WO2009133597A1 - 連結具 - Google Patents
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- Publication number
- WO2009133597A1 WO2009133597A1 PCT/JP2008/058183 JP2008058183W WO2009133597A1 WO 2009133597 A1 WO2009133597 A1 WO 2009133597A1 JP 2008058183 W JP2008058183 W JP 2008058183W WO 2009133597 A1 WO2009133597 A1 WO 2009133597A1
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- WO
- WIPO (PCT)
- Prior art keywords
- attachments
- attachment
- connector
- main body
- clamping plate
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B11/00—Buckles; Similar fasteners for interconnecting straps or the like, e.g. for safety belts
- A44B11/006—Attachment of buckle to strap
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B11/00—Buckles; Similar fasteners for interconnecting straps or the like, e.g. for safety belts
- A44B11/25—Buckles; Similar fasteners for interconnecting straps or the like, e.g. for safety belts with two or more separable parts
Definitions
- the present invention relates to a connector.
- the present invention relates to a connector used for attaching or detaching a belt or string in bags.
- a connecting tool such as a buckle is used as a metal fitting for easily attaching and detaching a belt and a string.
- a connecting tool such as a buckle
- a connector having a different size is prepared for each belt size (width dimension), but the number of types increases and the economic burden is large.
- a buckle that can be applied to belts having different sizes (width dimensions) has been proposed (see Patent Document 1).
- This buckle has a male member and a female member.
- the male member is composed of a male member main body having a pair of engaging leg pieces and a plurality of belt attaching members which are detachably attached to the male member main body and have different width dimensions of the belt attaching portion.
- the female member includes a female member main body in which a pair of engaging leg pieces of the male member are detachably engaged, and a plurality of belt mounting members that are detachably attached to the female member main body and have different belt mounting width dimensions. It is composed of It can be applied to belts having different width dimensions by exchanging the belt mounting members with different width dimensions for the male member body and the female member body.
- the male member is divided into a male member main body and a belt mounting member
- the female member is divided into a female member main body and a belt mounting member so that it can be applied to belts having different sizes (width dimensions).
- the engagement member is formed on the belt mounting member
- the engaged member is formed on the male member main body or the female member main body.
- a male member and a female member to which different belts are attached cannot be used as they are.
- the engaging claw protrudes from the tip of the belt mounting portion. There may be a problem.
- An object of the present invention is to solve such a problem and to provide a connector that can connect connectors of different sizes in a replaceable manner without changing an existing connector.
- the connector of the present invention is a connector that removably connects connectors of different sizes, and is prepared corresponding to the connector main body and the connectors of different sizes.
- a plurality of attachments that can be held, and locking means that selectively detachably locks these attachments to a predetermined position of the connector main body, and the attachment is locked to a predetermined position of the connector main body.
- the connector is held and held in a predetermined posture.
- the connection body having different sizes include a ring-shaped connection ring attached to the front end of the belt having different width dimensions, and a string having different thicknesses, but are not limited thereto. .
- the selected attachment after selecting an attachment corresponding to a linking body of a size to be connected from among a plurality of attachments, the selected attachment is locked at a predetermined position of the connector main body by the locking means, The attachment is held by this attachment.
- the connecting body is detachably held on the selected attachment, the attachment is locked at a predetermined position of the connector main body by the locking means. Then, the connection body is held by the attachment and is held in a predetermined posture.
- connection bodies having different sizes can be detachably connected by simply replacing the attachments. That is, since it is only necessary to prepare a plurality of attachments that can be detachably held corresponding to differently connected bodies, it is possible to connect differently connected bodies without changing the existing connected bodies.
- the connection body can be detachably held using the outer periphery of the attachment.
- the connecting body is a string with different thickness
- the attachment is formed in a disc shape and a groove into which the string with different thickness is fitted is formed on the outer peripheral surface, the connecting body can be attached and detached using the outer periphery of the attachment. It can be held as possible.
- the existing coupling body can be used without being changed, the engagement claw does not protrude from the tip of the belt mounting member as in the buckle mentioned in the prior art, and there is no problem in handling.
- the locking means is provided on a locking protrusion provided on one of the connector main body and the attachment, and on the other of the connector main body and the attachment. It is preferable to include a locking hole that engages with the locking projection. According to this configuration, in order to lock the selected attachment at the predetermined position of the connector main body, it is only necessary to engage the locking hole with the locking protrusion, so that the attachment can be easily placed at the predetermined position of the connector main body. Can be locked.
- the attachment has the locking hole inside, and a posture holding portion that holds the connector in a predetermined posture on an outer peripheral portion.
- the attachment since the attachment has a locking hole inside and includes a posture holding portion that holds the coupling body in a predetermined posture on the outer peripheral portion, if the locking hole is inserted into the locking projection, The attachment can be locked at a predetermined position of the connector main body, and the connecting body can be held in a predetermined posture by the posture holding portion of the outer peripheral portion. Accordingly, the function of locking the attachment to the connector main body and the function of holding the connection body to the attachment can be realized with a relatively simple configuration.
- the connector according to the present invention is configured such that the connector body includes a first sandwiching plate and a second sandwiching plate provided so as to be undulated with respect to the first sandwiching plate, the first sandwiching plate, Either one of the mutually opposing surfaces of the second clamping plate is provided with a projecting engagement portion that also serves as the locking projection, and any of the mutually opposing surfaces of the first clamping plate and the second clamping plate It is preferable that an engaged portion that engages with the engaging portion is provided on the other side.
- the engagement hole of the attachment is fitted to the protrusion-shaped engagement portion that also serves as the engagement protrusion, and the connection body is held by the attachment, and then the second clamping plate is attached to the first clamping plate.
- the engaging portion is engaged with the engaged portion, and the first holding plate and the second holding plate are engaged.
- the coupling body is held by the attachment and is sandwiched between the first sandwiching plate and the second sandwiching plate, the movement between them is restricted. Accordingly, it is possible to prevent the connecting body from rattling or rotating.
- connection body is formed in a ring shape
- the attachment is formed in a shape that fits into an inner peripheral surface of the ring of the connection body.
- the ring shape may be not only a circular shape and a rectangular shape, but also a triangular shape or a polygonal shape having a pentagon or more.
- shape is not necessarily limited to the shape in which the entire circumference is closed, and may be a shape in which a part is opened. According to this configuration, since the connecting body is formed in a ring shape and the attachment is formed in a shape that fits to the inner peripheral surface of the ring of the connecting body, the connecting body is simply fitted into the attachment. It can be held by the attachment.
- the perspective view which shows the coupling tool of 1st Embodiment of this invention The side view which notched some in the said embodiment.
- FIG. 7 is a sectional view taken along line VII-VII in FIG. 5. In sectional drawing of FIG. 7, sectional drawing of the state which isolate
- the disassembled perspective view which shows the coupling tool of 2nd Embodiment of this invention In the said embodiment, the side view of the state which turned down the 2nd clamping board. The figure which shows the coupling body and attachment from which size differs in the said embodiment.
- the disassembled perspective view which shows the 1st modification of this invention Sectional drawing of the said 1st modification.
- the perspective view which shows the 2nd modification of this invention The perspective view which shows the 3rd modification of this invention.
- the connector 1 of the present embodiment is a connector that removably connects connectors 70 having different sizes, and is prepared corresponding to the connector main body 100 and the connectors 70 having different sizes.
- a plurality of attachments 80 that detachably hold the coupling body 70 and a locking means 90 that selectively detachably locks the attachments 80 at predetermined positions of the connector main body 100 are provided.
- connection body 70 (Connected body: see Fig. 3)
- the connecting body 70 is called a flat can attached to the tip of the belt 6, and has three types having different width dimensions corresponding to the width dimension of the belt 6, here, three types of large, medium and small.
- Connection bodies 70A, 70B, and 70C are prepared. These connecting bodies 70A, 70B, and 70C include a rectangular ring having a rectangular hooking hole 73 inside from a pair of horizontal rods 71 parallel to each other and a connecting rod 72 that connects both ends of the pair of horizontal rods 71. It is formed in a shape.
- these connection bodies 70A, 70B, and 70C are formed with a synthetic resin, a metal, etc., for example.
- the connector main body 100 connects the pair of holders A and B to the pair of holders A and B, and supports the holders A and B so that the holders A and B can rotate about the connection direction axis L.
- the connecting shaft material C is provided.
- the holders A and B are configured so that the first sandwiching plate 10, the second sandwiching plate 20 supported so as to be raised and lowered with respect to the first sandwiching plate 10, and the first sandwiching plate 10 and the second sandwiching plate 20 are opposed to each other.
- the projection-type engaging portion 30 provided on the first clamping plate 10 and the other of the opposing surfaces of the first clamping plate 10 and the second clamping plate 20 in the present embodiment is comprised including the to-be-engaged part 40 which is provided in the 2nd clamping board 20 and the engaging part 30 engages.
- the 1st clamping board 10 and the engaging part 30 are integrally molded by die-casting metal, such as a zinc alloy.
- the second clamping plate 20 is also integrally formed by die casting of metal, for example, zinc alloy.
- the engaged portion 40 is formed by injection molding of a synthetic resin, for example, polyacetal.
- the first clamping plate 10 has a substantially square plate shape when seen from the plane, and both corners of the tip edge opposite to the connection side are formed in an arc shape, and from the base edge located on the connection side to both side edges sandwiching this
- a U-shaped rising wall 11 is straddled.
- a bearing wall 12 is erected in the middle of the upright wall 11, and a connecting shaft insertion hole 13 through which the connecting shaft material C is inserted and a second holding plate 20 are first held in the bearing wall 12.
- a support shaft insertion hole 15 for inserting a support shaft 14 that supports the plate 10 so as to be raised and lowered is formed orthogonally.
- a connecting shaft insertion hole 13 that penetrates in the thickness direction of the bearing wall 12 is formed in the lower part of the bearing wall 12, and a support shaft insertion hole 15 that penetrates the bearing wall 12 in the width direction is formed in the upper part of the bearing wall 12.
- the support shaft 14 is configured by a split pin obtained by winding a metal plate in a cylindrical shape, but is not limited thereto.
- a protrusion 16 having a rectangular cross section is erected at the center in the width direction on the front end portion side of the first clamping plate 10, and a rectangular groove-like engagement recess 17 is provided on both sides of the protrusion 16. Is formed.
- the engaging portion 30 includes a neck portion 31 that is formed at the tip of the protrusion 16 and has a width-direction dimension that is narrower than the base portion of the protrusion 16, and a head portion 32 that is formed at the tip of the neck portion 31 and that has a width-direction dimension larger than that of the neck portion 31. And have.
- the head 32 is formed in a twisted shape that curves downward in an arc as it goes from the center to both ends in the width direction. In other words, the engaging portion 30 has a head 32 having a large dimension in the direction perpendicular to the axis of the protrusion 16 at the tip of the protrusion 16.
- the second sandwiching plate 20 is a square plate having a plane shape substantially the same as the contour shape of the first sandwiching plate 10, and is formed in a shape having a recess 21 into which the bearing wall 12 is fitted at the base edge located on the connection side. ing. Support shaft insertion holes 22 through which the support shaft 14 is inserted are formed on both side portions sandwiching the recess 21. Accordingly, the recess 21 of the second clamping plate 20 is positioned on the bearing wall 12 of the first clamping plate 10, and the spindle 14 is inserted into the spindle insertion holes 22, 15 formed in the second clamping plate 20 and the bearing wall 12.
- the 2nd clamping board 20 is supported by the 1st clamping board 10 so that raising / lowering is possible about the spindle 14 substantially orthogonal to the connection direction axis line L as a fulcrum. That is, the second clamping plate 20 can rise and fall in a first position that is parallel to and faces the first clamping plate 10 and a second position that stands substantially perpendicular to the plane of the first clamping plate 10. It is supported by. On the distal end side of the second clamping plate 20, an accommodating portion 23 that is open on both side surfaces of the second clamping plate 20 and has an engaged portion 40 inside is formed, and is opposed to the first clamping plate 10.
- An insertion hole 26 communicating with the housing portion 23 is formed on the inner surface, and an engagement recess 24 is formed on both sides of the insertion hole 26.
- the opening of the housing part 23 (opening opened on both side surfaces of the second sandwiching plate 20) is formed in the same direction as the support shaft insertion hole 22.
- An engaging groove 25 is formed at an internal intermediate position of the accommodating portion 23.
- the protrusion 16 of the first clamping plate 10 is inserted, and an abutting surface 27 that abuts on the head 32 of the engaging portion 30 is provided on the inner bottom surface of the insertion hole 26. That is, the contact surface 27 that contacts the head portion 32 of the engaging portion 30 is provided on the second sandwiching plate 20 in a state where the second sandwiching plate 20 is lying down with respect to the first sandwiching plate 10.
- the head 32 of the engaging part 30 is restricted from moving up and down between the contact surface 27 and a clamping part 45 described later. That is, when the head 32 tries to move upward, the head 32 comes into contact with the contact surface 27 and is restricted. When the head 32 moves downward, the head 32 comes into contact with the holding portion 45 and is restricted.
- the engagement recess 24 is provided to face the engagement recess 17 of the first sandwiching plate 10.
- the engaged portion 40 has a pair of slide members 41 ⁇ / b> A and 41 ⁇ / b> B that are inserted from both side surface openings (openings of the accommodating portion 23) of the second sandwiching plate 20 and are slidably provided in the accommodating portion 23.
- the pair of slide members 41A and 41B are formed in the same shape, and one is turned upside down with respect to the other, and is used in a superposed state.
- Each of the slide members 41A and 41B is formed by bending a rectangular plate-like slide piece 42 and a side surface along the longitudinal direction of the slide piece 42 in a direction opposite to the insertion direction of the slide piece 42.
- a stopper piece 47 engaged with the engaging groove 25 and an elastic leg piece 48 formed extending from one end in the longitudinal direction of the slide piece 42 are provided.
- the slide piece 42 has a rectangular opening 43 formed therein, and has a wall thickness on the back side in the insertion direction rear end opposite to the insertion direction front end (direction end in which the elastic leg piece 48 extends).
- a thicker step 44 is formed.
- a sandwiching portion 45 that sandwiches the engaging portion 30 of the first sandwiching plate 10 is formed at the leading end edge in the insertion direction.
- An operation portion 46 is formed at the rear end portion in the insertion direction of the stepped portion 44 so as to protrude from the housing portion 23 of the second holding plate 20 to the outside in a state where the slide pieces 42 are biased in a direction away from each other.
- the stopper piece 47 is formed by bending in a direction opposite to the insertion direction of the slide piece 42 from a substantially central position on the side surface along the longitudinal direction of the slide piece 42.
- the stopper piece 47 is inserted in a state of being elastically deformed inward, and when it is inserted to a predetermined position, the stopper piece 47 is elastically returned to the outside and enters the engagement groove 25. Engaged. That is, since the stopper piece 47 engages with the engaging groove 25, the slide piece 42 is prevented from falling off from the accommodating portion 23.
- the elastic leg piece 48 extends from the one end in the insertion direction of the slide piece 42 toward the outer side in the width direction, and further extends toward the other side in the width direction of the slide piece 42, and then has a cylindrical contact at the tip. 49.
- the contact 49 at the tip is brought into contact with the stepped portion 44 of the counterpart slide piece 42. Accordingly, the pair of slide members 41A and 41B are urged away from each other by the elastic force of the elastic leg pieces 48, and the operation portion 46 of the slide members 41A and 41B protrudes from the housing portion 23 to the outside.
- the connecting shaft material C is a shaft material having a thickness that is rotatably inserted into the connecting shaft insertion hole 13 of the bearing wall 12.
- the connecting shaft material C has a flange 51 at the center and stop ring locking grooves 52 at both ends. Therefore, after inserting the connecting shaft insertion hole 13 formed in the bearing wall 12 of each holder A and B into both end portions of the connecting shaft material C, the stop ring of the connecting shaft material C protruding from each connecting shaft insertion hole 13 is used.
- the stop ring 53 is engaged with the locking groove 52, the pair of holders A and B are rotatably connected by the connecting shaft member C.
- the attachment 80 holds the connecting body 70 (70A, 70B, 70C) and holds it in a predetermined posture in a state where it is locked at a predetermined position of the connector main body 100.
- 70B, 70C that is, three types of attachments 80A, 80B, 80C are prepared, that is, large, medium, and small.
- These attachments 80 (80A, 80B, 80C) are formed in a shape that fits into the ring inner peripheral surface of the coupling body 70 (70A, 70B, 70C).
- the width dimension is slightly smaller than the ring inner width dimension of the corresponding connecting body 70A, 70B, 70C, and the direction (longitudinal dimension) orthogonal thereto is the longitudinal direction in the ring of the connecting body 70A, 70B, 70C. It is formed in a rectangular parallelepiped shape having a size of about 1/2 of the size. Further, a locking hole 81 that engages with the protrusion 16 is formed at a substantially central position in the longitudinal direction of the rectangular parallelepiped shape, and the first clamping plate 10 and the second clamping plate are formed on both front and back surfaces sandwiching this. Engagement protrusions 82 that engage with the 20 engagement recesses 17 and 24 are formed.
- the attachments 80A, 80B, 80C are connected to the outer periphery of the connecting body 70 in a state where the inner locking holes 81 and the engaging protrusions 82 are engaged with the protrusions 16 and the engaging recesses 17 and 24 of the connector main body 100.
- the width direction both end surfaces and the longitudinal direction both end surfaces of the attachments 80A, 80B, 80C are the inner surface and the side of the connecting rod 72 of the connecting body 70 (70A, 70B, 70C).
- the connecting body 70 is held in a predetermined posture. That is, the attachments 80A, 80B, and 80C include the posture holding portion 83 that holds the connection body 70 in a predetermined posture on the outer peripheral portion formed by the width direction both end surfaces and the longitudinal direction both end surfaces.
- the locking means 90 includes an engaging portion 30 and engaging recesses 17 and 24 that also serve as locking protrusions provided on the connector main body 100, and a locking hole 81 and an engaging protrusion 82 provided on the attachment 80. Has been.
- the width dimension of the connecting body 70A is selected from the attachment 80.
- the attachment 80A corresponding to is selected, and the attachment 80A is locked to the connector main body 100.
- the second clamping plate 20 is raised with respect to the first clamping plate 10, and in this state, the locking hole 81 of the selected attachment 80 (80 ⁇ / b> A) is set to the first clamping plate.
- the engaging protrusions 82 are engaged with the engaging recesses 17 of the first holding plate 10.
- the second sandwiching plate 20 is rotated with the support shaft 14 as a fulcrum and is bent with respect to the first sandwiching plate 10. State. Then, the engagement protrusion 82 of the attachment 80 ⁇ / b> A is engaged with the engagement recess 24 of the second clamping plate 20. At the same time, as shown in FIGS. 7 and 8, the second clamping plate 20 is positioned directly above the protrusion 16 of the first clamping plate 10, and the engaged portion 40 of the second clamping plate 20 is also in the first clamping state. It contacts the head 32 of the protrusion 16 of the plate 10.
- the sandwiching portions 45 of the pair of slide members 41A and 41B constituting the engaged portion 40 of the second sandwiching plate 20 abut on the head 32 of the protrusion 16, and the slide members 41A and 41B are caused to move by the head 32.
- the elastic leg piece 48 is slid in the direction to be inserted into the accommodating portion 23 (state of FIG. 6).
- the interval between the holding portions 45 of the slide members 41 ⁇ / b> A and 41 ⁇ / b> B increases, so that the head portion 32 of the protrusion 16 is inserted into the accommodating portion 23 of the second holding plate 20 beyond these holding portions 45.
- the slide members 41A and 41B are slid to their original positions by the restoring force of the elastic leg pieces 48 that have been elastically deformed (state of FIG. 5).
- the connecting body 70A at the tip of the belt 6 is attached to the attachment.
- 80 (80A) is held by the posture holding portion 83 formed on the outer periphery, and is sandwiched between the first sandwiching plate 10 and the second sandwiching plate 20, so that the movement between them is restricted.
- the connecting body 70A tries to move in the width direction of the attachment 80 (80A)
- the inner surface of the connecting rod 72 of the connecting body 70A comes into contact with both end faces in the width direction of the attachment 80 (80A).
- connection body 70A When the attachment 80 (80A) is moved in the longitudinal direction (direction orthogonal to the width direction), the inner surface of the horizontal bar 71 of the connection body 70A comes into contact with both end surfaces in the longitudinal direction of the attachment 80 (80A). Shaking is prevented. Further, even if the connecting body 70A tries to rotate about the same direction as the axis of the connecting shaft C, the connecting body 70A comes into contact with the first holding plate 10 and the second holding plate 20, so that the first holding plate The movement between 10 and the second clamping plate 20 is restricted.
- the connecting body 70A from rattling or rotating in a state where the connecting body 70A is connected to the connector 1.
- the pair of holders A and B connected via the connecting shaft member C can rotate around the axis of the connecting shaft member C, the orientation of the connecting body 70 and the belt 6 depends on the use state. Can be connected in an optimal orientation (posture).
- the operation portions 46 of the slide members 41A and 41B are pressed to move the slide members 41A and 41B to the storage portion 23.
- the holding portion 45 of the slide members 41A, 41B is separated.
- the engaging portion 30 is released from these, and in this state, the second holding plate 20 is moved to the first holding plate 10. If the connecting body 70 is removed from the protrusion 16 after being raised, the connecting body 70 can be removed from the holders A and B.
- the attachment 80B is engaged with the first holding plate 10 and the attachment 80B is connected to the attachment 80B.
- the second holding plate 20 may be rotated to a state where it is depressed with respect to the first holding plate 10.
- connection body 70 is hooked and held on the attachment 80.
- the connecting bodies 70 having different sizes can be connected.
- the attachment 80 is formed in a rectangular parallelepiped shape capable of holding the rectangular ring-shaped connecting body 70, it is possible to connect the connecting bodies 70 of different sizes interchangeably without changing the existing connecting body. Since the existing connecting body 70 can be used without being changed, the engaging claw does not protrude from the tip of the belt mounting member unlike the buckle mentioned in the prior art, and there is no problem in handling.
- connection bodies 75 75A, 75B, 75C
- connection bodies 75 75A, 75B, 75C
- Disc-shaped attachment 85 85A, 85B, 85C
- the attachment 85 (85A, 85B, 85C) is formed so that the outer diameters of the disks are substantially the same, and a locking hole 81 that fits into the engaging portion 30 of the connector main body 100 is formed in the center of the inside.
- a guide groove 86 is formed on the outer peripheral portion as a posture holding portion that holds the connecting body 70 (75A, 75B, 75C) in a predetermined posture.
- the guide groove 86 is formed to have different groove widths and groove depths according to the thickness of the corresponding connecting body 75 (75A, 75B, 75C).
- the attachment 85 (85A, 85B, 85C) corresponding to the connection body 75 (75A, 75B, 75C) to be connected is selected, and the selected attachment 85 (85A, 85B, 85C) is selected.
- the connecting member 100 is locked at a predetermined position by the locking means 90, and the connecting body 75 (75A, 75B, 75C) is wound around the guide groove 86 of the attachment 85 (85A, 85B, 85C). Accordingly, since the connecting body 75 (75A, 75B, 75C) is held in a predetermined posture by the attachment 85 (85A, 85B, 85C), the connecting bodies 75 (75A, 75B, 75C) having different sizes can be attached and detached. Can be linked.
- the present invention is not limited to the connector having the structure described in the above embodiment, and includes the following modifications.
- the holders A and B (connector body 100) are provided with the first holding plate 10, the second holding plate 20 supported so as to be raised and lowered with respect to the first holding plate 10, and the first holding plate.
- a projection-shaped engaging portion 30 provided on the plate 10 and an engaged portion 40 provided on the second sandwiching plate 20 and engaged with the engaging portion 30 are configured, and the attachment has a rectangular parallelepiped shape and a disk.
- the shape is not limited to this. For example, as shown in FIG. 13 and FIG.
- the holders A and B (connector body 100) have a base 111 and a first holding member extending at right angles from both ends of the base 111 and parallel to the same direction. While including the plate 112 and the second holding plate 113, a cylindrical attachment 87 that is housed and locked between the first holding plate 112 and the second holding plate 113 may be used.
- the first clamping plate 112 and the second clamping plate 113 are opposed to each other with a storage space 114 having a size slightly larger than the thickness (diameter) of the attachment 87, and an opening groove 115 communicating with the storage space 114 is formed at the tip of these. Is formed.
- the groove width of the opening groove 115 is narrower than the thickness (diameter) of the attachment 87 and wider than the thickness dimension of the coupling body 70.
- the attachment 87 is formed in a cylindrical shape whose length is slightly shorter than the dimension of the connecting body 70 in the longitudinal direction of the ring inner surface.
- the locking means 90 that detachably locks the attachment 87 at a predetermined position of the holders A and B (connector body 100) may be the first clamping plate 112 and the second clamping plate 113 (in this case, either one may be used). ) In the width direction substantially central position, and an engagement protrusion 117 which is provided in the longitudinal center of the attachment 87 and engages with the engagement hole 116.
- the attachment 87 is disposed in the connecting body 70, and then the attachment 87 in this state is opened to either the left or right of the holders A and B. Slide into the storage space 114. Then, the coupling body 70 is also slid into the storage space 114 together with the attachment 87. At this time, since the connecting rod 72 of the connecting body 70 can slide in the opening groove 115, there is no obstacle to the slide insertion. Eventually, when the attachment 87 is slid to the fixed positions of the holders A and B (connector body 100), the engagement protrusion 117 of the attachment 87 is engaged with the engagement hole 116 of the second clamping plate 113. As a result, the attachment 87 is held in the storage space 114 and does not fall off.
- a plurality of types (large, medium, and small) of attachments 87 having different lengths (width dimensions) are prepared in advance, and these attachments 87 are exchanged with respect to the connector main body 100 to be mounted.
- the connecting bodies 70 having different sizes can be held without the posture of the connecting body 70 being unstable.
- the degree of freedom of the posture of the belt 6 can be improved.
- FIG. 15 In the first embodiment, an example of the coupler 1 that removably couples ring-shaped coupling bodies 70 (70A, 70B, 70C) of different width dimensions attached to the tip of the belt 6, and in the second embodiment, although it was the example of the connector 2 which connects the connection body 75 (75A, 75B, 75C) which consists of three types of round cords from which thickness differs, it is not restricted to this.
- the connector 2 which connects the connection body 75 (75A, 75B, 75C) which consists of three types of round cords from which thickness differs, it is not restricted to this.
- it may be a connecting tool that removably connects a ring-shaped connecting body 77 having a hook 76 at the tip.
- the hooked connector body 77 having different sizes can be held by replacing and attaching a plurality of types of attachments 80 having different width dimensions to the connector main body.
- a pair of ring-shaped coupling bodies 70 and a pair of coupling bodies 75 such as strings can be attached to and detached from the pair of holders A and B via attachments 80 and 85.
- the connection tool which connected the one connection body 70 so that attachment or detachment was possible may be sufficient.
- the connector main body 100 hangs two supports 122 and 123 in parallel on the holder A that holds the ring-shaped connector 70 in a detachable manner and the frame frame 121, It may be composed of a belt locking member 124 that locks the belt 6 or the like so that the length thereof can be adjusted.
- a connecting body called D-can can be directly hooked on the protrusion 16 (engaging portion 30).
- the connection body called D can is a substantially triangular plate, and has a shape having a belt insertion hole on the bottom side and a hooking hole in the center.
- the projection-shaped engaging portion 30 that also serves as a locking projection on the connector main body 100 side is provided, and the locking holes for engaging the attachments 80, 85, and 87 with the engaging portion 30. 81 is provided, but these may be reversed.
- the engaged portion 40 having the pair of slide members 41A and 41B is provided on the second sandwiching plate 20, but the structure of the engaged portion 40 is not limited to this, and other configurations are possible. May be.
- at least one slide member 41B is slidably disposed on the second clamping plate 20, and a contact wall that contacts the tip of the elastic leg piece 48 of the slide member 41B is formed in the accommodating portion 23, and the slide member 41B
- the structure may be biased in one direction of the slide direction (direction in which the slide member 41B protrudes from the housing portion 23 to the outside).
- the opening 43 of the slide member 41B is engaged with the engaging portion 30 in a state where the slide member 41B is protruded.
- the pair of holders A and B are connected to the pair of holders A and B, and the holders A and B are rotatably held around the connection direction axis L.
- the connecting shaft material C may not be provided as a separate body.
- a connecting shaft is integrally formed on one of the pair of holders A and B and a connecting shaft fitting hole into which the connecting shaft is fitted is formed on the other, the same applies. Can be expected.
- the protrusion 16 is integrally formed on the first sandwiching plate 10
- the engaging portion 30 is formed on the protrusion 16
- the engaging portion 30 is engaged with the second sandwiching plate 20.
- the engaged portion 40 is configured, these may be reversed. That is, the protrusion 16 is integrally formed on the second sandwiching plate 20, the engaging portion 30 is formed on the protrusion 16, and the engaged portion 40 is configured to engage the engaging portion 30 with the first sandwiching plate 20.
- the same effect can be expected.
- the first clamping plate 10 and the engaging portion 30 or the second clamping plate 20 are manufactured by metal die casting.
- the present invention is not limited thereto, and the first clamping plate 10 and the engaging portion 30 may be molded by synthetic resin.
- two slide members 41A and 41B which constitute engaged part 40 were fabricated by injection molding of synthetic resin, it may be formed with not only this but metal etc.
- the present invention is suitable, for example, as a connector for attaching and detaching belts and strings of bags, but can be used for any other purpose.
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Abstract
Description
従来、この種の連結具では、ベルトのサイズ(幅寸法)毎にサイズの異なる連結具を用意していたが、種類が増え、経済的負担が大きい。そこで、サイズ(幅寸法)の異なるベルトにも適用できるようにしたバックルが提案されている(特許文献1参照)。
雄部材本体や雌部材本体に対して、ベルト取付部材を異なる幅寸法のものに交換することにより、幅寸法の異なるベルトにも適用できる。
しかも、雄部材本体や雌部材本体に対してベルト取付部材を外すと、ベルト取付部の先端から係合爪が突出しているため、この係合爪が他の部材などに引っ掛かりやすく、操作上の不具合が考えられる。
ここで、サイズの異なる連結体としては、例えば、幅寸法の異なるベルトの先端に取り付けられたリング状の連結リングや、太さの異なる紐などを例示することができるが、これに限られない。
例えば、連結体がリング状の場合、アタッチメントの外周形状をリング状連結体の内周面に嵌合する形状に形成すれば、アタッチメントの外周を利用して連結体を着脱可能に保持できる。また、連結体が太さの異なる紐の場合、アタッチメントを円盤状に形成し、この外周面に太さの異なる紐が嵌り込む溝を形成すれば、アタッチメントの外周を利用して連結体を着脱可能に保持できる。
また、既存の連結体を変更することなく利用できるから、従来技術で挙げたバックルのように、ベルト取付部材の先端から係合爪が突出することもなく、取扱上からも支障がない。
この構成によれば、選択したアタッチメントを、連結具本体の所定位置に係止するには、係止突起に係止孔を係合するだけでよいから、アタッチメントを連結具本体の所定位置に簡単に係止させることができる。
この構成によれば、アタッチメントは、内部に係止孔を有し、外周部に連結体を所定の姿勢に保持する姿勢保持部を備えているから、係止孔を係止突起に差し込めば、アタッチメントを連結具本体の所定位置に係止させることができ、また、外周部の姿勢保持部によって連結体を所定の姿勢に保持することができる。従って、アタッチメントの連結具本体への係止機能と、連結体のアタッチメントへの保持機能とを、比較的簡単な構成で実現させることができる。
この状態では、連結体は、アタッチメントによって保持されているとともに、第1挟持板と第2挟持板との間に挟まれているから、これらの間での動きが規制される。従って、連結体ががたついたり、回転するのを防止できる。さらに、この状態において、連結体に、捩れ力や、第1挟持板および第2挟持板の隙間方向の外力が作用しても、連結体自体が第1挟持板および第2挟持板に当接するから、これらの外力を第1挟持板および第2挟持板で受けることができる。
ここで、リング状とは、円形状、矩形形状のほか、三角形や五角形以上の多角形形状などであってもよい。また、必ずしも全周が閉じている形状に限らず、一部が開口された形状であってもよい。
この構成によれば、連結体がリング状に形成され、アタッチメントが連結体のリング内周面に嵌合する形状に形成されているから、アタッチメントに連結体を嵌合させるだけで、連結体をアタッチメントに保持させることができる。
<第1実施形態:図1~図9参照>
(全体構成:図1および図2参照)
本実施形態の連結具1は、サイズの異なる連結体70を着脱可能に連結する連結具であって、連結具本体100と、サイズの異なる連結体70に対応して用意され、対応するサイズの連結体70を着脱可能に保持する複数のアタッチメント80と、これらアタッチメント80を選択的に連結具本体100の所定位置に着脱可能に係止する係止手段90とを備える。
連結体70は、ベルト6の先端に取り付けられた平カンと称されるもので、ベルト6の幅寸法に対応して幅寸法が異なる3種類、ここでは、大、中、小の3種類の連結体70A,70B,70Cが用意されている。これらの連結体70A,70B,70Cは、互いに平行な一対の横杆71と、この一対の横杆71の両端を連結する連結杆72とから、内部に矩形状の引掛孔73を有する矩形リング状に形成されている。なお、これらの連結体70A,70B,70Cは、例えば、合成樹脂や金属などによって形成されている。
連結具本体100は、一対の保持具A,Bと、この一対の保持具A,Bを連結し、かつ、この連結方向軸線Lを中心に各保持具A,Bを回動可能に支持する連結軸材Cとを備えている。
なお、第1挟持板10および係合部30は、金属、例えば、亜鉛合金などのダイカスト成形によって一体成形されている。第2挟持板20も、金属、例えば、亜鉛合金などのダイカスト成形によって一体成形されている。被係合部40については、合成樹脂、例えば、ポリアセタールなどの射出成形によって成形されている。
第1挟持板10の先端部側には、幅方向中央に断面矩形状の突起16が起立して設けられているとともに、この突起16を挟んだ両側に矩形溝状の係合凹部17がそれぞれ形成されている。
第2挟持板20の先端部側には、第2挟持板20の両側面に開口し内部に被係合部40を有する収容部23が形成されているとともに、第1挟持板10と対向する内面に収容部23に連通する挿入孔26と、この挿入孔26を挟んだ両側に係合凹部24とがそれぞれ形成されている。収容部23の開口(第2挟持板20の両側面に開口する開口)は、支軸挿通孔22と同方向に形成されている。
挿入孔26には、第1挟持板10の突起16が挿入されるとともに、挿入孔26の内底面に係合部30の頭部32に当接する当接面27が設けられている。つまり、第1挟持板10に対して第2挟持板20が伏した状態において、第2挟持板20には、係合部30の頭部32に当接する当接面27が設けられている。これにより、係合部30の頭部32が、当接面27と後述する挟持部45との間で上下の動きが規制されている。つまり、頭部32が上へ動こうとすると当接面27に当接して規制され、また、下へ動こうとすると挟持部45に当接して規制される。
係合凹部24は、第1挟持板10の係合凹部17と対向して設けられている。
これら一対のスライド部材41A,41Bは、同じ形状に形成され、一方が他方に対して裏返しされ、かつ、重ね合わせた状態で使用される。各スライド部材41A,41Bは、長方形板状のスライド片42と、このスライド片42の長手方向に沿った側面からスライド片42の挿入方向に対して逆方向へ屈曲して形成され収容部23の係合溝25に係合されるストッパ片47と、スライド片42の長手方向一端から延長して形成された弾性脚片48とを有する。
アタッチメント80は、連結具本体100の所定位置に係止された状態において、連結体70(70A,70B,70C)を保持しかつ所定の姿勢に保持するもので、サイズの異なる連結体70(70A,70B,70C)に対応して3種類、つまり、大、中、小の3種類のアタッチメント80A,80B,80Cが用意されている。
これらのアタッチメント80(80A,80B,80C)は、連結体70(70A,70B,70C)のリング内周面に嵌合する形状に形成されている。具体的には、幅寸法が対応する連結体70A,70B,70Cのリング内幅寸法より僅か小さく、かつ、それと直交する方向(長手方向寸法)が連結体70A,70B,70Cのリング内長手方向寸法の約1/2程度の寸法を有する直方体形状に形成されている。また、直方体形状の長手方向の略中央位置には、突起16に係合する係止孔81が形成されているとともに、これを挟んだ両側表裏面に、第1挟持板10および第2挟持板20の係合凹部17,24に係合する係合突起82が形成されている。
これにより、アタッチメント80A,80B,80Cは、内部の係止孔81および係合突起82が連結具本体100の突起16および係合凹部17,24に係合された状態において、外周に連結体70(70A,70B,70C)が嵌合されると、アタッチメント80A,80B,80Cの幅方向両端面と長手方向両端面とが連結体70(70A,70B,70C)の連結杆72の内面および横杆71の内面に当接し、連結体70を所定の姿勢に保持する。つまり、アタッチメント80A,80B,80Cは、幅方向両端面と長手方向両端面とからなる外周部に、連結体70を所定の姿勢に保持する姿勢保持部83を有する。
係止手段90は、連結具本体100に設けられた係止突起を兼ねる係合部30および係合凹部17,24と、アタッチメント80に設けられた係止孔81および係合突起82とから構成されている。
幅寸法の異なるベルトのうちいずれかのベルト、例えば、最も幅広なベルト6の先端に取り付けられた連結体70Aを連結具1によって連結するには、アタッチメント80の中から、連結体70Aの幅寸法に対応するアタッチメント80Aを選択し、このアタッチメント80Aを連結具本体100に係止させる。
まず、図2に示すように、第2挟持板20を第1挟持板10に対して起立させた状態とし、この状態において、選択したアタッチメント80(80A)の係止孔81を第1挟持板10の突起16に係合させるとともに、係合突起82を第1挟持板10の係合凹部17に嵌合させる。
すると、アタッチメント80Aの係合突起82が第2挟持板20の係合凹部24に係合される。同時に、図7および図8に示すように、第2挟持板20が第1挟持板10の突起16の真上に位置し、更に、第2挟持板20の被係合部40が第1挟持板10の突起16の頭部32に当接する。つまり、第2挟持板20の被係合部40を構成する一対のスライド部材41A,41Bの挟持部45が、突起16の頭部32に当接し、この頭部32によってスライド部材41A,41Bが弾性脚片48を弾性変形させながら、収容部23内に挿入される方向へスライドされる(図6の状態)。
これにより、スライド部材41A,41Bの挟持部45の間隔が拡がるため、突起16の頭部32がこれらの挟持部45を越えて第2挟持板20の収容部23内に挿入される。突起16の頭部32が挟持部45を越えると、スライド部材41A,41Bは、弾性変形されていた弾性脚片48の復帰力により、元の位置までスライドされる(図5の状態)。
また、連結軸材Cを介して連結された一対の保持具A,Bは、連結軸材Cの軸線を中心に回動可能であるため、連結体70やベルト6の向きを使用状態に応じて最適な向き(姿勢)にした状態で連結することができる。
挟持部45の間隔が係合部30の頭部32よりも大きい寸法に離間されると、係合部30はこれらから解除されるから、この状態で第2挟持板20を第1挟持板10に対して起立させたのち、突起16から連結体70を外せば、保持具A,Bから連結体70を外すことができる。
また、既存の連結体70を変更することなく利用できるから、従来技術で挙げたバックルのように、ベルト取付部材の先端から係合爪が突出することもなく、取扱上からも支障がない。
第1実施形態では、幅寸法が異なる3種の矩形リング状の連結体70(70A,70B,70C)を着脱可能に連結する連結具1の例であったが、第2実施形態では、太さの異なる3種の丸紐からなる連結体75(75A,75B,75C)を着脱可能に連結する連結具2の例である。
そのため、第2実施形態では、太さの異なる3種の連結体75(75A,75B,75C)に対応して、これらの連結体75(75A,75B,75C)を着脱可能に保持する3種の円盤状のアタッチメント85(85A,85B,85C)が用意されている。
これにより、連結体75(75A,75B,75C)はアタッチメント85(85A,85B,85C)によって所定の姿勢に保持されるから、サイズの異なる連結体75(75A,75B,75C)を着脱可能に連結できる。
本発明は、前記実施形態で説明した構造の連結具に限定されるものでなく、次のような変形例も含む。
<第1変形例:図13~図14参照>
前記実施形態では、保持具A,B(連結具本体100)を、第1挟持板10と、この第1挟持板10に対して起伏可能に支持された第2挟持板20と、第1挟持板10に設けられた突起状の係合部30と、第2挟持板20に設けられ係合部30が係合する被係合部40とを含んで構成するとともに、アタッチメントを直方体形状、円盤形状としたが、これに限られない。
例えば、図13および図14に示すように、保持具A,B(連結具本体100)を、基部111と、この基部111の両端から直角にかつ同一方向へ平行に延出された第1挟持板112および第2挟持板113とを含んで構成するとともに、第1挟持板112と第2挟持板113との間に収納係止される円柱状のアタッチメント87としてもよい。
アタッチメント87は、長さが連結体70のリング内面長手方向寸法より僅かに短い円柱状に形成されている。
アタッチメント87を保持具A,B(連結具本体100)の所定位置に着脱可能に係止する係止手段90は、第1挟持板112および第2挟持板113(この場合、いずれか片方でもよい)の幅方向略中央位置に設けられた係合孔116と、アタッチメント87の長手方向略中央に設けられ係合孔116に係合する係合突起117とから構成されている。
やがて、アタッチメント87が保持具A,B(連結具本体100)の定位置までスライドされると、アタッチメント87の係合突起117が第2挟持板113の係合孔116に係合される。これにより、アタッチメント87は収納空間114に保持され、抜け落ちることがない。
なお、この第1変形例の場合、図14に示すように、連結体70がアタッチメント87の外周面に沿って収納空間114内を揺動できるから、ベルト6の姿勢の自由度を向上できる。
第1実施形態では、ベルト6の先端に取り付けられた幅寸法の異なるリング状の連結体70(70A,70B,70C)を着脱可能に連結する連結具1の例を、第2実施形態では、太さの異なる3種の丸紐からなる連結体75(75A,75B,75C)を着脱可能に連結する連結具2の例であったが、これに限られない。
例えば、図15に示すように、先端にフック76を有するリング状の連結体77を着脱可能に連結する連結具であってもよい。
この例に関しても、幅寸法のサイズが異なる複数種類のアタッチメント80を連結具本体に対して交換して装着することにより、サイズが異なるフック付連結体77を保持することができる。
第1実施形態および第2実施形態では、一対の保持具A,Bに、アタッチメント80,85を介して、リング状の一対の連結体70や、紐などの一対の連結体75を着脱可能に連結するようにしたが、1つの連結体70を着脱可能に連結するようにした連結具であってもよい。
例えば、図16に示すように、連結具本体100が、リング状の連結体70を着脱可能に保持する保持具Aと、枠フレーム121に2本の支杆122,123を平行に掛け渡し、ベルト6などを長さ調節可能に係止するベルト係止具124とから構成されたものであってもよい。
前記第1実施形態および第2実施形態において、アタッチメント80,85を用いることなく、例えば、Dカンと称される連結体を、直接、突起16(係合部30)に引っ掛けて用いることもできる。なお、Dカンと称される連結体は、略三角形板で、底辺側にベルト挿通孔を有し、中央部に引掛孔を有する形状である。
前記第1実施形態および第2実施形態では、連結具本体100側に係止突起を兼ねる突起状の係合部30を、アタッチメント80,85,87に係合部30に係合する係止孔81を設けたが、これらは逆であってもよい。
例えば、第2挟持板20に少なくとも1つのスライド部材41Bをスライド可能に配置し、このスライド部材41Bの弾性脚片48の先端に当接する当接壁を収容部23内に形成し、スライド部材41Bがスライド方向の一方向(スライド部材41Bが収容部23から外部へ突出する方向)へ付勢された構造であってもよい。この場合、スライド部材41Bが突出された状態において、スライド部材41Bの開口43が係合部30と係合する。
Claims (5)
- サイズの異なる連結体70,75,77を着脱可能に連結する連結具であって、
連結具本体100と、
前記サイズの異なる連結体70,75,77に対応して用意され、対応するサイズの連結体70,75,77を着脱可能に保持する複数のアタッチメント80,85,87と、
これらアタッチメント80,85,87を選択的に前記連結具本体100の所定位置に着脱可能に係止する係止手段90とを備え、
前記アタッチメント80,85,87は、前記連結具本体100の所定位置に係止された状態において、前記連結体70,75,77を保持しかつ所定の姿勢に保持する、ことを特徴とする連結具。 - 前記係止手段90は、前記連結具本体100および前記アッタッチメント80,85,87のいずれか一方に設けられた係止突起と、前記連結具本体100および前記アタッチメント80,85,87のいずれか他方に設けられ前記係止突起に係合する係止孔81とを備える、ことを特徴とする請求項1に記載の連結具。
- 前記アタッチメント80,85,87は、内部に前記係止孔81を有し、外周部に前記連結体70,75,77を所定の姿勢に保持する姿勢保持部83,86を有する、ことを特徴とする請求項2に記載の連結具。
- 前記連結具本体100は、第1挟持板10と、この第1挟持板10に対して起伏可能に設けられた第2挟持板20とを含んで構成され、
前記第1挟持板10および前記第2挟持板20の互いに対向する面のいずれか一方には前記係止突起を兼ねる突起状の係合部30が設けられ、
前記第1挟持板10および前記第2挟持板20の互いに対向する面のいずれか他方には前記係合部30と係合する被係合部40が設けられている、ことを特徴とする請求項2または請求項3に記載の連結具。 - 前記連結体70,75,77は、リング状に形成され、
前記アタッチメント80,85,87は、前記連結体70,75,77のリング内周面に嵌合する形状に形成されている、ことを特徴とする請求項1~請求項4のいずれかに記載の連結具。
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TW097130997A TW200944148A (en) | 2008-04-28 | 2008-08-14 | Connection tool |
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Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP2008/058183 WO2009133597A1 (ja) | 2008-04-28 | 2008-04-28 | 連結具 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2009133597A1 true WO2009133597A1 (ja) | 2009-11-05 |
Family
ID=41254828
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2008/058183 WO2009133597A1 (ja) | 2008-04-28 | 2008-04-28 | 連結具 |
Country Status (4)
Country | Link |
---|---|
JP (1) | JP5215384B2 (ja) |
CN (1) | CN102014683B (ja) |
TW (1) | TW200944148A (ja) |
WO (1) | WO2009133597A1 (ja) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104522941B (zh) * | 2015-01-05 | 2016-09-14 | 张卫 | 通用皮带扣 |
WO2018207233A1 (ja) * | 2017-05-08 | 2018-11-15 | Ykk株式会社 | プラスチック成型品 |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6226844B1 (en) * | 1999-05-26 | 2001-05-08 | Velcro Industries B.V. | Quick release buckles |
JP3124921U (ja) * | 2006-06-21 | 2006-08-31 | 株式会社守屋 | ベルト金具 |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5148582A (en) * | 1991-08-08 | 1992-09-22 | Dennis Jr David B | Quick release cord strap system |
US5170539A (en) * | 1991-11-22 | 1992-12-15 | Illinois Tool Works Inc. | Spring loaded sliding bar web connector assembly for a buckle |
CN2580807Y (zh) * | 2002-10-22 | 2003-10-22 | 区宇平 | 组合式装饰连接扣 |
US6871876B2 (en) * | 2003-02-07 | 2005-03-29 | Zhaoxia Xu | Seat belt restraint system with double shoulder belts |
CN2845526Y (zh) * | 2005-12-21 | 2006-12-13 | 明门实业股份有限公司 | 扣具 |
-
2008
- 2008-04-28 WO PCT/JP2008/058183 patent/WO2009133597A1/ja active Application Filing
- 2008-04-28 JP JP2010509963A patent/JP5215384B2/ja active Active
- 2008-04-28 CN CN2008801288979A patent/CN102014683B/zh active Active
- 2008-08-14 TW TW097130997A patent/TW200944148A/zh unknown
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6226844B1 (en) * | 1999-05-26 | 2001-05-08 | Velcro Industries B.V. | Quick release buckles |
JP3124921U (ja) * | 2006-06-21 | 2006-08-31 | 株式会社守屋 | ベルト金具 |
Also Published As
Publication number | Publication date |
---|---|
TW200944148A (en) | 2009-11-01 |
JPWO2009133597A1 (ja) | 2011-08-25 |
CN102014683A (zh) | 2011-04-13 |
JP5215384B2 (ja) | 2013-06-19 |
TWI354542B (ja) | 2011-12-21 |
CN102014683B (zh) | 2012-11-28 |
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