JPH0620970B2 - Sheet sorter with stapler - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a sheet classifier with a stapler for processing sheets discharged from an image forming apparatus such as a copying machine or a laser beam printer, and more particularly to a sheet. Classify
The present invention relates to a stapler-equipped sheet sorting apparatus including a large number of bins to be stored and a binding device (hereinafter referred to as a stapler) that closes a sheet bundle.

(B) Conventional technology Conventionally, many sheet post-processing devices (hereinafter referred to as limitless sorters) that classify and store sheets without being limited by the number of bins, staple the bundle of sheets for each bin. ing. For example, in a horizontal bin-fixed sorter, a carriage equipped with a stapler is moved to a predetermined position in each bin, and a stapler is used to rotate the stapler from the carriage to staple it. There are a limitless sorter that moves to the left and right and inserts a staple head between the bins to staple it, and a limitless sorter that grips the sheet bundle stored in the bin with a grip or the like and conveys it to the stapler.

(C) Problems to be solved by the invention By the way, with any of the limitless sorters described above, it takes time to staple the work, and the system cannot be speeded up.
Further, there is a drawback that the structure of the device becomes complicated and the cost becomes high.

Therefore, the binding device, a binding position for binding a sheet bundle on a predetermined bin, a retracted position that does not hinder the discharge of the sheet when the sheet is discharged to the bin, and the binding position and the retracted position that does not hinder the movement of the bin There has been devised a control to stop at the intermediate position of the, but in this one, the height of the binding device is higher than the width between the bins, so the sheets must be moved to perform the binding work. I had to do it.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a staple-equipped sheet sorting apparatus that can efficiently perform stapling without increasing the size and complexity of the sheet sorting apparatus.

(D) Means for Solving the Problems The present invention has been made in view of the above circumstances, and is inclined with the sheet introduction port (16) and the adjacent bins being held at a vertical interval. A plurality of vertically supported bins (17) and bin moving means (51) for sequentially moving the bins in the vertical direction so that the bins face the sheet inlet (16) in order.
A staple head portion (32) and an anvil portion (39), and when stapling, the staple head portion and the anvil portion enter the sheet storage surface of the predetermined bin (B ₁ ) from above and below the sheet. A staple means (19) for sandwiching and stapling, and a bin (B) adjacent above the predetermined bin (B ₁ ) in a projection size from above (A) substantially orthogonal to the sheet storage surface. ₀ ), the plurality of bins are arranged so that an end portion deviation (L) is formed between the end portion and the predetermined bin (B ₁ ) and a bin (B ₀ ) adjacent to the predetermined bin (B ₁ ). (H) is narrower than the height dimension (H) of the upper member (32) of the stapling means, and the entering position of the upper member (32) of the stapling means at the time of stapling is not the end portion. A distance in the (L) based on, in the sheet sorting apparatus with a stapler, characterized in that.

(D) Operation Based on the above configuration, the sheet on which the image is formed by the printer or the like is transferred from the sheet introduction port (16) to the bin moving means (5
It is stored in the bin (17 ...) Which moves sequentially in 1). Then, when the bin (17) is moved, the stapling means (19) in the retracted position (Z) is advanced toward the sheet storage surface of the predetermined bin (B ₁ ) when the stapling operation is performed. At this time, the rear end portion (17c) of the predetermined bin (B ₁ ) has a projected dimension from above (A) that is substantially orthogonal to the sheet storage surface because the sheet storage surface is inclined. ,
An end portion deviation (L) occurs between the rear end portion (17d) of the bin (B ₀ ) adjacent to the upper side of the bin (B ₀ ), and the stapling means (19).
Enters the sheet storage surface of the bin by utilizing the edge shift (L). That is, the upper member (3) of the stapling means (19)
2) enters within the range of the edge deviation (L), and the stapler means (19) operates at that position, and the bin (B
₁ ) Staple the upper sheet bundle.

Note that the reference numerals in parentheses above are for comparison with the drawings, but do not limit the configuration of the present invention in any way.

(F) Example Hereinafter, an example of the present invention will be described with reference to the drawings.

The limitless sorter (hereinafter abbreviated as sorter) 1 is the second
As shown in the drawing, the laser beam printer 2 is provided with a downstream side of a folding device 3, and a sorter 5 is provided downstream of the sorter 1. And
At the downstream of the carry-in port 6 of the sorter 1, the sheet S is conveyed by a conveying path 7
Alternatively, a deflector 10 for branching and guiding to the transport path 9 is provided, and a non-sort tray 11 is provided downstream of the transport path 7 and above the left side of the main body of the sorter 1. A deflector 15 for branching and guiding the sheet S to the transport path 12 or 13 is disposed downstream of the transport path 9, and a discharge roller pair forming a sheet introduction port is provided downstream of the transport path 12. 16 are provided. Furthermore,
An upper bin group 17 for sorting and storing the sheets S is supported on the downstream side of the discharge roller pair 16 so as to be able to move up and down, and a stapler 19 is arranged near the bin 17.
A discharge roller pair 20 is provided downstream of the transport path 13.
The lower bin group 21 for sorting and storing the sheets S is movably supported downstream of the roller pair 20, and the stapler 19 is provided near the bin 21.
Is provided.

Further, as shown in detail in FIGS. 1, 3, and 4, the stapler 19 has a shaft 25 rotatably supported on a fixed base 23 fixed to a side plate 22 of the sorter 1, The axis 2
A base plate 26, a cam 27, and a fan-shaped gear 29 are fixed to the unit 5. Further, a motor 30 is disposed below the fixed base 23, and the driving force of the motor 30 is transmitted to the fan-shaped gear 29 via a gear group 31. A stapler head 32 is fixed on the base plate 26, and a part 2 of the side plate 22 is fixed.
2a is configured to be openable and closable, and the staple cartridge 32a is attached to the stapler head 32 from the portion 22a.
It is configured so that it can be attached to the (see FIG. 9). A slide bush 33 is fixed to the lower side of the base plate 26, and the slide bush 33 is in contact with the fixed base 23 and carries the load of the stapler head 32. Further, the stapler head 32 is supported by a shaft 35 so as to be vertically rotatable on a base plate 26, and a staple driving unit 36 is provided at a front end of the head 32.
And a plunger 37 for driving the unit 36. An anvil 39 for bending the staples 34 is arranged at a position facing the unit 36. Further, the upper and lower bottle groups 17 ..., 21 ...
Sheet presence / absence sensor 4 for detecting the presence / absence of the sheet S, respectively
0 and the sheet alignment sensor 41 for detecting the alignment of the sheet S
And a control unit C that receives signals from these sensors 40 and 41
And a fixed guide 42 and a movable guide 43 for aligning the axial direction of the sheet S (see FIG. 9).

As shown in FIGS. 5 (a), (b), and (c), the cam 27 is provided with microswitches 45 and 46, and the microswitches 45 and 46 rotate the cam 27. It is configured to turn ON / OFF by movement.

Further, as shown in detail in FIGS. 1 and 6 to 8, the bins 17 ..., 21 ...
Is provided with a rotatable roller 50 that supports the base end side of the bin. The roller 50 engages with the groove of the lead cam 51 and moves up and down by the rotation of the lead cam 51 to raise and lower the bins 17 ,.
1 is configured to move up and down, and further, the bin 17
, 21 ... are supported by supporting means (not shown).

Further, a cutout portion 47 is provided in a left corner portion on the base end side of the sheet storage surface of each of the bins 17 and 21, and the end portions 17a and 21a of the bins 17 and 21 contacting the cutout portion 47 are provided.
Is inclined from the tip end side of the bottles 17 and 21 to the base end side. Further, when the thickness of the bins 17 and 21 is t and the thickness of the anvil 39 is p, the bins 17 and 21 are thicker than the anvil 39 so that t> p is satisfied. There is.

Then, as shown in detail in FIG. 4, the bins 17 and 21 facing the discharge roller pair 16 and on which the stapler 19 acts.
(B ₁ ) has an upper space that is orthogonal to the sheet storage surface due to the fact that there is a space for introducing a sheet between it and the bin B ₀ above it and the sheet storage surface of the bin 17 (21) is inclined. The rear end portion 1 of the bin B ₁ in the projected size from A
Resulting in end shift L between 7c and the upper rear end portion 17d of the bin B _0. In addition, the height h of the space above the bin B ₁
Is configured to be narrower than the height H of the stapler head 32. Therefore, the stapler head 32 may be a large one having a large capacity that is not affected by the height h of the sheet introduction space above the bin B _1. it can.

In addition, as shown in FIG. 1, B
_The bins 17 and 21 located at the _first position are located at the upstream side of the bins 17 and 21 located at the B ₀ position one step higher by a predetermined distance L, and the bins 17 located at the B ₁ are located at the upstream side.
The distance from the rear end corners of the sheets S stacked on the sheet 21 to the position where the staple needle 34 is driven is Q, and the distance from the position where the staple needle 34 is driven to the front end of the staple driving unit 36. To M
Then, L ≧ M + Q is satisfied.

Since the present embodiment is configured as described above, the processed sheet S discharged from the laser beam printer 2 is conveyed to the folding device 3 and is folded in two or Z, or is directly sorted. It is transported to 1. At this time,
The sheet S is conveyed by the deflector 6 in the case of only partial copying, in the case of special paper such as OHP paper or postcard, in the case of a sheet larger in size than the bins 17 and 19, or in the case of a sheet with special folding. It is guided to the path 7, and further discharged to the non-sort tray 11 through the transport path 7.
Further, when the sheet S has a predetermined size and a plurality of sheets,
When the sheet is discharged to the upper bin group 17 ...
Are guided to the transport path 9 by the deflector 6 and further guided to the transport path 12 by the deflector 15. Then, the sheet S is ejected to the lowermost bin 17 of the bin group 17 ... By the ejection roller pair 16 through the conveyance path 12, and is further abutted against the fixed guide 42 by the movable guide 43 to align the width direction. Further, the front and rear direction is aligned to the base end side by the inclination of the bottle 17. Similarly, the lower bin 17 ...
When the counting means (not shown) detects that the sheets S ... Are sequentially discharged from the sheet S, and the number of sheets S ... accumulated in the bin 17 has reached a predetermined number, the control unit C that detects the signal of the counting means is The presence / absence of the sheet bundle S is confirmed by the sheet presence / absence sensor 40, and the sheet alignment sensor 41 is also provided.
The consistency of the sheet bundle S ... Is confirmed by. When the sheet presence / absence sensor 40 is turned on and the matching by the sheet alignment sensor 41 is good, the control unit C rotates the motor 30, and the rotation of the motor 30 is rotated by the fan group gear 29 via the gear group 31. Transmitted to. Further, the rotation of the fan gear is transmitted to the shaft 25, and the rotation of the shaft 25 moves the stapler 25 from the home position X to the cutout portion 47, that is, the binding position Y (see FIGS. 1 and 9). That is, as shown in Figure 12 (a), the tip of the head 32 of the stapler 19 at該綴Ji position Y, in the range of end deviation L described above, the cutout portion of the sheet storage surface on the bin B ₁ 47, and the staple needle 34 portion thereof enters the predetermined distance Q inward from the sheet storage surface rear end 17c, and the distance Q from the sheet end to the needle 34 and the staple rear end to the tip of the head 32. The sum of the distance M and the end deviation L
(L ≧ M + Q). At this time, the cam 27 that moves integrally with the stapler 25 moves from the position where the micro switch 45 is turned on and the micro switch 46 is turned off (see FIG. 5 (a)) so that the micro switch 45 is turned on.
When the FF is turned on and the micro switch 46 is moved to the position where it is turned on, the control section C causes the stapler 2 to move by the OFF signal of the micro switch 45 and the ON signal of the micro switch 46.
It is detected that 5 moves to the binding position Y. then,
The control unit C again checks the consistency of the sheet bundle S ... With the sheet alignment sensor 41, and issues a warning when the alignment is poor, and when the alignment is good, the stapler head 3
The head 32 is oscillated by a driving device (not shown) in 2 and the staple driving unit 36 and the anvil 39 hold the sheet rear end portion of the sheet bundle S ... And the front side corner portion, and further operate the plunger 37. And staple it. After stapling, the stapler 19 is moved from the binding position Y to a position Z that does not hinder the movement of the bin 17 (see FIGS. 1 and 9). At this time, in the cam 27, the micro switch 45 is OFF and the micro switch 46 is
Moves from the position where the micro switch 45 is turned on to the position where both micro switches 45 and 46 are turned on (see FIG. 5 (b)).
Based on the N signal, the control unit C detects that the stapler 19 has moved to the Z position. Then, the control section C lowers the bin group 17 by one step in the vertical direction by a driving means (not shown). That is, the bin 17 located at B _{0 is} moved to B ₁ ,
The bin 17 which is located at B ₁ and stacks the stapled sheet bundle S ... Is lowered to B ₂ . Then B ₂
The sheet bundle S, which has been stacked and stapled in the bin 17 that has moved to the position, is conveyed to the stacker 5 by the sheet conveying device (not shown) and is accumulated in the stacker 5.
Further, B ₁ position the sheet bundle are integrated into a bin 17 which has moved to the S ... are being stapling is transported and accumulation to the stacker 5 by the stapler 19 moves from the Z position to the binding position Y. After stapling is stopped, the stapler 19 moves to the Z position and stops. Then bottle 17
... The same operation as described above is sequentially performed for all of the bins 17
All the sheet bundles S that are stacked on the sheet are stapled and conveyed and stacked on the stacker 5.

Further, the bin group 21 ...
All the sheet bundles S ... Collected in the bins 21 ... Are stapled and stacked in the stacker 5.

Next, a partially modified embodiment will be described with reference to FIGS. 10 (a) and 10 (b).

In this embodiment, the left and right lead cams 51 ₁ and 51 ₂
The lead angle is different, and the bin 1 below the sheet inlet
7 (B ₁ , B ₂ ) is inclined in the left-right direction. Further, each bin 17 has a sheet storage surface that is inclined so that the rear end side of the sheet is downward, as in the above-described embodiment, and has a rising portion 17c for aligning sheets at the rear end, and is also downward. A rising part 17 for seat alignment is also provided on the front side in the left-right direction.
have e. Further, the stapler 19 is movable in the left-right direction with respect to the bin 17 and enters the sheet storage surface from the front side of the bin B ₁ below the inlet. Therefore, according to this embodiment, as shown in Figure 10 (b), the bin B ₁ facing the sheet inlet are inclined to the horizontal direction the left (front) side is downward, the exhaust from the sheet inlet The front and rear direction of the formed sheet comes into contact with the rising portion 17c and is aligned, and the left and right direction thereof comes into contact with the rising portion 17e and is aligned. On the other hand, in the projected size from the upper side B orthogonal to the sheet storage surface of the bin B ₁ , the side end surface 17 between the upper bin B ₀ and the upper bin B ₀ is based on the above-mentioned inclination in the left-right direction.
There is an end deviation L between e and 17e ', and the head 32 of the stapler 19 enters within the range of the end deviation L, as shown in FIGS. 10 (a) and 12 (b). In addition, the sum of the distance Q from the sheet side edge (17e) to the stapler needle 34 and the distance M from the needle to the tip of the head 32 is within the range of the edge deviation L (L ≧ M + Q).

FIG. 11 shows an embodiment in which the stapler 19 is moved back and forth in the left-right direction. Therefore, according to the embodiment as well,
As shown in FIG. 3C, the side edge of the stapler head 32 enters within the range of the edge deviation L, and the sheet side edge 1
The sum of the distance Q ′ from 7e to the right end of the stapler needle 34 and the distance M ′ from the staple to the left end of the head is within the range of the end deviation L (L ≧ M ′ + Q ′).

As described above, according to the embodiment of the present invention, the bin has the cutout portion in which the binding device is located at the time of the binding work, and the bin is stored in the bin adjacent to the sheet stored in the bin. Since the sheets are displaced by the gap, it is possible to omit the means for moving the sheets by performing the binding work without being limited by the height of the binding device and the width between the bins.

Further, when the bins are arranged in the horizontal direction with respect to the adjacent bin projection surface at a distance from the sum of the distance from the front end of the binding position to the binding position and the distance from the binding position to the sheet bundle edge, The sheets stored in the bin can be separated from the binding position to prevent the binding device from winding the sheets stored in the upper bin and disturbing the integrity of the sheets during the binding operation.

Furthermore, if the binding device includes an anvil and the anvil is thinner than the thickness of the bottle, the anvil can be easily inserted between the bottles by inserting the anvil into the opening corresponding to the thickness of the bottle.

When the bin has an inclined surface facing the cutout portion, when the bound sheet bundle is taken out from the bin, the bound portion of the sheet bundle is guided to the inclined surface, and the bound portion is the bin. Can be prevented from being caught in.

(G) Effect of the Invention As described above, according to the present invention, the edge shift formed between the staple actuation bin and the bin adjacent above the staple actuation bin is utilized, and within the distance based on the edge shift. Since the upper member of the stapling means is kept in the entry position, the stapling means can surely staple the bundle of sheets on the bin, while providing a special space for inserting the staple upper member on the bin. Since it is not necessary to form the sheet, the small and simple sheet sorting apparatus can be easily provided with the stapling means to perform the stapling operation.

Further, since the upper member of the stapling means can have a size H which is higher than the height of the space above the stapling bin, the stapling means is large and has a large capacity without being restricted by the space. It is possible to use a sheet of paper, which enables stapling of a large number of sheets, reduces the frequency of replenishing staples, and enables efficient stapling work.

[Brief description of drawings]

FIG. 1 is an A in FIG. 4 showing a notch portion of a bottle according to the present invention.
FIG. FIG. 2 is a front view showing a sheet classifier with stapler embodying the present invention. FIG. 3 is a side view showing the binding device. Furthermore, the fourth
The figure is a front view showing the bottle. FIG. 5 is a plan view showing the operation of the cam. FIG. 6 is a perspective view showing a notched portion of the bottle, and FIG. 7 is a sectional view taken along the line VII-VII in FIG. Further, FIG. 8 is a front view showing the arrangement of the bin and the binding device, and for the sake of convenience, the sheet is shown in a horizontal position, and is actually inclined by the inclination of the bin. And FIG. 9 is a plan view showing a guide for aligning sheets. Further, FIG. 10 is a diagram showing a partially modified embodiment, (a) is a plan view seen from the direction b of (b), and (b) is a front view. Furthermore, the eleventh
The drawing is a plan view in the case where staples are stapled in parallel to the sheet conveying direction. Moreover, FIG. 12 (a), (b), (c)
FIG. 4 is a plan view showing a stapled state of each example. 1 ... Sheet sorter with stapler (sorter), 16 ...
... Sheet introduction port (discharge roller pair), 17, 21 ... bottle, 19 ... stapler (means), 32 ... stapler head (part) (upper member), 39 ... anvil, B ₁ ...
... predetermined bin, _B0 ... upper bin, L ... end distance (distance), h ... bin spacing height, H ... upper member dimension.

Claims (1)

[Claims] 1. A plurality of bins, which are supported in a slanting manner while maintaining a vertical gap between adjacent sheet inlets and adjacent bins, and are vertically movable, and the bins are sequentially arranged in the longitudinal direction. And a stapler head portion and an anvil portion for moving the respective bottles so as to sequentially face the respective sheet inlets, and at the time of stapling, the stapler head portion is inserted into the sheet storage surface of the predetermined bin and Stapling means for pinching and stapling the sheet from above and below in the anvil part, and in a projected dimension from above substantially orthogonal to the sheet storage surface of the above-mentioned predetermined bin, with the end of the bin adjacent to the above. The plurality of bins are arranged so that an end portion shift is formed therebetween, and the upper member of the stapling means is more than the gap between the predetermined bin and the bin adjacent above the predetermined bin. A stapler-equipped sheet sorting device, wherein the height dimension is large, and an upper member of the stapling means at the time of stapling enters into the end misalignment.