JP2015148269A - Clamp tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a fixing action to be enhanced against an item having a plate-like part in an edge part of groove.SOLUTION: A clamp tool 10 comprises a base part 20, an inserting shaft part 24, a pair of hooks 26, and a pair of hook-closely drawing parts 28. The inserting shaft part 24 protrudes out of the base part 20. The pair of hooks 26 protrude in a direction opposing from the inserting shaft part 24. The pair of hook-closely drawing parts 28 protrude from the base part 20 in such a way that the hook-closely drawing parts face the paired hooks 26, respectively. The hook-closely drawing part 28 is used for drawing the hook 26 toward the plate-like part when the plate-like part is fitted between the facing hook 26 and itself. The clamp tool 10 is further provided with a protrusion part 32. The protrusion part 32 protrudes from the hooks 26 toward the protruding direction of the inserting shaft part 24 when viewed from the base part 20. The protrusion part 32 may be more easily and resiliently deformed than the inserting shaft part 24 as to the protruding direction of the inserting shaft part 24 when viewed from the base part 20.

Description

  The present invention relates to a clamp device.

  Patent Document 1 and Patent Document 2 disclose cable wire-shaping members. The cable straightening member is attached to a frame in the casing so as to collectively hold the cables in the casing. This cable straightening member has a fixed side and a rotation fixing part protruding from the fixed side. The rotation fixing portion is rotated and fixed after being inserted along a U-shaped slide groove formed in the frame. The rotation fixing portion is fixed by sandwiching the plate-like portion of the slide groove together with the fixing side.

  According to the inventions disclosed in Patent Document 1 and Patent Document 2, it is possible to facilitate the work of attaching the frame to the slide groove and to easily change the position after the attachment.

JP 2013-115164 A JP 2013-115165 A

  However, the cable wire-shaping members disclosed in Patent Document 1 and Patent Document 2 have a problem that the fixing to the plate-like portion may be insufficient.

  The objective of this invention is providing the clamp tool which can strengthen fixation to what has a plate-shaped part in the edge among the groove | channels.

  The present invention will be described with reference to the drawings. The reason why the symbols in the figure are used in this column is to help understand the content of the invention. The use of the symbols in the figure in this column is not intended to limit the scope of the invention to the scope shown.

  In order to achieve the above object, according to an aspect of the present invention, the clamp device 10 includes a base portion 20, an insertion shaft portion 24, a pair of hook portions 26, and a pair of hook attracting portions 28. The insertion shaft portion 24 is for being inserted into the groove 210 where the plate-like portion 220 protrudes from the edge. The insertion shaft portion 24 protrudes from the base portion 20. The hook portion 26 is inserted into the groove 210 together with the insertion shaft portion 24 and is hooked on the plate-like portion 220. The pair of hook portions 26 protrude from the insertion shaft portion 24 in opposite directions. The pair of hook attracting portions 28 protrude from the base portion 20 so as to face the hook portions 26, respectively. The hooking and pulling portion 28 is for pulling the hooking portion 26 to the plate-like portion 220 when the plate-like portion 220 is fitted between the hooking portions 26 facing each other. The clamp tool 10 further includes a protrusion 32. The protruding portion 32 protrudes from either the hook portion 26 or the insertion shaft portion 24 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The protruding portion 32 is more easily elastically deformed than the inserting shaft portion 24 in the protruding direction of the inserting shaft portion 24 as viewed from the base portion 20.

  Since the protruding portion 32 protrudes from either the hooking portion 26 or the inserting shaft portion 24 toward the protruding direction of the inserting shaft portion 24 as viewed from the base portion 20, the inserting shaft portion 24 and the hooking portion 26 form the groove 210. The protrusion 32 faces the bottom of the groove 210. Depending on the depth of the groove 210, the protrusion 32 is pressed against the groove bottom 232 of the groove 210 as the insertion shaft portion 24 and the hook portion 26 are inserted into the groove 210. Since the protruding portion 32 is more elastically deformed than the inserting shaft portion 24 in the protruding direction of the inserting shaft portion 24 as viewed from the base portion 20, the protruding portion 32 is less than the inserting shaft portion 24 when pressed against the bottom of the groove 210. Is also elastically deformed. The elastically deformed protrusion 32 presses the hooking portion 26 against the plate-like portion 220. When the distance between the hooking portion 26 and the hooking and drawing portion 28 is narrower than the thickness of the plate-like portion 220, the plate-like portion 220 is fitted between the hooking and drawing portion 28 and the hooking portion 26 facing the hooking portion 28. The hook attracting portion 28 is elastically deformed. The hook portion 28 that has been elastically deformed pulls the hook portion 26 toward the plate-like portion 220. As a result, the hooking portion 26 comes into stronger contact with the plate-like portion 220 than when the protruding portion 32 does not press the hooking portion 26 against the plate-like portion 220. As a result, the fixing of the groove 210 having the plate-like portion 220 at the edge thereof can be strengthened.

  Moreover, it is desirable that the protrusion 32 described above includes a pair of support portions 60 and a leaf spring portion 62. The pair of support portions 60 protrude from the pair of hook portions 26, respectively. Both ends of the leaf spring part 62 are connected to the pair of support parts 60. The leaf spring portion 62 protrudes in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The leaf spring portion 62 is more elastically deformed than the insertion shaft portion 24 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20.

  Since the leaf spring portion 62 is more elastically deformed than the insertion shaft portion 24 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20, the leaf spring portion 62 is inserted into the insertion shaft portion when pressed against the bottom of the groove 210. The elastic deformation is greater than 24. The elastically deformed leaf spring portion 62 presses the hook portion 26 against the plate-like portion 220. At that time, since the pair of support portions 60 protrude from the pair of hook portions 26 and both ends of the leaf spring portion 62 are connected to the pair of support portions 60, the leaf spring portion 62 connects the hook portion 26 to the plate-like portion. The force pressed against 220 is transmitted to the hooking portion 26 via the support portion 60. Thereby, the deflection of the hooking portion 26 can be suppressed as compared with the case where the force by which the leaf spring portion 62 presses the hooking portion 26 against the plate-like portion 220 is transmitted to the hooking portion 26 via the insertion shaft portion 24. When the deflection of the hooking portion 26 is suppressed, the hooking portion 26 comes into strong contact with the plate-like portion 220 as compared with the case where the deflection is not suppressed.

  Alternatively, it is desirable that the plate spring portion 62 described above has a pair of thin plate portions 70 and 70 and a thick plate portion 72. The thin plate portions 70 are fixed to the pair of support portions 60, respectively. Both ends of the thick plate portion 72 are fixed to the pair of thin plate portions 70, 70. The thick plate portion 72 is curved so as to protrude in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The thick plate portion 72 is thicker than the thin plate portions 70 and 70 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20.

  The thick plate portion 72 is thicker than the thin plate portions 70 and 70 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. Since the thickness of the thick plate portion 72 is thicker than that of the thin plate portions 70, 70, the thin plate portion 70, 70 bends better than the thick plate portion 72 when the leaf spring portion 62 is pressed against the bottom of the groove 210 and elastically deforms. . The thin plate portions 70 are fixed to the pair of support portions 60, respectively. Since such thin plate portions 70, 70 bend better than the thick plate portion 72, the hook portion 26 is described above in the direction of sliding on the plate-like portion 220 as compared with the case where the thickness of the leaf spring portion 62 is uniform. The dispersion of the force is suppressed. Since the dispersion of the force is suppressed, the hook portion 26 comes into strong contact with the plate-like portion 220 as compared with the case where the dispersion is not suppressed.

  Moreover, it is desirable that the protrusion 32 described above further includes a sprung protrusion 64. The sprung protrusion 64 protrudes from the leaf spring portion 62 toward the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20.

  Comparing the case where the protrusion 32 having the sprung protrusion 64 and the protrusion 32 having no sprung protrusion 64 are inserted into the groove 210 having the same shape, the protrusion 32 having the sprung protrusion 64 is Compared with the protrusion 32 which does not have the upper protrusion 64, it is elastically deformed greatly. Since the protrusion 32 having the sprung protrusion 64 is greatly elastically deformed, the hooking portion 26 comes into stronger contact with the plate-like part 220 than the protrusion 32 having no sprung protrusion 64.

  According to the clamping tool concerning this invention, fixation to what has a plate-shaped part in the edge among the groove | channels can be strengthened.

It is a perspective view of the clamp tool concerning one embodiment of the present invention. It is a front view of the clamp tool concerning one embodiment of the present invention. It is a side view of the clamp tool concerning one embodiment of the present invention. It is a figure which shows the condition where the insertion shaft part, hook part, and protrusion part of the clamp tool concerning one Embodiment of this invention were inserted in the groove | channel of the aluminum frame. It is a figure which shows the condition where the clamp tool concerning one Embodiment of this invention was twisted. FIG. 6 is a side view of FIG. 5.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

[Configuration of clamp tool]
FIG. 1 is a perspective view of a clamp tool 10 according to the present embodiment. FIG. 2 is a front view of the clamp tool 10 according to the present embodiment. FIG. 3 is a side view of the clamp tool 10 according to the present embodiment. The configuration of the clamp tool 10 according to the present embodiment will be described with reference to FIGS. 1 to 3.

  The clamp tool 10 according to the present embodiment includes a base part 20, a binding material attaching part 22, an insertion shaft part 24, a pair of hooking parts 26, a pair of hooking and attracting parts 28, a rotation stopping protrusion 30, And a protrusion 32. In the case of this embodiment, the base part 20, the binding material attaching part 22, the insertion shaft part 24, the pair of hooking parts 26, the pair of hooking and attracting parts 28, the anti-rotation protrusion 30, and the protruding part 32 are integrated. . The clamp tool 10 according to the present embodiment is made of synthetic resin. The clamp tool 10 according to the present embodiment is manufactured by injection molding. The base portion 20 serves as a base for the binding material attaching portion 22, the insertion shaft portion 24, the hook portion 26, the hook attracting portion 28, the rotation stop protrusion 30, and the protruding portion 32. The binding material attaching portion 22 is provided on any surface of the base portion 20. In the following description, the surface of the base portion 20 on which the binding material attaching portion 22 is provided is regarded as the reference surface 90 of the base portion 20. A known band is attached to the binding material attaching portion 22. The insertion shaft portion 24 protrudes from the back surface 92 (the back surface viewed from the reference surface 90) of the base portion 20. The hook portion 26 protrudes from the insertion shaft portion 24. In the case of this embodiment, a pair of hook part 26 protrudes in the opposite direction. In the present embodiment, the protruding direction of the pair of hook portions 26 is orthogonal to the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The hook attracting portion 28 is provided on the outer surface of the base portion 20 (the outer surface viewed from the reference surface 90). The hook attracting portion 28 protrudes from the outer surface of the base portion 20. The hook attracting portion 28 faces the hook portion 26. The hook attracting portion 28 becomes narrower as it approaches the tip. The front end portion of the hook attracting portion 28 is a curved surface. The anti-rotation protrusion 30 is provided on the back surface 92 of the base portion 20. As is clear from FIG. 1, the rotation stop protrusion 30 is disposed on the back surface 92 of the base portion 20. The direction in which the rotation stop projection 30 is disposed as viewed from the insertion shaft portion 24 is different from the protruding direction of the hook portion 26 as viewed from the insertion shaft portion 24. The protruding portion 32 protrudes from the hooking portion 26 toward the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The protruding portion 32 is more easily elastically deformed than the inserting shaft portion 24 in the protruding direction of the inserting shaft portion 24 as viewed from the base portion 20.

[Configuration of binding material mounting part]
The configuration of the binding material attaching portion 22 will be described with reference to FIGS. 1 to 3. The binding material mounting portion 22 includes a pair of support columns 50, a roof portion 52, and a pair of lever portions 54. The support 50 is directly connected to the reference surface 90 of the base portion 20. The support columns 50 face each other. The above-described known band penetrates between the columns 50. The roof portion 52 straddles the tips of the pair of columns 50. In the case of this embodiment, the lever portion 54 protrudes from the support column 50. However, in the present embodiment, the base of the lever portion 54 extends to the roof portion 52. The lever portion 54 protrudes in a direction different from the protruding direction of the column 50 (in this embodiment, a direction orthogonal to the protruding direction of the column 50).

[Configuration of protrusions]
The configuration of the protruding portion 32 will be described with reference to FIGS. 1 to 3. The protruding portion 32 includes a pair of support portions 60, a leaf spring portion 62, and a sprung protrusion 64. In the case of this embodiment, the support part 60 protrudes from each hook part 26. Both ends of the leaf spring part 62 are connected to the pair of support parts 60. The leaf spring portion 62 protrudes in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The leaf spring portion 62 is more elastically deformed than the insertion shaft portion 24 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The leaf spring portion 62 is curved so as to protrude in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The sprung protrusion 64 protrudes from the center of the leaf spring portion 62 toward the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20.

  The leaf spring portion 62 has a pair of thin plate portions 70, 70 and a thick plate portion 72. The thin plate portions 70 are fixed to the pair of support portions 60, respectively. Both ends of the thick plate portion 72 are fixed to the thin plate portions 70, 70. The thick plate portion 72 is curved so as to protrude in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20. The thickness of the thick plate portion 72 in the protruding direction of the insertion shaft portion 24 as viewed from the base portion 20 is thicker than that of the thin plate portions 70 and 70.

[How to use the clamp]
Hereinafter, the usage method of the clamp tool 10 concerning this embodiment in the case of connecting the aluminum frame 200 and the bundle | flux of the electric wire which is not shown in figure is demonstrated.

  First, the operator inserts the insertion shaft portion 24, the hook portion 26, and the protruding portion 32 of the clamp tool 10 into the groove 210 of the aluminum frame 200. FIG. 4 is a diagram illustrating a state in which the insertion shaft portion 24, the hook portion 26, and the protruding portion 32 of the clamp tool 10 are inserted into the groove 210 of the aluminum frame 200. A plate-like portion 220 protrudes from the edge of the groove 210. As shown in FIG. 4, when the insertion shaft portion 24, the hook portion 26, and the protruding portion 32 of the clamp tool 10 are inserted into the groove 210 of the aluminum frame 200, the hook attracting portion 28 spans the groove 210. . As a result, the front end portion of the hook attracting portion 28 is disposed between the plate-like portions 220. The base portion of the hook attracting portion 28 and the base portion 20 are placed on the plate-like portion 220 of the aluminum frame 200. The rotation stopper protrusion 30 is placed on the plate-like portion 220.

  When the insertion shaft portion 24, the hook portion 26, and the protruding portion 32 are inserted into the groove 210, the operator slightly pushes the clamp tool 10 toward the bottom of the groove 210. Further, the operator applies a finger to the lever portion 54 and twists the clamp tool 10. FIG. 5 is a diagram illustrating a state in which the clamp tool 10 is twisted. FIG. 6 is a side view of the aluminum frame 200 and the clamp 10 at this time as viewed from the central axis direction of the aluminum frame 200. As a result of being twisted and pushed in, the tip portion and the other portion of the hooking portion 28 facing the groove bottom 232 of the groove 210 ride on the plate-like portion 220. In other words, the plate-like portion 220 is fitted between the hook attracting portion 28 and the hook portion 26 facing the hook attracting portion 28. Along with this, the pulling and drawing section 28 bends. The bent hook attracting portion 28 pulls the hook portion 26 toward the back surface 230 of the plate-like portion 220. Further, the protrusion 32 is pressed against the groove bottom 232 of the groove 210. Along with being pressed against the groove bottom 232 of the groove 210, the leaf spring portion 62 of the protruding portion 32 is elastically deformed. Since the leaf spring portion 62 is more easily elastically deformed than the insertion shaft portion 24, the leaf spring portion 62 bends better than the insertion shaft portion 24. The thin plate portions 70 of the leaf spring portion 62 are particularly bent. The thick plate portion 72 is also bent. The hooking portion 26 is strongly pressed against the back surface 230 of the plate-like portion 220 by bending with the leaf spring portion 62. Thereby, the movement along the groove | channel 210 of the clamp tool 10 is suppressed. When the clamp 10 is twisted, the rotation stop projection 30 is fitted into the groove 210 of the aluminum frame 200. The clamp 10 that has been twisted by fitting the rotation stop protrusion 30 into the groove 210 does not return to its original orientation.

  In this state, the operator causes a known band to penetrate the binding material attaching portion 22 of the clamp tool 10. When the band penetrates, the operator binds a bundle of wires with the band. Thereby, the aluminum frame 200 and a bundle of electric wires (not shown) are connected.

[Effect of the clamp according to this embodiment]
As described above, according to the clamp tool 10 according to the present embodiment, the aluminum frame 200 and a bundle of electric wires (not shown) can be connected. In addition, according to the clamp tool 10 according to the present embodiment, the protrusion 32 is formed in the groove bottom when the insertion shaft portion 24 and the hook portion 26 are inserted into the groove 210 having the plate-like portion 220 at the edge thereof. The fixing to what is pressed against 232 can be strengthened.

  According to the clamp 10 according to the present embodiment, the force by which the leaf spring portion 62 presses the hook portion 26 against the plate-like portion 220 is transmitted to the hook portion 26 via the support portion 60. Thereby, the deflection of the hooking portion 26 can be suppressed as compared with the case where the force by which the leaf spring portion 62 presses the hooking portion 26 against the plate-like portion 220 is transmitted to the hooking portion 26 via the insertion shaft portion 24. When the hooking portion 26 bends, the force applied by the leaf spring portion 62 to the hooking portion 26 is the force pressing the hooking portion 26 against the plate-like portion 220 and the force causing the hooking portion 26 to slide on the back surface 230 of the plate-like portion 220. And divided. When the force is divided in this way, the force to press the hooking portion 26 against the plate-like portion 220 becomes smaller as the sliding force becomes larger. The more the deflection of the hook portion 26 is suppressed, the smaller the sliding force becomes. The force for pressing the hooking portion 26 against the plate-like portion 220 is increased. As a result, when the deflection of the hooking portion 26 is suppressed, the hooking portion 26 comes into strong contact with the plate-like portion 220 as compared with the case where the deflection is not suppressed.

  According to the clamp tool 10 according to the present embodiment, the hooking portion 26 has a force by which the leaf spring portion 62 presses the hooking portion 26 against the plate-like portion 220 as compared with the case where the thickness of the leaf spring portion 62 is uniform. Can be prevented from being dispersed in the direction of sliding on the plate-like portion 220. This is because the thin plate portions 70 and 70 bend better than the thick plate portion 72. Since the dispersion of the force in the direction in which the hooking portion 26 slides on the plate-like portion 220 is suppressed, the hooking portion 26 comes into strong contact with the plate-like portion 220 as compared with the case where the dispersion is not suppressed.

  According to the clamp tool 10 according to the present embodiment, the hooking portion 26 strongly contacts the plate-like portion 220 as compared with the protruding portion 32 that does not have the sprung protrusion 64.

  According to the clamp tool 10 according to the present embodiment, when the hooking portion 26 inserted into the groove 210 is directed in a direction to be hooked on the plate-like portion 220, the hooking and attracting portion 28 rides on the plate-like portion 220. At that time, since the front end portion of the hooking / drawing portion 28 has a curved surface, it is possible to reduce the resistance to ride on the hooking / drawing portion 28 as compared to the case where the front end portion of the hooking / drawing portion 28 does not have a curved surface.

  According to the clamp tool 10 according to the present embodiment, when a force is applied to the lever portion 54, the hook portion 26 can be easily directed in a direction in which the hook portion 26 can be hooked on the plate-like portion 220.

[Description of modification]
The embodiments disclosed herein are illustrative in all respects. The scope of the present invention is not limited based on the above-described embodiment. Of course, various design changes may be made without departing from the spirit of the present invention.

  For example, the clamp tool 10 is not limited to one made of resin. The clamp tool 10 may be one in which each part constituting it is manufactured separately and connected to each other.

  The structure of the binding material attaching portion 22 is not particularly limited. For example, the clamp according to the present invention may be provided with a hook on which a band is hooked instead of the pair of support columns 50, the roof portion 52, and the pair of lever portions 54 described above.

  The base of the lever portion 54 may not extend to the roof portion 52. The lever portion 54 may protrude from the roof portion 52. The lever portion 54 may not be provided. In the clamp tool 10 described above, the protruding direction of the lever portion 54 and the protruding direction of the hooking portion 26 are parallel, but each lever portion 54 and the hooking portion 26 may be three-dimensionally crossed. That is, the protruding direction of the lever portion 54 is not limited to that described above. For example, the lever part 54 may protrude in the left-right direction in FIG. When the clamp device according to the present invention is attached to the aluminum frame 200, the entire lever portion 54 is closer to the rotation shaft than the outer edge of the base portion 20 when viewed from the direction of the rotation axis of the clamp device according to the present invention. Also good. Thereby, compared with the case where it is not so, when the clamp tool concerning this invention is attached to the aluminum frame 200, possibility that the lever part 54 will contact the thing along the aluminum frame 200 with rotation of a clamp tool becomes low.

  The specific form of the rotation stop protrusion 30 is not particularly limited. For example, the rotation stop protrusion 30 may be hemispherical. The number of rotation stopper protrusions 30 is not particularly limited.

  The form of the protrusion part 32 is not limited to what was mentioned above. For example, the thick plate portion 72 may be bent instead of being curved. The plate spring portion 62 may be a plate-like portion having a uniform thickness. The protruding portion 32 may have a coil spring-like portion protruding from the insertion shaft portion 24 instead of the pair of support portions 60 and the leaf spring portion 62. The protrusion 32 may not have the sprung protrusion 64.

10 ... Clamp tool,
20 ... base part,
22 ... Binder attachment part,
24 ... Insertion shaft part,
26 ... Hook part,
28 ... Hook-in part,
30: Anti-rotation protrusion,
32 ... protruding part,
40: Band holding part,
42 ... concave,
50 ... posts,
52 ... Roof,
54 ... Lever part,
60 ... support part,
62 ... leaf spring part,
64 ... sprung protrusion,
70 ... thin plate part,
72 ... thick plate part,
90 ... reference plane,
92 ... the back side,
200 ... Aluminum frame,
210 ... groove,
220 ... a plate-shaped part,
230 ... the back,
232 ... groove bottom,

Claims (4)

A base part;
An insertion shaft portion that protrudes from the base portion, and is inserted into a groove in which a plate-like portion protrudes from an edge;
A pair of hooking portions that are inserted into the groove together with the insertion shaft portion and hooked on the plate-like portion, and project in opposite directions from the insertion shaft portion;
A pair of protrusions projecting from the base portion so as to face each of the hook portions, and for pulling the hook portion to the plate portion when the plate portion is fitted between the hook portions facing each other. A clamping device comprising a hooking portion,
From the insertion shaft portion, the projection direction of the insertion shaft portion seen from the base portion projects from either the hooking portion or the insertion shaft portion toward the projection direction of the insertion shaft portion seen from the base portion. A clamp device, further comprising a protrusion that is easily elastically deformed. The protrusion is
A pair of support portions respectively protruding from the pair of hook portions;
Both ends are connected to the pair of support portions, and project toward the projecting direction of the insertion shaft portion viewed from the base portion, with respect to the projecting direction of the insertion shaft portion viewed from the base portion, than the insertion shaft portion. The clamp device according to claim 1, further comprising a leaf spring portion that is easily elastically deformed. The leaf spring portion is
A pair of thin plate portions respectively fixed to the pair of support portions;
Both ends are fixed to the pair of thin plate portions, curved so as to protrude toward the protruding direction of the insertion shaft portion as viewed from the base portion, and the thickness of the insertion shaft portion in the protruding direction as viewed from the base portion is The clamp device according to claim 2, further comprising a thick plate portion thicker than the thin plate portion.   The clamp tool according to claim 2, wherein the protruding portion further includes a sprung protrusion that protrudes from the leaf spring portion toward a protruding direction of the insertion shaft portion as viewed from the base portion.

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