upper roller and the lower roller. The roller groove means a groove on the outer peripheral portion of the lower roller. Further, the projecting portion is provided with at least one projecting portion projecting to the outer peripheral portion of the lower roller, and the flange portion is provided with at least one projecting portion having a brim shape projecting to the outer circumferential portion of the lower roller. The twist groove is a spiral groove of the lower roller.

The post-processing apparatus is a post-processing apparatus for the processing apparatus, which is an apparatus for collectively storing and / or sorting. The film transport means is a means for transporting the film along the transport path. The storage plate refers to a storage plate that is set up to temporarily store the film discharged from the processing apparatus, and the transport guide is a guide for transporting along the film transport path. Further, the vibrating means is a means for vibrating the film conveying means to ensure the conveyance of the film. The film detecting means is a means for detecting the presence or absence of a film, and is an optical sensor having a light emitting portion and a light receiving portion. The film is a light-sensitive material and includes an X-ray film, a CT film, a color film, a printing film and the like.

[0025]

Embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1) Embodiment 1 is an embodiment according to claims 1 and 2.

FIG. 1 is a schematic configuration diagram of the image processing system. As shown in the figure, the image recording device 10 is a device having at least a function of writing image information on a film,
The processing device 30 is a device for developing the film and a post-processing device.
Reference numeral 50 is a post-processing device such as a film sorter. The film on which the image has been written by the laser writing unit 11 is detected by the film detecting means 815 at the exit of the image recording apparatus 10 from passing through the film, and then sent to the processing device 30 for development processing. Here, the film is fed to the post-processing device from the exit of the processing device which will be described in detail with reference to FIG. Further, in the post-processing device, sorting described in detail in FIG. 4 is performed.
The film detecting means 816 and 817 are film detecting means provided in the processor, and the control circuit 86 is a circuit for controlling the film detecting means. Further, the film detecting means 811 and 818
Is a film detecting means provided in the post-processing apparatus, and the rollers 61, 62, and 63 are rollers that convey the film provided in the post-processing apparatus.

FIG. 2 is a schematic block diagram of the film conveying means. As shown in the figure, the processing device 30 is a device for developing the film F, and the film transport path outlet 31 has an upper roller 32 and a lower roller 331 of the film transport means 51. The lower roller 331 is provided with a protrusion 37. Upper roller 32
The lower roller 331 and the lower roller 331 each have a plurality of rollers and are alternately combined. The transport guide 53 is a guide member that guides the trailing edge FE of the film. on the other hand,
The post-processing device 50 is a device having a function of sorting the films and a function of collectively storing the films. The motor 56 is a drive source for members described later, and the arm 59 rotates counterclockwise in the figure. One end of the arm 57 is pivotally supported and the other end is planted with a pin. One end of the storage plate 52 is pivotally supported, and the long groove has a surface on which the pin is operated and the film F is stored. Further, one end of the guide 58 is pivotally supported, and a pin is partially planted, and the guide 58 is fitted in the long groove of the storage plate 52. The transport guide 531 is a guide for moving the film along the transport path.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 331, it is conveyed by the rollers and the leading end of the film rises upward along the storage plate 52. On the other hand, the trailing edge FE of the film is sent out by the protrusion 37 provided on the roller and moves along the transport guide 53. In addition, the paired rollers are engaged to increase the carrying force.
Further, the film stored in the storage plate 52 is
Is driven counterclockwise,
57, the storage plate 52, and the guide 58 are actuated, the film falls downward, is conveyed along the conveyance guide 531, and is sorted by a method not shown.

FIG. 3 is a configuration diagram of the upper roller and the lower roller. As shown, upper roller 32, lower roller 33
1 has the structure already described with reference to FIG.
Considering to reduce the bending sound of the film,
It is preferably about 1 mm to 5 mm. The film F has a wavy shape as shown in the figure so that the carrying force is increased.

FIG. 4 is a schematic configuration diagram of film sorting. As shown, the lever 69 is actuated by a solenoid 68. The upper roller 65 is rotatably supported by a lever 69. When the solenoid 68 is actuated and the state shown in the figure is reached, the film F is discharged to a predetermined bin 60.
The lower roller 67 has four grooves in a part in the axial direction of the roller, the vertical surface of the groove pushes out the rear end of the film, and the other part has a circular shape. Also roller
The lower roller 67 conveys the film F to the vicinity of the bin 60 with the lower roller 67. The bin 60 is a tray for storing the film, and the transport guide 532 is a guide plate for the film.

The operation will now be described. When the bin for sorting the film F is the bin 60 in the figure, the solenoid 68 operates to the left side in the figure and the upper roller 65 is rotated clockwise. Then, the upper roller 65 moves to the position shown in the figure. Here, the film is conveyed upward by the roller 64 and the lower roller 67 along the conveying path 66. Then, the leading end of the film F contacts the upper roller 65, and the film F is placed in the bin 60.
The film F is bent and conveyed in a certain direction, and the rear end of the film F is pushed out by the vertical surface of the groove of the lower roller 67 and is reliably stored in the bin.

(Embodiment 2) Embodiment 2 claims 3 and 4.
It is an example related to.

FIG. 5 is a schematic diagram of the film transport means. As shown in the figure, since the structure is similar to that described with reference to FIG. 2, the difference will be mainly described. The processing device 30 is a device for developing the film F, and the film transfer means 51 is provided at the exit of the film transfer path. There is an upper roller 32 and a lower roller 332. The lower roller 332 has a groove 36. The depth of the groove is 3m
It is preferably about m, and the groove width is preferably 10 mm or more.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 332, it is conveyed by the roller pressure, and the leading end of the film rises upward along the storage plate 52. On the other hand, the rear end FE of the film is sent out by the groove portion 36 provided in the roller so as to surely move to the storage plate 52 side.

FIG. 6 is a schematic configuration diagram of the film transport means. As shown in the figure, since the structure is similar to that described with reference to FIG. 2, the difference will be mainly described. The processing device 30 is a device for developing the film F, and has an upper roller 32 and a lower roller 333 of the film conveying means at the exit of the film conveying path. The lower roller 333 has four substantially triangular grooves.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 333, it is conveyed by the rollers and the leading end of the film rises up along the storage plate 52. On the other hand, the rear end FE of the film is pushed out by the vertical surface of the substantially triangular groove portion provided on the roller, and is reliably moved to the storage plate 52 side.

The upper and lower rollers of the film transport at the entrance of the bin 60 of the post-processing device 50 are the same as the upper and lower rollers of the film transport at the exit of the processing device 30 of FIGS. 5 and 6 described above. Since the structure is described above, the description will be omitted because it is redundant.

(Embodiment 3) Embodiment 3 is an embodiment according to claims 5 and 6.

FIG. 7 is a schematic block diagram of the film conveying means. As shown in the figure, since the structure is similar to that described with reference to FIG. 2, the difference will be mainly described. The processing device 30 is a device for developing the film F, and has an upper roller 32 and a lower roller 334 of the film transport means at the exit of the film transport path. The lower roller 334 has four convex ribs 38.
The collar is made of deformable rubber, sponge, or the like. Also, a plurality of collar portions may be provided.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 334, it is conveyed by the roller pressure, and the leading end of the film rises up along the storage plate 52. On the other hand, the trailing edge FE of the film is sent out by the convex flange portion 38 provided on the roller and reliably moves to the storage plate 52 side. The brim 38
When is in contact with the upper roller 32, the collar 38 is bent as shown.

The upper roller and the lower roller for film transport at the entrance of the bottle 60 of the post-processing apparatus 50 have the same structure as the lower roller for film transport at the exit of the processing apparatus 30 of FIG. 7 described above. Therefore, the description will be omitted because it is redundant.

(Embodiment 4) Embodiment 4 is an embodiment according to claims 7 and 8.

FIG. 8 is a schematic block diagram of the film transport means, which is similar to the structure described in FIG. 2 and therefore the differences will be mainly described. FIG. 8A is a schematic configuration diagram of the film conveying means, and as shown in the figure, the upper roller of the film conveying means.
There are 32 and lower rollers 335. The lower roller 335 has a groove. Each of the upper roller 32 and the lower roller 335 has a plurality of rollers, and they are assembled so as to bite alternately.

The film transport operation will now be described. First, the film F has an upper roller 32 and a lower roller 335.
When entering the space, the film becomes wavy and is conveyed by the rollers. On the other hand, the trailing edge FE of the film is sent out by the groove portion provided in the roller and reliably moves to the storage plate side.

FIG. 8B is a schematic configuration diagram of the film conveying means, and as shown in the figure, there is a pair of upper roller 32 and lower roller 336 of the film conveying means. 4 for lower roller 336
There are two substantially triangular grooves. The upper roller 32 and the lower roller 336 each have a plurality of rollers, and they are bite alternately 35
Are combined together.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 336, it is conveyed by the rollers and the leading end of the film rises up along the storage plate. On the other hand, the rear end FE of the film is pushed out by the vertical surface of the substantially triangular groove portion provided on the roller. It is sent out and reliably moves to the storage plate side.

FIG. 8 (c) is a schematic diagram of the film conveying means. As shown in the figure, an upper roller 32 and a lower roller 337 of the film conveying means are provided at the exit of the film conveying path.
The lower roller 337 has four convex ribs. Each of the upper roller 32 and the lower roller 337 has a plurality of small rollers arranged at equal intervals on the roller shaft. The upper roller and the lower roller are formed by alternately combining a plurality of small rollers. It should be noted that the bite 35 indicates the amount of bulk. The brim is made of deformable rubber, sponge, or the like.

The film transport operation will now be described.
First, when the film F enters between the upper roller 32 and the lower roller 337, it is conveyed by the rollers and the leading end of the film rises upward along the storage plate 52. On the other hand, the trailing edge FE of the film is sent out by the convex flange portion 38 provided on the roller and reliably moves to the storage plate side. When the collar comes into contact with the upper roller 32, the collar is bent.

The upper roller and the lower roller for transferring the film at the entrance of the bin 60 of the post-processing apparatus 50 have the same structure as the lower roller for transferring the film at the exit of the processing apparatus 30 shown in FIG. Therefore, the description will be omitted because it is redundant.

(Fifth Embodiment) The fifth embodiment is claimed in claims 9, 10, and 11.
It is an example related to.

FIG. 9 is a perspective view of the lower roller, showing the lower roller at the outlet of the processing device and the lower roller at the bin inlet of the post-processing device. As shown in the figure, the lower roller 338 is the lower roller of the film transport means provided at the exit of the film transport path of the processing apparatus. A part of the axial length of the roller is a grooved roller 3381, and the other is a circular roller 3382. The upper roller is the same as in FIG.

The film transport operation will be described. First, when the film enters between an upper roller and a lower roller 338 (not shown), the circular roller 3382 continuously transports the film. On the other hand, the trailing edge FE of the film is fed out by the groove of the grooved roller 3381 provided in the roller. As described above, one roller has both functions.

FIG. 10 is a front view of the lower roller. The figure shows the lower roller at the exit of the processing device and the lower roller at the bin inlet of the post-processing device. Lower roller 33 as shown
Reference numeral 9 is a lower roller of the film transport means provided at the exit of the film transport path of the processing device. A part of the axial length of the roller is a roller 3391 with a groove, and the other is a plurality of circular rollers.
3392. The upper roller is the same as in FIG.

The film transporting operation will now be described. The film has an upper roller and a lower roller 339 (not shown).
When it enters the space, the film is continuously conveyed by the circular roller 3392. On the other hand, the trailing edge FE of the film is sent out by a plurality of grooved rollers 3391 provided on the roller.
The upper roller related to this roller may be composed of a plurality of rollers and may be alternately combined with the lower roller.

FIG. 11 is a front view of the lower roller, showing the lower roller at the outlet of the processing apparatus and the lower roller at the bin inlet of the post-processing apparatus. As shown in the figure, the lower roller 340 is a roller below the film conveying means provided at the exit of the film conveying path of the processing apparatus. A part of the axial length is a grooved roller 3401 which is parallel to the shaft, and the other is a spiral grooved roller 3402. The upper roller is the same as in FIG.

The film transport operation will be described. First, when the film enters between the upper roller and the lower roller 340 (not shown), the twist groove roller 3402 continuously feeds the film, and the film rear end FE is It is sent out by the grooved roller portion 3402.

FIG. 12 is a perspective view of the lower roller, showing the lower roller at the outlet of the processing device and the lower roller at the bin inlet of the post-processing device. As shown in the figure, the lower roller 341 is a lower roller of a pair of film transport means provided at the exit of the film transport path of the processing apparatus. A part of the axial length is a plurality of grooved rollers 3411 and the other is a plurality of phase shift grooved rollers 34.
Twelve. In the figure, the grooved roller 3411 has 6 rows, and the phase shift grooved roller 3412 has 7 rows. However, it is not limited to this.

The film transport operation will now be described.
First, the film has upper and lower rollers (not shown).
When it enters between 1, the other end is continuously conveyed by the phase shift grooved roller 3412 to the film. On the other hand, the rear edge F of the film
E is sent out by the grooved roller portion 3411 provided on the roller. The upper roller related to this roller may be composed of a plurality of rollers and may be alternately combined with the lower roller.

FIG. 13 is a front view of the lower roller, showing the lower roller at the outlet of the processing apparatus and the lower roller at the inlet of the bin of the post-processing apparatus. As shown in the figure, the lower roller 342 is a lower roller of a pair of film transport means provided at the exit of the film transport path of the processing apparatus. A part of the axial length is a grooved roller 3421 that is parallel to the shaft, and the other is a projection-provided roller 3422. The upper roller is the same as in FIG.

The film transporting operation will now be described. The film has an upper roller and a lower roller 342 (not shown).
When entering the gap, the grooved roller 3421 sends out the film rear end FE, and the roller 3422 with protrusions mainly conveys the film.

(Embodiment 6) Embodiment 6 is an embodiment according to claim 12.

FIG. 14 is a schematic diagram of the film detecting means, showing the lower roller at the exit of the processing apparatus. As shown in the figure, the post-processing apparatus has a storage plate 52, and a film detection means 811 is provided on the side of the storage plate 52 opposite to the side where the film F is stored, with the measurement surface being substantially at a right angle. The film detecting means 811 is a sensor having a light emitting portion and a light receiving portion. Substantially right angle to the horizontal (60 to 120 degrees), 1mm to 10m from the upper outer edge of the hole
It is located in the m-down position.

The method of detecting the film will be described below. When a signal for detecting the presence or absence of the film is output, the light emitting portion LED is turned on and reflected by the surface of the film to be detected by the light receiving sensor. Light is reflected, and if there is no light does not reflect. This detects whether or not there is a film. Since the film detecting means 811 has the film detecting means 811 on the side opposite to the side where the film F is stored in the storage plate and the measurement surface is substantially at a right angle, external unnecessary light does not enter.

(Embodiment 7) Embodiment 7 is an embodiment according to claim 13.

FIG. 15 is a schematic block diagram of the film detecting means. As shown in the figure, the post-processing apparatus has a storage plate 52, and the storage plate 52 has film detection means 811 812 813 whose measurement surface is substantially perpendicular to the side opposite to the side where the film F is stored. The three film detecting means are sensors having a light emitting portion and a light receiving portion.

Here, the method of detecting the film will be described. When a signal for detecting the presence or absence of the film is issued, LE is detected.
D emits light, is reflected by the surface of the film and is detected by the light receiving section
The light from the LED reflects when there is a film, and does not reflect when there is no film. This detects whether or not there is a film. Since the film detecting means 811 has the film detecting means 811 on the side opposite to the side where the film F is stored in the storage plate and the measurement surface is substantially at a right angle, external unnecessary light does not enter. A timer means (not shown) starts the timer at the same time when one of the film detecting means 811 of the post-processing entrance film detecting means is turned on, and if the film detecting means 812 is not turned on after a predetermined time, it means that the conveyance is defective. For example, when the film F2 (dotted line in the figure) is jammed by the lower roller 331 as shown in the figure, the film detecting means 811 is ON and the film detecting means 812 is OFF.
Remains, and it is determined that the conveyance is defective. The films F1 and F2 are concavely curved and jammed, and the films F3 and F4 are in the storage portion of the storage plate 52.

FIG. 16 is a flow chart for detecting film transport. The main flow will be described. When the film discharge starts (f01), the 3-second timer is reset (f02). Here, the detection sensor 811 is ON (f0
3) Then the 3-second timer is set (f04). Next, check whether the detection sensor 812 or 813 is turned on (f (f
05) If NO, check whether the 3-second timer has elapsed for 3 seconds (f06), and if it has elapsed, set the 5-second timer (f07) this time. Here the detection sensor 812 or 813
Is turned on or checked (f08), and if NO is checked, the 5 second timer checks if 5 seconds has elapsed (f09). If it has elapsed, a film transport error (f11) is determined. On the other hand, check if the detection sensor 812 or 813 is turned on, and YES.
In the case of, the film transport operation is started (f10).

(Embodiment 8) Embodiment 8 is an embodiment according to claim 14.

FIG. 17 is a schematic block diagram of the film detecting means. As shown in the figure, the post-processing apparatus 50 has a storage plate 52, and a film detection means 811 is provided on the side of the storage plate 52 opposite to the side where the film F is stored, and the measurement surface is substantially at a right angle. The film detecting means is a sensor having a light emitting portion and a light receiving portion.

The method of detecting the film will now be described. When a signal for starting the detection of the presence / absence of the film is issued by the control unit (not shown), the light emitted from the LED of the light emitting unit and reflected by the F surface of the film is received. LE when the film is detected at the position of the film detection means by the optical sensor
The light of D is reflected by the film surface, and the light is not reflected unless it is present, so that the presence or absence of the film can be detected. Since the film detecting means 811 has the film detecting means on the side opposite to the side of the storage plate 52 where the film F is stored, the measuring surface is at a substantially right angle.
It is designed to prevent unwanted light from entering from the outside.

The film detecting means judges that it is a normal signal when it is above a certain value within a predetermined time, and judges that it is an abnormal signal when its detection output exceeds a certain value and below a certain value within a predetermined time. To do. The judgment control means is adapted to judge whether the signal of the sensor is a normal signal or an abnormal signal and correctly detect the detection signal of the film.

FIG. 18 shows the output waveform of the film detecting means.
17 is an output waveform of 17 film detecting means 811. The vertical axis represents the detection signal of the film detecting means, the horizontal axis represents the measurement time, and the waveform represents the change in the process of transporting the film. Reference numeral 88 in the figure is a portion of noise (diffuse reflection due to film angle, etc.) due to ambient light, and 87 is a portion where normal detection is performed. The detection method determines that the film is present when the level is kept above the film presence level for a predetermined time.

(Embodiment 9) Embodiment 9 is an embodiment according to claims 15 and 16.

FIG. 19 is a schematic diagram of a vibrating means for film transport. As shown in the figure, the processing device 30 is a device for developing the film F, and has an upper roller and a lower roller of the film transport means at the exit of the film transport path. on the other hand,
The post-processing device 50 is a device having a function of sorting the films and accommodating the films all together. A motor 56 is a drive source for various arms described later, an arm 59 rotates counterclockwise in the figure, one end of the arm 57 is pivotally supported, and a pin is planted at the other end. Further, the arm 57 has a cam 571 so as to generate vibration. One end of the storage plate 52 is pivotally supported, and the long groove is provided with each of the surfaces on which the pins are operated and the film is stored. Further, one end of the arm 58 is pivotally supported, a pin is partially planted and fitted into the long groove, and the rear end FE of the film is partially guided to be conveyed. The transport guide 531 is one of the guides for moving the film along the transport path.

The vibrating operation of the film conveyance will be described. First, as described in FIG. 2, when the film F enters between the upper roller and the lower roller, the film is conveyed by the rollers, and the leading end of the film is the storage plate. Ascend upwards along 52. On the other hand, the trailing edge of the film is sent out by the protrusion provided on the roller and moves along the transport guide. The motor F drives the film F stored in the storage plate 52 in the counterclockwise direction, and the convex portion of the cam 571 of the arm 57 causes the arm 57 and the storage plate 52 to vibrate. As a result, due to static electricity or the like, the film F can be separated from the storage plate 52 by vibration even if it is attached to the storage plate 52, the film falls downward, moves downward along the transport guide 531 and is sorted by a method not shown. The vibration may be performed by various known methods.

FIG. 20 is a schematic block diagram of the vibrating means for conveyance. As shown, the vibrating means 54 includes a cam 571 as shown.
Due to the function of the convex portion, the storage plate 52 vibrates between the solid line and the chain double-dashed line in the figure so as to surely drop even if the film is attached. The shape of the cam 571 can be changed to give a predetermined vibration.

Regarding the various lower rollers, the outlet part of the processing device and the bin inlet part of the post-processing device have been described, but they may be adopted in other devices such as the pre-processing device.

[0079]

The above-mentioned structure has the following effects.

The effects of the first and second aspects are that the transporting force of the film is improved and the transporting is ensured. Further, according to the effects of claims 3 and 4, the transport jamming of the film can be prevented. Also,
According to the effects of claims 5 and 6, the transport jamming of the film can be prevented. Further, the effect of claim 9 is that the transport force of the film is improved and the transport is ensured. Further, the effect of claim 10 is that the transport jamming of the film can be prevented. Further, the effect of claim 11 is that it is possible to prevent the transport jamming of the film. Further, the effect of claim 12 is that the detection accuracy of the jamming of the film is improved. Further, the effect of claim 13 is that the detection accuracy of the transport jamming of the film is improved. Also,
The effect of claim 14 is that the detection accuracy of the jam of the film conveyance is improved. Further, the effect of claim 15 is that the jamming due to the attraction of static electricity of the film can be prevented. Further, according to the effect of claim 16, jamming due to the electrostatic attraction of the film can be prevented.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an image processing system.

FIG. 2 is a schematic configuration diagram of a film transport means.

FIG. 3 is a configuration diagram of an upper roller and a lower roller.

FIG. 4 is a schematic configuration diagram of film sorting.

FIG. 5 is a schematic configuration diagram of a film transport means.

FIG. 6 is a schematic configuration diagram of a film transport means.

FIG. 7 is a schematic configuration diagram of a film transport means.

FIG. 8 is a schematic configuration diagram of a film transport means.

FIG. 9 is a perspective view of a lower roller.

FIG. 10 is a front view of a lower roller.

FIG. 11 is a front view of a lower roller.

FIG. 12 is a perspective view of a lower roller.

FIG. 13 is a front view of a lower roller.

FIG. 14 is a schematic configuration diagram of a film detection unit.

FIG. 15 is a schematic configuration diagram of a film detecting means.

FIG. 16 is a flowchart of detection of film transport.

FIG. 17 is a schematic configuration diagram of a film detecting means.

FIG. 18 is an output waveform chart of the film detecting means.

FIG. 19 is a schematic configuration diagram of a conveyance vibrating unit.

FIG. 20 is a schematic configuration diagram of a conveyance vibrating unit.

[Explanation of symbols]

10 Image recording device 11 Laser writing unit 30 Processing device 31 Exit part 32 Upper roller 33,331,332,333,334,335,336 Lower roller 337,338,339,340,341,342 Lower roller 3381 Grooved roller 3382 Circular roller 3391 Grooved roller 3392 Circular roller 3401 Grooved roller 3402 Twisted grooved roller 3411 Grooved roller 3412 Phase shift grooved roller 3421 Grooved roller 3422 Protruded roller 35 Engagement 36 Groove 37 Projection 38 Collar 50 Post-processing device 51 Film transfer means 52 Storage plate 53 Transfer guide 531 Transfer guide 532 Transfer guide 54 Vibration means 56 Motor 57 Arm 571 Cam 58 Guide 59 Arm 60 Bin 61 Roller 62 Roller 63 Roller 64 Roller 65 Top roller 66 Transport path 67 Lower roller 68 Solenoid 69 Lever 811, 812, 813, 815, 816, 817, 818 Film detection means (detection sensor) 83 First information transmission means 84 Second information transmission means 86 Control circuit 87 Positive Signal 88 error signal 89 error warning means F, F1, F2, F3, F4 film FE film rear end

Claims (16)

[Claims] 1. An image processing system having a processing device for developing a film and a post-processing device for sorting the film, etc., wherein the film is sent to the post-processing device at a film outlet of the processing device and / or An image processing system comprising: a film feeding means for feeding a film to the bin of a post-processing device, the upper roller being a lever type and a lower roller having a protrusion. 2. The image processing system according to claim 1, wherein the amount of bite of the roller of the lever type is 1 mm to 5 mm. 3. An image processing system having a processing device for developing a film and a post-processing device for sorting the film, etc., wherein the film is sent to the post-processing device at a film outlet of the processing device and / or An image processing system characterized by comprising a film conveying means for feeding a film to the bin of the post-processing apparatus, the upper roller and a lower roller having a groove for pushing out a rear end of the film on a vertical surface. . 4. The groove of the lower roller has a depth of 2 mm to 4 mm.
The image processing system according to claim 3, wherein the width is 10 mm or more. 5. An image processing system having a processing device for developing a film and a post-processing device for sorting the film, etc., wherein the film is sent to the post-processing device at a film outlet of the processing device and / or The post-processing apparatus is provided with a film transporting means for feeding the film to the bin inlet part, which is provided with an upper roller and a deformable flange part on the outer peripheral surface of the roller, and a lower roller with a flange which pushes out the rear end of the film on a vertical surface. An image processing system characterized by the above. 6. The image processing system according to claim 5, wherein the lower roller with a collar is an elastic member. 7. The image processing system according to claim 3, wherein the film is fed to the post-processing device at the film exit portion of the processing device and / or the bin entrance part of the post-processing device. An image processing system, comprising film transporting means of upper and lower rollers of a lever type for feeding the film into the bin. 8. The image processing system according to claim 7, wherein the amount of bite of the roller of the lever type is 1 mm to 5 mm. 9. An image processing system having a processing device for developing a film and a post-processing device for sorting the film, etc., wherein the film is sent to the post-processing device at a film outlet of the processing device and / or The post-processing apparatus was provided with a film feeding means for feeding the film to the bin inlet portion of the post-processing device, and an upper roller and a lower roller provided with a groove for pushing out the rear end of the film on a vertical surface in at least part of the roller axial direction. An image processing system characterized by the above. 10. The image processing system according to claim 9, wherein the groove of the lower roller is provided in a range of one-third to two-thirds of the entire axial length of the roller. 11. An image processing system having a processing device for developing a film and a post-processing device for sorting the film, etc., wherein the film is sent to the post-processing device at a film outlet of the processing device and / or The post-processing apparatus was provided with a film transport means for feeding the film to the bin inlet part of the post-processing device and an upper roller and a lower roller provided with a twist groove for pushing the rear end of the film on a vertical surface in a part of the roller axial direction. An image processing system characterized by the above. 12. A post-processing device, such as a film sorting device, connected to a processing device for developing a film, wherein a storage surface for the film and a detection surface for detecting the presence / absence of the film in the recess from the storage surface are provided substantially vertically. The post-processing device is characterized in that it is provided with a film detecting means to reduce the influence of ambient light and dust on the detection surface. 13. A post-processing apparatus for sorting the films processed by the processing apparatus, etc., wherein at least two film detection surfaces are provided at the entrance of the post-processing apparatus and the film storage surface is provided substantially parallel to the storage surface. Means and a timer means for starting a timer at the same time when one of the film detecting means is turned on, when the film detecting means other than the film detecting means does not turn on after a predetermined time, it is judged as a defective film conveyance. Aftertreatment device. 14. A post-processing apparatus for sorting the films processed by the processing apparatus, and a film detection signal means for reading a detection signal for a certain time of presence / absence of the film in the film transport path, and the detection signal within a predetermined time. If it is a certain value or more, it is regarded as a normal signal, and if the detection output exceeds a certain value and is less than a certain value within a predetermined time, it is judged as an abnormal signal. A post-processing device, characterized in that the abnormal signal is eliminated. 15. A processing apparatus having at least a transport means for transporting a film along a transport path, comprising a vibrating means for vibrating at least a part of a transport member for transporting the film. 16. The transport member is a transport guide for transporting the film to a predetermined transport path.
The processing device described.