The present invention relates to a staple cartridge for an electric stapler, in which a large number of staples are accommodated, detachably attached to the electric stapler body. The present invention also relates to a staple cartridge for an electric stapler having a face plate on which a striking passage for striking staples is formed.
In an electric stapler for successively striking staples, which are charged into a magazine, by driving a driver with a motor, the following cartridge type electric stapler is well known. In order to make it easy to charge staples into the magazine, a staple cartridge which accommodates a large number of staples is attached to the magazine of the electric stapler, and the staples in the staple cartridge are successively stricken by the driver so that binding can be accomplished by the staples.
The staple cartridge includes: an accommodating portion for accommodating a large number of staples; and a striking passage for striking a staple at the head of the staples toward sheets of paper to be bound. This striking passage is formed between the front wall of the accommodating portion and the face plate attached to the front end portion of the magazine. The staple cartridge further includes: a cartridge body composing the above accommodating portion for accommodating the large number of staples; the large number of staples accommodated in the accommodating portion; a leaf spring for pushing the staples to one side of the accommodating portion; and a cover member for closing the opening of the accommodating portion.
A forming plate reciprocated by the motor and a driver, both provided on the stapler body side, enter the striking passage of the staple cartridge, and form the staples facing the striking passage into a C-shape, and strike the staples. And then, leg portions of the staple penetrating sheets of paper are bent by a clincher.
However, in the stapler described above, the thickness of sheets of paper to be bound is restricted by the size of staple to be used. Therefore, the following problems may be sometimes caused. In the case of sheets of paper, the thickness of which is larger than the restricted thickness, it is impossible for the leg portions of the staple, which has been stricken out from the striking passage by the driver, to penetrate the sheets of paper to be bound. Therefore, the stricken staple is buckled and jammed in the striking passage. When this problem is caused, in order to remove the jammed staple from the striking passage, it is necessary to move or turn the face plate so that the striking passage can be released. In the conventional cartridge, since the face plate is pivotally attached to the forward end portion of the staple cartridge, when the face plate is turned to remove the jammed staple with a finger, the finger may be contacted with an end portion of the staple and may be injured. Further, in the above conventional structure, it is necessary to provide a fulcrum shaft for supporting the face plate, and it is also necessary to provide a mechanism for holding this fulcrum shaft. Therefore, the structure of the conventional cartridge is complicated. This type staple cartridge is designed so that the staple cartridge is discarded after the staples accommodated in the cartridge have been consumed. Therefore, the manufacturing cost of the cartridge having the above complicated structure is raised.
Furthermore, in the electric stapler in which the above cartridge is used, after the staples in the staple cartridge have been consumed, the staple cartridge itself is replaced so as to supply the staples. Therefore, the staple cartridge is made of inexpensive plastics of low manufacturing cost, and after the staples have been consumed, the staple cartridge is discarded. However, in the accommodating portion of the staple cartridge, a sheet-shaped spring piece made of metal for pushing the staples is accommodated together with the staples. Accordingly, when the staple cartridge is discarded, it is necessary to classify the spring piece made of metal and discard or recycle it. However, in the conventional staple cartridge, the staple accommodating portion is fixed and integrated with the cover. Therefore, in order to pick up the spring piece accommodated inside the staple cartridge, it is necessary to break the staple cartridge, which requires a tool. This work to pick up the spring piece is complicated and dangerous. For the above reasons, the spring piece accommodated inside the staple cartridge is not classified to be recovered or discarded. Accordingly, it is impossible for the conventional staple cartridge to use resources effectively and contribute to the prevention of environmental destruction in the case of discarding the used staple cartridge.
It is a first object of the present invention to provide a staple cartridge characterized in that: jammed staples, which are jammed in the staple striking passage, can be safely and easily removed; and the structure of the staple cartridge is simple as a disposable cartridge, and the manufacturing cost of the staple cartridge is low.
It is a second object of the present invention to provide a staple cartridge characterized in that: the spring piece in the accommodating portion can be easily removed from the staple magazine, the staples of which have been consumed, without using a tool, so that the staple cartridge can be easily classified and recovered or discarded.
In order to accomplish the first object described above, the staple cartridge of the present invention includes: a cartridge body for accommodating a large number of staples; a face plate made of plastics arranged at the front end portion of the cartridge body, on which a staple striking passage for striking the staples by a driver is formed; and support pieces integrally formed from both side edges of the face plate to the rear, wherein bosses formed in the support pieces are engaged with recess portions formed in both side faces of the front end portion of the cartridge body, so that the face plate is slidably and pivotally supported by the cartridge body.
In order to accomplish the second task described above, the staple cartridge of the present invention includes: a cartridge body in which an accommodating portion for accommodating a large number of staples is formed; staples accommodated in the accommodating portion; a leaf spring for pushing the staples to one side of the accommodating portion; and a cover for closing an opening of the accommodating portion, wherein a small thickness groove, by which the staple cartridge can be broken into two pieces, is formed on the circumference of the accommodating portion of the cartridge body and cover.
Note that in the drawings, reference numeral 101 denotes an electric stapler, reference numeral 102 is a frame, reference numeral 103 is a clincher arm, reference numeral 104 is a staple cartridge, reference numeral 105 is a knob, reference numeral 106 is a cartridge body, reference numeral 107 is sheet staples, reference numeral 108 is a leaf spring, reference numeral 109 is a cover, reference numeral 110 is a face plate, reference numeral 111 is a striking passage, reference numeral 112 is a support piece, reference numeral 113 is an engaging boss, reference numeral 114 is a recess portion, reference numeral 115 is a protruded line, reference numeral 201 is an electric stapler, reference numeral 204 is a staple cartridge, reference numeral 206 is a cartridge body, reference numeral 207 is a sheet staple, reference numeral 208 is a spring piece, reference numeral 209 is a cover, reference numeral 210 is an accommodating portion, reference numeral 215 is a small thickness groove, reference numeral 216 is a small thickness groove, and reference numeral 217 is a reinforcing rib.
Referring to the embodiment shown in the drawings, the first embodiment of the present invention will be explained below.
As shown in
In this connection, in this embodiment, the staple materials 107a charged into the staple cartridge 104 are formed into a linear shape which is a shape before the staple materials 107a are formed into the C-shape. The linear staple materials 107a are formed into the C-shape immediately before stricken out by the driver onto sheets of paper to be bound. In this connection, in the drawing, reference numeral 116 is an opening formed in the bottom portion of the cartridge body 106 so that the pawl of the feeding mechanism for supplying forward the sheet staples 107, which are accommodated in the cartridge body 106, can be engaged with the lower face of the sheet staples 107 in the cartridge. Reference numeral 117 is an opening for engaging the detector, which detects the existence of the sheet staples in the cartridge, with the sheet staples 107. Reference numeral 118 is a hook for fixing the staple cartridge 104 under the condition that the staple cartridge 104 is attached to the frame 102 of the electric stapler. Reference numeral 119 is a check pawl for preventing the sheet staples 107, which are conveyed to the left in the cartridge body 106 in
At the front end portion of the staple cartridge 104, the face plate 110 is provided, on which the striking passage 111 is formed, for guiding the staples stricken out by the driver from the staple cartridge 104 toward sheets of paper to be bound, in cooperation with the front wall of the cartridge body 106. The face plate 110 is engaged with the front end side face of the cartridge body 106 by the support pieces 112, which are integrally formed from both side edges of the face plate 110 toward the rear, and by the engaging bosses 113 which protrude inward from the end portions of both support pieces 112. On both sides of the front end portion of the cartridge body 106, the recess portions 114 are formed in the longitudinal direction corresponding to the support pieces 112. On the bottom face of the central portion of the recess portion 114, the protruded line 115, which is formed in the longitudinal direction so that the recess portion can be divided into the front and the rear recess portion, is formed swelling from the bottom face. When the engaging bosses 113 of both support pieces 112 of the face plate 110 are accommodated in the recess portion 114 of the cartridge body 106, the face plate 110 can be slidably and pivotally combined with the cartridge body 106.
As shown in
Next, referring to the embodiment shown in the drawings, the second embodiment of the present invention will be explained below.
As shown in
In this connection, in this embodiment, the staples charged into the staple cartridge 204 are formed into a linear shape which is a shape before the staples are formed into a C-shape. The sheet staples 207 arranged in the bottom portion of the accommodating portion 210 of the cartridge body 206 are pushed by a pushing force of the spring piece 208 to the bottom portion of the cartridge body 206 and supplied to the striking passage 211, which is formed in the front end portion of the staple cartridge 204, by a supply mechanism not shown provided in the electric stapler 201. After the sheet staples 207 have been formed into a C-shape by the forming plate provided in the electric stapler 201, the sheet staples 207 are stricken out onto sheets of paper to be bound by the driver provided in the electric stapler 201. The supply mechanism for supplying the sheet staples 207 forward engages with the lower face of the sheet staples 207 in the cartridge body 206 from the opening 212 for supplying, which is formed in the bottom portion of the accommodating portion 210 of the cartridge body 206, and successively supplies the sheet staples 207 toward the striking passage 211. In this connection, reference numeral 213 is an opening for engaging the detector for detecting the existence of the sheet staples in the cartridge with the sheet staples 207. Reference numeral 214 shown in
On the bottom wall 206a and both side walls 206b of the cartridge body 206, the cross section of which is a recessed shape, in which the accommodating portion 210 of the staple cartridge 204 is formed, the small thickness groove 215 is formed in such a manner that it surrounds the accommodating portion 210. As shown in
The staple cartridge 204, the sheet staples 207 of which have been used up, is detached from the magazine of the electric stapler 201, and the staple cartridge 204 is bent while both end portions in the longitudinal direction of the staple cartridge 204 are being held with both hands. Then, the staple cartridge 204 can be easily divided into two pieces at the small thickness grooves 215, 216. The spring piece 208 made of metal accommodated in the accommodating portion 210 can be separated from the cartridge body 206 made of plastics when the opening formed in this dividing portion is utilized. Therefore, classification for recycle or discarding can be easily carried out without using a specific tool. Further, the staples made of metal, which have not been used up, remaining in the staple cartridge 204 can be recovered and discarded being separated from the staple cartridge 204 made of plastics.
In this connection, it should be noted that the present invention is not limited to the above specific embodiment, and variations may be made without departing from the scope and spirit of the present invention. Of course, the variations are included in the present invention.
This application is based on the Japanese Patent Application (Patent Application No. 2001-253527) applied on Aug. 23, 2001 and the Japanese Patent Application (Patent Application No. 2001-253529) applied on Aug. 23, 2001. The contents of these applications are taken inhere as a reference.
In the staple cartridge of the present invention, the face plate 110 for forming the striking passage 111 is slidably and pivotally supported with respect to the cartridge body 106. Therefore, even when a staple is jammed in the striking passage 111, the striking passage 111 can be released by one smooth operation of sliding and turning the face plate 110. Therefore, the jammed staple can be safely and easily removed without causing an injury of a finger by the contact of the finger with the jammed staple. The support pieces 112 having the engaging boss 113 are integrally formed at both side edges of the face plate 110, and the engaging boss 113 is engaged with the recess portion 114 formed in the cartridge body 106. The structure is so simple as described above. Therefore, it is possible to provide an inexpensive staple cartridge, the manufacturing cost of which is low.
According to the present invention, the small thickness grooves 215, 216 are formed in such a manner that the small thickness grooves 215, 216 surround the accommodating portion 210 of the cartridge body 206. Therefore, the staple cartridge 204 can be divided into pieces without using any tool, and the accommodating portion 210, in which the spring piece 208 made of metal is accommodated, can be opened. Accordingly, the plastics composing the cartridge body and the metallic material composing the spring piece can be classified for recycle or discarding, which contributes to the saving of resources and the prevention of environmental pollution. Since the used staple cartridge is broken, it is possible to prevent the electric stapler from being damaged when sheet staples of out of the standard are used for the electric stapler.
Number | Date | Country | Kind |
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P. 2001-253527 | Aug 2001 | JP | national |
P. 2001-253529 | Aug 2001 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP02/08481 | 8/22/2002 | WO | 00 | 2/20/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/01826 | 3/6/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5273199 | Logtens | Dec 1993 | A |
5560529 | Udagawa et al. | Oct 1996 | A |
5823415 | Udagawa et al. | Oct 1998 | A |
5836502 | Kanai et al. | Nov 1998 | A |
6039230 | Yagi et al. | Mar 2000 | A |
6536646 | Pinczewski et al. | Mar 2003 | B1 |
6557744 | Kitamura | May 2003 | B2 |
6568579 | Mochizuki | May 2003 | B2 |
6634536 | Yoshie | Oct 2003 | B2 |
6715654 | Sugihara et al. | Apr 2004 | B2 |
Number | Date | Country |
---|---|---|
61-112870 | Jul 1986 | JP |
62-184991 | Nov 1987 | JP |
4-54683 | May 1992 | JP |
4-115582 | Oct 1992 | JP |
Number | Date | Country | |
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20040211811 A1 | Oct 2004 | US |