This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2007-340512, filed on Dec. 28, 2007; the entire contents of which are incorporated herein by reference.
1. Technical Field
The present invention relates to a folder binding device, and more particularly, to a flat folder binding device for use in binding sheets of paper having binding holes formed therein with a pair of binding strips or legs.
2. Background Art
In general, a flat folder for binding sheets of paper having binding holes formed therein is such that binding strips or legs fixed to the folder are inserted and passed through the binding holes in sheets of paper, so that the binding legs are fastened by a binding device. In this flat folder, after the flexible binding legs have been passed through binding holes in sheets of paper, the flexible binding legs are inserted further into holes in a binding device main body, and the binding legs which projects from the binding device main body are then fastened and unfastened by moving horizontally sliding members which are attached slidably to the binding device main body.
In the binding device of this type, since the unfastening and fastening operations are implemented by horizontally moving the sliding members while pressing them, a certain magnitude of force is required. In addition, the unfastening and fastening operations have to be carried out repeatedly every time a sheet or sheets of paper are bound, which is found troublesome to the user. Then, as a binding device which can be operated with slight force without moving sliding members while pressing them, there has been proposed a binding device in which binding legs are fastened and unfastened by a rotary member attached to a binding device main body. Japanese Examined Utility Model Publication No. 57-55105 proposes a binding device which comprises a binding device main body which includes insertion holes through which binding legs are inserted and pressing elements which are rotatably supported on the binding device main body. This proposed binding device is such that the pressing elements open and close binding leg insertion holes to unfasten and fasten the binding legs. In addition, Japanese Unexamined Patent Publication No. 2003-11565 proposes a binding device which comprises a binding device main body having a bearing part and pressing elements having shafts at distal ends of two arms, wherein the pressing elements are mounted rotatably in the bearing part. In this proposed binding device, an inner surface of the bearing part is made into an inclined surface, and the shafts of the pressing elements are also made into inclined surfaces, whereby a supporting construction is provided in which when the arms of the pressing elements return outwards by virtue of elastic force in such a state that the inclined surfaces of the shafts are in surface contact with the inner surface of the bearing part, the pressing elements return to an unfastened angular position by being guided by the inclined surfaces.
In the mechanisms of the binding devices that have been described above, although the binding legs can easily be fastened by pressing the pressing elements, a locking mechanism has to be provided for locking the pressing element on to the binding device main body so as to keep the binding leg fastened. As such a locking mechanism, a mechanism can be provided in which a locking part and a lock receiving part are formed on a binding device main body and a pressing element, respectively, and by the locking part and the lock receiving part being locked together, the pressing element is locked on to the binding device main body. However, there is caused a problem that a relatively strong operation force is necessary to release the locking mechanism. In addition, there is also caused a problem that the operation is relatively troublesome.
The present invention has been made in view of these situations, and an object thereof is to provide a folder binding device which is easy to operate both in fastening and unfastening binding legs and which can fasten the binding legs in a stable fashion.
According to an aspect of the invention, there is provide a folder binding device comprising a binding device main body part in which insertion holes are formed into which binding legs are inserted, operating parts which are attached to the binding device main body part in such a manner as to rotate on rotating projections at end portions thereof as fulcrums, and sliding parts adapted to slide on the binding device main body part, wherein the sliding parts are connected to the operating parts via hinge parts in such a manner as to be activated by rotary operations of the operating parts to slide on the binding device main body part.
In addition, in the folder binding device of the invention, the hinge part is made up of a main hinge portion which connects the operating part with the sliding part and an auxiliary hinge portion which is provided between the main hinge portion and the operating part, and the auxiliary hinge portion is made to be extended and contracted when the operating part is being rotated.
Furthermore, in the folder binding device of the invention, holding portions are preferably formed on side frame portions of the operating part in such a manner as to project further outwards than the binding device main body part.
In addition, in the folder binding device of the invention, an intermediate projecting portion is preferably provided to prevent the fall of the rotating projections on the operating part from the binding device main body part.
In the folder binding device according to the aspect of the invention that is configured as has been described heretofore, by pushing down or up a distal end portion of the operating part, the sliding part can be caused to slide on the binding device main body part, so as to fasten or unfasten the binding leg which is inserted into the insertion hole in the binding device main body part. In addition, since the operating part is assisted in operation by making use of the extension and contraction of the hinge part, a quick and light operation of the operating part can be attained.
Furthermore, in the folder binding device according to the aspect of the invention, since the holding portions are formed on the side frame portions of the operating part in such a manner as to project further outwards than the binding device main body part, by holding or pinching the holding portions with tips of the fingers or pushing up the holding portions from below, the operating part which falls substantially parallel to the biding device main body part so as to fasten the binding leg can easily be erected so as to release the fastening of the binding leg.
In addition, in the folder binding device according to the aspect of the invention, since the intermediate projecting portion is provided to prevent the fall of the rotating projection of the operating part from the binding device main body part, the fall of the rotating projection from the binding device main body part due to rotary operation of the operating part can be prevented.
A folder binding device according to an aspect of the invention is made up of a binding device main body part having formed therein insertion holes into which binding strips or legs are inserted and holding grooves for receiving therein the binding legs, operating parts attached to the binding device main body part in such a manner as to rotate on rotating projections at end portions as fulcrums, and sliding parts which are adapted to slide on the binding device main body part, wherein the sliding parts are connected to the operating parts via hinge parts.
In addition, with the rotating projection at the end portion of the operating part acting as a rotating fulcrum, a position lying in the vicinity of the connecting portion between the operating part and the hinge part acting as a point of action, and a movable distal end portion of the operating part acting as a point of application of force, the binding device main body part, the operating parts and the sliding parts are disposed in a positional relationship which realize the rotating fulcrum, the point of action and the point of application of force.
Hereinafter, embodiments of folder binding devices of the invention will be described in detail based on the accompanying drawings. Note that the invention is not limited to embodiments which will be described below at all.
A folder binding device 1 according to an embodiment of the invention is made from a synthetic resin and is, as is shown in
In addition, as is shown in
Holding grooves 22 are formed on an upper surface portion 2a of the binding device main body part 2 in such a manner as to extend from the positions where the insertion holes 21 are opened to the vicinity of a central portion of the binding device main body part 2. A plurality of locking raised portions 23 are provided in parallel along the longitudinal direction on an upper surface of the holding groove 22 in the vicinity of the insertion hole 21, and these locking raised portions 23 are made to be brought into engagement with recessed portions formed on the binding leg. In addition, as is shown in
In addition, provided on the binding device main body part 2 are the operating parts 3, the sliding parts 4 and the hinge parts which are each made up of the main hinge portion 5 and an auxiliary hinge portion 54. Additionally, the pair of operating parts 3, the pair of sliding parts 4 and the pair of hinge parts are disposed symmetrically with each other across a substantially central portion of the binding device main body part 2 as a center of the symmetry as is shown in
As is shown in
In the space portion 31 in the operating part 3, a transverse opening width is formed slightly larger than widths of the sliding part 4, which will be described later, and the main hinge portion 5, while a longitudinal opening length is formed longer than a total of lengths of the sliding part 4 and the main hinge portion 5. Consequently, as is shown in
In addition, holding portions 32 are formed, respectively, on side frame portions of the operating part 3 at a distal end portion thereof. The holding portions 32 are small pieces which project further outwards than the binding device main body part 2, so as to be made easy to be held or pinched by tips of the fingers. Note that a reinforcement member can be formed on an upper surface of a distal end frame portion which lies at the distal end portion of the operating part 3 or on a rear surface of the side frame portion thereof.
As is shown in
The sliding base plate 41 is a substantially rectangular thin plate which is elongated in the longitudinal direction of the binding device main body part 2, and a front edge portion which lies on a side facing the center of the binding device main body part 2 is cut out slightly wider than the width of a binding strip or leg 8 so as to form a binding leg guiding portion 44. The main hinge portion 5, which will be described later, is connected to an upper surface of a rear edge portion of the sliding base plate 41 in such a manner as to be valley-foldable.
The front sliding locking portion 45 is provided in a position which is spaced a predetermined interval apart from a front end of the side plate 42, while the rear sliding locking portion 46 is provided at a rear end of the side plate 42. When the sliding part 4 slides towards the center of the binding device main body part 2, the front sliding locking portions 45 come into abutment with the vertical walls 27, whereby the sliding of the sliding part 4 is locked. As this occurs, as is shown in
The hinge part is made up of the main hinge portion 5 and the auxiliary hinge portion 54 and connects the operating part with the sliding part 4. The main hinge portion 5 is a thin member whose proximal end portion is bifurcated and is hence formed into a substantially Y-shape as viewed from the top. The main hinge portion 5 is bifurcated from a trunk portion 53 of a base portion 51 to thereby form a branch portion 52. This main hinge portion 5 is connected to the sliding base plate 41 at a distal end portion of the base portion 51 in such a manner as to be valley-foldable. In addition, as is shown in
In addition, the auxiliary hinge portion 54 is a thin member which is connected to the trunk portion 53 of the main hinge portion 5 and the auxiliary hinge portion connecting portion 31b of the operating part 3. In addition, the auxiliary hinge portion 54 is, as is shown in
The operating part 3, the sliding part 4 and the hinge part are connected to each other through the configurations described above. The operating part 3 is rotatably supported on the binding device main body part 2 at the proximal end portion thereof, while the sliding part 4 is provided slidably on the binding device main body part 2. In addition, since the intermediate projecting portion 34 is provided at the proximal end portion of the operating part 3 and the rotational base portions 33, the projecting portions 25a and the intermediate projecting portion 34 are disposed without any gap provided therebetween, the rotating projections of the rotational base portions 33 are brought into engagement with the rotating projection receiving recessed portions of the projecting portions 25a in an ensured fashion, whereby the operating part can be made to rotate without falling from the binding device main body part 2.
In addition, in this embodiment, the operating part 3 and the sliding part 4, and the main hinge portion 5 and the auxiliary hinge portion 54 are formed integrally, respectively. The connecting strength of the respective members is maintained by connecting them integrally.
In addition, in the folder binding device 1 of this embodiment, when the operating part 3 is caused to fall to become substantially parallel to the binding device main body part 2, the front sliding locking portions 45 of the sliding part 4 are brought into abutment with the vertical walls 27. In addition, in the folder binding device 1, when the operating part 3 is erected, the rear sliding locking portions 46 of the sliding part 4 are brought into abutment with the vertical walls 27, whereby an outward rotation of the operating part 3 is disabled, and the operating part 3 is left standing substantially vertical relative to the binding device main body part 2. Consequently, the operating part 3 rotates at an angle of about 90 degrees relative to the binding device main body part 2 in such a manner as to rotate from a closed state in which the operating part is caused to fall on the binding device main part 2 to an open state in which the operating part 3 is erected substantially vertically relative to the binding device main body part 2. In addition, in conjunction with the rotating operation of the operating part 3, the sliding part 4 reciprocates horizontally the binding device main body part 2 in such a manner as to open and close the insertion hole 21 formed in the binding device main body part 21.
Namely, as is shown in
Both in the closed state in which the operating part 3 becomes substantially parallel to the binding device main body part 2 and the open state in which the operating part 3 is erected substantially vertical relative to the binding device main body part 2, the auxiliary hinge portion 54 is in a stable state in which an interval between a mountain-fold portion where the first hinge piece 54a continues to the second hinge piece 54b (hereinafter, also referred, from time to time, to as a mountain-fold portion at the proximal end portion) and a mountain-fold portion where the third hinge piece 54c continues to the fourth hinge piece 54d (hereinafter, also referred, from time to tome, to as a mountain-fold portion at the front end portion) becomes shortest. When the operating part 3 is operated to rotate from the closed state to the open state or from the open state to the closed state, the interval between the mountain-fold portions of the auxiliary hinge portion 54 is extended, and in the event that the interval between the fold portions in question exceeds a maximum length position, since the auxiliary hinge portion 54 attempts to return to the stable state, the operation of the operating part 3 is assisted by the auxiliary hinge portion 54.
In the folder binding device 1 of the embodiment, as is shown in
Next, the operation of the folder binding device 1 of the embodiment will be described. As is shown in
When pushing downwards the distal end portion (the point of application of force C) of the operating part 3 in such a state that a distal end of the binding leg 8 projects from the insertion hole 21 in the binding device main body part 2, as is shown in
When the operating part 3 continues to be pushed downwards, the sliding part 4 slides while holding the binding leg 8 in the hollow portion 43, and the binding leg 8 is caused to fall in the holding groove 22 with recessed portions 81 formed thereon brought into engagement with the locking raised portions 23 formed on the upper surface of the holding groove 22. When the auxiliary hinge portion 54 is extended to its maximum length, a force attempting to return to the stable state is exerted, and the interval between the mountain-fold portion at the proximal end portion and the mountain-fold portion at the front end portion is contracted, whereby the operating part 3 can be pushed downwards without any resistance. Furthermore, when the operating part 3 is pushed downwards until the distal end of the operating part 3 comes into contact with the binding device main body part 2, the operating part 3 becomes substantially parallel to the binding device main body part 2. As this occurs, as is shown in
In addition, in this completely closed state, the front sliding locking portions 45 of the sliding art 4 come into abutment with the vertical walls 27 of the binding device main body part 2, and the main hinge portion 5 is put in a state in which the main hinge portion 5 is extended to its maximum length between the sliding part 4 and the rotating projections, whereby the operating part 3 is maintained in the state in which the operating part 3 is substantially parallel to the binding device main body part 2 in a stable fashion. Namely, as is shown in
Then, when the operating part 3 is pushed downwards further at the distal end portion thereof, the main hinge portion connecting portion 31c is compressed by the main hinge portion 5 and the proximal end portion of the operating part 3 to thereby be caused to move downwards, and as is shown in
In addition, in the completely closed state in which the binding leg 8 is fastened, as has been described before, the front sliding locking portions 45 are brought into press contact with the vertical walls 27 to thereby put the main hinge portion 5 in the compressed state, whereby the operating part 3 can be maintained in the fallen state, and the binding leg 8 can be kept in the fastened state.
When releasing the fastening of the binding leg 8, an opposite series of operations to the series of operations described above is performed. The operating part 3 which has fallen substantially parallel to the binding device main body part 2 as is shown in
As is shown in
The binding device main body part 2 of the folder binding device 1 is fixed to the binding flap 74 of the front cover 71 from a side facing the front cover 71 by fastening the former to the latter with fastening elements put through the attaching holes 26 in such a manner that the through holes 21 in the binding device main body part 2 coincide with binding leg insertion openings 74a in the binding flap 74. Then, on the folder 7, the binding legs 8 are fixed to the binding flap 75 of the rear cover 72 and are inserted into the binding leg insertion openings 74a in the binding flap 74 of the front cover 71 from the open side with distal ends of the binding legs 8 made to project from the binding device main body part 2 of the folder binding device 1, whereby the binding legs 8 are fastened by rotating the operating parts 3 of the folder binding device 1.
In addition, another embodiment of a folder binding device is shown in
Holding grooves 22 for receiving the binding legs are formed on an upper surface portion of the binding device main body part 2 in such a manner as to extend from both the insertion holes towards the respective end portions of the binding device main body part 2, and locking raised portions are provided in parallel in the longitudinal direction on upper surfaces of the holding grooves 22 in positions lying in the vicinity of the insertion holes in such a manner as to be brought into engagement with recessed portions formed on the respective binding legs. A linear guide portion and vertical walls are formed on the side portion in which an opening edge of the insertion hole is provided. The guide portion and the vertical walls are defined by a recessed portion which is formed by cutting the side portion from a lower end portion to the vicinity of an upper end portion in such a manner as to extend from the position where the opening edge of the insertion hole exists in opposite longitudinal directions towards a center and the end portion of the binding device main body part 2, respectively, to predetermined lengths. In addition, the linear guide portion is formed in such a manner as to extend linearly along the upper surface portion. Similarly, vertical walls and a linear guide portion are formed on the other side portion by cutting a substantially confronting position from a lower end portion to the vicinity of an upper end portion.
The operating part 3 is pivotally provided on the binding device main body part 2 by bringing the rotating projections on the rotational base portion 33 formed at the proximal end portion of the operating part 3 into engagement with the rotating projection receiving recessed portions formed the projecting portions 25a of the attaching support part and in such a manner that a sliding part 4 connected to the operating part 3 is provided in such a way as to hold the linear guide portions. This folder binding device 101 is configured in such a manner that the operating parts 3 individually rotate outwards, and the sliding parts 4 are individually made to shift from the center towards the respective end portions of the binding device main body part 2 so as to close the through holes.
The folder binding device 101 of this embodiment is, as is shown in
Note that in the embodiment, while the through holes 21 in the binding device main body part 2 are described as being formed as the holes which are opened in the side portion 2b of the binding device main body part 2, the through holes 21 may be formed in the binding device main body part 2 as through holes surrounded on their peripheries.
In addition, a plurality of auxiliary hinge portions 54 can be provided. For example, the branch portion 52 of the main hinge portion 5 is formed narrower than the base portion 51 and is provided substantially in the center of the trunk portion 53, so that auxiliary hinge portions 54 may be provided on both sides of the branch portion 52.
Furthermore, in the event that the binding device main body part 2 is configured in such a manner that a locking piece is provided on the side portion 2b in which the through holes 21 are formed in such a manner as to be mountain-foldable relative to the binding device main body part 2 so that the binding device main body part 2 and the locking piece lock each other in such a state that the binding flap 74 of the front cover 71 is held by the binding device main body part 2 and the locking piece therebetween, the binding device main body part 2 can be made detachable from the folder, whereby the reuse and fractionating disposal of the binding device main body 2 can be enabled.
Number | Date | Country | Kind |
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2007-340512 | Dec 2007 | JP | national |
Number | Name | Date | Kind |
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6899504 | Kiyomi | May 2005 | B2 |
Number | Date | Country | |
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20090169289 A1 | Jul 2009 | US |