The present invention relates to a stapler and a staple cartridge including a guide mechanism of a staple capable of firmly striking out the staple without buckling a leg portion of the staple.
There is a stapler of a cartridge type for binding a staple by mounting a cartridge contained with a number of unformed straight staples to a magazine portion of an electric stapler, successively supplying the unformed staple at an inside of the cartridge to a strike out path formed at a front end of a path of supplying the staple of the cartridge, forming the unformed staple in a C-shape by a forming plate immediately before the strike out path and supplying the formed staple to an inside of the strike out path in which a driver plate is moved to slide, striking out the formed staple from the strike out path by the driver plate, and penetrating the staple leg through binding sheets arranged at a lower face of the cartridge.
A front end portion of the cartridge contained with the number of staples is formed with the strike out path for striking out a front one of the staples to the binding sheet, and the strike out path is formed between a front end face of the cartridge and a face plate attached to a front end portion of the cartridge. The driver plate driven reciprocally by a motor provided on a main body side of the electric stapler strikes out the staple arranged at the inside of the strike out path by advancing to inside of the strike out path formed at the front end portion of the cartridge and folds to bend a front end of a staple leg penetrated through the binding sheets arranged on a lower face side of the cartridge by a clincher mechanism.
According to an electric stapler according to the related art of the application, there is formed an anvil arranged at a lower face of the unformed staple immediately before the strike out path, the unformed staple is formed into a C-shape by the anvil and the forming plate, and the staple formed in the C-shape is supplied to the inside of the strike out path by a pusher arranged on a lower side of the anvil. The pusher is moved back when the unformed staple is formed into the C-shape by the forming plate, engaged with the rear face side of the staple formed in the C-shape and presses the formed staple to a front side by a spring urge force to supply to an inside of a groove formed at a back face of a face plate forming the strike out path. Further, the pusher presses the staple leg portion from the rear face side to guide the struck-out staple leg portion when the staple at the inside of the strike out path is struck out by the driver plate.
The pusher is moved back by bringing the staple leg in the midst of being formed by starting to form the unformed staple by the forming plate into contact with the pusher, and presses the staple in a direction of the strike out path by being engaged with the rear face side of the staple formed in the C-shape. When the pusher is moved back, a support force for pushing the staple arranged at the inside of the strike out path and in the midst of being back from the rear face side is lost to bring about a case in which the staple is not guided sufficiently. When a length of the staple leg formed in the C-shape is long, also a thickness of the binding sheets is large and therefore, a large penetration resistance is produced during a time period after landing a front end of the staple leg struck out by pressing a crown portion thereof by the driver plate on a surface of the binding sheets, until penetrating the front end of the staple leg through the binding sheets, a distance between the driver plate and the front end of the staple leg is large and therefore, when the support force from the rear side is lost as described above, jamming is liable to be brought about by buckling the staple leg.
Hence, WO2004/048054 discloses a staple in which a pusher is formed with a long guide piece continuous in a staple striking out direction by way of an inclined face to be formed to project integrally to a side of the face plate to advance to between two legs of the staple at the inside of the strike out path, and the staple leg is guided by the guide piece by forming the inclined face at a position of being engaged with the staple when a front end of the staple leg struck out by the driver plate is landed on the binding sheets.
However, also according to the electric stapler, the pusher is moved back simultaneously with folding to bend the straight staple into the C-shape by the forming plate on the rear face side of the driver plate and therefore, a front one of the formed staple is liable to be unstable by losing the support invariably. Therefore, there is a case in which the staple is buckled before finishing to penetrate the binding sheets in the midst of being struck out. There is brought about an unstable struck state to cause to bring about a failure in striking such as jamming or the like.
One or more embodiments of the invention provide a stapler and a staple cartridge having a mechanism for guiding a staple in which when the staple formed in a C-shape is struck out to a strike out path by a driver plate, buckling, jamming or the like of the staple is prevented from being brought about by effectively guiding a staple leg.
In accordance with one or more embodiments of the invention, in a stapler, at a front portion of a path of supplying connected staples connected with straight staples, a forming plate of folding to bend to form a front staple into a C-shape and a driver plate for striking out the formed staple are held in a laminated state, the staple in the C-shape formed by the forming plate at an inside of a strike out path formed between a front end face of the supply path and a back face of a face plate arranged on a front side of the supply path is pressed to supply to the inside of the strike out path by a pusher urged by a spring to the face plate, and the staple is struck out by the driver plate. The pusher is made to constitute a first pusher and a second pusher for pressing a leg portion of the staple to the face plate is arranged to align with a side of a staple strike out port of the first pusher.
Further, in accordance with one or more embodiments of the invention, the first pusher and the second pusher are formed with press portions for pressing the staple, and both sides of the press portion are formed with guide portions for guiding inner side faces of the two leg portions of the staple at the inside of the strike out path by way of a stepped difference continuously in a direction of striking out the staple.
Further, in accordance with one or more embodiments of the invention, a stapler is provided with a path of supplying connected staples, a face plate arranged on a front side of the supply path, a strike out path provided between a front end face of the supply path and the face plate, a first pusher provided at the inside of the strike out path and urged to the face plate, and a second pusher provided at the inside of the strike out path, arranged on a side of a staple strike out port of the first pusher, and urged to the face plate.
Further, in accordance with one or more embodiments of the invention, the first pusher and the second pusher are made to be movable independently from each other.
Further, in accordance with one or more embodiments of the invention, the stapler is further provided with a forming plate for forming to bend to form a front one staple of the connected staples into a C-shape, and a driver plate held in a state of being laminated with the forming plate for striking out the formed staple. The first pusher presses the formed staple to the face plate, and the second pusher presses a leg portion of the formed staple to the face plate.
In accordance with one or more embodiments of the invention, the stapler is further provided with a first press portion formed at the first pusher for pressing the staple, first guide portions formed on both sides of the first press portion by way of a stepped difference for guiding inner side faces of the two leg portions of the staple at the inside of the strike out path, a second press portion formed at the second pusher for pressing the staple, and second guide portions formed on both sides of the second press portion for guiding the inner side faces of the two leg portions of the staple at the inside of the strike out path.
In accordance with one or more embodiments of the invention, the first press portion includes a first inclined face and a first engaging face successive to the first inclined face, and the second press portion includes a second inclined face and a second engaging face successive to the second inclined face.
In accordance with one or more embodiments of the invention, a side of the strike out path of the first pusher is formed with a first inclined face, and a first engaging face successive to the first inclined face, and a side of the strike out path of the second pusher is formed with a second inclined face, and a second engaging face successive to the second inclined face.
In accordance with one or more embodiments of the invention, when the staple at the inside of the strike out path is struck out by the driver plate, and a crown portion of the staple at the inside of the strike out path is engaged with the first engaging face, the first pusher is pushed back against an urge force, and when the forming plate forms the staple at a successive position and the first pusher is further pushed back, the crown portion of the staple at the inside of the strike out path is supported by the second inclined face.
Further, in accordance with one or more embodiments of the invention, a staple cartridge is provided with a path of supplying connected staples, a first pusher provided on a lower side of the supply path and urged to a direction of supplying the connected staple, and a second pusher provided on a lower side of the first pusher, urged to the direction of supplying the connected staples and made to be movable independently from the first pusher.
Further, in accordance with one or more embodiments of the invention, the first pusher is made to be able to advance and retract to and from a strike out path formed between a front end face of the supply path and a face plate, and the second pusher is made to be able to advance and retract to and from the strike out path.
Other aspects and advantages of the invention will be apparent from the following description and the appended claims.
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a) is a perspective view of a staple cartridge according to one or more embodiments of the invention along with a driver plate, a forming plate.
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b) is a front view showing the staple cartridge according to one or one or more of the invention along with the driver plate, the forming plate.
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[
[
[
[
[
[
[
s . . . staple
s1 . . . leg portion
10 . . . driver plate
11 . . . forming plate
7 . . . supply path
9 . . . strike out path
8 . . . face plate
15 . . . first pusher
16 . . . second pusher
One or more embodiments of the invention will be explained in reference to the drawings as follows.
In
In contrast thereto, the staple cartridge is constituted to be set to a predetermined position of a main body of the electric stapler although not illustrated. As the electric stapler for setting the staple cartridge, there is conceived an electric stapler of an apparatus included type installed into an inside of an apparatus of, for example, a copier, a printer or a facsimile machine for automatically binding together a predetermined number of sheets of sheets copied, printed or received by a facsimile. The electric stapler main body is provided with a feed mechanism for supplying the connected staples 4 at an inside of the staple cartridge to the strike out path 9, and a strike mechanism for holding to drive the forming plate 11 for forming the unformed staple supplied to the front portion of the supply path 7 in a C-shape and the driver plate 10 for striking out a front one of the staple formed and supplied to the strike out path 9 in a laminated state. Further, a side of the staple cartridge opposed to the driver plate 10 is provided with a clincher member to be able to move in an up and down direction and is constituted to hold a binding sheet P set above a binding base provided at an upper portion of the staple cartridge of the drawing and fold to bend a leg portion of the staple struck out by the driver plate 10.
Further, although the driver plate 10 and the forming plate 11 are supported by a common drive shaft 12, an end portion flange 11a of the forming plate 11 is formed with a long hole 14 prolonged in a strike out direction, and the drive shaft 12 is engaged with the long hole 14. Therefore, although the driver is reciprocally moved along with the drive shaft 12, the forming plate 11 is reciprocally moved retardedly relative to the driver plate 10.
Further, the strike out path 9 is formed by a recess groove 13 formed at a back face of the face plate 8 and therefore, the front one of the unformed staple of the connected staples 4 cannot jump to the strike out path 9. Hence, the front one of the staple is folded to bend at both sides thereof by the forming plate 11 to be formed into a C-shape (a crown portion s1 and a leg portion s2 shown in
As shown by
The first pusher 15 is urged to the face plate 8 by a spring 22. Both sides of a front face of the first pusher 15 are formed with guide portions 17 (first guide faces 17) capable of being engaged with rear faces of the leg portions s2 of the formed staple, and inner sides of stepped differences 17a of the guide portions 17 are continuously formed with an inclined face 18 (first inclined face 18) on a side of the supply path 7 and an engaging face 19 (in parallel with an inner face of the face plate 8) successive thereto. A center of an end portion of the engaging face 19 (first engaging face 19) is formed with an extended portion 20 extended to a side of the second pusher 16. It is preferable that also the guide portion 17 is continuously formed with an inclined guide face 17b on a side of the supply path 7 and a strike out guide face 17c in parallel with the inner face of the face plate 8 as shown by
Blade pieces 23 are extended to be formed on both outer sides of the guide portions 17, and upper end edges thereof are formed with inclined faces 24 for pushing back the first pusher 15 by being engaged with the staple leg portion s2 in the midst of being formed by the forming plate 11.
Next, the second pusher 16 is arranged to be aligned with a side of a staple strike out port q of the first pusher 15. Also the second pusher 16 is urged to the face plate 8 by a spring 25. A front face of the second pusher 16 is formed with a guide portion 21 (second guide face 21) capable of being engaged with the rear faces of the legs of the formed staple s, an inner side of a stepped difference 21a of the guide portion 21 is continuously formed with an inclined face 26 (second inclined face 26) on a side of the supply path 7 and an engaging face 27 (second engaging face 27) successive thereto. An end portion of the inclined face 26 is notched and is engaged with the extended portion 20 of the first pusher 15. It is preferable that the guide portion 21 is also formed such that the guide portion 21b is continuously formed with an inclined guide face 21b on a side of the supply path 7 and a strike out guide face 21c in parallel with the inner face of the face plate 8 as shown in
Next, explaining a mode of operating the staple guide mechanism having the above-described constitution, first, when the staple has already been formed in the C-shape, the staple is pushed out to the strike out path 9 by the guide portions 17, 21 of the first pusher 15 and the second pusher 16 and pressed to be held by the springs 22, 25. Further, the leg portions s2 of the staple are held by the guide portions 17, 21 of the first pusher 15 and the second pusher 16. When the drive shaft 12 is operated by a strike mechanism of the stapler main body under the state, the driver plate 10 is driven and therefore, the staple s at the inside of the strike out path 9 is struck out. Although first, the staple s is guided by the guide portion 17 of the first pusher 15, as shown by
Further, the leg portion s2 of the staple s is effectively prevented from being folded to bend to the inner side (side of other leg) by a resistance in penetrating through the binding sheet P since the leg portion s2 is guided by the guide portions 17, 21 of the first pusher 15 and the second pusher 16 moved independently from each other. Therefore, the binding operation can further firmly be operated without buckling the leg portion s2. Further, when the crown portion s1 of the staple is struck out, the crown portion s1 is struck out in a state of being brought into contact with the respective inclined faces 18, 26 of the first pusher 15 and the second pusher 16 and therefore, the crown portion s1 is supported by friction at that occasion and therefore, the crown portion s1 is not deformed to an M-like shape. In this way, the leg portion s2 is held by the guide portions 17, 21, the crown portion s1 is held by the inclined faces 18, 26 and therefore, a shape of the bent portion is ensured to be held.
When the drive shaft 12 is operated to return after having been operated to bind, also the driver plate 10 is operated to return simultaneously, however, as shown by
Further, although in the above-described example, the unformed staple is formed by the forming plate in one motion piece by piece, two or three pieces of the unformed staples may be formed in one motion.
Further, the staple cartridge and the forming plate/driver plate may be provided upside down converse to the above-described example.
Although the invention has been explained in details and in reference to specific embodiments, it is apparent for the skilled person that the invention can variously be changed and modified without deviating from the spirit and the range of the invention.
The application is based on Japanese Patent Application (Japanese Patent Application No. 2004-212339) filed on Jul. 20, 2004 and contents of which are incorporated herein by reference.
According to one or more embodiments of the invention, when the staple in the C-shape is struck out by the driver plate, the leg portion is struck out by being supported by the first pusher and the second pusher. Meanwhile, also the forming plate is driven successively to the driver plate and therefore, the first pusher is pushed away to be remote from the face plate by the forming plate and therefore, also the staple loses support by that amount. However, at that occasion, the leg portion of the staple has already been pushed to and supported by the side of the face plate by the second pusher and therefore, the staple is struck out to the binding sheet in a correct attitude to penetrate therethrough. Thereafter, although also the second pusher is pushed away to be remote from the face plate by the forming plate, at this occasion, the leg portion of the staple is inserted to and supported by the binding sheet and therefore, the attitude of the staple does not become unstable. Therefore, when the staple is struck out, the staple is guided to be held always in the stable attitude and therefore, when the staple is penetrated through the binding sheet, the staple is not buckled and the smooth and firm binding operation can be carried out.
Further, according to one or more embodiments of the invention, the first pusher and the second pusher are formed with portions of guiding the leg portions of the staple and therefore, the leg portion can effectively be prevented from being folded to bend to the inner side (other leg side) by the resistance of penetrating through the binding sheet. Therefore, the binding operation can further firmly be carried out.
Number | Date | Country | Kind |
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P.2004-212339 | Jul 2004 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2005/012856 | 7/12/2005 | WO | 00 | 1/18/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/009015 | 1/26/2006 | WO | A |
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Number | Date | Country | |
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20080061102 A1 | Mar 2008 | US |