The present invention relates to a binder for binding brochures such as documents.
JP 2000-289376 A discloses a plastic-made binder which is used to bind loose-leaf papers on the market or documents punched by a multi-hole puncher. This binder is a one-piece molded product in which a large number of ½ ring portions are arranged at given intervals in two lines on both sides of a back part of the binder, and the back part of the binder itself is a hinge composed of two divided sections. With the back part between the two lines, one line of ½ ring portions respectively include spherical-shaped projections on the leading ends thereof, whereas the other line of ½ ring portions respectively include in the leading ends thereof holes respectively having shapes corresponding to their associated projections. When the spherical-shaped projections and holes are fitted with each other, the two lines of paired ½ ring portions are connected together, thereby binding the loose-leaf papers.
In the field of office automation equipment, there is known a kind of composite machine which includes a copying machine and a stapler incorporated in the copying machine and is capable of carrying out operations ranging from a copying operation to a binding operation. It may be more convenient to be able to provide an automatic binding processing machine which punches holes in copied papers and attaches a binder to the copied papers. It can be estimated that potential demand for such automatic binding processing machine must be large.
To realize this type of binding processing machine, means for handling a binder is an important element. For example, it is necessary for the binder to have a structure suitable for mechanically handling or carrying out binder operations such as binder feeding, holding and fitting operations. However, the binder disclosed in JP 2000-289376 A is structured on the assumption that it is mounted by hand into a binding processing machine but not on the assumption that it is handled mechanically. Thus, it is difficult to use this binder in a binding processing machine which does not require the manual operation.
In view of this, there has been proposed a binder having a structure which is suitable for use in the binding processing machine. For example, a binder disclosed in JP 2004-237578 A is structured such that, the back part of the binder is projected forwardly or toward the back surface of the binder and thus, when a number of binders are piled up on top of each other, the back part of one binder can be contacted with the front surface or back surface of the other binder. According to this structure, even when a large number of binders are piled up on top of each other, the individual binders can be piled up in such a manner they respectively can keep their initial shapes, whereby, when the binders are loaded into a cartridge provided in the binding processing machine, the smoothness of the feeding and mounting of the binders can be improved.
Also, a binder disclosed in JP 2004-237579 A is structured such that one or more recessed portions are formed on one of the front and back surfaces of the back part of the binder, and such that one or more projecting portions to be fitted and paired with the recessed portions are formed on the other surface, whereby a plurality of binders can be connected together while they are piled up on top of each other. This structure can facilitate the handling of the piled-up binders.
Further, a plastic-made binder disclosed in JP 2004-237580 A has a scarf joint structure in which, in the end portions of sectioned ring portions to be fitted and paired with each other, there are provided symmetrical steps extending in the radial direction thereof. Further, this binder includes a hook portion on one end thereof, and a catch portion to be fitted and paired with the hook portion on the other end thereof, thereby providing means for fitting its sectioned ring portions with each other. Therefore, this binder requires less power for fitting when compared with the structure of the binder disclosed in JP 2000-289376 A in which the spherical projections are fitted into the holes. Also, according to this binder, the structure of a die for molding it can be further simplified.
To enable the binding processing machine to carry out a binding processing operation, there are necessary means for holding a binder and a pusher or a press mechanism for folding and fitting the ring parts of the binder with each other. The means for holding the binder is almost unable to mount the binder while it holds the ring parts which are folded by the pusher or the like; and, therefore, the binder holding means actually holds the back part of the binder.
However, it is not easy to hold the narrow back part and maintain the binder in a proper orientation until the binding processing is completed. When the binder is rotated about the back part thereof and is thereby inclined from its regular orientation, the ring parts might not be inserted into punched holes formed in papers or the ring parts might not be fitted with each other properly.
One or one or more embodiments of the present invention provide a binder that can be held stably, according to which a mounting failure of the binder due to an inclined orientation of the binder can be resolved.
According to one or one or more embodiments of the invention, a binder includes a back part, and a plurality of ring parts arranged at certain intervals along a longitudinal direction of the back part on respective sides of the back part, each of the ring parts being openable and closable. At least one of the ring parts includes a plane portion formed on an outer peripheral surface at a portion intersecting with the back part. The plane portion is adapted to be received by a plane table provided on a binder holding member of a binding processing machine so as to keep the binder in a regular orientation.
According to one or one or more embodiments of the invention, each of the ring parts may include a center ⅓ ring part coupled to the back part; and ⅓ ring parts hinge-connected to respective ends of the center ⅓ ring part, and the center ⅓ ring parts of at least one of the ring parts may include the plane portion at the portion intersecting with the back part.
According to one or one or more embodiments of the invention, the plane portion may be formed such that a central portion of the outer peripheral surface of the ring part in a right-and-left direction is cut out in a form of a groove along a circumferential direction of the ring part.
According to one or one or more embodiments of the invention, a binder includes a back part, and a plurality of ring parts arranged at certain intervals along a longitudinal direction of the back part on respective sides of the back part, each of the ring parts being openable and closable. The back part includes a step portion on an inner peripheral side thereof, wherein the step portion is engagable with the binder holding member of the binding processing machine so as to keep the binder in the regular orientation.
According to one or one or more embodiments of the invention, the back part may have a T-shaped section.
According to one or one or more embodiments of the invention. A binder is configured such that a plane portion is formed on an outer peripheral surface of at least one ring part at a portion intersecting with a back part of the binder, and such that, when a binder holding member of a binding processing machine holds the binder, the plane portion of the binder contacts with a plane table provided on the binder holding member. Therefore, the binder is held in such a state that the binder cannot incline or rotate. Thus, a binding processing operation can be carried out in the binding processing machine while the binder is held in a regular orientation. Accordingly, a mounting failure due to an inclined orientation of the binder and be resolved.
According to one or one or more embodiments of the invention, also when the back part includes a step portion and the step portion can be held by the binder holding member of the binding processing machine, the inclination of the orientation of the binder can be prevented. Combined use of the ring parts including the plane portions and the back part including the step portion can further prevent the inclined orientation of the binder.
a) is a side view of the binder shown in
b) is a front view of the binder shown in
a) is a back view of the binder shown in
b) is a side view of the binder shown in
a) is a perspective view of a small-diameter binder.
b) is a perspective view of a large-diameter binder.
a
1) is a perspective view of a small-diameter binder with its fitting portion facing upward.
a
2) is a perspective view of a small-diameter binder with its fitting portion facing downward.
b
1) is a perspective view of a large-diameter binder with its fitting portion facing upward.
b
2) is a perspective view of a large-diameter binder with its fitting portion facing downward.
a
1) is a section view of a small-diameter binder just before it is fitted.
a
2) is a section view of a small-diameter binder, showing a state in which it has been fitted.
b
1) is a section view of a large-diameter binder just before it is fitted.
b
2) is a section view of a large-diameter binder, showing a state in which it has been fitted.
a
1) is a side view of a small-diameter binder.
a
2) is a side view of small-diameter binders, showing a state in which they are piled up on top of each other.
b
1) is a side view of a large-diameter binder.
b
2) is a side view of large-diameter binders, showing a state in which they are piled up on top of each other.
a) is a plan view of a fitting mechanism provided on and between the leading ends of ring parts.
b) is a side section view of the fitting mechanism provided on and between the leading ends of the ring parts.
c) is a side view of the fitting mechanism provided on and between the leading ends of the ring parts.
a) is a perspective view of another embodiment of a binder according to the invention.
b) is a perspective view of still another embodiment of a binder according to the invention.
FIG. 15(1) is a front view of the binder pickup unit, showing a state in which it holds a binder.
a
0) is a side section view of a small-diameter binder.
a
1) is a section view taken along the A-A line shown in FIG. 15(1), showing a state in which the binder pickup unit holds a small-diameter binder.
a
2) is a section view taken along the B-B line shown in FIG. 15(1), showing a state in which the binder pickup unit holds a small-diameter binder.
b
0) is a side section view of a large-diameter binder.
b
1) is a section view taken along the A-A line shown in FIG. 15(1), showing a state in which the binder pickup unit holds a large-diameter binder.
b
2) is a section view taken along the B-B line shown in FIG. 15(1), showing a state in which the binder pickup unit holds a large-diameter binder.
b) respectively show a binder 11b. The binder 11b is a plastic injection molded product which includes a back part 12 having a T-shaped section and ring parts 13, 14 and 15 connected to each other at given intervals by the back part 12. The ring part is sectioned into three parts, namely, a center ⅓ ring part 13 connected to the back part 12, and two ⅓ ring parts 14 and 15 respectively connected to the two ends of the center ⅓ part 13 through their respective small-thickness hinge portions.
As shown in
As shown in
In the other center ⅓ ring parts 13 than the above-mentioned three center ring parts 13 in which the pins 19 and pin holes 20 are formed, more specifically, in the portions of such center ⅓ ring parts 13 that intersect with the center line of the back part 12, there are formed rectangular penetration holes 21. These penetration holes 21 allow the center ⅓ ring parts 13 to deflect in the width direction thereof. Therefore, the penetration holes 21 can absorb an increase or a decrease in the distance between the center ⅓ ring parts 13. As a result of this, when, owing to the linear expansion of the binder 11b caused by a variation in its environmental temperature, stresses are applied to the binder 11b in the longitudinal direction thereof, the center ⅓ ring part 13 contracts or expands in the width direction thereof, thereby absorbing the stresses.
a) and 5(b) respectively show a state just before the ⅓ ring parts 14 and 15 of binders are folded and fitted with each other. Here,
a
1) to 6(b2) respectively show a state where the ⅓ ring parts 14 and 15 are fitted with each other (in these figures, the back part 12 is not shown). Specifically,
a
1) and 7(b1) respectively show sections in a state just before fitting, while
As shown in
a) to 10(c) respectively show a fitting mechanism which is provided on the leading end of the ring part. As shown in
The hook portion 17 of the ⅓ ring part 14 is provided at a position which is retracted from its right and left step portions 24. Slits are provided between the hook portion 17 and the respective stepped portions 24, whereby the hook portion 17 is allowed to flex freely.
As regards the catch portion 18 of the other ⅓ ring part 15, the hook portion 17 can be engaged with the vertical wall of the rear end of the catch portion 18. The vertical wall of the catch portion 18 exists at a position retreated farther from the right and left step portions 25, whereas the leading end of the catch portion 18 projects forwardly beyond the step portions 25.
When the pair of mutually opposed ⅓ ring parts 14 and 15 are moved near to each other for fitting, firstly, the leading end of the catch portion 18 of one ⅓ ring part 15 moves into between the right and left step portions 24 of the other ⅓ ring part 14, thereby positioning the two ⅓ ring parts 14 and 15 in the lateral direction thereof. Further, the step portions 24 and 25 of the two ⅓ ring parts 14 and 15 are slidingly contacted with each other, thereby positioning the two ⅓ ring parts 14 and 15 in the vertical direction (radial direction) thereof. When further closing the two ⅓ ring parts 14 and 15, the upward facing pawl of the hook portion 17 is engaged with the vertical wall of the rear end of the catch portion 18, so that the hook portion 17 and catch portion 18 are connected to each other.
In this manner, when closing the two ⅓ ring parts 14 and 15, firstly, the leading end portions of these ring parts are positioned and, after then, the hook portion 17 and catch portion 18 are engaged with each other. This can eliminate a possibility that the two ring parts can be shifted in position from each other which may cause poor engagement between them.
A hole 26 is formed through the rear of the catch portion 18 of the ⅓ ring part 15. The hole 26 penetrates through the ⅓ ring part 15 in the radial direction thereof. Therefore, as shown in
Also, as can be understood from
When the pair of ⅓ ring parts 14 and 15 fitted with each other are pushed and spread, e.g., by a finger, the hook portion 17 is elastically deformed due to stress caused by such spreading, thereby being able to release the pair of ⅓ ring parts 14 and 15 from each other. Therefore, although a hole corresponding to the hole 26 may not be formed as in a binder 31 shown in
b) shows another embodiment of a binder according to the invention, in which a pair of ⅓ ring parts 42, 43 of a binder 41 is symmetrical in shape. The half portions of the leading ends of the two ring parts 42, 43 are respectively formed as upward facing hook portions 44, whereas the other half portions are respectively formed as downward facing hook portions 45. When the paired ⅓ ring parts 42, 43 are closed, the mutually opposed upward facing hook portions 44 and downward facing hook portions 45 are engaged with each other, thereby coupling the pair of ⅓ ring parts 42, 43 together.
The upward facing hook portion 44 and downward facing hook portion 45 may not be always formed in the leading ends of all of the ⅓ ring parts 42, 43, but the hook portions 44 and 45 may also be formed only in the leading ends of the ring parts provided on the longitudinal-direction two ends of the binder as well as the important ring parts provided between the two ends of the binder.
The binder pickup unit 51 includes a table block 52 shown in
FIGS. 15(1) to 15(b2) respectively show the details of the binder pickup unit 51. Specifically, FIG. 15(1) shows a state thereof in which the binder pickup unit 51 grabs or holds the binder 11a or 11b,
As described above, in the two kinds of binders 11a and 11b, since the distances d between the plane portions 22 thereof and the tangents of the outer peripheral surfaces thereof are the same, the position relationships between the plane portions 22 and back parts 12 are also the same. Therefore, as shown in
Since there are formed the plane portions 22 in the binders 11a and 11b and the plane portions 22 can be received by the plane tables 54 of the table block 52, the binders 11a and 11b can be prevented from inclining in orientation, whereby they can be held stably in their regular orientations. Also, because the right and left sides of the plane portions 22 of the binders 11a and 11b are surrounded by the side walls of the center ⅓ ring parts 13, when the plane tables 54 of the table block 52 are fitted with the plane portions 22, the longitudinal-direction positioning of the binders 11a and 11b can be attained. Also, since, as described above, the penetration holes 21 are formed in the respective center ⅓ ring parts 13 to allow the flexing of the ring parts 13 in the width direction thereof, even when the whole lengths of the binders 11a and 11b are extended due to variations in heat, the plane portions 22 of the center ⅓ ring parts 13 are fitted with the plane tables 54 of the table block 52 to thereby correct the deviation of the ring pitch forcibly. Accordingly, the binding processing can be carried out at a regular ring pitch.
Meanwhile, the present invention is not limited to the above-mentioned embodiments but various alterations are also possible without departing from the technological scope of the invention, and it is apparent that such alterations fall within the scope of the invention.
While the present invention has been described heretofore with reference to its specific embodiments, it is obvious to a person skilled in the art that various changes and modifications are also possible without departing from the spirit and scope of the invention.
The present application is based on the Japanese Patent Application (No. 2005-216319) filed on Jul. 26, 2005, a content of which is incorporated herein by reference.
In a binder for use in a binding processing machine which carries out a binding processing operation mechanically, the present invention can prevent the binder from losing regular orientation and thereby can eliminate the poor binding of the binder.
Number | Date | Country | Kind |
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2005-216319 | Jul 2005 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2006/314772 | 7/26/2006 | WO | 00 | 1/25/2008 |