CN100501584C - Image processing device - Google Patents

Abstract

The invention provides an image processing device (1) for forming a photograph print is provided with the conveyor sorting device (19) for collecting photograph prints, which are formed through an exposing processing, a developing processing and a drying processing, on the conveyor per an order unit. This image processing device is provided with a drive control section (11b) for controlling drive of the conveyor on the basis of the maximum value of delivering directional length of the photograph print in the same order when delivering the first photograph print in the same order from a delivery opening.

Description

Image processing apparatus

Technical field

The present invention relates to have the image processing apparatus that the photo presswork that will make is stacked into the conveyor type sorter that order (order) unit classifies.

Background technology

In the past, known have have that the photo presswork that will make is stacked as order unit and the image processing apparatus of the conveyor type sorter of classifying.If it is narrate the action of this image processing apparatus simply, then as described below.From reads image data such as egative films, this view data that reads is carried out suitable Flame Image Process and generated the exposure view data.Then, utilize this exposure to carry out exposure-processed, next, it is made photo presswork through development treatment, dried with view data comparison film photosensitive material.This photo presswork is discharged from the escape hole of device, and is stacked to order unit on the travelling belt of conveyor type sorter.This order for example, can be the set unit of the photo presswork made by the view data of one or more egative film, if perhaps print additional printed matter then for the set unit of the photo presswork that prints additional etc.An example of the photo presswork that expression is piled up with order unit in Figure 10.As shown in figure 10, travelling belt 105 is provided with towards discharging direction.After the photo presswork of order 103 was stacked, in order to pile up the photo presswork of next order 104, travelling belt only drove predefined distance, then, photo presswork 102 is discharged from escape hole 101, is stacked to again on the travelling belt 105, forms the stacking material of order 104.

Also have, known have a following sorter, its sorter for piling up with the group unit, next the group photo photosensitive material discharge direction length than the longer situation of the discharge direction length of last group of photo photosensitive material under, so that the approximate consistent mode of front end of the discharge direction of the front end of the discharge direction of last group of photo photosensitive material and next group photo photosensitive material, next is organized photo photosensitive material be overlapped in last group and pile up (with reference to patent documentation 1).

Have, known have a sorter of printed sheet (sheet) being classified with a unit again, and it is overlapped in next classification printed sheet the part of last classification printed sheet and piles up (with reference to patent documentation 2).

But, above-mentioned image processing apparatus in the past, when dividing the order interval, preestablished the driving distance of travelling belt, if discharge apart from longer photo presswork than this drivings discharging direction length, then existence contacts, upsets this stacking material with last stacking material or makes the problem of photo presswork bending.

Also have, in the different photo presswork of size is mixed in hybrid processing in the order, if only pile up unit with the photo presswork formation of same size, then in an order, can form a plurality of units that pile up, but in the travelling belt of limited length, can not form the more unit that piles up, and, exist because order is separated into a plurality of and problem that sorting operations is relatively poor.

The mode with consistent with the front end of the last photo presswork that piles up group in the above-mentioned patent documentation 1 drives travelling belt and the device of next photo presswork of classifying, for example, if the last group of piling up only is a queen size, the size of new one group photo presswork is mixed with distant view photograph (panorama), queen size, distant view photograph, queen size and discharges, then can not make the front end of distant view photograph printed matter consistent with the front end of queen size printed matter, and then, exist the queen size printed matter that is stacked on the distant view photograph size because of deadweight landing, the relatively poor problem of stackability.

The sorter of above-mentioned patent documentation 2, the printed sheet that keeps a taxonomical unit with conveyance member, after with the belt-driven regular length, classify in the mode that the part of printed sheet in the conveyance member of this maintenance and last printed sheet is overlapping, thereby need conveyance member and drive unit thereof in addition.

Patent documentation 1: specially permit communique No. 3592866

Patent documentation 2: the spy opens the 2004-99192 communique

Summary of the invention

In order to solve above-mentioned problem, the invention provides a kind of image processing apparatus, comprising will be through exposure-processed, development treatment, dried and the photo presswork made are stacked to conveyor type sorter on the travelling belt with order unit, make photo presswork, its tool drive control part, when the 1st photo presswork in order discharged from the escape hole of image processing apparatus, maximal value based on the discharge direction length of the photo presswork in the order, the driving of control travelling belt, described drive control part, when piling up photo presswork, stop travelling belt, and, towards discharging direction, the gradient of travelling belt is set at 3～6 degree, piles up thereby alignd in the discharge direction rear end of photo presswork.

According to these formations, because when the 1st photo presswork that can be in order discharged, obtain the maximal value of the discharge direction length of the photo presswork in the order, maximal value based on this acquisition, drive travelling belt, therefore the front end of the photo presswork of discharging can not touch the stacking material of front order, thereby can clearly classify.

Also have, the invention provides a kind of image processing apparatus, comprising will be through exposure-processed, development treatment, dried and the photo presswork of making is stacked to conveyor type sorter on the travelling belt with order unit, make photo presswork, it has: calculating part, calculate the maximal value of the discharge direction length of the photo presswork in the order; Recording portion, the maximal value that record is calculated; And drive control part, the 1st photo presswork in order is when the escape hole of image processing apparatus is discharged from, based on the maximal value of the discharge direction length that writes down, the driving of control travelling belt, described drive control part, when piling up photo presswork, stop travelling belt, and, towards discharging direction, the gradient of travelling belt is set at 3～6 degree, piles up thereby alignd in the discharge direction rear end of photo presswork.

According to these formations, because when the 1st photo presswork that can be in order discharged, calculate the maximal value of the discharge direction length of the photo presswork in the order, maximal value based on the discharge direction of calculating, drive travelling belt, therefore the front end of the photo presswork of discharging can not touch the stacking material of front order, thereby can clearly classify.

Have again, other the present invention, it is characterized in that, in above-mentioned image processing apparatus, calculating part, the 1st photo presswork in order in the maximal value of the discharge direction length that can only calculate a part of photo presswork in the order and fail to calculate under the peaked situation of discharge direction length of all photo pressworks in the order, calculated the maximal value of the discharge direction length of remaining photo presswork when escape hole is discharged from; Drive control part, based on the maximal value of the discharge direction length of remaining photo presswork, the driving of control travelling belt.

According to this formation, because the 1st photo presswork that can be in order is when escape hole is discharged from, under the peaked situation of the discharge direction length of failing to calculate all photo pressworks in the order, calculate the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate, based on this maximal value, the driving of control travelling belt, therefore can in an order, cut apart and pile up, can not produce this photo presswork of being cut apart, discharging and touch its last stacking material, and the situation of infringement stackability.

Further, other the present invention is characterized in that, in above-mentioned image processing apparatus, drive control part, when the maximal value of the discharge direction length of remaining photo presswork, under the above situation of the driving of the travelling belt before calculating distance, with based on this maximal value, the mode that drives travelling belt is controlled, in the maximal value of the discharge direction length of remaining photo presswork, under the situation less than the driving distance of the travelling belt before calculating, control in the mode that does not drive travelling belt.

According to this formation, owing to can work as the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate, under the above situation of driving distance of the travelling belt before calculating, drive travelling belt based on this maximal value, and, maximal value in the discharge direction length of the remaining photo presswork of failing to calculate, under the situation less than the driving distance of calculating travelling belt before, do not drive travelling belt, therefore, not with situation that before stacking material contacts under (can not cutting apart under the situation of order), can not cut apart order and directly pile up.Therefore, need not cut apart order and on travelling belt, increase stacking material, can be stacked into order unit.

Also have, other the present invention, it is characterized in that, in above-mentioned image processing apparatus, drive control part stops travelling belt when piling up photo presswork, and, towards discharging direction, the gradient of travelling belt is set at 3～6 degree, piles up thereby alignd in the discharge direction rear end of photo presswork.

According to this formation, owing to when piling up, stop travelling belt, and, the gradient is set on travelling belt towards discharging direction, alignd in the discharge direction rear end of photo presswork and pile up.The gradient is preferably about 3～6 degree.If the gradient is less than 3 degree, the downslide during then owing to discharge slides into the place ahead, can not make the rear end alignment, so and not preferred.On the other hand, if the gradient surpasses 6 degree, then because when having belt-driven because its retroaction can be slipped to the top of stacking material and the side of discharge in the opposite direction, thereby the situation that stacking material is upset takes place, so also not preferred.

Have, other the present invention is characterized in that again, in above-mentioned image processing apparatus, calculating part is calculated the maximal value and the minimum value of the discharge direction length of the photo presswork in this order to order unit; Drive control part in the maximal value of the discharge direction length of calculating, under the situation less than the minimum value of the discharge direction length of the order before the order, is controlled in the mode that does not drive travelling belt.

According to this formation, because the maximal value of the discharge direction length of the photo presswork in order, under the situation less than the minimum value of the discharge direction length of the photo presswork of front order, do not drive travelling belt, thereby the order before and after can not dividing piles up at interval, therefore, can increase the order numbers that can be stacked on the travelling belt.

Further, other the present invention, it is characterized in that, in above-mentioned image processing apparatus, calculating part is calculated the discharge direction length and the maximal value thereof of the photo presswork in this order to order unit, and drive control part is in the maximal value of the discharge direction length of calculating, under the situation of discharge direction length less than the last photo presswork of the order before this order, control in the mode that does not drive travelling belt.

According to this formation, because the maximal value of the discharge direction length of the photo presswork in order, under the situation less than the discharge direction length of the last photo presswork of front order, do not drive travelling belt, thereby the order before and after can not dividing piles up at interval, therefore, can increase the order numbers that can be stacked on the travelling belt.

In the present invention, " order " is meant the operating unit of the image processing apparatus of operator when making photo presswork, usually, in view data by a volume or multireel film, or be recorded in view data in the medium etc. and make under the situation of photo presswork, these are 1 order, are 1 order if the printed matter that prints additional then prints additional the photo presswork of part.Also have, also can inciting somebody to action arbitrarily by the operator, predetermined unit suitably be set at order.

Description of drawings

Fig. 1 is the formation block diagram of the image processing apparatus 1 in the expression embodiment;

Fig. 2 is the concept map of the action of the image processing apparatus 1 in the explanation embodiment 1;

Fig. 3 is the concept map of the action of the image processing apparatus 1 in the explanation embodiment 1;

Fig. 4 is the concept map of the action of the image processing apparatus 1 in the explanation embodiment 1;

Fig. 5 is the figure of the example of the image processing apparatus 1 in the expression embodiment 1;

Fig. 6 is the figure of the example that piles up between the order of representing in the embodiment 1;

Fig. 7 is the figure of an example of the conveyor type sorter in the expression embodiment 1;

Fig. 8 is the concept map of the action of the image processing apparatus 1 in the explanation embodiment 2;

Fig. 9 is the figure of the example that piles up between the order of representing in the embodiment 2;

Figure 10 is the mode chart of explanation prior art.

Among the figure: 1-image processing apparatus, 11-apparatus control portion, 11a-calculating part, 11b-drive control part, 11c-prejudge portion, 11d-storer, 12-film scanning device, 13-reservoir, 14-hard disk, 15-Flame Image Process mechanism, 16-exposure-processed mechanism, 17-development treatment mechanism, 18-dried mechanism, 19-conveyor type sorter, 20-spool box incorporating section, 21-display part, 22-input mechanism.

Embodiment

Below, in conjunction with the accompanying drawings embodiments of the present invention are described in detail.In addition, in the present embodiment, use the inscape of prosign or the step of process flow diagram etc., because the performance identical function, therefore existence was omitted the situation of explanation to part once is described.

(embodiment 1)

The formation of＜image processing apparatus 〉

Fig. 1 is the formation block diagram of the image processing apparatus 1 in the expression present embodiment.Image processing apparatus 1 for example has and is used to bring into play each mechanism that functions such as (Prejudge) processing, Flame Image Process, exposure-processed, development treatment, dried, classification processing were handled, prejudged in film scanning (film scan).Image processing apparatus 1 for example has: apparatus control portion 11, calculating part 11a, drive control part 11b, prejudge the 11c of mechanism, storer 11d (being equivalent to recording portion), film scanning device 12, reservoir 13, hard disk 14, Flame Image Process mechanism 15, exposure-processed mechanism 16, development treatment mechanism 17, dried mechanism 18, conveyor type sorter 19, spool box incorporating section 20, display part 21, input mechanism 22, other necessary inscape etc.In addition, image processing apparatus 1 can have the mechanism (not shown) of the medium of reading and recording view data, also can have the communication agency that receives view data from the external device (ED) (not shown) that connects with network.

The main composition of image processing apparatus 1 of the present invention is owing to be that therefore prior art illustrates simply.

Apparatus control portion 11, each inscape of control image processing apparatus 1 and the action of control device integral body.Apparatus control portion 11 is made of software usually, and this software utilizes the CPU (not shown) and the storer hardware resource work such as (not shown) of image processing apparatus 1.This software records also can be downloaded from the external device (ED) (not shown) that is connected to image processing apparatus 1 in recording mediums such as ROM.In addition, this software also can be made of firmware (firmware) or special circuit, it is made up, but the function of constituent apparatus control part 11.Apparatus control portion 11 as functional unit (module), for example has calculating part 11a, drive control part 11b and prejudges the 11c of mechanism etc.

Film scanning device 12 is from the egative film reads image data.Film scanning device 12 can be used existing known device.This device has prejudges the scanning in advance of handling usefulness and two kinds of patterns of formal scanning that exposure-processed is used, and scanning in advance can be with low image definition reads image data.

Reservoir 13 is to be used for the temporary transient record image data medium that is read by film scanning device 12 of storing, and for example, can be DRAM, EEPROM etc.

Prejudging the 11c of mechanism, is the mechanism that is used to prejudge processing.At this, so-called " prejudging processing ", be following processing: to the view data in the picture that is shown in display part 21 described later, utilize revisal data such as input mechanism 22 input colors described later or concentration, and view data is carried out Flame Image Process and show based on these revisal data, judge by the operator whether color density etc. is suitable then.In addition, also there is the situation of not prejudging processing and transferring to exposure-processed, prejudges having or not of processing and can suitably select.Prejudge the 11c of mechanism, read view data, carry out thumbnail (thumbnail) and handle and be shown in display part 21, based on the revisal data of input view data is carried out Flame Image Process by the operator then, and be shown in display part 21 from reservoir 13.

Hard disk 14 is to be used to make prejudging the hard disk that definite revisal data in processing back and the view data that again read (view data formal scan after) corresponding with it are stored in pairs.

View data and the revisal data paired with it are read from hard disk 14 by Flame Image Process mechanism 15, carry out Flame Image Process based on the revisal data, generate the exposure view data.Flame Image Process mechanism 15, for example, by the realizations such as firmware of the software of having assembled I/O interface, memory buffer, image processing function.

Exposure-processed mechanism 16 for example comprises digital exposure engine (engine), and have based on the exposure use view data, image is carried out the function of scan exposure at the emulsion side of photo photosensitive material.As the exposure engine, can be by existing techniques in realizing such as laser engine, PLZT engine, CRT engines.Image is washed the photo photosensitive material after exposing mutually, delivers to development treatment mechanism 17 by the transport mechanism with conveyance member.

Development treatment mechanism 17, the photo photosensitive material that image is washed after exposing mutually carries out development treatment.Photo photosensitive material after development treatment, is delivered to dried mechanism 18 by transport mechanism.Dried mechanism 18 carries out dried to the photo photosensitive material after the development treatment.Photo photosensitive material after dried, is delivered to discharge portion by transport mechanism.Development treatment mechanism 17 and dried mechanism 18 can use suitable prior art.

Conveyor type sorter 19 will be stacked on the travelling belt from the photo photosensitive material that the escape hole of discharge portion is discharged.Conveyor type sorter 19, for example, can be by the travelling belt of band shape, the engine that drives travelling belt, the engine driven circuit that drives this engine, detection of engine anglec of rotation sensor, other necessary realization such as component parts.

The rotation direct of travel of the travelling belt of conveyor type sorter 19, consistent with the discharge direction of photo photosensitive material.Making travelling belt have towards the gradient of discharging direction, spend apart from level 3～6 is an example of preferred implementing form.

The height that takes the drain position of escape hole from transmission to is that the angle (θ) of taking photo photosensitive material from transmission to below the 50mm, when the front end of photo photosensitive material touches the travelling belt surface is to be an example of preferred implementing form below 40 degree.If this embodiment, can suppress then that the photo photosensitive material front end is stuck in travelling belt surface or the photo photosensitive material of discharging before on situation, thereby the piling up of the photo photosensitive material that is suitable for discharging.

Also have, for example fluorine resins such as polyvinyl fluoride are coated on the example that the travelling belt surface is a preferred implementing form.Be used under the situation of travelling belt at vulcanized rubbers such as for example urethane rubbers, because the friction factor on travelling belt surface is (at this, for comprising the notion of coefficient of static friction, kinetic friction coefficient) bigger, therefore card mutually takes place with the photo photosensitive material front end in the travelling belt surface when discharging, thereby and not preferred.Therefore, fluorine resin is coated on the travelling belt surface, reduces the friction factor on travelling belt surface, thereby can suppress the card mutually of travelling belt surface and photo photosensitive material front end.

In addition,, with the form of implementation of the height correlation of taking drain position from transmission to and apply the form of implementation on travelling belt surface, can implement respectively, also can implement simultaneously with the relevant form of implementation of the gradient of above-mentioned travelling belt.

Calculating part 11a, the 1st photo presswork in order calculate the maximal value of the discharge direction length of the photo presswork in this order when escape hole is discharged from, and record among the storer 11d (this peaked calculation method is narrated in the back).In this case, drive control part 11b reads the maximal value of the discharge direction length that calculating part 11a calculates from storer 11d, and controls the driving of travelling belt based on this.

Also have, calculating part 11a, when the 1st photo presswork in the order when escape hole is discharged from, under the peaked situation of the discharge direction length of failing to calculate all photo pressworks in the order, can calculate the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate, and record among the storer 11d.In this case, drive control part 11b reads the maximal value of the discharge direction length of the remaining photo presswork that calculating part 11a fails to calculate from storer 11d, and can control the driving of travelling belt based on this.

Have again, drive control part 11b controls in the following manner: the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate as calculating part 11a, under the above situation of driving distance of the travelling belt before it is about to calculate, can drive travelling belt based on this maximal value, the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate at calculating part 11a, under the situation of the driving distance of the travelling belt before being about to calculate less than it, do not drive travelling belt.

In addition, drive control part 11b can control in the following manner, when piling up photo presswork, stops travelling belt that is:.

Storer 11d can be nonvolatile recording medium, also can be the volatibility recording medium.Storer 11d for example can be flash memory (flash) EEPROM.

Spool box incorporating section 20, the printing paper of taking in photo photosensitive material (paper) is wound in the printing paper spool box of taking on the roller bearing.Photo photosensitive material is drawn out from the printing paper spool box, delivers to exposure-processed mechanism 16 by transport mechanism.In addition, more than one printing paper spool box can be taken in spool box incorporating section 20.

X display part 21, displayable image data, but the also various settings of display device or prejudge content of operation in the processing.Display part 21 is made of LCD usually, but also can be made of OLED display or touch panel, CRT monitor etc.

Input mechanism 22 is input interfaces of accepting by operator's input indication usefulness, for example can be by realizations such as keyboard, mouse, touch panel and their each self-corresponding drive softwares.

The action specification figure of＜image processing apparatus 〉

Below, the action of image processing apparatus 1 is described.Action shown below is an example of the action of image processing apparatus 1.Reading processing, prejudging action specification such as processing and omit or schematic illustration of view data is described in detail distinctive action among the present invention.

The action of Fig. 2 shown below is the action of the belt-driven when switching order.In addition, in explanation, the photo presswork number of order is made as 24 and illustrates, but is not to be defined in this especially.In addition, in the following description, there be " the discharge direction length of photo photosensitive material " and the situation that is called " the discharge direction length of photo presswork " of being called, but, be actually identical from the meaning of the discharge direction length of printed matter size.

The 1st photo photosensitive material (n=1) of i number order (i) is exposed processing.When exposure-processed, calculate the maximal value of the discharge direction length of photo photosensitive material by calculating part 11a.Particularly, calculating part 11a, the exposure that can handle according to exposure-processed mechanism 16 is with the picture size (for example, the size of bitmap file form) of view data, or the revisal data etc. that comprise the information of printed matter size are calculated and discharged direction length.Calculating part 11a can calculate its maximal value according to the discharge direction length of the photo photosensitive material of delivering to exposure-processed mechanism 16 successively, and records (#1) among the storer 11d.Wherein, piling up the photo presswork of order (i-1) before on the travelling belt.

Next, the photo presswork of making after exposure-processed, development treatment, the dried is sent to discharge portion.In discharge portion, by the 1st photo presswork of detections such as sensor.This detection signal is sent to drive control part 11b.Drive control part 11b is according to this detection signal, obtains the maximal value Lmax (i) (maximal value of the discharge direction length from photo photosensitive material (n=1) to photo photosensitive material (n=24)) of the discharge direction length of 24 all photo pressworks that calculating part 11a calculates.Then, the maximal value Lmax (i) that obtains is added value behind the setting (y) as driving distance (x), and apart from (x) drive signal is sent to the engine driven circuit of conveyor type sorter 19 based on this drivings.The engine driven circuit based on this drive signal, makes engine rotation, thereby travelling belt is carried out only for driving the driving (#2) of distance (x).At this, but owing to wish the classification visual confirmation of order unit, and the interval of stacking material is more than desired value, so setting (y) further, is more preferred form about 5mm～50mm preferably more than 1mm.

And after travelling belt stopped, the photo presswork of order (i) was stacked (#3) successively.

Below in conjunction with Fig. 3,, under the unclosed situation of the exposure-processed of all images data, cut apart and the action of piling up photo presswork describes when the 1st of order discharging.In addition, the action of #11, since identical with the action of above-mentioned #1, explanation therefore omitted.

When the 1st photo presswork discharged, the photo photosensitive material of exposure-processed (n=20) was the 20th.Under this situation, calculating part 11a calculates from the maximal value Lmax (i) of the discharge direction length of the 1st to the 20th photo photosensitive material.Drive control part 11b obtains the maximal value Lmax (i) that calculating part 11a calculates.Then, drive control part 11b adds value behind the setting (y) as driving distance (x) with the maximal value Lmax (i) that obtains, and drives distance (x) based on this, drives travelling belt (#12) as described above like that.

And, after travelling belt stops, discharging photo presswork (from the 1st to the 20th photo presswork) successively from discharge portion, be stacked on the travelling belt and (this be called the 1st order (i).)(#13)。

Below, if detect the 21st photo presswork by discharge portion, then at this constantly, drive control part 11b obtains exposure-processed that calculating part 11a calculates after finishing from the maximal value Lmax (i) of the discharge direction length of the 21st to the 24th photo presswork.Then, drive control part 11b adds setting (y) as driving distance (x) with maximal value Lmax (i), and drives travelling belt (#14) as described above like that based on this.

After travelling belt stops,, be stacked on the travelling belt as other stacking material and (this be called the 2nd order (i)) (#15) with respect to the 1st order (i) from the 21st to the 24th photo presswork.That is, image processing apparatus 1, divisible same order (i) also piles up.

Below in conjunction with Fig. 4, to when the 1st of order is discharged from, under the unclosed situation of the exposure-processed of all images data, after judging whether to cut apart and piling up photo presswork, explanation is done in the action of piling up.In addition, the action of #21～#23, since identical with the action of above-mentioned #11～#13, explanation therefore omitted.But in #21, when detecting the 1st photo presswork by discharge portion, calculating part 11a is to calculating the maximal value that it discharges direction length from the 1st to the 15th photo photosensitive material.

If detect the 16th photo presswork by discharge portion, then at this constantly, drive control part 11b obtains exposure-processed that calculating part 11a calculates after finishing from the maximal value Lmax (i) of the discharge direction length of the 16th to the 24th photo presswork.Then, drive control part 11b judges that maximal value Lmax (i) is whether less than before driving distance (x) (being equivalent to the driving distance (x) among the #22).When this judged result when being maximal value Lmax (i) less than before driving distance (x), do not send the drive signal that is used to drive travelling belt, directly, be stacked to from the 1st to the 15th the stacking material (#24) from the 16th to the 24th photo presswork.That is, do not cut apart order and on travelling belt, form the stacking material of an order (i).

On the other hand, when this judged result is that maximal value Lmax (i) is when driving distance (x) before is above, drive control part 11b calculates the driving distance (x) after maximal value Lmax (i) adds setting (y), and drives travelling belt (#25) as described above based on this.Then, after travelling belt stopped, the photo presswork from the 16th to the 24th was stacked on the travelling belt as other stacking material.That is, order (i) is piled up by being cut apart.

In addition, in the explanation of above-mentioned action, the structure that adopts is, calculating part 11a is when exposure-processed, calculate and discharge direction length and maximal value Lmax (i) thereof, drive control part 11b is when being detected the 1st photo presswork by discharge portion, obtain the maximal value Lmax (i) that calculating part 11a calculates, and calculate the driving distance based on this maximal value Lmax (i), thereby the driving of control travelling belt, but be not to be defined in this, also can adopt following structure: for example, calculating part 11a, the printed matter size that can obtain to set in prejudging processing is also calculated the maximal value Lmax (i) that discharges direction length, and drive control part 11b obtains the maximal value Lmax (i) that calculating part 11a calculates when being detected the 1st photo presswork by discharge portion, and calculate the driving distance based on this maximal value Lmax (i), control the driving of travelling belt.

In addition, can also be: drive control part 11b be constituted as and can calculates the maximal value Lmax (i) that discharges direction length according to the printed matter size of setting in prejudging processing, when detecting the 1st photo presswork by discharge portion, calculate maximal value Lmax (i), and calculate the driving distance, thereby the driving of control travelling belt based on this maximal value Lmax (i).

And, can also be: prejudge the 11c of mechanism and be constituted as and calculate the maximal value Lmax (i) that it discharges direction length according to the printed matter size of the photo presswork of in prejudging processing, setting, when detecting the 1st photo presswork by discharge portion, calculate maximal value Lmax (i), drive control part 11b obtains by prejudging the maximal value Lmax (i) that the 11c of mechanism calculates, and calculate the driving distance, thereby the driving of control travelling belt based on the maximal value Lmax (i) of this acquisition.

Have again, in the explanation of above-mentioned action, the action that the photo presswork in the order is divided into two parts and piles up has been described, but be not to be defined in this especially, also order can be divided into more than two parts.

The concrete action of＜image processing apparatus 〉

Below, the concrete action of the image processing apparatus in the present embodiment 1 is described.In the following description, the order number is 24, (discharging direction length is 89mm to be of a size of queen size from the 1st to the 20th printed matter, Width length is 127mm), be of a size of more queen size (discharging direction length is 178mm, and Width length is 127mm) from the 21st to the 24th printed matter.The printing paper width that is accommodated in the photo photosensitive material 20a of printing paper spool box is 127mm.

As shown in Figure 5, pull out photo photosensitive material 20a from spool box incorporating section 20,16a is cut into the size corresponding with the printed matter size by cutter (cutter), and conveyance is to exposure-processed mechanism 16.

By exposure-processed mechanism 16, carry out exposure-processed with view data based on exposure.When this exposure-processed, calculate the discharge direction length of photo presswork, then, also calculate its maximal value Lmax (i).For example, from the maximal value of the 1st to the 15th discharge direction length, quilt is calculated is 89mm.Also have, from the maximal value of the 16th to the 24th discharge direction length, quilt is calculated is 178mm.In addition, also can when cutting, cutter 16a calculate the discharge direction length and the maximal value Lmax (i) thereof of photo presswork.In this case, can be the time than exposure-processed the more Zao moment calculate.

Also have, calculating part 11a when the maximal value Lmax (i) of the discharge direction length of the photo presswork of opening to n from the 1st being calculated photo presswork, can make the value of this " n " and this maximal value Lmax (i) paired and record among the storer 11d.

After the exposure-processed, according to direction transformation member 40, the conveyance direction is transformed to direction vertically upward from moving horizontally.Then, by transport mechanism 50, by development treatment mechanism 17 and dried mechanism 18, conveyance is to discharge portion 30.

Near discharge portion 30, be provided with sensor 31.This sensor 31, but the proximity transducer of application of known.Sensor 31 detects the 1st photo presswork of the next order of conveyance, and this detection signal is sent to drive control part 11b.Drive control part 11b, under the situation that has received detection signal, read maximal value (89mm) and " n=15 " of the discharge direction length that calculating part 11a calculates from the 1st to the 15th photo photosensitive material from storer 11d, on maximal value (89mm), add setting (y=30mm), draw and drive distance (x=119mm).Then, drive distance (x=119mm), drive signal is sent to the belt-driven circuit based on this.The belt-driven circuit carries out only for driving the driving of distance (x=119mm) travelling belt.And, after travelling belt stops, opening the beginning from the 1st and discharge successively, be stacked on the travelling belt.

Sensor 31, detection is discharged to the photo presswork of discharge portion 30, this detection signal is sent to drive control part 11b, and drive control part 11b counts the reception number of times from the detection signal of sensor 31, thereby can judge that it is that the photo presswork of discharge portion 30 is arrived in conveyance for which paper.

Then, when discharge portion 30 was arrived in the 16th photo presswork conveyance, sensor 31 detected the 16th photo presswork, and this detection signal is sent to drive control part 11b.Drive control part 11b is under the situation of " 16 (n=15+1) " at the reception number of times of detection signal, reads the maximal value Lmax (i) that calculating part 11a calculates from storer 11d.When detecting the 16th, owing to calculated, therefore can read from the maximal value (178mm) of the discharge direction length of the 16th to the 24th photo presswork from the maximal value of the discharge direction length of all photo pressworks of the 16th to the 24th.

As an example of form of implementation, as shown in Figure 6, be illustrated in after the 16th, cut apart the example that piles up unit.That is, drive control part 11b controls in such a way, piles up unit in order to cut apart that is:, calculates to drive distance (x=178+30mm), drives travelling belt.

As other form of implementation, describe under the situation more than the driving distance (x=119mm) before, cutting apart the example that piles up unit in the 16th later maximal value (178mm).In this case, drive control part 11b controls apart from the mode that (x=178+30mm) drives travelling belt according to calculating driving.Then, after travelling belt stopped, the 16th later photo presswork was split into other stacking material and piles up.In addition, the 16th later maximal value (178mm) less than before the driving distance situation of (x) under, do not drive travelling belt, thereby after the 16th, directly be stacked to from the 1st to the 15th stacking material yet.

Shown in Fig. 7 (a), the travelling belt 19a of conveyor type sorter 19 towards discharging direction, is provided with apart from the gradient of level 5 degree.Also have, shown in Fig. 7 (b), the height of 30 drain position is 40mm from travelling belt 19a to discharge portion.Have, the angle from travelling belt 19a to photo presswork (θ) when the front end of photo presswork touches travelling belt 19a surface is 32 degree again.In addition, on travelling belt 19a surface, be coated with fluorine resin.Constitute according to these, can suppress travelling belt 19a and block mutually with the photo presswork front end of discharge.

According to above present embodiment, even in an order, be mixed with the different photo presswork of size, also can pile up methodically, thus the classification of visual confirmation order reliably.

In addition, in the present embodiment, calculating part 11a is when exposure-processed, calculate the discharge direction length and the maximal value thereof of the next photo presswork of conveyance successively, and store among the storer 11d, drive control part 11b is constituted as, receiving from sensor 31 under the situation of detection signal, reading the maximal value of up-to-date discharge direction length from storer 11d, but be not to be defined in this especially, for example, also can constitute, when sensor 31 detected photo presswork, calculating part 11a calculated the maximal value of discharging direction length, drive control part 11b controls belt-driven based on this maximal value of calculating.

Also have, in the present embodiment, as detecting the mechanism of conveyance to the photo presswork of discharge portion 30, adopted sensor 31, but be not to be defined in this especially, for example, also can adopt timer, after exposure-processed, and through after specified time limit, detect the 1st and arbitrarily order photo presswork whether conveyance to discharge portion 30.During the conveyance after exposure-processed till the discharge portion 30,, therefore can calculate specified time limit in advance owing to can predict according to the printed matter size.

(embodiment 2)

In embodiment shown below, the explanation of the inscape identical with above-mentioned embodiment 1 is omitted, and different functions is described.

The formation of＜image processing apparatus 〉

Calculating part 11a calculates the maximal value and the minimum value of the discharge direction length of the photo presswork in this order to order unit.In this case, drive control part 11b controls according to following mode, that is: the maximal value of the discharge direction length of calculating at calculating part 11a under the situation less than the minimum value of the discharge direction length of the order before the order, does not drive travelling belt.

Also have, calculating part 11a can calculate the discharge direction length and the maximal value thereof of the photo presswork in this order to order unit.In this case, drive control part 11b can control in such a way, that is: the maximal value of the discharge direction length of calculating at calculating part 11a under the situation less than the discharge direction length of the last photo presswork of the order before the order, does not drive travelling belt.

The action of＜image processing apparatus 〉

Below, the action of the picture processing device in the present embodiment is described.Action as shown in Figure 8 is a form of implementation.In explanation, the number of order is made as 24.

The last photo presswork of i order (i) is discharged from (#31).The discharge direction length L (i, n=24) of the minimum value Lmin (i) of i order (i) and last photo presswork is calculated, and is recorded among the storer 11d.

To (i+1) number order (i+1), the beginning exposure-processed.Calculating part 11a calculates discharge direction length L (i+1, n=1) (#32) of the 1st photo photosensitive material.Calculating part 11a calculates successively by conveyance and is exposed the discharge direction length L of the photo photosensitive material of processing (i+1 n), and calculates its maximal value Lmax (i+1) and minimum value Lmin (i+1), records among the storer 11d.

If the 1st photo presswork arrived discharge portion by conveyance, then it is detected by sensor, this detection signal is sent to drive control part 11b.At this constantly, calculate from the maximal value Lmax (i+1) and the minimum value Lmin (i+1) of the discharge direction length of the 1st to the 24th photo photosensitive material, record among the storer 11d by calculating part 11a.Drive control part 11b reads this maximal value Lmax (i+1), and the minimum value Lmin (i) of the discharge direction length of order (i) from storer 11d.Whether the maximal value Lmax (i+1) that drive control part 11b judges order (i+1) is less than the minimum value Lmin (i) of order (i).Consequently, under the situation of the maximal value Lmax of order (i+1) (i+1) less than the minimum value Lmin (i) of order (i), do not drive travelling belt, order (i+1) directly is stacked to top (#33) of the stacking material of order (i).On the other hand, consequently, under the situation more than the minimum value Lmin of order (i) (i), drive control part 11b controls according to the mode that drives travelling belt at the maximal value Lmax of order (i+1) (i+1), divides order at interval.That is, on maximal value Lmax (i+1), add setting (y) and calculate and drive distance (x) that drive control part 11b sends to engine driven circuit apart from (x) with drive signal based on this drivings.The engine driven circuit based on drive signal to only driving distance of engine.

As other form of implementation, drive control part 11b, from storer 11d read the last photo presswork of this maximal value Lmax (i+1) and order (i) discharge direction length L (i, n=24).Then, the maximal value Lmax (i+1) that drive control part 11b judges order (i+1) whether less than the discharge direction length L of order (i) (i, n=24).Consequently, (i under situation n=24), does not drive travelling belt, and order (i+1) directly is stacked to top (#34) of the stacking material of order (i) less than the discharge direction length L of order (i) at the maximal value Lmax of order (i+1) (i+1).On the other hand, consequently, at the discharge direction length L (i of the maximal value Lmax of order (i+1) (i+1) at order (i), n=24) under the Yi Shang situation, drive control part 11b, as described above, control in the mode that drives travelling belt, divide order at interval.

And, as other form of implementation, drive control part 11b, the maximal value Lmax (i+1) that also can judge order (i+1) whether than the minimum value Lmin (i) of order (i) little more than the setting.Also have, drive control part 11b, the maximal value Lmax (i+1) that also can judge order (i+1) whether than the discharge direction length L of the last photo presswork of order (i) (i, n=24) little more than the setting.At this, but owing to wish division visual confirmation between order, so setting further is preferred form of implementation more than 30mm preferably more than 10mm.

＜the concrete example that piles up 〉

Below exemplify the embodiment in the present embodiment.In explanation, the number of establishing from No. 1 to No. 4 order is 24, and the minimum value Lmin (1) of the discharge direction length of No. 1 order (1) is 178mm.If the maximal value and the minimum value of No. 2 and No. 3 order are respectively 89mm.If the maximal value Lmax (4) of No. 4 order (4) is 178mm.

Shown in Fig. 9 (a), order (1) is stacked, and maximal value Lmax (2) is the order (2) of 89mm, owing to less than minimum value Lmin (1) 178mm, therefore directly be stacked on the order (1).Also have,, pile up order (3) thereby come with the stacking material branch of order (1) and order (2) because the maximal value Lmax (3) of order (3) equates that with the minimum value Lmin (2) of order (2) therefore, drive control part 11b drives travelling belt.And then because the maximal value Lmax (4) of order (4) is more than the minimum value Lmin (3) of order (3), therefore, drive control part 11b drives travelling belt, comes with the stacking material branch of order (3) and piles up order (4).

Also have, other form of implementation is described in Fig. 9 (b).In explanation, the discharge direction length from the 1st to the 21st of establishing No. 5 order (5) is 89mm, and the 23rd and the 24th 's discharge direction length is 178mm (that is, last discharge direction length L (5,24) be 178mm).If the maximal value Lmax (6) of No. 6 order (6) is 89mm.

Shown in Fig. 9 (b), order (5) is stacked, and maximal value Lmax (6) is the order (6) of 89mm, and last discharge direction length L (5, the 24) 178mm owing to less than order (5) therefore, directly is stacked on the order (5).

More than, piling up according to present embodiment under the situation of photo presswork, can not divide different orders and pile up continuously at interval, thereby more photo presswork can be stacked on the travelling belt.And, even order is piled up continuously, because therefore the division visual confirmation reliably between order, can be categorized into order unit simply.

And, to the action of the image processing apparatus of explanation in the present embodiment, realize with software, for example, this software can be put in the server, issue this software by software download.And then also software records can be issued in recording mediums such as CD-ROM.This situation also is identical in all other embodiments.In addition, the program when having realized the action of the image processing apparatus in the present embodiment with software, as described below.

Be to be used for by 1st photo presswork of computing machine in order when the escape hole of image processing apparatus is discharged, discharge the maximal value of direction length, carry out the program of drive controlling step of the driving of control travelling belt based on the photo presswork in the order.

Be used for carrying out the program of following steps, calculate the Computation of Maximal Waiting step of the discharge direction length of the photo presswork in the order by computing machine; The peaked recording step of the discharge direction length of the photo presswork that record is calculated; With the 1st photo presswork in order when the escape hole of image processing apparatus is discharged, based on the maximal value of the discharge direction length of record, the drive controlling step of the driving of control travelling belt.

Also have, be the program that is used for being carried out by computing machine following steps: the 1st photo presswork in order is when escape hole is discharged from, under the peaked situation of the discharge direction length of failing to calculate all photo pressworks in the order, calculate the Computation of Maximal Waiting step of the discharge direction length of the remaining photo presswork of failing to calculate; With maximal value based on the discharge direction length of the remaining photo presswork of failing to calculate, the step of the driving of control travelling belt.

Have again, be the program that is used for carrying out following steps: in the maximal value of the discharge direction length of the remaining photo presswork of failing to calculate by computing machine, under the above situation of driving distance of the travelling belt before calculating, with the step of controlling based on the mode of this maximal value driving travelling belt; With maximal value in the discharge direction length of the remaining photo presswork of failing to calculate, under the situation of the driving distance of the travelling belt before calculating less than this, the step of controlling in the mode that does not drive travelling belt.

Further, be the program that is used for carrying out following steps:, calculate the maximal value of discharge direction length of the photo presswork in this order and the step of minimum value to order unit by computing machine; With maximal value in the discharge direction length of calculating, under the situation less than the minimum value of the discharge direction length of the order before this order, the step of controlling in the mode that does not drive travelling belt.

Also having, is the program that is used for being carried out by computing machine following steps: to order unit, calculate the discharge direction length and the peaked step thereof of the photo presswork in this order; With maximal value in the discharge direction length of calculating, under the situation less than the discharge direction length of the last photo presswork of the order before this order, the step of controlling in the mode that does not drive travelling belt.

Claims (6)

1. image processing apparatus comprises through exposure-processed, development treatment, dried and the photo presswork of making is stacked to conveyor type sorter on the travelling belt with order unit, makes described photo presswork,

It has drive control part, and the 1st photo presswork in described order based on the maximal value of the discharge direction length of the photo presswork in the described order, controlled the driving of described travelling belt when the escape hole of described image processing apparatus is discharged from,

Described drive control part,

When piling up photo presswork, stop travelling belt,

And, towards discharging direction, the gradient of travelling belt is set at 3～6 degree, thereby being alignd, the discharge direction rear end of photo presswork piles up.

2. image processing apparatus comprises through exposure-processed, development treatment, dried and the photo presswork of making is stacked to conveyor type sorter on the travelling belt with order unit, and make described photo presswork, it has:

Calculating part is calculated the maximal value of the discharge direction length of the photo presswork in the described order;

Recording portion writes down the maximal value of the discharge direction length of described photo presswork of calculating; With

Drive control part, the 1st photo presswork in described order based on the maximal value of the discharge direction length of described record, are controlled the driving of described travelling belt when the escape hole of described image processing apparatus is discharged from,

Described drive control part,

When piling up photo presswork, stop travelling belt,

And, towards discharging direction, the gradient of travelling belt is set at 3～6 degree, thereby being alignd, the discharge direction rear end of photo presswork piles up.

3. image processing apparatus according to claim 2 is characterized in that,

Described calculating part, the 1st photo presswork in described order is when escape hole is discharged from, in the maximal value of the discharge direction length that can only calculate a part of photo presswork in the order and fail to calculate under the peaked situation of discharge direction length of all photo pressworks in the order, calculate the maximal value of the discharge direction length of remaining photo presswork;

Described drive control part based on the maximal value of the discharge direction length of described remaining photo presswork, is controlled the driving of travelling belt.

4. image processing apparatus according to claim 3 is characterized in that,

Described drive control part,

When the maximal value of the discharge direction length of described remaining photo presswork, under the above situation of driving distance of the travelling belt before described the calculating, control in the mode that drives travelling belt based on this maximal value;

When the maximal value of the discharge direction length of described remaining photo presswork, under the situation less than the driving distance of the travelling belt before described the calculating, control in the mode that does not drive travelling belt.

5. image processing apparatus according to claim 2 is characterized in that,

Described calculating part is calculated the maximal value and the minimum value of the discharge direction length of the photo presswork in this order to order unit;

Described drive control part in the maximal value of the described discharge direction length of calculating, under the situation less than the minimum value of the discharge direction length of the order before the described order, is controlled in the mode that does not drive travelling belt.

6. image processing apparatus according to claim 2 is characterized in that,

Described calculating part is calculated the discharge direction length and the maximal value thereof of the photo presswork in this order to order unit;

Described drive control part in the maximal value of the described discharge direction length of calculating, under the situation less than the discharge direction length of the last photo presswork of the order before the described order, is controlled in the mode that does not drive travelling belt.

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