CN102190190B

CN102190190B - Erasing apparatus, paper post-processing apparatus, image forming and erasing apparatus

Info

Publication number: CN102190190B
Application number: CN201110054895.3A
Authority: CN
Inventors: 八幡伊佐雄; 井口健; 川口贵弘; 田口浩之; 土桥宏行; 泷裕之
Original assignee: Toshiba Corp; Toshiba TEC Corp
Current assignee: Toshiba Corp; Toshiba TEC Corp
Priority date: 2010-03-09
Filing date: 2011-03-08
Publication date: 2014-01-08
Anticipated expiration: 2031-03-08
Also published as: JP5548638B2; CN102190190A; JP2011184202A

Abstract

According to one embodiment of the present invention, an erasing apparatus includes a used sheet stacking tray, an image erasing unit, a stand-by tray, a stand-by tray driving unit, and an erased sheet stacking tray. The used sheet stacking tray stacks thereon a used sheet on which an image is formed using an erasable colorant of which a color is erased by a predetermined heating process. The image erasing unit performs the heating for the used sheet which is received one by one from the used sheet stacking tray and discharges an erased sheet from which the image formed on the used sheet is erased. The stand-by tray has a mechanism which can be driven in a predetermined direction and places thereon the erased sheet discharged by the image erasing unit. The stand-by tray driving unit drives the stand-by tray and enables the erased sheet to free-drop. The erased sheet stacking tray is disposed under the stand-by tray and stacks thereon the erased sheet which free-drops from the stand-by tray.

Description

Cancellation element, sheet post-process apparatus and image form cancellation element

The reference of related application

The application based on and require the preceence of the U.S. Provisional Application No.61/312092 on March 9th, 2010, and the full content of this provisional application is incorporated to this paper as a reference.

Technical field

Embodiment described herein relates to the method for erasing image in cancellation element, sheet post-process apparatus, image formation cancellation element, cancellation element.

Background technology

In the past, in order in the image processing systems such as MFP (multi-function peripheral), to recycle the paper that is formed with image, the decolourising property colorant that the ink that use contains leuco dye etc. can be eliminated color printed on paper.In addition, cancellation element heats and uses paper that the decolourising property colorant prints so that chemical reaction to occur in image processing system, thus eliminate the color of decolourising property colorant and by paper loading to discharge tray.

Yet, in existing cancellation element, because the paper of the elimination of having carried out image is loaded under the state of high temperature, may cause the adhesion between paper.

Summary of the invention

According to the cancellation element of one embodiment of the present invention, comprise: used the thin slice loading pallet, load be formed with image by the decolourising property colorant use thin slice, described decolourising property colorant will decolour due to set furnace run; Image elimination section, to from above-mentioned, with the thin slice loading pallet, take thin slice and above-mentionedly with thin slice, implement above-mentioned furnace run as what unit took out, and discharge eliminated above-mentioned with the decolouring thin slice of the image formed on thin slice; The standby pallet, have the mechanism that can drive to set direction, and load the above-mentioned decolouring thin slice that above-mentioned image elimination section discharges; Standby pallet drive division, drive above-mentioned standby pallet, and above-mentioned decolouring thin slice is freely fallen; Decolouring thin slice loading pallet, be configured in the below of above-mentioned standby pallet, loads from the free-falling above-mentioned decolouring thin slice of above-mentioned standby pallet.

The accompanying drawing explanation

Fig. 1 is the summary construction diagram of the cancellation element of the first embodiment of the present invention;

Fig. 2 is the enlarged drawing of the main portion of the cancellation element shown in Fig. 1;

Fig. 3 illustrates the hardware of the cancellation element shown in Fig. 1 and the block diagram of software configuration example;

Fig. 4 illustrates the top view that is mounted with the state of using thin slice on the standby pallet shown in Fig. 1;

Fig. 5 is the top view that the state that is mounted with the decolouring thin slice is shown on the decolouring thin slice loading pallet shown in Fig. 1;

Fig. 6 is the figure of the effect of the standby pallet shown in instruction diagram 1;

Fig. 7 is the summary pie graph that the image of the second embodiment of the present invention forms cancellation element;

Fig. 8 illustrates the image shown in Fig. 7 to form the hardware of cancellation element and the block diagram of software configuration example.

The specific embodiment

According to an embodiment of the present invention, cancellation element comprises with thin slice loading pallet, image elimination section, standby pallet, standby pallet drive division and decolouring thin slice loading pallet.

That with the thin slice loading pallet, has loaded that the decolourising property colorant can have been decoloured by the furnace run by set is formed with image uses thin slice.Image elimination section is to from what with the thin slice loading pallet, take that thin slice is that unit takes out, with thin slice, implementing furnace run, and discharges the decolouring thin slice of having eliminated with the image formed on thin slice.

The standby pallet has the mechanism that can drive to set direction, the decolouring thin slice that Load Images elimination section discharges.Standby pallet drive division drives standby pallet the thin slice that makes to decolour freely to fall.Decolouring thin slice loading pallet is configured in the below of standby pallet, thereby loads from the free-falling decolouring thin slice of standby pallet.

The<the first embodiment >

Below with reference to Fig. 1 to Fig. 7, the first embodiment of the present invention is described.

Fig. 1 is the summary pie graph of the cancellation element of the first embodiment of the present invention.

As shown in the figure, cancellation element 1 comprises: with thin slice loading pallet 10, with thin slice conveying roller 11, image elimination section 12, decolouring thin slice conveying roller 13, standby pallet 14, decolouring thin slice loading pallet 16.

With thin slice loading pallet 10, be to load the pallet that the decolourising property colorant that can be decoloured by the furnace run by set is formed with the thin slice (hereinafter referred to as " having used thin slice P ") of image.

With thin slice conveying roller 11, be with what load on thin slice loading pallet 10, with thin slice P, to be delivered to the roller of image elimination section 12.

Image elimination section 12 is to from what with thin slice loading pallet 10, take that thin slice is that unit takes out, with thin slice P, implementing furnace run and discharge the device of having eliminated with the thin slice (hereinafter referred to as " thin slice P ' decolours ") of the image of thin slice P formation.

Decolouring thin slice conveying roller 13 is that image is eliminated to the roller that decolouring thin slice P ' that section 12 discharges is delivered to standby pallet 14.

Standby pallet 14 has the tray drive mechanism 15 that can drive to set direction, and is the pallet of the decolouring thin slice P ' of Load Images elimination section 12 discharges.Fig. 2 is the enlarged drawing of the main portion of the cancellation element shown in Fig. 1.As shown in the drawing, the standby pallet 14 in present embodiment has near near a pair of tray member 14a, the 14b formed to discharging the direction extension left part of thin slice discharge orifice and right part respectively.In addition, although tray drive mechanism 15 is configured to drive a pair of

tray member

14a, 14b to horizontal direction, column sections 14g, the 14h that also can be arranged to take a pair of

tray member

14a, 14b rotates up at upper and lower as axle.

Decolouring thin slice loading pallet 16 is configured in the below of standby pallet 14, is the pallet of accepting from the free-falling decolouring thin slice of standby pallet 14 P ' loading.

Fig. 3 illustrates the hardware of the cancellation element shown in Fig. 1 and the block diagram of software configuration example.As shown in the drawing, cancellation element 1 comprises: treater 21, memory device 22, HDD 23, thin slice delivery section 24, Processing for removing section 25, standby pallet drive division 26.

Treater 21 is based on from the input of guidance panel (not shown) etc. the various programs of storage in HDD 23 is loaded in memory device 22, and carries out with the control setup of the Processing for removing of the image formed on thin slice P.As treater 21, can use CPU (central process unit) maybe can carry out MPU (microprocessor) of the calculation process equal with CPU etc.

Memory device 22 is main storage means of the various programs of the processing in load and execution cancellation element 1.Memory device 22 can be by formations such as RAM (random access memory), ROM (read-only memory (ROM)), DRAM (dynamic random access memory (DRAM)), SRAM (static RAM), VRAM (video-ram), flash memory.

HDD 23 is storages for the various programs of the elimination decolouring thin slice transport process of carrying out cancellation element 1 and the driving of standby pallet 14 etc. and the auxilary unit of environmental information.In addition, although provided the example HDD as auxilary unit in present embodiment, be not limited to this, also can utilize such as flash memory, SSD (solid-state drive) or the disk except HDD etc.

Thereby thin slice delivery section 24 is based on the instruction of treater 21 and controls the control program that the rotary actuation with thin slice conveying roller 11 and the thin slice conveying roller 13 that decolours carries out the conveying of thin slice.The control program of the Processing for removing in image elimination section 12 is carried out in the instruction that Processing for removing section 25 is based on treater 21.

The instruction that standby pallet drive division 26 is based on treater 21 is free to drop down to the control program on decolouring thin slice loading pallet 16 to the slide tray drive mechanism 15 of a pair of

tray member

14a, 14b the thin slice P ' that makes to decolour of horizontal direction.In addition, standby pallet drive division 26 is being loaded into from the thin slice P ' that will decolour the control that standby pallet 14 starts to be driven a pair of

tray member

14a, 14b after given time.In order to prevent the adhesion between thin slice, from loading decolouring thin slice P ', to the standby time (hardening time of the thin slice P ' that decolours) till the driving of beginning a pair of

tray member

14a, 14b, be configured such that the thin slice temperature drops to the time span of the both fixed temperatures that do not produce adhesion.The observed reading of the delivery speed of the thin slice in preferred consideration cancellation element 1, the thin slice temperature while discharging to standby pallet 14, have or not generation to adhere to etc. presets this hardening time.

The effect of the cancellation element 1 of above-mentioned formation then, is described.

At first, after inputting user's elimination request by modes such as push load buttons (omitting in figure), treater 21 starts thin slice delivery section 24, rotarily actuate with thin slice conveying roller 11 thin slice of take and be loaded into on thin slice loading pallet 10, using thin slice P as the unit taking-up, then be transported to image elimination section 12.

Then, treater 21 starts Processing for removing section 25 and carry out the Processing for removing of having used thin slice P in image elimination section 12, discharges decolouring thin slice P '.In image elimination section 12, after being heated with set temperature with thin slice P, what by the decolourising property colorant, formed is eliminated with the image on thin slice P.

Then, treater 21 starts thin slice delivery section 24, rotarilys actuate decolouring thin slice conveying roller 13 the thin slice P ' that will decolour and is delivered to standby pallet 14 from image elimination section 12.Fig. 4 illustrates the top view that decolouring thin slice P ' is loaded onto the state on the standby pallet 14 shown in Fig. 1.While loading a decolouring thin slice P ' on standby pallet 14, a pair of

tray member

14a, 14b open to horizontal direction by the driver train of standby pallet, and decolouring thin slice P ' drops on decolouring thin slice loading pallet 16 because of deadweight.Below, this action is called to " initiatively descending ".In addition, when a pair of

tray member

14a, 14b start slide-open, because a pair of

tray member

14a, 14b are formed with

protrusion

14c, 14d at the area of paper rear end side on narrow and small and loading surface, decolouring thin slice P ' first drops to decolouring thin slice loading pallet 16 from rear end side.Due to the decolouring thin slice, P ' falls from rear end side, so have advantages of the arrangement of the thin slice P ' that easily decoloured.

Then, treater 21 starts standby pallet drive division 26, from the decolouring thin slice, P loads and starts after certain hour at standby pallet 14, and along continuous straight runs drives a pair of

tray member

14a, 14b laterally, and the thin slice P ' that makes to decolour freely falls on decolouring thin slice loading pallet 16.In addition, after the driving that this pair of

tray member

14a, 14b fall at the thin slice P ' that made to decolour, in order to accept decolouring thin slice P ', again return to initial position.

Then, the decolouring thin slice P ' fallen successively from standby pallet 14 is accepted and loaded to decolouring thin slice loading pallet 16.Fig. 5 illustrates the top view that the decolouring thin slice loading pallet 16 shown in Fig. 1 loads the state of paper.

Like this, cancellation element 1 according to present embodiment, the decolouring thin slice that the temporary transient furnace run loaded by image elimination section 12 decolours on standby pallet 14 refills and is downloaded on decolouring thin slice loading pallet 16, thereby can prevent the adhesion between thin slice after the thin slice temperature fully descends.Fig. 6 is the figure that the effect of standby pallet 14 generations as shown in Figure 1 is described.Here be that ADF speed, the decolouring thin slice P ' that decolouring thin slice P ' is shown has or not the figure that adheres to and have or not the relation of the function that initiatively descends.Here, take ADF speed cancellation element 1 in the situation of (being that ADF speed is slow) below 65cpm illustrates as example.In the situation that do not have the cancellation element 1 of the function that initiatively descends, result shows between thin slice can produce adhesion (Fig. 6: NG).This be because, because ADF speed is slow, after decolouring, thin slice is not cooling fully, decolouring thin slice P ' is loaded onto on decolouring thin slice loading pallet 16 at high thin slice temperature.On the other hand, in the situation that there is the cancellation element 1 of the function that initiatively descends, even result shows the identical situation of ADF speed, owing to after decolouring, having obtained sufficient hardening time, also there is effect (Fig. 6: OK) of the adhesion that can prevent between thin slice.In addition, in the situation that ADF speed is the cancellation element 1 more than 70cpm, during due to conveying, thin slice is cooled, and does not see the difference on effect caused that has or not because initiatively descending, but, because the ADF speed of normally used cancellation element 1 is the 50cpm left and right, it is suitable that initiatively decline is set.

The<the second embodiment >

Then, with reference to figure 7 and Fig. 8, the second embodiment of the present invention is described.In addition, carry out the formation that mark is identical with the structure illustrated in aforesaid the first embodiment and omit its detailed explanation with identical symbol.

Fig. 7 is the summary pie graph that the image of present embodiment forms cancellation element 100.It is image processing system 4 and the integrated device of sheet post-process apparatus 5 that this image forms cancellation element 100, and is the MFP (multi-function peripheral) that carries out the various processing such as image reading processing, image formation processing and image Processing for removing.In addition, image forms cancellation element 100 can carry out the first image formation processing pattern (hereinafter referred to as " can rewrite printing model (Rewritable print mode) ") and these two kinds of image formation processing patterns of the second image formation processing pattern (hereinafter referred to as " normal print mode "), the first image formation processing pattern using decolourising property colorant that color disappears because of chemical reaction during by heating under both fixed temperatures, even and the second image formation processing pattern using is heated to the non-decolourising property colorant that above-mentioned both fixed temperatures color does not also disappear.But can rewrite printing model can be in the situation that do not requiring that recycling paper carries out yet.

In addition, the cancellation element 1 of sheet post-process apparatus 5 and the first embodiment has equally with thin slice loading pallet 10, with thin slice conveying roller 11, image elimination section 12, decolouring thin slice conveying roller 13, standby pallet 14 and decolouring thin slice loading pallet 16.And sheet post-process apparatus 5 also has the thin slice post-processing section 51 that carries out that registration process and bookbinding are processed etc., load from thin slice post-processing section 51, discharge with the loading pallet 52 of thin slice P, from decolouring thin slice loading pallet 16, take out decolouring thin slice P ' and as the recycling thin slice conveying roller 17 that recycles thin slice and be transported to image processing system 4 sides.

Fig. 8 illustrates the image shown in Fig. 7 to form the hardware of cancellation element 100 and the block diagram of software configuration example.As shown in the drawing, image forms cancellation element 100, and image processing system 4 and sheet post-process apparatus 5 is integrated, and image processing system 4 one sides comprise: treater 401, memory device 402, HDD 403 (hard disk drive), image reading unit 41, adopt non-decolourising property colorant to carry out the first image forming part 42 of image formation processing, the second image forming part 43, thin slice supply unit 44, operation inputting part 404, FAX device 405 and the display panel 406 that adopts the decolourising property colorant to carry out image formation.

The image that the client (not shown) of treater 401 based on from connecting by network or operation inputting part 404 are sent forms task or operation input etc., the various processing such as carries out image formation processing or image reading processing.Then, form image in the situation that can rewrite printing model, the treater 401 of present embodiment is controlled, and makes by the non-decolourising property colorant of the first image forming part 42 use, the view data of obtaining in image formation task is carried out to image formation on thin slice.In addition, in the situation that form image with normal print mode, treater 401 is controlled, and makes by the second image forming part 43 use decolourising property colorants and carries out image formation.As treater 401, can use CPU (central process unit) or can carry out comparably with CPU MPU (microprocessor) of calculation process etc.

Memory device 402 storages form the program of the various processing of cancellation element 100 for carries out image.In addition, memory device 402 temporary transient storage in the image formation processing is processed the view data generated and uses as the work area of various application programs by image reading.And memory device 402 has that the image of temporary transient storage by Network Capture forms the task dispatching signal and from the function of the operator input signal of operation inputting part 16 etc.Memory device 402 can be by formations such as RAM (random access memory), ROM (read-only memory (ROM)), DRAM (dynamic random access memory (DRAM)), SRAM (static RAM), VRAM (video-ram), flash memory.

HDD 403 is auxilary units that memory image forms the various information in cancellation element 100.In addition, the auxilary unit as image formation cancellation element 100 in present embodiment has provided example HDD 403, but is not limited in this, also can utilize such as flash memory, SSD (solid-state drive) or the disk except HDD etc.

Operation inputting part 404 is specified the condition of duplicating or scanning, the operation of input FAX number.Operation inputting part 404 can be by formations such as the enter key such as numeral etc., keyboard (Keyboard), mouse (Mouse), touch-screen (touch panel), touch pad (touchpad), handwriting pad (graphicstablet), dedicated buttons.

Image reading unit 41 is the general pattern reading devices with duplicator and image reading apparatus etc., in the duplicating of carrying out original copy with image formation cancellation element 100, scan manuscript, uses.

The first image forming part 42 is the devices that adopt common electronic photo mode to form image and carry out normal print mode.As shown in Figure 7, the first image forming part 42 comprises

photosensitive drums

42K, 42C, 42M, 24Y, intermediate transfer belt 42B and fixing device 42F.

The view data that photosensitive drums 42K to 42Y composing images forms, to be formed on the sensitization dignity of photosensitive drums 42K to 42Y separately corresponding to the electrostatic latent image of each color data of black (K), cyan (C), pinkish red (M), yellow (Y), form the developer picture of being developed of electrostatic latent image by the developer (toner) that never graphic developer roll is supplied with.The developer formed on photosensitive drums 42K to 42Y looks like to be transferred to (so-called primary transfer) on intermediate transfer belt 42B.

Intermediate transfer belt 42B looks like the developer of transfer printing at the transfer position T shown in Fig. 7 to be transferred on the thin slice of image formation object (so-called secondary transfer printing).At transfer position T, to thin slice, hot photographic fixing is transferred to the developer picture on thin slice to fixing device 42F.

The second image forming part 43 is to be used as the decolouring ink of decolourising property colorant to carry out the device that the image that adopts ink-jetting style formed, can rewrite printing model.The second image forming part 43 has

printhead

43K, 43C, 43M, the 43Y of the ink that respectively decolours that corresponds respectively to black (K), cyan (C), pinkish red (M), yellow (Y), spray corresponding ink from each printhead, thereby form the image that adopts the decolouring ink on thin slice.

Here, the decolouring ink as the decolourising property colorant can be used the dyestuffs such as leuco dye.And this decolouring ink is about 80 ℃ to 100 ℃ decolourings when heating.

The various information such as the set information of display panel 406 demonstration images formation cancellation elements 100 and running-active status.Display panel 406 can be used formations such as Electronic Paper, LCD (Liquid Crystal Display), EL (electron luminescence), PDP (Plasmia indicating panel), CRT (C-R-tube).In addition, by form display panel 406 with touch-screen display, thereby display panel 406 also can be realized part or all function of operation inputting part 404.

Thin slice supply unit 44 is supplied with as the thin slices such as paper that form for image to the first image forming part 42 or the second image forming part 43.The thin slice supply unit 44 of present embodiment comprises: new thin slice supply unit 44a, supply with the new paper that image did not once also form; Recycling thin slice supply unit 44b, adopt the decolourising property colorant to carry out image formation though supply with, and in order to recycle, having carried out decolours has processed and eliminated the recycling paper of image; And manual thin slice supply unit 44c.

FAX device 405 is devices that image forms sending and receiving facsimile signal in cancellation element 100.

In addition, as mentioned above, sheet post-process apparatus 5 has thin slice post-processing section 51, and thin slice post-processing section 51 is in the situation that carry out many parts of printings every portion of setting is separated in image processing system 4.Yet, even in the situation that do not carry out the effect that many parts of printings also can be played the discharge portion of loading the thin slice of discharging.

And sheet post-process apparatus 5, except thin slice post-processing section 51, also similarly has thin slice delivery section 24, Processing for removing section 25 and standby pallet drive division 26 with the cancellation element 1 of the first embodiment.Because the function of each one is identical with the first embodiment, omitted detailed explanation here.In addition, in the present embodiment, the cooperative operation of treater 401 of thin slice delivery section 24, Processing for removing section 25 and standby pallet drive division 26 treater (not shown) by separately being located at sheet post-process apparatus 5 sides etc. and image processing system 4 etc.

Then, illustrate that image as constituted above forms the image Processing for removing under the rewritten printing model of cancellation element 100.In addition, suppose with on thin slice loading pallet 10, be mounted with use the decolourising property colorant to form image use thin slice P.

At first, while by modes such as push load button (not shown)s, inputting user's elimination request, treater 401 starts thin slice delivery section 24, rotarily actuate with thin slice conveying roller 11 thin slice of take and be loaded into on thin slice loading pallet 10, using thin slice P as the unit taking-up, then be transported to image elimination section 12.

Then, treater 401 starts Processing for removing section 25 and carry out the Processing for removing of having used thin slice P in image elimination section 12, discharges decolouring thin slice P '.In image elimination section 12, when being heated with set temperature with thin slice P, what by the decolourising property colorant, formed is eliminated with the image on thin slice P.

Then, treater 401 starts thin slice delivery section 24, rotarilys actuate decolouring thin slice conveying roller 13 and also will decolour paper P ' from 12 conveyings of image elimination section to standby pallet 14.

Then, treater 401 starts standby pallet drive division 26, load decolouring thin slice P ' from standby pallet 14 and start after certain hour, along continuous straight runs drives a pair of

tray member

14a, 14b laterally, and the thin slice P ' that makes to decolour freely falls to decolouring thin slice loading pallet 16.In addition, this pair of

tray member

14a, 14b, after the driving that fallen by be allowed decolouring thin slice P ', in order to accept decolouring thin slice P ', return to initial position again.

Then, the decolouring thin slice P ' fallen successively from standby pallet 14 is accepted and loaded to decolouring thin slice loading pallet 16.

Then, the image formation processing in the rewritten printing model of instruction diagram picture formation cancellation element 100.

At first, when the user forms the request of image by inputs such as display panels 406 under can rewriteeing printing model, treater 401 reads from original copy and is printed on the view data thin slice and is stored in memory device 402 by scanner etc. in image reading unit 41.

Then, treater 401 starts the thin slice delivery section 24 of sheet post-process apparatus 5, rotary actuation recycling thin slice conveying roller 17 thin slice of take are loaded in the decolouring thin slice P ' on decolouring thin slice loading pallet 16 as unit takes out, to the recycling thin slice supply unit 44b conveying of image processing system 4.

Then, after treater 401 startups recycle thin slice supply unit 44b and make to recycle thin slice and supply with the second image forming part 43, the second image forming part 43 carries out image formation by the decolourising property colorant, and as with thin slice, being transported to sheet post-process apparatus 5 sides.

Like this, form cancellation element 100 according to the image of present embodiment, form device 4 and sheet post-process apparatus 5 by integrated image, can eliminate continuously to be formed on the generation of the recycling thin slice of the image on thin slice P and process and to the image formation processing of this recycling thin slice.And, due to the utilization that recycles thin slice is become easily, thereby can suppress the consumption of new thin slice.

Although some embodiment has been described, these embodiments are only to present as an example, are not limited to scope of the present invention.In fact, new apparatus and method as described herein can multiple other forms realize.And, can make various omissions, alternative and change to apparatus and method described herein in the situation that do not exceed inventive concept.Appending claims and equivalency range thereof comprise that those fall into the change form among scope of the present invention and thought.

Claims

1. a cancellation element comprises:

Used the thin slice loading pallet, load be formed with image by the decolourising property colorant use thin slice, described decolourising property colorant will decolour due to set furnace run;

Image elimination section, to from above-mentioned, with the thin slice loading pallet, take thin slice and above-mentionedly with thin slice, implement above-mentioned furnace run as what unit took out, and discharge eliminated above-mentioned with the decolouring thin slice of the image formed on thin slice;

The standby pallet, have the mechanism that can drive to set direction, and load the above-mentioned decolouring thin slice that above-mentioned image elimination section discharges;

Standby pallet drive division, drive above-mentioned standby pallet and above-mentioned decolouring thin slice freely fallen; And

Decolouring thin slice loading pallet, be configured in the below of above-mentioned standby pallet, loads from the free-falling above-mentioned decolouring thin slice of above-mentioned standby pallet.

2. cancellation element according to claim 1,

Above-mentioned standby pallet comprise respectively near the left part of the discharge orifice of above-mentioned decolouring thin slice and near right part to discharging that direction is extended and a pair of tray member that forms.

3. cancellation element according to claim 2,

Above-mentioned standby pallet drive division slides above-mentioned a pair of tray member along continuous straight runs, thereby above-mentioned decolouring thin slice is freely dropped on above-mentioned decolouring thin slice loading pallet.

4. cancellation element according to claim 2,

Above-mentioned standby pallet drive division make above-mentioned a pair of tray member take the pillar in the outside of thin slice loading surface above or below axially to rotation, thereby above-mentioned decolouring thin slice is freely dropped on above-mentioned decolouring thin slice loading pallet.

5. cancellation element according to claim 3,

Above-mentioned standby pallet drive division starts through the above-mentioned a pair of tray member of given time rear drive being loaded into above-mentioned standby pallet from above-mentioned decolouring thin slice.

6. cancellation element according to claim 4,

7. a sheet post-process apparatus comprises:

Post-processing mechanism, be connected with image processing system, to what by above-mentioned image processing system, with the decolourising property colorant, be formed with image, with thin slice, carries out set post-processing, and described decolourising property colorant will decolour due to set furnace run;

Use the thin slice loading pallet, loaded the above-mentioned thin slice of having used;

The standby pallet, have the mechanism that can drive to set direction, loads the above-mentioned decolouring thin slice that above-mentioned image elimination section discharges;

8. an image forms cancellation element, comprising:

Image data acquisition section, obtain for form the view data of image on thin slice;

Image forming part, the decolourising property colorant that use is decoloured by set furnace run, or use not the non-decolourising property colorant that can decolour due to furnace run, form the image of the view data based on being obtained by above-mentioned image data acquisition section on above-mentioned thin slice;

Used the thin slice loading pallet, loaded and be formed with the above-mentioned thin slice of image as using thin slice by above-mentioned image forming part;

Standby pallet drive division, drive above-mentioned standby pallet and above-mentioned decolouring thin slice freely fallen;

Decolouring thin slice loading pallet, be configured in the below of above-mentioned standby pallet, loads from the free-falling above-mentioned decolouring thin slice of above-mentioned standby pallet; And

Recycling thin slice supply unit, take out the above-mentioned decolouring thin slice on above-mentioned decolouring thin slice loading pallet and be supplied to above-mentioned image forming part as the recycling thin slice.

9. image according to claim 8 forms cancellation element,

Above-mentioned image forming part comprise by above-mentioned non-decolourising property colorant on above-mentioned thin slice, form above-mentioned image the first image forming part and

Form the second image forming part of above-mentioned image on above-mentioned thin slice by above-mentioned decolourising property colorant.

10. sheet post-process apparatus according to claim 7,

11. sheet post-process apparatus according to claim 10,

12. sheet post-process apparatus according to claim 10,

13. sheet post-process apparatus according to claim 11,

14. sheet post-process apparatus according to claim 12,

15. image according to claim 9 forms cancellation element,

16. image according to claim 15 forms cancellation element,

17. image according to claim 15 forms cancellation element,

18. image according to claim 16 forms cancellation element,

19. image according to claim 17 forms cancellation element,

20. the method for erasing image in a cancellation element comprises:

With the thin slice conveying roller take thin slice as unit from the thin slice loading pallet take out be formed with image by the decolourising property colorant use thin slice, described decolourising property colorant will decolour due to set furnace run;

Image elimination section implements furnace run with thin slice to the above-mentioned of above-mentioned taking-up;

Decolouring thin slice conveying roller will have been eliminated image by above-mentioned furnace run above-mentionedly discharges from above-mentioned image elimination section as the decolouring thin slice with thin slice;

Above-mentioned decolouring thin slice with above-mentioned discharge of standby tray loading of the mechanism that can drive to set direction;

Standby pallet drive division is starting through the above-mentioned standby pallet of given time rear drive from loading above-mentioned decolouring thin slice, above-mentioned decolouring thin slice is freely fallen to the decolouring thin slice loading pallet of the below that is configured in above-mentioned standby pallet, and above-mentioned decolouring thin slice is loaded on above-mentioned decolouring thin slice loading pallet.