JP4232716B2 - Stapler cartridge - Google Patents

Description

  The present invention relates to a stapler cartridge for use in a stapler for driving a staple-like material after forming a sheet-like staple formed by connecting a plurality of straight staple materials into a sheet shape.

  In general, this type of electric stapler stores and stores a plurality of straight staples in a sheet shape in a multi-layered manner in a cartridge, and in a feed passage provided continuously to the cartridge. The lowermost or uppermost sheet-like staples are sequentially fed out, and are formed into a gate shape in order from the staple material at the leading end of the sheet-like staples at the leading portion provided at the leading end of the feeding passage, and the formed staples are driven with a driver plate. In this case, the material to be bound is penetrated and the leg portion of the penetrated staple is bent by the movable clincher. Therefore, the electric stapler includes a feeding mechanism that feeds the sheet-like staple from the cartridge to the feeding path, a guide mechanism that feeds the sheet-like staple sent by the feeding mechanism to the driving portion, and both legs of the staple that penetrates the material to be bound. A clincher mechanism that is bent by the movable clincher and a clincher drive mechanism that drives the movable clincher are provided.

  However, in the conventional feeding mechanism, as shown in FIG. 13, when the driver plate 50 is driven, the feeding claw holder 51 is retracted by the driver plate 50, and the driver plate 50 returns to the initial position after staple driving. Since the feed claw holder 51 is moved forward to engage the feed claw 52 with the sheet-like staple a and fed to the driving portion, the movement amount of the feed claw 52 is equal to the thickness of the driver plate 50, that is, one staple. It is only the thickness of. Therefore, if the feeding claw 52 cannot be engaged with the sheet-like staple a well and is swung, the staple is idled, and no new staple is supplied to the driving unit, so that the next driving is empty. End up.

Further, as shown in FIG. 14, the mechanism for guiding the sheet-like staple a to the feed passage 58 is a guide portion 56 provided on the main body 55 (magazine) side and two staple guides provided on the cartridge 57 side. 59, 60. Therefore, a guide mechanism for the sheet-like staple a is formed when the cartridge 57 having the members 59 and 60 constituting the feed passage 58 is mounted on the main body 55 side. As described above, since the dimensions between the members 56, 59 and 60 constituting the guide mechanism are relatively determined, the dimension management of each member is very troublesome. In addition, since at least one member of the passage constituting members 59 and 60 is made of a synthetic resin, there is a drawback that the passage gap easily changes due to bending deformation.

  Further, in the conventional clincher mechanism, as shown in FIG. 15, the movable clincher 61 is arranged so as to be shifted forward and backward. A wall 63 for forming a guide recess 62 for picking up the leg tip of the other movable clincher 61 is formed on the extension of the tip of each movable clincher 61. Therefore, for example, when a thin material is bound using a staple having a long leg for binding a thick material, the leg portion penetrating the material is very long and is bent by the movable clincher 61 as it is. Then, the tip of the leg moves as shown by the arrow and hits the wall 63, and cannot be bent. For this reason, a cutting mechanism that cuts an excess portion of the staple legs at the time of bending is required.

Similarly, as shown in FIG. 16, the conventional clincher drive mechanism is provided with a clincher link 65 that operates from the side opposite to the staple driving side toward the driving side, and the clincher link 65 is operated to move. The clincher 61 is engaged and rotated. For this reason, when the clincher link 65 is at the lowermost position in the figure, the tip of the movable clincher 61 hits the upper surface of the clincher link 65, and the movable clincher 61 cannot be rotated further downward.
Accordingly, since the angle of the movable clincher 61 during standby is not so large, when the long leg 66 as described above penetrates the material to be bound, the tip of the leg 66 directly touches before the penetration ends. Since the movable clincher 61 is bent when it hits the movable clincher 61, the bent leg portion of the movable clincher 61 is bent after that, and there is a possibility that the leg portion 66 may be bent poorly. This problem can be solved by increasing the stroke of the clincher link 65, that is, by increasing the angle of the movable clincher 61 during standby. In this case, the bottom dead center of the clincher link 65 must be lowered. The whole must be enlarged.

  The present invention solves the above problems, and an object of the present invention is to provide a stapler cartridge provided with a guide mechanism capable of smoothly and reliably guiding sheet-like staples to a feed path with a simple structure. It is in.

To solve the above problems, stapler cartridge according to the present invention, a plurality of straight-shaped staple member from the staple material of the sheet-like staple tip in part lump striking the staple-sheets formed by connecting the sheet In a stapler cartridge provided in a detachable manner in a magazine of a stapler that is formed into a portal shape in order, drives the formed staple with a driver plate, penetrates the material to be bound, and bends the leg portion of the penetrated staple by a movable clincher. the cartridge sequentially feeds the sheet staples in the punching addition unit from the lowermost or uppermost sheet staple feed passage provided continuously to the opening of the cartridge body with multiple stages to stacked and stored in the cartridge body with a passage, to the feed passage, Katori First guide means for guiding the exposed surface of the sheet-like staple discharged from the sheet and second guide means for guiding the surface opposite to the exposed surface are provided integrally with each other. The cartridge side is extended inside the opening of the cartridge.

  An inclined guide portion is preferably formed at the end of the cartridge body of the second guide means on the opening side, and the first guide means and the second guide means are formed of a metal plate. It is good.

  FIG. 1 shows a main part of an electric stapler according to the present invention. This electric stapler is provided with a magazine 1 on a base (not shown), and a cartridge 2 in which a plurality of straight staples connected in a sheet form are stacked and stored in a multistage manner at the lower part of the magazine 1. Is detachably provided. Then, the uppermost sheet-like staple a in the cartridge 2 is discharged from the cartridge 2 by the feeding mechanism and sent to the driving unit 3 provided at the frontmost part of the cartridge 2. The electric stapler may be disposed upside down. In this case, the lowermost sheet-like staple is fed.

  At the upper part of the magazine 1, a forming plate 4 for forming the staple material a1 at the head portion of the sheet-like staple a supplied to the driving portion 3 into a gate shape and a driver plate 5 for driving the formed staple staple a1 downward. And a drive link 6 provided at the front is provided so as to be swingable about a support shaft 7. The roller 8 at the rear end of the drive link 6 is engaged with the peripheral surface of a rotating cam (not shown) that is rotated by an electric motor. The drive link 6 is swung by the rotation of the rotary cam to move the forming plate 4 and the driver plate 5 up and down, and the staple material a1 at the leading portion of the sheet-like staple a supplied to the driving unit 3 by the forming plate 4 Is formed into a gate shape, and the leading staple a1 already formed by the driver plate 5 is driven out toward the lower material 9 to be bound. Incidentally, the basic structure and action of such molding and punching are, for example, Japanese Utility Model Publication No. 63-34853, Japanese Utility Model Publication No. 63-34854, Japanese Utility Model Publication No. 63-34855, Japanese Utility Model Publication No. 63-34856, etc. As shown in

  A binding stand 10 is disposed at the front portion of the base, and a movable clincher 11 is disposed on the binding stand 10 for bending the staple leg which is punched out by the driver plate 5 and penetrates the material 9 to be bound. The movable clincher 11 is configured to rotate up and down by a clincher link 12 driven by the electric motor.

  By the way, the feeding mechanism for feeding the uppermost sheet-like staple a in the cartridge 2 to the driving unit 3 is obliquely engaged with the exposed surface of the sheet-like staple a as shown in FIGS. The feeding claw 13 is provided so as to be movable in the feeding direction of the sheet staple a, and the feeding claw 13 is interlocked with the operation of the drive link 6 of the driver plate 5, and the feeding claw 13 is provided in the feeding claw holder 14. The pin 15 is rotatably attached to the pin 15 and urged by the torsion coil spring 16 to rotate counterclockwise in the figure. The feed claw holder 14 is provided so as to be able to reciprocate in the staple feed direction with respect to the magazine 1, and is always urged to the feed side (front side) by the compression spring 17. An engaging projection 18 is formed at the center front end.

  The feed claw holder 14 is configured to reciprocate by a feed sub-plate 19 and a compression spring 17. That is, the feed sub-plate 19 is fixed to the drive link 6 and reciprocates following the swinging of the drive link 6, and the tip of the feed sub-plate 19 is engaged with the engagement protrusion 18 of the feed claw holder 14 during forward movement. And the feed claw holder 14 is arranged to move backward. When the feed sub-plate 19 moves backward, the feed claw holder 14 moves forward by the compression spring 17. The amount of movement of the feed claw holder 14 is set to about several to ten staples.

  In the feeding mechanism, when the drive link 6 swings to perform the binding operation, the driver plate 5 is driven into the leading staple. At the same time, the feed sub-plate 19 is operated, so the drive link 6 is also rotated. Therefore, the tip engages with the engagement protrusion 18 of the feed claw holder 14 and moves backward. Thereafter, when the drive link 6 swings in the reverse direction, the pressing force of the feed sub-plate 19 is released, so that the feed claw holder 14 moves forward by the compression spring 17. At this time, the leading end of the feeding claw 13 is engaged with the exposed surface (upper surface) of the uppermost sheet-like staple a, and the sheet-like staple a is fed toward the driving unit 3 by one staple.

According to the above configuration, the feeding claw 13 operates to feed the sheet-like staple a while being engaged with the groove between adjacent staples. At this time, the engagement between the feeding claw 13 and the staple a may be released. is there. However, since the feed claw 13 operates in conjunction with the operation of the drive link 6 which is the driving means of the driver plate 5, the amount of movement of the feed claw 13 is sufficiently long. In the middle of the movement, it can be engaged with another staple again. Accordingly, the sheet-like staple a can be smoothly and reliably fed, and it is possible to effectively prevent idle feeding and blanking. Meanwhile, the uppermost sheet-like staple in the cartridge 2 fed forward by the feeding mechanism. First, a is guided by a guide mechanism to a feed passage 20 (see FIG. 3) continuous to the cartridge 2.

As shown in FIGS . 3 to 5 , the cartridge 2 mainly includes a cartridge main body 2a and a cover member 2b disposed in the upper opening 22 of the cartridge 2. A pusher 23 and a cover 23 are disposed at the front of the cover member 2b. A face plate 24 and the like are disposed. The cover member 2b includes a cover plate 25 that closes the opening of the cartridge 2 (excluding the front portion), and is configured to open and close the opening 22 of the cartridge 2 by rotating around the support shaft 21. Yes. A lid 26 is fixed to the opening on the opposite side of the cartridge 2. The sheet-like staple a is accommodated in the cartridge 2 through the opening 22 and is always urged upward by the pressing body 27. The feed passage 20 is continuously formed at the front portion of the cartridge 2, and the driving portion 3 is formed inside the face plate 24 at the tip of the feed passage 20.

  The guide mechanism for guiding the sheet-like staple a is constituted by first guide means 30 and second guide means 31 constituting a feed passage 20 provided in the cover member 2b. That is, the first guide means 30 is a plate-like material that guides the exposed surface of the sheet-like staple a, and is mounted by engaging the ear pieces 29 on both sides with the shafts 32 on the outer side walls of the cover member 2b. Yes. The 2nd guide means 31 is also a plate-shaped material, and as shown in FIG. 4, it is mounted inside the side walls 33 of the cover member 2b. Both side edges 34 of the second guide means 31 protrude upward, and a feed passage having a height of about 1.5 times that of the sheet-like staple a between the first guide means 30 and the second guide means 31. 20 is formed. As shown in FIG. 3, the end 30 a on the cartridge 2 side of the first guide means 30 extends inside the opening 22 of the cartridge 2 and is disposed on the extension of the cover plate 25. An inclined guide portion 35 is formed at the rear end of the second guide means 31. Moreover, it is preferable that both the first guide means 30 and the second guide means 31 are formed of a metal plate having high strength.

  According to the guide mechanism, as shown in FIG. 6, the uppermost sheet-like staple a is supported by the cover plate 25 in the cartridge 2 and the extension 30 a of the first guide means 30. Therefore, when the feeding mechanism is activated and the sheet-like staple a enters the feeding passage 20, the exposed surface (upper surface) of the sheet-like staple a is already guided by the first guide means 30, and the height of the feeding passage 20 is increased. Is set to about 1.5 times the thickness of the sheet-like staple a, so that it is automatically fed into the feed passage 20 as long as it moves along this guide. Even if the sheet-like staple a is slightly displaced up and down, the front end of the sheet-like staple a is guided by the guide portion of the second guide means 31, so that the sheet-like staple a can be smoothly and reliably guided into the feed path 20.

  As described above, since the first guide means 30 and the second guide means 31 constituting the guide mechanism are integrally formed on the cover member 2b, the dimensions can be managed in an integrated manner. In addition, since the end 30 a of the first guide means 30 extends to the inside of the opening 22 of the cartridge 2, the first guide means 30 serves as a common guide for the cartridge 2 and the feed passage 20. Therefore, the second guide means 31 may be formed based on only the first guide means 30 regardless of the guide on the cartridge 2 side. Therefore, dimension management becomes easy, and the sheet-like staple a can be smoothly and reliably guided to the feed passage 20 with a simple structure.

  The first guide means 30 may be formed integrally with the cover plate.

  Next, after the leading staple needle a1 of the sheet-like staple a is fed to the driving unit 3 by the feeding mechanism and further formed into a gate shape, the drive link 6 swings and the driver plate 5 is moved to the formed staple a1. Is pushed out toward the material 9 to be stitched, both leg portions 36 of the staple that has been pierced penetrate the material 9 and bend by the clincher mechanism.

  As shown in FIGS. 7 and 9, the clincher mechanism is configured such that a pair of movable clincher 11 having a receiving surface 37 that receives the tips of both leg portions 36 of the staple that penetrates the material to be bound 9 are disposed opposite to each other. Further, each of the two clincher holders 39 is pivotally attached to a support shaft 40 provided between the two substantially flat clincher holders 39, and the receiving surfaces 37 of the two movable clinchers 11 are arranged outside each other as shown in FIGS. The guide portion 38 is formed so as to be inclined.

  That is, the movable clincher 11 is pivotally attached to a support shaft 40 provided between the clincher holders 39, the one side 44 on the tip side is formed to be thin, and the tip portions are overlapped with each other. In addition, the inclination of the guide portion 38 of the movable clincher 11 is formed from the front of the portion p where the staple leg portion 36 descends through the material 9 to the tip. The inclination angle is preferably about 5 ° to 10 °.

  According to the above configuration, the leg portion 36 of the staple that has been driven through and penetrated into the material 9 by the driver plate 5 is lowered onto the receiving surface 37 of the movable clincher 11. Thereafter, when the movable clincher 11 is rotated upward about the support shaft 40 by a driving means (not shown), the staple leg portion 36 comes into contact with the receiving surface 37 and is bent. However, since the receiving surface 37 is inclined outward as the guide portion 38, the staple leg portion 36 also flows outward as indicated by the arrows in FIGS. Since the leg portions 36 on both sides are guided to the outside, a so-called bypass flat clinch in which the leg portions 36 do not overlap is realized.

  Further, when the staple leg portion 36 penetrating the material 9 is long, it is bent by hitting the receiving surface 37 of the movable clincher 11, and the leg portion 36 is pointed at the tip of the movable clincher 11 as shown by a dotted line in FIG. Even in such a case, since the clincher holder 39 is formed in a flat plate shape and there is no wall that hits the leg portion 36 as in the prior art, the leg portion 36 is bent without hitting anywhere, A reliable clinching is performed. For this reason, even if it does not cut | disconnect the leg part 36, it can bend | cured reliably.

  The guide portion 38 may have a configuration in which only one side edge side of the receiving surface 37 is inclined as shown in FIG. 10 (a), or one side edge is raised as shown in FIG. 10 (b). May be.

  Next, the movable clincher 11 is rotated by the clincher link 12 as shown in FIG. On the opposite side (lower side) of the receiving surface 37 of the staple leg portion 36 of the movable clincher 11, an engaging projection 41 that engages with the clincher link 12 is formed to project. On the other hand, the clincher link 12 is operatively connected to an electric motor and operates in the vertical direction from the opposite side (lower side in the drawing) to the driving side (upper side in the drawing) of the staple a1. It is configured to engage with the engaging protrusion 41 of the movable clincher 11 and push it up when moving. Further, as shown in FIG. 12, a notch 42 is formed in the central portion of the clincher link 12 at a portion corresponding to the tip of the movable clincher 11, and an escape portion that avoids engagement with the tip of the movable clincher 11 is formed. It is composed.

  According to the movable clincher driving mechanism configured as described above, when the clincher link 12 moves upward from the bottom dead center position, the upper surface engages with the receiving surface 37 of the movable clincher 11 and pushes it up. It rotates around the support shaft 40. As a result, the staple leg portion 36 penetrating the material to be bound is pushed up and bent by the receiving surface 37 of the movable clincher 11 and the material to be bound is spelled.

  When the clincher link 12 moves downward from the top dead center after the end of the spelling operation, the movable clincher 11 also rotates in the reverse direction around the support shaft 40 and returns to the initial position.

  According to the above configuration, since the central portion of the clincher link 12 is cut out, the distal end portion 43 of the movable clincher 11 escapes into the cutout portion 42 when the clincher link 12 is at the bottom dead center position. . For this reason, the stroke amount of the movable clincher 11 is reduced by an amount corresponding to the escape dimension h of the tip end portion 11a as compared with the case where there is no notch portion 42. As described above, the operation stroke of the clincher link 12 for obtaining the same amount of rotation of the movable clincher 11 as that of the prior art is small. In other words, the standby angle of the movable clincher 11 can be increased without increasing the stroke of the clincher link 12. Therefore, the electric stapler can be further downsized.

  The escape portion for avoiding engagement with the tip of the movable clincher 11 is not limited to the notch portion 41. It may be a hole or a recess.

Side view of main parts showing sheet staple feeding mechanism in electric stapler Bottom view of the feed claw and its holder Explanatory drawing of the principal part of the guide mechanism which sends a sheet-like staple into a feed passage Sectional view taken along line XX in FIG. Exploded side view of cartridge Enlarged view of the main part of the above guide mechanism Top view of the movable clincher part showing the clincher mechanism (a) and (b) are cross-sectional views taken along lines YY and ZZ in FIG. Front view of part of the clincher mechanism (a) (b) is a sectional view of another example of the guide Front view showing clincher drive mechanism Perspective view of main part of clincher link Explanatory drawing of conventional feeding mechanism Explanatory drawing of conventional guide mechanism Illustration of a conventional clincher mechanism Explanatory drawing of conventional clincher drive mechanism

Explanation of symbols

a sheet-like staple 2 cartridge 3 driving portion 5 driver plate 11 movable clincher 13 feed claw 20 feed passage 30 first guide means 31 second guide means 36 leg 37 receiving surface 39 clincher holder 41 notch

Claims (3)

A plurality of straight-shaped staple member is formed into gate-shaped in order from the staple member of the sheet-like staple tip in part lump striking the staple-sheets formed by connecting the sheet, implanting shaped staple by the driver plate In the stapler cartridge that is detachably provided in the stapler magazine that penetrates the material to be bound and folds the leg portion of the staple that has been penetrated by a movable clincher , the cartridge stacks and stores the sheet-like staples in the cartridge body in multiple stages. together with the sequential feeding passage the punching addition unit bottom or from the uppermost sheet staple feed passage provided continuously to the opening of the cartridge body, in the feed path, the sheet discharged from the cartridge First guide for guiding the exposed surface of the staple Integrally provided with a second guide means for guiding the opposite side of the means and the exposed surface, the cartridge side of the first guide means, that is extended to the inside of the opening of the cartridge A staple cartridge.   2. The stapler cartridge according to claim 1, wherein an inclined guide portion is formed at an end portion of the cartridge body of the second guide means on the opening side.   The stapler cartridge according to claim 1 or 2, wherein the first guide means and the second guide means are formed of a metal plate.

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