TWI354542B - - Google Patents

Description

1354542 IX. Description of the Invention [Technical Field to Which the Invention Is Ascribed] The present invention relates to a coupling device. For example, in the bag type, the linker used for loading and unloading the tape or the rope. [Prior Art] For example, in the bag type, a connecting piece such as a buckle is used as a metal part for easily attaching and detaching a belt or a string. Conventionally, in such a coupling device, depending on the size (width) of the tape, a connector having a different size is prepared, but the type is increased and the economic burden is large. Therefore, it has been proposed to use a buckle that can be applied to a belt having a different size (width dimension) (Document 1: US Patent No. 6226844). The buckle has a male member and a female member. The male member is composed of a male member body having a pair of engaging leg pieces, and a plurality of belt mounting members detachably attached to the male member body and having different width dimensions of the belt mounting portion. The female member is composed of: a female member body detachably engaged with one of the male members, and a plurality of belt mounting members detachably mounted to the female member body and having different width dimensions of the mounting portion . The male member body or the female member body ' can also be applied to belts having different width dimensions by exchanging the belt mounting members with those of different width dimensions. [Problem to be Solved by the Invention] -5- 1354542 The buckle described in Document 1 is also applicable to a belt having a different size (width/inch), and the male member is divided into a male member. a member body and a belt mounting member, and the female member is divided into a mother member body and a belt mounting member, and the engaging member forms a engaging claw, and the male member body and the female member _ the body form a engaging claw to be engaged Since the structure of the engaging portion is such that the original object cannot be used in this way, that is, the male member and the female member of the belt having different width dimensions are attached. • Moreover, when the belt mounting member is removed for the male member body and the female member body, the engaging claws protrude from the front end of the belt mounting portion, so that the engaging claws can easily catch other members and the like, resulting in an operation. problem. SUMMARY OF THE INVENTION An object of the present invention is to provide a connector which can solve such a problem and which can interchangeably connect a connector of a different size without changing the original connector. [Means for Solving the Problem] The connecting device of the present invention is a connecting device that detachably connects the connecting bodies having different sizes, and is characterized in that: the connecting device body is provided; and the size is different from the above-mentioned size a plurality of fittings that are detachably held by the connecting body corresponding to the size of the connecting body; and a card that is selectively detachably locked to the predetermined position of the connecting body of the connecting body In the above-described accessory, the above-mentioned accessory is held in a predetermined position while being locked at a predetermined position of the connector body, and the connector is held in a predetermined posture. Here, as a connector having different sizes, it is exemplified - 6- 1354542 For example, a ring-shaped connecting ring attached to the front end of a tape having a different width dimension, or a rope having a different thickness, etc., but is not limited thereto. According to this configuration, among the plurality of accessories, the accessory corresponding to the connector of the size to be connected is selected, and the selected accessory is locked to the predetermined position of the connector body by the locking means, and then The connector is held in the accessory. Alternatively, the connector is detachably held by the selected accessory, and the accessory is locked to a predetermined position of the connector body by the locking means. In this way, the joined body can be held by the accessory and held in a predetermined posture. Therefore, since a plurality of fittings which are detachably held in correspondence with the connecting body having different sizes are prepared, only the fittings can be exchanged, and the connecting bodies having different sizes can be detachably coupled. In other words, since it is only necessary to prepare a plurality of components that can be detachably held in correspondence with the connectors having different sizes, it is possible to connect the connectors having different sizes without changing the original connectors. For example, when the connecting body is annular, the outer peripheral shape of the fitting is formed into a shape fitted to the inner peripheral surface of the annular connecting body, and the connecting body can be detachably held by the outer periphery of the fitting. Further, when the connecting body is a rope having a different thickness, if the fitting is formed into a disk shape and a groove in which the rope is embedded in the outer peripheral surface is formed, the connecting body can be detachably attached to the outer periphery of the fitting. maintain. Further, since it is not necessary to change the original connecting body, it is not necessary to project the engaging claw from the front end of the tape mounting member as in the prior art, and the operation is not hindered. -7- 1354542 In the connecting device of the present invention, the locking means includes: a locking protrusion disposed on one of the connecting body and the fitting; and the connecting body and the connecting body It is preferable that the other of the above-described fittings and the locking hole in which the locking projection is engaged. ^ According to this configuration, since the selected accessory is locked to the predetermined position of the connector body, since only the locking hole is engaged with the locking projection, the accessory can be simply locked to the connector body. position. In the connecting device of the present invention, it is preferable that the fitting has the locking hole therein and has a posture holding portion for holding the connecting body in a predetermined posture on the outer peripheral portion. According to this configuration, since the fitting has the locking hole therein and the posture holding portion that holds the connected body in the predetermined posture on the outer peripheral portion, the fitting hole can be inserted by inserting the locking hole into the locking projection. The predetermined position of the connecting body is stopped, and the connected body can be held in a predetermined posture by the posture holding portion of the outer peripheral portion. Therefore, it is possible to realize ® with a relatively simple structure, the locking function of the attachment to the connecting body, and the retaining function of the connecting body to the accessory. In the connecting device of the present invention, the connecting body includes a first holding plate and a second holding plate that is undulatingly provided to the first holding plate, and the first clamp is formed in the first clamp. One of the mutually opposing faces of the holding plate and the second holding plate is provided with an engaging portion that also serves as a protruding shape of the locking projection, and the first holding plate and the second clamp are provided It is preferable that any one of the opposing faces of the holding plate is provided with an engaged portion that engages with the engaging portion. -8- 1354542 According to this configuration, the locking hole of the fitting is fitted to the engaging portion that also serves as the protrusion of the locking projection, and the connecting body is held behind the fitting, and the second holding plate is used as the first clamp. When the plate is held down, the engaging portion is engaged with the engaged portion, and the first holding plate and the second holding plate are engaged. In this state, the connected body is held by the fitting and is sandwiched between the first holding plate and the second holding plate, so that the movement between the two is restricted. Therefore, it is possible to prevent the connecting body from being shaken or rotated. Further, in this state, even if a torque or a force other than the gap between the first holding plate and the second holding plate acts on the connecting body, the connecting body itself abuts against the first holding plate and the second holding. Since the plate is so strong, the external force can be received by the first holding plate and the second holding plate. In the connecting device of the present invention, the connecting body is formed in a ring shape, and the fitting is preferably formed in a shape of a ring inner peripheral surface fitted to the connecting body. Here, the ring shape may be a polygonal shape such as a triangle or a pentagon or the like in addition to a circular shape or a rectangular shape. Further, it is not necessarily limited to the shape closed for the entire circumference, 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 fitting is formed in a shape fitted to the inner circumferential surface of the ring of the connecting body, the connecting body can be held by the fitting only by fitting the connecting body to the fitting. [Embodiment] [Embodiment of the Invention] -9 - 1354542 Hereinafter, embodiments of the present invention will be described with reference to the drawings. [First Embodiment: Referring to Figs. 1 to 9] (Overall configuration: refer to Figs. 1 and 2) The connecting device 1 of the present embodiment detachably connects the connecting members 70 having different sizes. And a plurality of fittings 80 prepared to correspond to the connecting body 70 and the connecting body 70 having different sizes, and detachably holding the corresponding connecting body 70, and the fittings The locking means 90 is selectively detachably locked to a predetermined position of the connector body 100. (Connected body: Refer to FIG. 3A to FIG. 3C) The connecting body 70 is attached to the front end of the strap 6 and is called a flat ring. Three types of widths are prepared corresponding to the width dimension of the strap 6, and here, The connecting bodies 70A, 70B, and 70C of the three types of large, medium, and small types are connected to each other by a pair of crossbars 71 and two pairs of the crossbars 71. The connecting rod 72 to which the end is connected is formed in a rectangular ring shape having a rectangular hooking hole 73 therein. Further, the joined bodies 70A, 70B, and 70C are formed of, for example, synthetic resin, metal, or the like. (connecting device main body: see FIG. 4 to FIG. 8) The connecting device main body 1A includes a pair of holders A and B; and the pair of holders A and B are connected to each other in the connecting direction The axis L is the center -10- 1354542 rotatably supports the connecting shaft C of each of the holders A and B. The holder A'B includes: a first holding plate 1; and a second holding plate 20 undulatingly supported by the first holding plate 10; and a first holding plate 10 and a second In any one of the mutually opposing faces of the holding plate 20, the present embodiment is a protruding engaging portion 30 of the first holding plate 10; and the first holding plate 10 and the second holding plate 20 are provided. In any of the faces facing each other, the present embodiment is constituted by the engaged portion 40 in which the second holding plate 20 is engaged with the engaging portion 30. Further, the first holding plate 10 and the engaging portion 30 are integrally molded by die casting of a metal such as a zinc alloy. The second holding plate 20 is also integrally molded by die casting of a metal such as a zinc alloy. In the engaged portion 40, the first holding plate 1 is formed by injection molding of a synthetic resin such as polyacetal, and is formed into a substantially square plate shape in plan view, and a front end opposite to the connecting side. The two corner portions of the edge are formed in an arc shape, and a rising wall 11 having a three-shape shape on both side edges of the sandwiching portion is spanned from the base end edge on the joining side. An upright bearing wall 12 is disposed in the middle of the rising wall 11, and a connecting shaft insertion hole 13 for vertically connecting the connecting shaft C is formed in the bearing wall 12, and is inserted for The second holding plate 20 is a fulcrum insertion hole 15 of the support shaft 14 which is undulatingly supported by the first holding plate 10. In other words, a connecting shaft insertion hole 13 penetrating in the thickness direction of the bearing wall 12 is formed in a lower portion of the bearing wall 12, and a shaft insertion hole penetrating in the width direction of the bearing wall 12 is formed in an upper portion of the bearing wall 12. 15. The support shaft 14 is constituted by a split pin in which a metal plate is wound into a cylindrical shape, but is not limited thereto. -11 - 1354542 On the front end side of the first holding plate 10, a raised cross-sectional rectangular protrusion 16 is provided at the center in the width direction, and a rectangular groove-shaped card is formed on both sides of the protrusion 16 Concave the recessed portion 17. The engaging portion 30 has a neck portion 31 formed at a front end of the projection 16 and having a width in a width direction smaller than a base portion of the projection 16, and is formed at a front end of the neck portion 31 and having a width dimension larger than a neck portion 31. Head 32. The head portion 32 is formed in an arrow shape which is curved in an arc shape from the center toward both ends in the width direction. That is, the engaging portion 30 has a head portion 32 having a larger size in a direction orthogonal to the axis of the projection 16 at the front end of the projection 16. The second holding plate 20 has a square plate shape having a planar shape substantially the same as that of the first holding plate 10, and has a shape in which a concave portion 21 in which the bearing wall 12 is fitted is formed at a base end edge on the coupling side. On both side portions sandwiching the concave portion 21, a fulcrum insertion hole 22 through which the fulcrum shaft 14 can be inserted is formed. Therefore, the recessed portion 21 of the second holding plate 20 is positioned on the bearing wall 12 of the first holding plate 10, and the support shaft 14 is inserted into the shaft formed in the second holding plate 20 and the bearing wall 12 The holes 22 and 15 and the second holding plate 20 are supported by the first holding plate 10 so as to be undulating with the support shaft 14 substantially orthogonal to the connecting direction axis L as a fulcrum. In other words, the second holding plate 20 is at a first position that is parallel to the first holding plate 10 and faces the first position, and a second position that rises at a substantially right angle to the plane of the first holding plate 10. The undulating ground is supported. The front end side of the second holding plate 20 is formed with an accommodating portion 23 that opens to both side faces of the second holding plate 20 and has an engaged portion 4 内部 therein, and is opposed to the first holding plate 10 The inner surface is formed with an insertion hole 26 that communicates with the -12-1354542 accommodating portion 23, and a concave portion 24 that sandwiches both sides of the insertion hole 26. The opening of the accommodating portion 23 (opening on the side surface of the second holding plate 20) is formed in the same direction as the fulcrum insertion hole 22. An engagement groove 25 is formed at an intermediate position inside the accommodating portion 23. The projection 16 of the first holding plate 10 is inserted into the insertion hole 26, and the abutting surface 27 of the head 32 abutting against the engaging portion 30 is provided on the inner bottom surface of the insertion hole 26. In other words, in the state in which the second holding plate 20 is placed at 10 volts for the first clamping, the second holding plate 20 is provided with an abutting surface 27 that abuts against the head portion 32 of the card portion 30. Thereby, the head 32 of the engaging portion 30 is restricted from moving up and down between the abutting surface 27 and the nip portion 45 which will be described later. That is, when the head 32 is moved upward, it is abutted against the abutting surface 27, and when it is moved downward, it abuts against the clamping portion 45 and is restricted to the engaging recess 24, The engagement recesses 17 of the first holding plates 1 are opposed to each other. The engaged portion 40 is inserted from both side opening of the second holding plate 20 (opening of the receiving portion 23), and has a pair of sliding members 41A and 41B slidably disposed in the accommodating portion 23. The pair of sliding members 4 1 A, 4 1 B are formed in the same shape, one of which is turned over for the other, and each of the sliding members 41 A, 41B is used in a state of being overlapped, and has a rectangular plate-like slip. The sheet 42 and the stopper piece 47 which is formed by being bent in the opposite direction to the insertion direction of the slider 42 in the direction of the insertion direction of the slider 42 and engaged with the engagement groove of the accommodating portion 23, and the slider One end of the long side of the 42 extends and the card is formed, and the plate portion is moved to receive the elastic leg piece 48 which is to be inserted into 25 to 13-1354542. In the slider 42, a rectangular opening 43 is formed therein, and a thickness of the rear end portion of the rear end portion in the insertion direction (the direction in which the elastic leg piece 48 extends) is formed to be thicker than the other thicker portion 43. Among the opening edges in the longitudinal direction, the rear end edge in the insertion direction is used to sandwich the rear end portion of the nip portion 45 of the engaging portion 30 of the first holding plate 10 in the insertion direction, and is formed in the sliding piece 42 toward each other. The operation portion 46 that protrudes from the accommodating portion 23 of the second holding plate 20 in a state where the direction is biased. The stopper piece 47 is bent in the opposite direction to the insertion direction of the slider 42 from the side along the longitudinal direction of the slider 4 2 . When the slider 42 is inserted into the accommodating portion 23, the stopper piece 47 is inserted in a state in which the inner side is elastically deformed, and is inserted into the engagement groove 25 until it is elastically restored to the outside at a predetermined stage. That is, the stopper piece 47 is engaged with the engaging groove 25, so that the slider 42 can be prevented from coming off from 23. The elastic leg piece 48 extends from the front end in the insertion direction of the slider 42 in the width direction, and further extends toward the width of the slider 42 to have a cylindrical contact member 49 at the front end. In the state where the slider is placed in the accommodating portion 23, the contact portion 49 at the front end is the segment portion 44 of the slider 42 of the other side. Thereby, the pair of slide members 41A and 41B are separated from each other by the force of the elastic leg piece 48, and the operation portions 46 of the slide members 41A and 41B are protruded from the outside of the accommodating portion. And in the opposite case insert 44. Open and form. When the segment is separated, the outer surface is formed to be large at a predetermined position, and the accommodating portion side is elastically biased toward the other 42; 23 to 14-1354542, the connecting shaft C' is rotatably The shaft member 'the thickness of the coupling shaft insertion hole 13 inserted through the bearing wall 12 has a flange 51 at the center and a stopper ring locking groove 52 at both end portions. Therefore, after the both ends of the connection shaft member C are inserted and formed in the connection shaft insertion holes 13 of the bearing walls 12 of the respective holders A and B, the engagement ring 53 is engaged with the insertion holes from the respective connection shafts. 13 The pair of retainers A and B can be rotatably coupled by the connecting shaft C by the protruding snap ring groove 52 of the protruding shaft member C. (Accessory: Refer to Figs. 9A to 9C) The accessory 80 holds and holds the connected body 70 (70A, 70B, 70C) in a predetermined state in a state where it is locked at the predetermined position of the link body 1〇〇. The posture is three types, that is, three types of accessories 80A, 80B', 80C, which are three types of large, medium, and small, corresponding to the connecting bodies 70 (70A, 70B' 70C) having different sizes. These fittings 80 (80A, 80B, 80C) are formed in a shape to be fitted to the inner circumferential surface of the ring of the connecting body 70 (70A, 70B, 70C). Specifically, it is formed that the width dimension of the connecting bodies 7A, 70B, and 70C corresponding to the width dimension is slightly smaller, and the direction orthogonal to the direction (longitudinal dimension) has the connecting bodies 7A, 70B, 70C. A dimension of about 1/2 of the dimension in the longitudinal direction of the ring, and a rectangular shape. Further, at a substantially central position in the longitudinal direction of the rectangular parallelepiped shape, a locking hole 81 that is engaged with the projection 16 is formed, and the front and back surfaces of the both sides of the locking hole 81 are formed to be engaged with the first The engagement protrusions 82 of the engagement recesses 17 and 24 of the clamp plate 10 and the second clamp plate 20 are engaged. -15- 1354 542, the fittings 80A, 80B, and 80C are connected to each other in a state in which the locking hole 81 and the engagement projection 82 are engaged with the projection 16 and the engagement recesses 17 and 24 of the coupling main body 100. When the body 70 (70A, 70B, 70C) is fitted to the outer circumference, the end faces in the width direction and the end faces in the longitudinal direction of the fittings 80A, 80B, and 80C abut against the connecting rod of the connecting body 70 (70A, 70B, 70C). The inner surface of 72 and the inner surface of the crossbar 71 hold the joint 70 in a predetermined posture. In other words, the fittings 80A, 80B, and 80C have an outer peripheral portion formed by both end faces in the width direction and both end faces in the longitudinal direction, and have a posture holding portion 83 that holds the joined body 70 in a predetermined posture. (Locking means: refer to Fig. 1) The locking means 90 is provided by the engaging portion 30, the engaging recesses 17, 24 provided as the locking projections of the connecting body 100, and the locking provided on the fitting 80. The hole 81 and the engaging projection 82 are formed. (Operation and effect) For the belt to be attached to any one of the belts having different width dimensions, for example, the connecting body 70A at the front end of the widest belt 6 is connected by the connecting member 1, and is selected from the fitting 80. The connecting body 70A has a width corresponding to the fitting 80A, and the fitting 80A is locked to the coupling body 100. First, as shown in Fig. 2, in a state in which the second holding plate 20 is raised against the first holding plate 1, the locking hole 81 of the selected fitting 80 (80A) is engaged in this state. The protrusion 16' of the first clamping plate 10 and 16-

1354542 The engaging projection 82 is fitted into the engaging recessed portion of the first holding plate 10, and then the locking hole 73 of the connecting body 70A is inserted into the 80A) to be caught, and then the second holding plate 20 is supported by the spindle 14 Rotate and serve as a state in which the first holding plate 10 is undulating. As a result, the engaging projection 82 of the fitting 80A will grip the engaging recess 24 of the holding plate 20. At the same time, as shown in Fig. 7 and the second, the second holding plate 20 is located on the projection 16 of the first holding plate 1A, and the engaged portion 40 of the second holding plate 20 abuts against the tenth projection 16 Head 32. That is, the nip portion constituting one of the second nip pin engagement portions 40 to the slide members 41A, 41B is on the head portion 32 of the projection 16, and the slide portion 41B is formed by the head portion 32 to make the elastic leg piece 48 is elastically deformed and slides in the direction of insertion 23 (state of Fig. 6). Thereby, since the nip portion 45 of the sliding members 41A, 41B is enlarged, the head portion 32 of the projection 16 is inserted into the accommodating portion 23 of the second holding plate 20 beyond the nip. When the projection 32 passes over the nip 45, the restoring force of the elastic leg piece 48, which is deformed by the sliding member 41A' 41B, is slid until the original (state of Fig. 5). In this state, that is, the engaging portion 30 is engaged with the engaged portion 1 in the state in which the holding plate 10 is engaged with the second holding plate 20, and the connecting end 70A is formed in the fitting 80 ( 80A) The posture holding portion 83 is held and sandwiched between the first holding plate holding plates 20, so that the movement 17 between the two can be restricted. The member 8 0 (as a fulcrum) is attached to the upper portion 1 of the holding plate 20 of the upper portion shown in Fig. 28, and the abutting member 4 1 A is spaced apart from the receiving portion by b portion 45 [the head of 6] The portion is by the position 40 that is bounced, and the outer circumference of the first and second sides is 10 and the second. For example, when the link body 70A is moved in the width direction of the fitting 80 (800A), the body is connected. The inner surface of the connecting rod 72 of the 70A abuts against both end faces in the width direction of the fitting 80 (80A), and the connecting body 70A is moved toward the longitudinal direction of the fitting 80 (80A) (the direction orthogonal to the width direction). When the inner surface of the crossbar 71 of the connecting body 70A abuts against the both end faces in the longitudinal direction of the fitting 80 (80A), the connecting body 70A can be prevented from being shaken. Further, even if the connecting body 70A is to be connected to the connecting shaft The axis of C is rotated in the same direction, and the connecting φ body 70A is also in contact with the first holding plate 10 and the second holding plate 20, so that it can be restricted to the first holding plate 10 and the second holding plate 20. Therefore, when the connecting body 70A is coupled to the connecting device 1, the connecting body 70A can be prevented from being shaken or rotated. In one of the knots, the holders A and B are rotatable about the axis of the connecting shaft C. Therefore, the orientation of the connecting body 70 or the belt 6 can be connected in an appropriate orientation (posture) depending on the state of use. In addition, the connecting body 70 attached to the distal end of the strap 6 is detached from each of the holders A and B, and the operating members 46 of the sliding members 41A and 41B are pressed to insert the sliding members 41A and 41B. When the sliding portion is slid in the direction of the accommodating portion 23, the nip portions 45 of the sliding members 41A and 41B are separated. When the interval between the nip portions 45 is separated to be larger than the head portion 32 of the engaging portion 30, the card is separated. Since the joint portion 30 is released from the above, the second holding plate 20 is lifted up against the second holding plate in this state, and the connecting body 70 can be detached from the projection 16 to connect the connecting body 70. Therefore, the connecting body 70 having a different connecting size is, for example, the connecting body 70B having a smaller width dimension than the width direction of the connecting body 70A, so that the fitting 80B is engaged. In the first clamping plate 10, and the connecting body 70B is embedded in the fitting 80B After that, the second holding plate 20 can be rotated to the state in which the first holding plate 1 is crouched. That is, the fitting 80 corresponding to the size of the connecting body 70 to be joined is selected, and the fitting is selected. After the 80 card is stopped at the predetermined position of the connector body 100, the connector 70 can be connected to the accessory 80 by hooking the connector 70. At this time, the accessory 80 is formed to be rectangular. Since the annular connecting body 70 has a rectangular parallelepiped shape, the connecting bodies 70 of different sizes can be exchangeably connected without changing the original connecting body. Further, since the original connecting body 7 is not required to be used, it is not necessary to use the buckle as in the prior art, and the engaging claw protrudes from the front end of the tape mounting member, and the operation is not hindered. [Second Embodiment: Referring to Figures 10 to 12A, 12B, and 12C] In the first embodiment, three types of rectangular ring-shaped connecting bodies 70 (70A, 70B, and 70C) having different width dimensions are detachably attached. In the second embodiment, the connecting member 75 (75A, 75B, 75C) formed of three kinds of round ropes having different thicknesses is detachably coupled to the connecting device 2 in the second embodiment. Therefore, in the second embodiment, the three types of connected bodies -19-1354542 75 (75A, 75B, and 75C) having different thicknesses are associated with each other, and the connected bodies 75 (75A, 75B, and 75C) are prepared. Three disc-shaped fittings 8 5 ( 8 5A, 85B, 85C) that are detachably held. The fittings 85 (85A, 85B, 85C) have substantially the same outer diameter dimensions of the disk, and have locking holes 81 that are fitted into the engaging portions 30 of the coupling body 100 at substantially the center thereof, and are in the outer periphery. A guide groove 86 as a posture holding portion that holds the connecting body 75 (75A, 75B, and 75C) in a predetermined posture is formed in the portion. The guide groove 86 is formed to have a different groove width and groove depth depending on the thickness of the corresponding joint body 75 (75A, 75B, 75C). Therefore, in the second embodiment, the accessories 85 (85A, 85B, 85C) corresponding to the connected bodies 75 (75A, 75B, 75C) to be connected are selected, and the selected accessories 85 (85A, 85B, 85C) are borrowed. The locking means 90 is locked to a predetermined position of the coupling body 100, and the coupling body 75 (75A, 75B, 75C) is wound around the guide groove 86 of the fitting 85 (85A, 85B, 85C). Thereby, the connecting body 75 (75A, 75B', 75C) is held in a predetermined posture by the fittings 85 (85A, 85B, 85C), so that the connecting bodies 75 (75A, 75B, 75C) having different sizes can be detachably attached. Ground connection. [Description of Modifications] The present invention is not limited to the coupling tool having the structure described in the above embodiment, and includes the following modifications. -20- 1354542 [First Modification: Refer to Fig. 13 to Fig. 14] • In the above embodiment, the holders A and B (the connector body 100) include the first holding plate 10 and the same The first holding plate 10 is undulatingly supported by the second holding plate 20', the protruding engaging portion 30 provided in the first holding plate 10, and the engaging portion provided in the second holding plate 20 30 The snap-fitted engaging portion 40 is configured, and the fitting is formed into a rectangular parallelepiped shape or a disk shape, but is not limited thereto. # For example, as shown in Figures 13 and 14, the holders A, B (the connector body 100) may be included, including: the base portion 111, and from the opposite ends of the base portion 111 at right angles and in the same direction. The first holding plate 112 and the second holding plate 113 are formed to extend, and a cylindrical fitting 87 that is locked between the first holding plate 112 and the second holding plate 113 is accommodated. The first holding plate 112 and the second holding plate 113 are disposed to face each other with a housing space 114 having a size slightly larger than the thickness (diameter) of the fitting 87, and are formed to communicate with the storage space at the front ends. Open slot of 114® 1 1 5. The groove width of the opening groove 1 15 is formed to be narrower than the thickness (diameter) of the fitting 870 and is wider than the thickness of the connecting body 70. The fitting 87 is formed in a cylindrical shape having a length slightly shorter than the inner side of the inner surface of the connecting body 70. The locking means 90 for detachably locking the fitting 87 to the predetermined position of the holders a, B (the coupling body 100) is provided in the first holding plate 112 and the second holding plate 113 (in this case) The engaging hole 116 of the substantially central position in the width direction of any one of the single sides, and the engaging protrusions 117 - 21 - 1354542 provided in the substantially center of the longitudinal direction of the fitting 87 and engaging with the engaging hole 116 may be formed. . When the connecting body 70 is held by the holders A and B (the connecting body i 00 ), the fitting 87 is placed in the connecting body 7 , and then the fitting 87 in this state is pulled from either of the holders A and B. The opening slides in the housing space 114. As a result, the connecting body 70 is also slid in the housing space 114 together with the fitting 87. At this time, the connecting rod 72 of the connecting body 70 is slidable in the opening groove 115. Therefore, it does not become an obstacle to the sliding insertion, and the fitting 87 is slid until the holder A, B (the connecting body 100) is scheduled. At the position, the engaging projection 117 of the fitting 87 is engaged with the engaging hole 116 of the second holding plate 113. Thereby, the fitting 87 is held in the storage space 1 14 and does not fall off. In advance, the plurality of (large, medium, and small) fittings 87 of different lengths (width sizes) are prepared, and the fittings 87 are attached to the coupling body 100, and the width dimensions can be different. The connected body 7〇 and the connected body 7〇 are held without shaking. Further, in the case of the first modification, as shown in Fig. 14, the connecting body 70 can be swung in the housing space 114 along the outer peripheral surface of the fitting 87, so that the degree of freedom of the posture of the strap 6 can be improved. [Second Modification: Refer to Fig. 5] In the first embodiment, the annular connecting bodies 70 (70A, 70B, 70C) having different width dimensions attached to the distal end of the strap 6 are detachably coupled. In the second embodiment, the connecting body 75 (75A, 75B, 75C) formed of three kinds of round ropes having the same thickness of -22 to 1354542 is detachably coupled to each other. 2 examples, but are not limited to this. For example, as shown in Fig. 15, a coupling member that detachably connects the annular connecting body 77 having the hook 76 at the tip end may be used. Also in this example, by attaching a plurality of types of fittings 80 having different width dimensions to the coupling body, it is possible to hold the hook-and-loop fasteners 7 having different sizes. [Third Modification: Refer to Fig. 16] In the first embodiment and the second embodiment, the interposing members 80 and 85 are formed, and one pair of the connecting body 70 or the cord is connected to each other. 75 is detachably coupled to the pair of holders A and B. However, the coupling member 70 may be detachably coupled to each other. For example, as shown in FIG. 16, the holder body 1 can be detachably held by the ring-shaped connecting body 70, and the two struts 122, 123 can be parallel. The frame is placed on the frame 121, and the tape holders 124, such as the straps 6, are locked in an adjustable length. [Other Modifications] In the first embodiment and the second embodiment, it is not necessary to use the fittings 8A and 85. For example, a coupling body called a D-ring can be directly caught on the projection 16 (engagement portion). 3〇) to use. Further, the connecting body called the D-ring is a substantially triangular plate having a through-hole on the bottom side and a locking hole in the center. -23- 1354542 In the first embodiment and the second embodiment, the engaging portion 30 that also serves as a projection of the locking projection is provided on the side of the coupling main body 100, and the fittings 80, 85, and 87 are engaged with the card. The locking hole 81 of the joint 30, but these lines may be reversed. In the above-described embodiment, the second holding plate 20 is provided with the engaged portion 40 having the pair of sliding members 41A and 41B. However, the structure of the engaged portion 40 is not limited thereto, and other configurations may be employed. For example, at least one sliding member 41B may be slidably disposed on the second holding plate 20, and an abutting wall of the front end of the elastic leg piece 48 that abuts against the sliding member 41B may be formed in the accommodating portion 23. Further, the sliding member 41B is configured to be biased in one of the sliding directions (the direction in which the sliding member 41B protrudes from the accommodating portion 23 to the outside). In this case, the opening 43 of the sliding member 41B is engaged with the engaging portion 30 in a state where the sliding member 41B is protruded. In such a configuration, when the second holding plate 20 is rotated to the state where the first clamping plate 10 is undulating, the opening 43 of the sliding member 41B abuts against the engaging portion 30 in a state of being displaced. Further, when the second holding plate 20 is rotated toward the first holding plate 1A, the sliding member 41B is slid toward the opening 43 and the engaging portion 30 in the same direction. Thereafter, the engaging portion 30 passes through the opening 43 and is returned to the original position ' by the sliding member 41B to engage the opening 43 with the engaging portion 30. With such a configuration, the same effect as that of the above embodiment can be expected with a simple structure.

Further, in the above embodiment, the pair of holders A and B and the pair of holders A and B are connected to each other, and the holders A and B are centered on the connection direction axis L -24 - 1354542 The connecting shaft member C is rotatably held, but it is not necessary to provide the connecting shaft member C as a separate body. For example, as shown in Fig. 14, even if the connecting shaft is integrally formed in any one of the pair of holders A and B, and the connecting shaft fitting hole in which the connecting shaft is fitted to the other is formed, the same can be expected. effect. Further, in the above-described embodiments and modifications, the projection 16 is integrally formed on the first holding plate 1A, and the engaging portion 30 is formed in the projection 16, and the engaging portion 30 is engaged with the engaging portion 30. The portion 40 is formed in the second holding plate 20, but these units may be reversed. In other words, even if the projection 16 is integrally formed on the second holding plate 20, the engaging portion 30 is formed in the projection 16, and the engaged portion 40 that engages the engaging portion 30 is formed in the first clamp. Holding the board 10, the same effect can be expected. In the above embodiment, the first holding plate 10, the engaging portion 30, or the second holding plate 20 are produced by die-casting of metal. However, the present invention is not limited thereto, and may be formed by synthetic resin. Alternatively, the two sliding members 41A and 41B constituting the engaged portion 4 are formed by injection molding of a synthetic resin. However, the present invention is not limited thereto, and may be formed of metal or the like. As described above, the present invention has been described with reference to various embodiments and various modifications. However, it is needless to say that these may be combined as appropriate. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a coupling device according to a first embodiment of the present invention. Fig. 2 is a view showing a part of the cut-off side - 25 - 1354542 in the above embodiment. Fig. 3A is a perspective view showing a connected body having a large width in the above embodiment. Fig. 3B is a perspective view showing the connected body in the width dimension in the above embodiment. Fig. 3C is a perspective view showing a connected body having a small width in the above embodiment. #图4 is an exploded perspective view showing the main body of the connecting device in the above embodiment. Fig. 5 is a cross-sectional view showing a state in which the second holding plate is cut in the horizontal direction in the above embodiment. Fig. 6 is a cross-sectional view showing a state in which the sliding member is pressed from the state of Fig. 5. Fig. 7 is a cross-sectional view taken along line W-W of Fig. 5. Fig. 8 is a cross-sectional view showing a state in which the second holding plate is separated from the projection in the sectional view of Fig. 7. In the above-described embodiment, a perspective view of a fitting having a large size is shown. In the above embodiment, a perspective view of the accessory in the size is displayed. Fig. 9C is a perspective view showing a fitting having a small size in the above embodiment. Fig. 10 is an exploded perspective view showing the coupling device according to the second embodiment of the present invention. -26- 1354542 Fig. 11 is a side view showing a state in which the second holding plate is hidden in the above embodiment. Fig. 12A is a view showing a connection body and an accessory having a large size in the above embodiment. Fig. 12B is a view showing the connected body and the fitting in the size of the above embodiment. In the above-described embodiment, the first embodiment shows a view showing a connecting body and an accessory having a small size. Fig. 13 is an exploded perspective view showing a first modification of the present invention. Fig. 14 is a cross-sectional view showing the modification. Fig. 15 is a perspective view showing a second modification of the present invention. Fig. 16 is a perspective view showing a third modification of the present invention. [Description of main component symbols] 1 : Connecting device 2 : Connecting device 6 : Tape I 〇 : 1st clamping plate II : Vertical wall 12 : Bearing wall 1 3 : Connecting shaft insertion hole 14 : Supporting shaft 1 5 : Branch Shaft insertion hole -27- 1354542 Projection engagement recess 2nd clamping plate recessed portion Support shaft insertion hole accommodating portion Engagement recess engagement groove insertion hole abutment surface engagement portion neck portion engaged portion: sliding member : Sliding member slide opening section Clamping part Operating part Stopper piece Elastic foot piece Contact -28- 1354542 Flange stop ring Clamping groove Stop ring coupling body = Connecting body = Connecting body: Connecting body crossbar connection Rod card hanging hole connecting body: connecting body: connecting body = connecting body hook and closing connecting body fitting: fitting = fitting: fitting locking hole engaging protrusion posture holding portion fitting -29 1354542 8 5 A : fitting • 85B : fitting 8 5 C: fitting 86: guide groove 8 7 : fitting 90 : locking means 100 : coupling body φ 1 1 1 : base 1 12 : first holding plate 1 13 : second holding plate 1 1 4 : storage space 1 1 5 : Open slot 1 1 6 : Engagement hole 1 1 7 : Engagement projection 121 : Frame ® 122 : Strut 123 : Strut. 124 : With buckle A : Holder B: Holder C: Connecting shaft L: Connecting direction axis

Claims (1)

70, 1354542 X. Patent Application Scope 1 1. A connecting device is a detachably connected connecting body of a connecting body (75, 77) having different sizes, and is characterized in that: a connecting body (100) is provided; a connecting body (70, 75, 77) having a different size and size, and a correspondingly sized connecting body (70, 75, detachably holding a plurality of fittings (80, 85, 87); And a locking means (90) for selectively attaching the accessories (80, 85, 87) to the predetermined position of the connecting body (100), the accessories (80, 85, 87) are attached to the card The connecting body (75, 77) is held in a predetermined position while the predetermined position of the connecting body (1) is stopped. 2. The connecting device of claim 1, wherein the card is The stopping means (90) is provided with: a locking protrusion provided in any one of the connecting body (1) and the accessory (80, 85, 87); and the connecting body (100) And the other of the accessories (80, 85, 87) and the above-mentioned locking protrusion 3. The locking hole (8 1 ). The coupling device according to claim 2, wherein the fitting (80, 85, 87) has the card (81) inside and has the above-mentioned outer peripheral portion a connecting body (70, 75, 77) holding a posture in a predetermined posture (83, 86) » 4. The connecting device according to claim 2 or 3, wherein the connecting body (i〇〇), The method includes: a first holding plate corresponding to 77) a stop hole having the above-mentioned 70's one of the joints, and - 31 - (10 1354542), and undulatingly setting the first holding plate (10) The second holding plate (20) is configured to have one of the surfaces of the first holding plate (10) and the second holding plate (20) facing each other. An engaging portion (30) having a protruding shape of the locking projection is provided on any one of the surfaces of the first holding plate (10) and the second holding plate (20) facing each other The engaging portion (40) of the engaging portion (3〇) is engaged. 5. The connecting device of the first aspect of the patent application is wherein the connecting body (7〇, 7) 5, 77), the ring shape is formed, and the fittings (80, 85, 87)' are formed in a shape fitted to the inner circumferential surface of the ring of the connecting body (70, 75, 77). -32-