阅读说明：本技术 铰链结构 (Hinge structure ) 是由 福本充 荒井淳实 知野见勇平 于 2019-07-25 设计创作，主要内容包括：本发明涉及一种铰链轴体与轴承孔松动嵌合的铰链结构。作为铰链结构体的夹具(1)具有：基座部件(第1部件)(3),其具有铰链轴体(16)；和盖部件(第2部件)(4),其具有与铰链轴体(16)间隙配合的轴承孔(19)。在铰链部侧中,基座部件(3)具有第1碰撞部(20),盖部件(4)具有第2碰撞部(21)。两碰撞部(20、21)以以下方式构成：在基座部件(3)和盖部件(4)从打开位置到达闭合位置之前的规定的角度范围内,第1碰撞部(20)和第2碰撞部(21)在铰链轴体(16)的半径方向或者与铰链轴体(16)的半径方向平行的方向上彼此碰撞。据此,抑制被铰链连接的部件的转动过程中的偏移或晃动。(The invention relates to a hinge structure for loose embedding of a hinge shaft body and a bearing hole. A clamp (1) as a hinge structure body comprises: a base member (1 st member) (3) having a hinge shaft (16); and a cover member (2 nd member) (4) having a bearing hole (19) that is clearance-fitted to the hinge shaft body (16). In the hinge portion side, the base member (3) has a 1 st collision portion (20), and the lid member (4) has a 2 nd collision portion (21). The two impact portions (20, 21) are configured in the following manner: the 1 st collision portion (20) and the 2 nd collision portion (21) collide with each other in a radial direction of the hinge shaft body (16) or a direction parallel to the radial direction of the hinge shaft body (16) within a predetermined angular range before the base member (3) and the lid member (4) reach the closed position from the open position. Accordingly, the offset or the shaking during the rotation of the parts connected by the hinge is suppressed.)

1. A hinge structure, comprising: a 1 st member having a hinge shaft body extending in a left-right direction; and a 2 nd component having a bearing hole clearance-fitted with the hinge shaft body,

the 1 st member has a 1 st collision part provided on the hinge shaft side,

the 2 nd member has a 2 nd collision portion provided on the bearing hole side,

the two collision portions are configured in the following manner: the 1 st collision portion and the 2 nd collision portion collide with each other in a radial direction of the hinge shaft body or a direction parallel to the radial direction of the hinge shaft body in a 1 st angular range before the two members reach the closed position from the open position.

2. The hinge structure according to claim 1,

a 1 st projection is provided on one of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member,

the 1 st projection collides with a part of the other of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member in a 2 nd angular range before the two members reach the closed position from the open position,

the 1 st angular range and the 2 nd angular range at least partially overlap each other, and the force applied to the 2 nd member by the collision of the 1 st protrusion against the other one and the force applied to the 2 nd member by the collision of the 1 st collision portion and the 2 nd collision portion against each other include components that face in opposite directions to each other in a radial direction of the hinge shaft body or in a direction parallel to the radial direction of the hinge shaft body.

3. The hinge structure according to claim 2,

the 1 st collision part is arranged on the left and right of the hinge shaft side of the 1 st component,

the 2 nd collision part is provided on the right and left of the 2 nd member on the side of the bearing hole,

the 1 st protruding portion is provided between 2 of the 1 st collision portions, or between 2 of the 2 nd collision portions.

4. The hinge structure according to claim 2,

the 1 st protruding part is provided with 1 pair of left and right,

a part of the other of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member has a 2 nd protrusion part accommodated between the 1 st pair of left and right protrusion parts.

5. The hinge structure according to claim 2,

a tip end portion of the 1 st projection which collides with a portion of the other one of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member has a rounded chamfer or a straight chamfer.

6. The hinge structure according to any one of claims 1 to 5,

the hinge structure is a jig provided with a lock mechanism at a distal end portion with respect to the hinge shaft body and the bearing hole, the lock mechanism restricting the 1 st member and the 2 nd member from moving in the opening direction at the closed position,

the locking mechanism has: a locking portion provided on the 1 st member and protruding toward an opposite side of the hinge shaft body; and a 1 st locking claw extending from the 2 nd member main body in a closing direction and having a tip end portion protruding toward the bearing hole so as to be locked to the locking portion at the closing position,

one of the two collision portions has an undercut recess portion that accommodates the other of the two collision portions in a portion near the closed position.

7. The hinge structure according to claim 6,

the locking mechanism is provided with resilience and has a spring effect,

the undercut recess engages the other of the two impact portions in the closed position.

Technical Field

The application relates to a hinge structure with a hinge shaft body loosely embedded in a bearing hole.

Background

In the case of molding a jig having a hinge structure with a resin, a mold for a component having a hinge shaft body and a mold for a component having a bearing hole may be disposed in the same mold, and the mold may be manufactured by disposing a molding mold for the bearing hole portion so as to surround the molding mold for the hinge shaft portion, and molding the molding mold. In this case, since the member having the hinge shaft body and the member having the bearing hole are simultaneously molded by injecting resin from different inlets, a gap corresponding to the mold is generated between the hinge shaft body and the inner peripheral surface of the bearing hole. In this way, the hinge structure in which the hinge shaft body and the bearing hole are loosely fitted to each other is shaken.

For example, patent document 1 and patent document 2 describe the following jigs: the hinge structure is used for mounting pipes on the bottom of a vehicle and is provided with a hinge shaft body and a bearing hole which are loosely embedded. The cover members of these clamps, which are hingedly connected to the base member, are able to rotate between an open position and a closed position. In the clamp disclosed in patent document 1, when the clamp is in the closed position, the locking claw provided in the cover member is locked to the stopper provided in the base member, and thus the movement of the cover member in the opening direction is restricted, and the movement of the locking claw in the left-right direction (extending direction of the hinge shaft body) is restricted, thereby suppressing the rattling. In the clamp described in patent document 2, the hinge shaft body and the inner peripheral surface of the bearing hole are provided with projections and recesses that engage with each other in the closed position, thereby suppressing the play in the closed position.

Disclosure of Invention

[ technical problem to be solved by the invention ]

In the clamps described in patent documents 1 and 2, although the closed position, that is, the state in which the pipes are clamped, can be suppressed from shaking, shaking during rotation of the lid member cannot be suppressed. Therefore, the engaging end side of the cover member may be greatly displaced in the left-right direction during the rotation, and the cover member may be displaced from the normal position at the closed position, so that the engagement between the base member and the cover member may be incomplete. In this case, since the engagement between the base member and the cover member is easily released, a new work is required, which results in a reduction in efficiency of the work of attaching the pipes.

In view of the above problems, an object of the present invention is to suppress displacement and play of members to be hinged during rotation in a hinge structure in which a hinge shaft body is loosely fitted in a bearing hole.

[ technical means for solving problems ]

At least one embodiment of the present invention is a hinge structure (1) including: a 1 st member (3) having a hinge shaft body (16) extending in the left-right direction; and a 2 nd component (4) having a bearing hole (19) in clearance fit with the hinge shaft body, characterized in that the 1 st component has a 1 st collision part (20) provided on the hinge shaft body side, the 2 nd component has a 2 nd collision part (21) provided on the bearing hole side, and the two collision parts are configured in the following manner: the 1 st collision portion and the 2 nd collision portion collide with each other in a radial direction of the hinge shaft body or a direction parallel to the radial direction of the hinge shaft body in a 1 st angular range before the two members reach the closed position from the open position.

According to this configuration, even if the fitting relationship between the hinge shaft body and the bearing hole is loosened, the deviation or the rattling can be suppressed in the 1 st angle range, and the two members can be forcibly fitted to each other toward the closed position.

In addition to the above configuration, at least one embodiment of the present invention is characterized in that a 1 st projection (22) is provided on one of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member, the 1 st protrusion collides with a part of the other of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member in a 2 nd angular range before the two members reach the closed position from the open position, the 1 st angular range and the 2 nd angular range at least partially overlap, the force applied to the 2 nd member by the collision of the 1 st protrusion against the other member and the force applied to the 2 nd member by the collision of the 1 st collision portion and the 2 nd collision portion against each other include components that are directed in opposite directions to each other in a radial direction of the hinge shaft body or in a direction parallel to the radial direction of the hinge shaft body.

According to this configuration, even if the fitting relationship between the hinge shaft body and the bearing hole is loosened, the shift or the wobbling can be prevented within the predetermined angle range.

In at least one embodiment of the present invention, in the above configuration, the 1 st collision portions are provided on the left and right of the 1 st member on the hinge shaft side, the 2 nd collision portions are provided on the left and right of the 2 nd member on the bearing hole side, and the 1 st projection portion is provided between 2 of the 1 st collision portions or between 2 of the 2 nd collision portions.

According to this configuration, the 2 nd member is prevented from being inclined in the left-right direction with respect to the 1 st member within a predetermined range.

In addition to any one of the above-described configurations having the 1 st projection, at least one embodiment of the present invention is characterized in that the 1 st projection is provided in 1 pair on the left and right sides, and a part of the other of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member has a 2 nd projection accommodated between the 1 st projection and the 1 st projection on the left and right sides.

According to this structure, relative play in the left-right direction between the 1 st member and the 2 nd member is suppressed on the hinge portion side at the closed position and the vicinity thereof.

In addition to any of the above-described configurations having the 1 st projection, at least one embodiment of the present invention is characterized in that a tip portion (22a) of the 1 st projection, which comes into collision with a portion of the other of the hinge shaft side of the 1 st member and the bearing hole side of the 2 nd member, has a rounded or straight chamfer.

According to this structure, the relative rotation of the two members is guided without rattling along the rotation locus.

In addition to any one of the above configurations, at least one embodiment of the present invention is characterized in that the hinge structure is a jig (1) in which a lock mechanism (6) is provided at a distal end portion with respect to the hinge shaft body and the bearing hole, the lock mechanism (6) restricting movement of the 1 st member and the 2 nd member in the opening direction at the closed position, and the lock mechanism includes: a locking part (24) which is arranged on the 1 st component and is expanded to the opposite side of the hinge shaft body; and a 1 st locking claw (25) extending in a closing direction from the body (8) of the 2 nd member, and having a tip end portion (25a) that protrudes toward the bearing hole so as to be locked to the locking portion in the closed position, wherein one of the two collision portions has an undercut recess (31) that accommodates the other of the two collision portions in a vicinity of the closed position.

According to this configuration, when the distal end portion of the 1 st locking claw moves onto the locking portion immediately before reaching the closed position, the two members move in the front-rear direction (the direction along the extending direction of the 1 st member or the 2 nd member in the surface orthogonal to the hinge shaft body) relatively, but since the undercut (undercut) portion provided in one of the two collision portions partially receives the other of the two collision portions, the two collision portions do not interfere with the movement.

In at least one embodiment of the present invention, in addition to the above configuration, the lock mechanism has a resilient property, and the undercut portion locks the other of the two collision portions in the closed position.

The locking mechanism has resilience, and suppresses the relative displacement of the two members in the front-rear direction at the closed position, and the undercut portion locks the other of the two collision portions, thereby preventing the two members from being separated from each other on the hinge portion side.

[ Effect of the invention ]

According to the present invention, in the hinge structure in which the hinge shaft body and the bearing hole are loosely fitted, it is possible to suppress the components connected by the hinge from shifting or wobbling during the rotation.

Drawings

Fig. 1 is a perspective view of a clip to which a hinge structure according to an embodiment is applied in a closed position.

Fig. 2 is a perspective view of a clip to which the hinge structure according to the embodiment is applied in an open position.

Fig. 3 is a cross-sectional view of a cross section of the clamp to which the hinge structure according to the embodiment is applied, the cross section passing through the center of the hinge shaft body and being perpendicular to the hinge shaft body in the open position.

Fig. 4 (a) is a front view of the clip to which the hinge structure according to the embodiment is applied at an intermediate position 1, and (B) is an enlarged cross-sectional view of the hinge portion to which the clip to which the hinge structure according to the embodiment is applied at an intermediate position 1.

Fig. 5 (a) is a front view of the clip to which the hinge structure according to the embodiment is applied at an intermediate position 2, and (B) is an enlarged cross-sectional view of the hinge portion to which the clip to which the hinge structure according to the embodiment is applied at an intermediate position 2

Fig. 6 is a front view of a clamp to which the hinge structure according to the embodiment is applied, at a 3 rd intermediate position.

Fig. 7 is a front view of the clamp to which the hinge structure according to the embodiment is applied at the 4 th intermediate position.

Fig. 8 is a front view of a clip to which the hinge structure according to the embodiment is applied in a closed position.

Description of the reference numerals

1: a clamp (hinge structure); 3: a base member (1 st member); 4: a cover member (2 nd member); 5: a hinge portion; 6: a locking mechanism; 7: a base body; 8: a cover main body; 16: a hinge shaft body; 19: a bearing bore; 20: a 1 st collision part; 21: a 2 nd collision part; 22: the 1 st protrusion; 23: the 2 nd protrusion; 24: the 1 st locking part (locking part); 25: the 1 st blocking claw; 26: the 2 nd locking part; 27: the 2 nd clamping claw; 28: a retaining wall; 29: a 1 st groove; 30: a 2 nd groove; 31: an undercut recess.

Detailed Description

Next, a clip 1 to which a hinge structure according to an embodiment of the present invention is applied will be described with reference to the drawings.

Fig. 1 is a perspective view of a clip 1. The jig 1 is used to fix a pipe 2 or the like at the bottom of a vehicle or the like. The clip 1 includes a base member 3 fixed to a vehicle and a cover member 4 hinge-connected to the base member 3. The base member 3 and the cover member 4 have a hinge portion 5 that is hinged to each other at one end side, and a latch mechanism (latch mechanism)6 that is engaged with each other so as to restrict the rotation of each other at the other end side.

Fig. 2 shows an open position in which the end portion on the side of the lock mechanism 6 of the base member 3, the hinge portion 5, and the end portion on the side of the lock mechanism 6 of the cover member 4 are aligned substantially linearly, and fig. 1 shows a closed position in which the end portion on the side of the lock mechanism 6 of the base member 3 and the end portion on the side of the lock mechanism 6 of the cover member 4 are engaged with each other. The cover member 4 is rotatable from an open position to a closed position with respect to the base member 3 about the hinge portion 5 as an axis.

As shown in fig. 1 and 2, the base member 3 and the cover member 4 respectively have a base body 7 and a cover body 8 that cooperate with each other in the closed position to hold the tube 2. The base main body 7 has: a bottom wall 7a having a rectangular main surface parallel to the rotation axis of the hinge portion 5; and 4 side walls (a side wall 7b on the hinge portion 5 side, a side wall 7c on the locking mechanism 6 side, and 1 pair of side walls 7d, 7d extending in the front-rear direction (the direction in which the base member 3 or the cover member 4 extends within the surface orthogonal to the rotation axis of the hinge portion 5) extending from the respective sides of the bottom wall 7a in the closing direction (the direction in which the base member 3 and the cover member 4 rotate so as to approach each other). Also, the cap body 8 has: a bottom wall 8a having a rectangular main surface parallel to the rotation axis of the hinge portion 5; and 4 side walls (a side wall 8b on the hinge portion 5 side, a side wall 8c on the locking mechanism 6 side, and 1 pair of side walls 8d, 8d extending in the front-rear direction) extending from the respective sides of the bottom wall 8a in the closing direction. The length in the front-rear direction and the length in the left-right direction (direction parallel to the rotation axis of the hinge portion 5) in the bottom wall 7a of the base main body 7 and the bottom wall 8a of the cover main body 8 are substantially equal to each other.

The side wall 7d of the base body 7 extending in the front-rear direction and the side wall 8d of the cover body 8 extending in the front-rear direction are formed with W-shaped grooves 9 so as to cooperate at the closed position to form 2 rhombuses when viewed from the left-right direction. An elastic body 10 such as rubber is embedded in a space surrounded by the bottom wall 7a and the side walls 7b to 7d of the base main body 7, and similarly, an elastic body 10 such as rubber is embedded in a space surrounded by the bottom wall 8a and the side walls 8b to 8d of the cover main body 8 (in fig. 2, illustration of the elastic body 10 is omitted). Surfaces of the elastic bodies 10 and 10 embedded in the base body 7 and the cover body 8 that face each other in the closed position are W-shaped when viewed from the left-right direction so as to correspond to the shape of the side walls 7d and 8d, respectively. The base body 7 and the cap body 8 hold the two tubes 2 by the elastic bodies 10 attached thereto, respectively.

The base member 3 has a mounting portion 11, and the mounting portion 11 is fixed to the vehicle so as to protrude from the center of the bottom wall 7a of the base main body 7 to the opposite side of the side walls 7b to 7 d. As shown in fig. 4, the mounting portion 11 has: a disk-shaped contact portion 13 that contacts a mounted portion 32 of a vehicle with a sheet-shaped elastic body 12 interposed therebetween; and a mounting claw 14 that protrudes into a through hole 33 provided in the mounted portion 32 and is locked to the back surface of the mounted portion 32. The mounting claw 14 has 1 pair of cantilever-like elastic pieces 15, 15 whose tip ends are supported. When the mounting nail 14 is inserted into the through hole, the pair of 1 elastic pieces 15, 15 are pressed by the inner surface of the through hole and elastically deformed so that the free end sides approach each other, and when the mounting nail 14 passes through the through hole 33, the pair of 1 elastic pieces 15, 15 are restored and the free end sides are locked to the back surface of the mounted portion 32. In this state, the fixture 1 is fixed to the vehicle by the free end sides of the pair of elastic pieces 15, 15 of 1 and the disk-like abutting portion 13 of the elastic body 12 being sandwiched between the attached portions 32 in cooperation.

Reference is again made to fig. 1 and 2. The hinge portion 5 includes a hinge shaft 16 provided in the base member 3, and a pair of bearing portions 17 and 17 provided in the cover member 4 1. The hinge shaft body 16 is provided at an extending end of a coupling portion 18 extending in the front-rear direction from the side wall 7b of the base body 7 on the hinge portion 5 side, and both ends of the hinge shaft body 16 in the left-right direction protrude from the coupling portion 18 in the left-right direction. The position of the hinge shaft body 16 in the height direction (the direction orthogonal to the front-rear direction and the left-right direction) is substantially the same as the position of the distal end of the side wall 7 b. The pair of bearing portions 17 and 17 1 have bearing holes 19, and the bearing holes 19 extend obliquely in the front-rear direction from the side wall 8b of the cover main body 8 on the hinge portion 5 side so as to face each other in the left-right direction, and are respectively fitted with the end portions of the hinge shaft bodies 16 with a clearance. The position of the center of the bearing hole 19 in the height direction is substantially the same as the position of the tip end of the side wall 8 b. The hinge shaft body 16 is loosely fitted in the bearing hole 19, and thereby the base member 3 and the lid member 4 can be relatively rotated from the open position to the closed position with the hinge shaft body 16 as a rotation axis.

The base body 7 is provided with 1 st collision parts 20 at left and right positions of the side wall 7b on the hinge part 5 side, and the left and right bearing parts 17 are provided with 2 nd collision parts 21 bulging to the outside of the bearing hole 19. The 2 nd collision part 21 has a top part 21a, the top part 21a has a rounded or straight chamfer, and one end side of the top part 21a is a projection 21b projecting toward the end of the lock mechanism 6. The top portion 21a collides with the 1 st collision portion 20 and comes into sliding contact within a predetermined angle range before the base member 3 and the cover member 4 reach the closed position from the open position. The base member 3 has left and right 1- th protrusions 22 and 22 projecting in the closing direction from the center position of the coupling portion 18 in the left-right direction. The left-right 1-pair of first protrusions 22 and 22 have a plate shape in which main surfaces thereof face each other in the left-right direction. Each of the 1 st projections 22 has a tip portion 22a, and the tip portion 22a has a rounded or straight chamfer, and the tip portion 22a is in sliding contact with the tip portion of the side wall 8b on the hinge portion 5 side of the cover main body 8 within a predetermined angular range before the base member 3 and the cover member 4 reach the closed position from the open position.

The predetermined angular range in which the 1 st collision portion 20 and the 2 nd collision portion 21 are in sliding contact with each other and the predetermined angular range in which the 1 st protrusion portion 22 and the cover main body 8 are in sliding contact with each other overlap at least partially, and these predetermined angular ranges are located within a range in which the angle formed by the bottom wall 8a of the cover main body 8 and the bottom wall 7a of the base main body 7 is smaller than 90 °. In a section where these predetermined angular ranges overlap with each other, the lid member 4 receives the 1 st force from the base member 3 in the radial direction of the hinge shaft body 16 or the direction parallel to the radial direction of the hinge shaft body 16, that is, the direction from the lock mechanism 6 toward the hinge portion 5, via the 2 nd collision portion 21 of the bearing portion 17, and receives the 2 nd force from the 1 st projection portion 22 in the radial direction of the hinge shaft body 16 or the direction parallel to the radial direction of the hinge shaft body 16, that is, the direction from the hinge portion 5 toward the lock mechanism 6. The 2 nd force includes a component of force in a direction opposite to the radial direction of the hinge shaft body 16 or the direction parallel to the radial direction of the hinge shaft body 16 with respect to the 1 st force, and therefore, the lid member 4 does not shake in rotation with respect to the base member 3 in this section although the hinge shaft body 16 is in clearance fit with the bearing hole 19. In addition, the rounded or straight chamfers of the top portion 21a of the 2 nd collision portion 21 and the tip portion 22a of the 1 st protrusion 22 help guide the lid member 4 along the rotation locus without rattling in this section.

The lid member 4 is provided with a plate-like 2 nd projecting portion 23, and the plate-like 2 nd projecting portion 23 projects from the side wall 8b of the lid main body 8 on the hinge portion 5 side, and is accommodated between the 1 st pair of projecting portions 22, 22 at the closed position and the vicinity thereof. The width of the 2 nd protrusion 23 in the left-right direction is slightly smaller than the width of the 1 pair of 1 st protrusions 22, 22 in the left-right direction. In the closed position and the vicinity thereof, the 2 nd protrusion 23 is locked to the 1 st pair of protrusions 22, whereby the hinge portion 5 side of the cover member 4 is suppressed from being shaken with respect to the base member 3.

The lock mechanism 6 includes: a 1 st locking portion 24 provided on the side wall 7c of the base body 7 on the side of the locking mechanism 6; a 1 st locking claw 25 which extends from the cover main body 8 to the opposite side of the bearing portion 17, bends by 90 ° to extend in the closing direction, and is locked to the 1 st locking portion 24 at the closing position; a 2 nd locking part 26 provided on a surface opposite to the bearing part 17 in the middle of the 1 st locking claw 25; and a 2 nd locking claw 27 which extends from the base body 7 to the opposite side of the hinge shaft body 16, bends by 90 ° to extend in the closing direction, and is locked to the 2 nd locking portion 26 at the closing position.

The 1 st locking portion 24 is projected from the side wall 7c of the base body 7 on the side of the locking mechanism 6 toward the hinge shaft body 16, and a surface facing the bottom wall 7a is parallel to the main surface of the bottom wall 7a, and a distal end portion 25a of the 1 st locking claw 25 is locked to the surface. The first locking claw 25 of the 1 st locking claw 25 has a distal end portion 25a bulging toward the bearing portion 17, and a surface of the distal end portion 25a facing the bottom wall 8a of the cover main body 8 is parallel to the main surface of the bottom wall 8a, and is locked to the 1 st locking portion 24 at the closed position.

The 2 nd locking portion 26 is formed by a surface of a stepped portion that faces the bottom wall 8a side of the lid main body 8 and is parallel to the main surface of the bottom wall 8a of the lid main body 8, the stepped portion being provided on a surface of a portion of the 1 st locking claw 25 that extends in the closing direction, the surface being on the opposite side from the bearing portion 17 side. The tip end portion 27a of the 2 nd locking claw 27 is expanded toward the hinge shaft body 16, and the surface of the tip end portion 27a facing the bottom wall 7a side of the base main body 7 is parallel to the main surface of the bottom wall 7a, and is locked to the 2 nd locking portion 26 in the closed position.

In the closed position, the 1 st locking claw 25 and the 2 nd locking claw 27 are locked to the 1 st locking part 24 and the 2 nd locking part 26, respectively, whereby the movement of the cover member 4 in the opening direction with respect to the base member 3 is restricted. In addition, in the closed position, the 1 st locking claw 25 is sandwiched by the 1 st locking part 24 and the 2 nd locking claw 27, whereby the movement of the cover member 4 in the front-rear direction with respect to the base member 3 is restricted.

Further, the 1 st locking claw 25 is provided with a locking wall 28 which protrudes toward both the bearing portion 17 side and the opposite side to the bearing portion 17 side and is orthogonal to the left-right direction at the center in the left-right direction. The side wall 7c of the base body 7 on the side of the lock mechanism 6 is provided with a 1 st groove 29 for accommodating a portion of the locking wall 28 on the side of the bearing 17, and the 2 nd locking claw 27 is provided with a 2 nd groove 30 formed with a notch for accommodating a portion of the locking wall 28 on the opposite side to the bearing 17. The 1 st groove 29 and the 2 nd groove 30 are provided with inclined portions 29a, 30a, respectively, which narrow in width in the left-right direction as they approach the bottom wall 7a side of the base main body 7, at positions matching each other as viewed from the front-rear direction, so as to guide the locking wall 28 toward the center in the left-right direction as they approach the closed position. In the 1 st groove 29 and the 2 nd groove 30, the width in the left-right direction on the bottom wall 7a side of the base main body 7 with respect to the inclined portions 29a and 30a is a constant width slightly wider than the thickness of the locking wall 28, and the locking wall 28 is locked in the closed position, thereby suppressing the lock mechanism 6 side of the cover member 4 from wobbling in the left-right direction with respect to the base main body 7.

The distal end portion 25a of the 1 st locking claw 25 and the distal end portion 27a of the 2 nd locking claw 27 are tapered as viewed in the left-right direction. When the cover member 4 is rotated to the closed position with respect to the base member 3, the tip portion 25a of the 1 st locking claw 25 gets over the 1 st locking portion 24. When the tip end portion 25a of the 1 st locking claw 25 moves above the 1 st locking portion 24, the cover member 4 moves toward the locking mechanism 6. At this time, in order that the 2 nd collision part 21 does not interfere with the movement, the 1 st collision part 20 is provided with an undercut recess 31 that accommodates the projection 21b of the 2 nd collision part 21.

Further, the following may be configured: when the cover member 4 is pushed out toward the hinge portion 5 in the front-rear direction by the resiliency of the 2 nd locking claw 27 at the closed position by adjusting the front-rear direction position of the 1 st locking portion 24, the protrusion 21b is not completely disengaged from the undercut recess 31, and the tip end side of the protrusion 21b is accommodated in the undercut recess 31. In the case of such a configuration, in the closed position, even if the reaction force from the tube 2 sandwiched between the base main body 7 and the lid main body 8 acts in the direction of separating the hinge portion 5 sides of the base member 3 and the lid member 4 from each other, the protrusion 21b is caught by the undercut 31, and therefore, the hinge portion 5 sides of the base member 3 and the lid member 4 are prevented from moving away from each other. Therefore, the base main body 7 and the cover main body 8 are prevented from loosening the grip of the tube 2 on the hinge portion 5 side.

The base member 3 and the lid member 4 are made of resin except for the elastic bodies 10 and 12. The mold for the base member 3 having the hinge shaft 16 and the mold for the lid member 4 are disposed in the same mold to manufacture molds, and the molds are molded by injecting resin from different inlets. Accordingly, the resin portion in the jig 1 is molded in a state where the hinge shaft body 16 is clearance-fitted to the bearing hole 19.

Next, turning of the cover member 4 from the open position to the closed position with respect to the base member 3 will be described with reference to fig. 3 to 8.

As shown in fig. 3 (the elastic bodies 10 and 12 are not shown), in the open position, the angle formed by the front-rear direction of the cover member 4 with respect to the front-rear direction of the base member 3 is about 180 °.

Fig. 4 shows a 1 st intermediate position between the open position and the closed position, in which 1 st intermediate position the angle formed by the front-rear direction of the cover member 4 with respect to the front-rear direction of the base member 3 is about 30 °. Fig. 4 (a) is a front view of the jig 1, and fig. 4 (B) is an enlarged cross-sectional view of the hinge portion 5 in a cross section perpendicular to the hinge shaft body 16 and cutting the 1 st projection 22 on the front surface side. As shown in fig. 4 (a), when the cover member 4 is rotated from the open position to the closed position with respect to the base member 3, the 2 nd collision portion 21 starts to slide in contact with the 1 st collision portion 20 at the 1 st intermediate position, and therefore the cover member 4 receives a force from the base member 3 toward the right side in the drawing. Further, as shown in fig. 4 (B), at the 1 st intermediate position, the 1 st projecting portion 22 starts to come into sliding contact with the side wall 8B of the cover main body 8, and therefore the cover member 4 receives a force in the upper left direction of the drawing from the base member 3. These two forces include components opposite to each other in the front-rear direction of the cover member 4, and therefore, the cover member 4 is prevented from shaking or tilting in the left-right direction with respect to the base member 3. Further, since the 2 nd protrusion 23 is disposed between the 1 st to 1 st protrusions 22 and 22, the lateral displacement of the hinge portion 5 side in the cover member 4 with respect to the base member 3 is suppressed.

Fig. 5 shows a 2 nd intermediate position between the open position and the closed position, in which 2 nd intermediate position the angle formed by the front-rear direction of the cover member 4 with respect to the front-rear direction of the base member 3 is about 12 °. Fig. 5 (a) is a front view of the jig 1, and fig. 5 (B) is an enlarged cross-sectional view of the hinge portion 5 in a cross section perpendicular to the hinge shaft body 16 and cutting the 1 st projection 22 on the front surface side. Similarly to the 1 st intermediate position, the cap member 4 receives forces in opposite directions in the radial direction of the hinge shaft body 16 or in the direction parallel to the radial direction of the hinge shaft body 16 by the sliding contact of the 1 st collision part 20 and the 2 nd collision part 21 and the sliding contact of the 1 st protrusion part 22 with respect to the cap main body 8, and therefore the cap member 4 is prevented from being shaken or inclined in the right-left direction with respect to the base member 3, and the 2 nd protrusion part 23 and the 1 st protrusion parts 22 and 22 suppress lateral displacement of the hinge part 5 side in the cap member 4 with respect to the base member 3. Further, since the locking wall 28 enters the 2 nd groove 30 (see fig. 2), the locking mechanism 6 side of the cover member 4 is suppressed from being displaced laterally with respect to the base member 3.

Fig. 6 shows the 3 rd intermediate position further advanced in the closing direction than the 2 nd intermediate position. At this position, although the sliding contact section between the 1 st collision part 20 and the 2 nd collision part 21 and the sliding contact section of the 1 st projection part 22 with respect to the cover main body 8 are passed, the lateral displacement between the hinge part 5 side and the lock mechanism 6 side in the cover member 4 is suppressed by the 1 st pair of the 1 st projection parts 22, 22 and the 2 nd projection part 23 (see fig. 5), and the locking wall 28 and the 2 nd groove 30 (see fig. 2), respectively. Further, since the locking wall 28 is guided by the inclined portion 29a (see fig. 3) of the 1 st groove 29 and the inclined portion 30a (see fig. 2) of the 2 nd groove 30, the lateral displacement of the cover member 4 on the side of the locking mechanism 6 is corrected to be directed to the normal position.

Fig. 7 shows the 4 th intermediate position further advanced in the closing direction than the 3 rd intermediate position. At the 4 th intermediate position, the distal end portion 25a of the 1 st locking claw 25 moves to the 1 st locking portion 24, and therefore the cover member 4 moves to the left side in the figure. At this time, the projection 21b formed on one end side of the apex portion 21a of the 2 nd collision portion 21 is accommodated in the undercut recess 31 provided in the 1 st collision portion 20. Therefore, the projection 21b does not interfere with the movement of the lid member 4 at the 4 th intermediate position.

Fig. 8 shows the closed position. The cover member 4 is disposed on the right side of the figure with respect to the 4 th intermediate position by the engagement of the 1 st locking claw 25 with the 1 st locking portion 24. As described above, the tip portion of the projection 21b may be locked to the undercut recess 31 in the closed position.

The above description has been made of the specific embodiments, but the present invention is not limited to the above embodiments, and can be implemented by being widely modified. For example, the lid member may be provided with a hinge shaft body, and the base member may be provided with a bearing hole. Further, one of the sliding contact between the 1 st collision part and the 2 nd collision part and the sliding contact between the 1 st protrusion part and the base main body may be omitted. In this case, a force including a component in the opposite direction to the force generated in the cover member by the other is generated by the contact between the hinge shaft body and the bearing portion. Further, the 1 st projection may be provided on the base member, and the 2 nd projection may be provided on the lid member. It is also possible to provide an undercut in the 2 nd impingement portion, with the projection of the 1 st impingement portion being received in the undercut provided in the 2 nd impingement portion in the 4 th intermediate position.