JP7185246B1 - short-circuit grounding device - Google Patents

Abstract

A short-circuit grounding tool is provided which further reduces the possibility of blowing off when a short-circuit current flows down and further improves workability. A short-circuit grounding device has three clips (2). Each clip 2 includes a clamping portion P for clamping an object to be clamped, and a grip portion G for opening and closing the clamping portion P. As shown in FIG. The clamping portion P is a combination of the hook portion 20 extending in the same direction as the clamping direction, the 1-1 recess portion 21 and the 2-1 recess portion 31, and matches the outer shape of the clamp object (electric wire). , a first set of depressions D1, a combination of the first-second depressions 22 and the second-second depressions 32, and a second depression that matches the outer shape of the object to be clamped (bolt or nut) and a set D2. [Selection drawing] Fig. 2

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a short-circuiting/grounding device for preventing electric shock to workers during inspection of power receiving equipment.

Claim 1, [0009] and FIG. 1 of Japanese Utility Model Laid-Open No. 5-61958 (Patent Document 1) disclose a short-circuit grounding device having three high-voltage wire clips 2 .
Each high-voltage wire clip 2 has a clip portion 24 for gripping (nipping) the wire line 1 . The electric wire gripping surface 21 of each clip portion 24 is composed of a plurality of gently uneven curved surfaces. Furthermore, the clip portion 24 has a hook 22 on one end and a projection 23 shorter than the hook 22 on the other end.

Japanese Utility Model Laid-Open No. 5-61958

In the above short-circuiting/grounding device, as described in [0007] and [0011], the electric wire gripping surface 2 is composed of a plurality of gently uneven curved surfaces, so that the electric wire 1 is reliably held over a wide area. and the hook 22 is engaged with the upper end of the electric line 1, thereby preventing the clip portion 24 from being detached.
However, in the above short-circuit-grounding device, there is a possibility that, depending on the magnitude of the short-circuit current, the short-circuit current may blow off due to the electromagnetic repulsive force of the short-circuit current.
In order to further reduce the possibility of such blowing away, when the biasing force of the spring that biases each high-voltage wire clip 2 toward the clamping side of the wire-holding surface 21 is increased, the operator grips each high-voltage wire clip 2. A large force is required to open the electric wire gripping surface 21, and workability deteriorates.

SUMMARY OF THE INVENTION Accordingly, one of the main objects of the present invention is to provide a short-circuit grounding device that is less likely to blow off when a short-circuit current flows.
Another main object of the present invention is to provide a short-circuit/grounding device with improved workability.

This specification discloses a short circuit grounding device. This short-circuit grounding device has a clip. The clip includes a clamping portion that clamps an object to be clamped, and a grip portion that opens and closes the clamping portion. The clamping portion may have a hook portion extending in the same direction as the clamping direction. The clamping portion is a combination of recesses and may comprise multiple sets of recesses that match the contour of the object to be clamped.

One of the main advantages of the present invention is to provide a short-circuit grounding fixture that is less likely to blow off when a short-circuit current flows down.
Another main effect of the present invention is to provide a short-circuit/grounding device with improved workability.

FIG. 2 illustrates a short-circuit grounding device according to an embodiment of the present invention; Figure 2 shows one clip in Figure 1; 3 is a right side view of FIG. 2; FIG. 3 is an enlarged view of the tip portion of FIG. 2; FIG. FIG. 3 is a view when the tip portion is opened to the maximum from the state of FIG. 2; FIG. 6 is an enlarged view of the tip portion of FIG. 5; FIG. 2 shows one clip in the short-circuiting and grounding device according to a modification of FIG. 1;

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention and modifications thereof will be described below with reference to the drawings as appropriate.
The present invention is not limited to the following forms and modifications.

FIG. 1 is a diagram showing a short-circuiting/grounding device 1 of this form.
For example, when the high-voltage line is opened and the high-voltage line and equipment connected thereto are inspected, tested, or repaired, the short-circuiting/grounding device 1 prevents erroneous energization from the high-voltage line and the high-voltage line. It is used to suppress the occurrence of electric shock due to contact with the road and induction from the high voltage line.
A short-circuit grounding device 1 has three clips 2 , a grounding clip 4 , a cord portion 6 and a connecting portion 8 .

The three clips 2 sandwich the pinched object. An object to be clamped by ^each clip 2 is an object to be short-circuited and grounded, for example, a high-voltage line ^. At least one of a plate-shaped terminal, bushing, nut, bolt, and crimp terminal.
Since the three clips 2 are similar, one clip 2 will be described below unless otherwise specified.
FIG. 2 is a diagram showing one clip. 3 is a right side view of FIG. 2. FIG. 4 is an enlarged view of the tip portion of FIG. 2. FIG.
The clip 2 has a first clamping body 11, a second clamping body 12, a shaft 14, and a spring 16 as an example of an elastic body.
Both the first clamping body 11 and the second clamping body 12 are bar-shaped as a whole, and are arranged in a state facing the same direction. In the following, from the viewpoint of simplification of explanation, the end closer to the cord portion 6 is defined as the proximal end, the lower side of FIG. 2 is the leading end side, the side where the first clamping body 11 is arranged is the left side as shown in FIG. 2, and the side where the second clamping body 12 is arranged is the right side as shown in FIG. do. It should be noted that the orientation of the short-circuiting/grounding device 1 may change depending on the operating conditions of the various members and parts and/or the working conditions.

The first holding member 11 is made of an aluminum alloy. The material of the first clamping body 11 is preferably at least one of AC7A and AC4C from the viewpoint of achieving sufficient strength and further reducing the weight. The material of the first clamping body 11 may be metal other than aluminum alloy, or may be other than metal.
The first holding body 11 includes, in order from the tip, a hook portion 20, a 1-1 recess portion 21, a 1-2 recess portion 22, a first bent portion 24, a first joint portion 25, and a second It has a first spring receiving portion 26 , a first protrusion 27 and a first grip portion 28 .

The hook portion 20 is arranged at the tip portion of the first holding member 11 . The hook portion 20 protrudes to the right (toward the second clamping body 12) with respect to its proximal end side, and is adjacent to the distal end portion of the second clamping body 12 on its distal end side.

The 1-1 recessed portion 21 is arranged at the right end portion of the first clamping body 11 and is adjacent to the hook portion 20 on the proximal end side. The 1-1 recessed portion 21 is recessed leftward with respect to the portion between the hook portion 20 and the portion on the proximal end side. The surface forming the 1-1 recessed portion 21 is convex to the left and forms part of a cylindrical surface.

The 1-2 recessed portion 22 is arranged at the right end portion of the first clamping body 11 and is adjacent to the 1-1 recessed portion 21 on the proximal end side. The 1-2 recessed portion 22 is recessed leftward with respect to the portion between the 1-1 recessed portion 21 and the portion on the proximal side. The surface forming the 1-2 recessed portion 22 is convex to the left and corresponds to two adjacent side surfaces of the hexagonal column.

The first bent portion 24 is arranged on the base end side of the 1-2 recessed portion 22 . The first bent portion 24 is bent such that the portion on the distal end side is raised forward in the direction perpendicular to the paper surface of FIG.

The first assembly portion 25 is arranged in the center right portion of the first clamping body 11 and is arranged closer to the proximal end than the first bent portion 24 . The first assembly 25 bulges in a "b" shape at two locations (the location shown in FIG. 2 and the location on the back side thereof) with respect to the surrounding portion.
The lower right portion of the first group portion 25 forms a bifurcated portion 25T that extends rightward from the left portion as a root and extends from the front and the back to the right. Through-holes extending in the front-to-back direction are provided in the front and back center portions of the bifurcated portion 25T.

The first spring receiving portion 26 is arranged in the central portion of the first clamping body 11 and is arranged to the left of the bifurcated portion 25T. The first spring receiving portion 26 has a cylindrical shape with a bottom when viewed from the right.

The first protrusion 27 protrudes leftward from the left surface of the first spring receiving portion 26 . The lower surface of the first protrusion 27 is a curved surface convex to the right or upper right. In addition, the lower surface of the first protrusion 27 may be a surface other than a curved surface convex to the right or upper right. Also, the first protrusion 27 may be omitted.
The first grip portion 28 is arranged from the central portion to the base end portion of the first holding body 11 . The left surface, the right surface, and the virtual center axis of the first grip portion 28 are all convex to the right or lower right. At least one of the left surface, the right surface, and the virtual central axis of the first grip portion 28 may not be convex to the right or to the lower right.
From the lower surface of the first protrusion 27 to the left surface of the first grip portion 28, a smooth curved surface convex to the right is formed.

The second clamping body 12 is made of an aluminum alloy like the first clamping body 11 . The weight of one clip 2 including the first clamping body 11 and the second clamping body 12 is light while maintaining sufficient strength compared to the weight of a conventional copper alloy clip of about 0.6 kg (kg). From the viewpoint of reducing weight, the weight is preferably 0.18 kg or more and 0.22 kg or less, and more preferably 0.19 kg or more and 0.21 kg or less. The material of the second holding member 12 may be a metal other than an aluminum alloy, may be other than metal, or may be different from the material of the first holding member 11 .
The second holding body 12 is generally bilaterally symmetrical with the first holding body 11, and sequentially from the tip, the 2-1 recessed portion 31, the 2-2 recessed portion 32, the second bent portion 34, and the second It has two sets 35 , a second spring receiving portion 36 , a second protrusion 37 and a second grip portion 38 .

The 2-1 recessed portion 31 is arranged at the left end portion of the second holding member 12 . The 2-1 recessed portion 31 is recessed rightward with respect to the portion immediately on the distal side and the portion on the proximal side. The surface forming the 2-1 recessed portion 31 is convex to the right and forms part of a cylindrical surface.

The 2-2 recessed portion 32 is arranged at the left end portion of the second clamping body 12 and is adjacent to the 2-1 recessed portion 31 on the proximal side. The 2-2 recessed portion 32 is recessed rightward with respect to the portion between the 2-1 recessed portion 31 and the portion on the proximal side. The surfaces forming the 2-2 recessed portion 32 are convex to the right and correspond to two adjacent surfaces of the hexagonal column.

The second bent portion 34 is arranged on the base end side of the 2-2 recessed portion 32 . The second bent portion 34 is bent such that the portion on the distal end side is raised toward the front side with respect to the portion on the proximal side from itself. The bending angle of the second bending portion 34 is the same as the bending angle of the first holding body 11 .

The second assembly portion 35 is arranged in the central left portion of the second clamping body 12 and is arranged on the proximal end side of the second bent portion 34 . The second assembly 35 protrudes leftward in a semi-cylindrical shape with an axial direction in the front and back direction with respect to the surrounding portion.
The second assembly 35 has a through hole extending in the front-to-back direction. Most of the second group 35 is contained within the bifurcated section 25T of the first group 25 . The through-hole of the second assembly 35 overlaps with the through-hole of the forked portion 25T when viewed from the front.

The second spring receiving portion 36 is arranged in the central portion of the second clamping body 12 and is arranged to the right of the second assembly portion 35 . The second spring receiving portion 36 has a cylindrical shape with a bottom when viewed from the left.

The second protrusion 37 protrudes rightward from the right surface of the second spring receiving portion 36 . The lower surface of the second protrusion 37 is a curved surface that is convex leftward or leftward. In addition, the lower surface of the second protrusion 37 may be a surface other than a curved surface convex to the left or upper left. Also, the second protrusion 37 may be omitted.
The second grip portion 38 is arranged from the central portion to the proximal end portion of the second holding body 12 . The right surface, the left surface, and the virtual center axis of the second grip portion 38 are all convex to the right or lower right. The second grip portion 38 faces in the same direction as the first grip portion 28 (the distal end proximal direction). At least one of the right surface, the left surface, and the virtual central axis of the second grip portion 38 may not be convex to the right or to the lower right.
From the lower surface of the second protrusion 37 to the right surface of the second grip portion 38, a smoothly curved surface convex to the left is formed.
A hole 38</b>H extending in the left-right direction is provided at the proximal end of the second grip portion 38 for connection with the cord portion 6 . The second grip portion 38 is longer than the first grip portion 28 , and the proximal end of the second grip portion 38 and the hole 38</b>H are arranged closer to the proximal side than the proximal end of the first grip portion 28 . At least one of the proximal end of the second grip portion 38 and the hole 38</b>H may not be arranged on the proximal side of the proximal end of the first grip portion 28 .

The shaft 14 is a headed pin having a head, and is inserted in the forked portion 25T of the first group 25 and the through holes of the second group 35 in common.
By inserting the shaft 14 in this way, the first clamping body 11 and the second clamping body 12 are combined with each other, and the tip ends thereof are closed (see FIGS. 2, 3, and 4) to the maximum. It can be opened and closed from the fully opened state (see FIGS. 5 and 6). In the fully open state, the first grip portion 28 and the second grip portion 38 contact each other. The first clamping body 11 and the second clamping body 12 do not need to be in the maximum open state in clamping a general clamping object, and the state between the maximum open state and the closed state can be adjusted. Enough.
In FIGS. 1 to 4, from the viewpoint of clarity, the first clamping body 11 and the second clamping body 12 do not come into contact with each other even when the tips of the first clamping body 11 and the second clamping body 12 are closed. depicted as existing. Actually, in a state in which the tip portions are closed, the portions on the tip side of the shaft body 14 are partially in contact with each other.

The spring 16 spans between the first spring receiving portion 26 and the second spring receiving portion 36 .
A left end portion of the spring 16 is held by a first spring receiving portion 26 of the first holding member 11 . The right end of the spring 16 is held by the second spring receiving portion 36 of the second clamping body 12 .
The spring 16 urges the first clamping body 11 and the second clamping body 12 in a direction (a clamping direction) in which the tip portions thereof close.
The spring constant of the spring 16 is preferably 2.4 kgf/mm (kilogram force per millimeter) or more and 3.0 kgf/mm or less from the viewpoint of compatibility between the short circuit grounding device 1 and workability. More preferably, it is 2.6 kgf/mm or more and 2.8 kgf/mm or less.
The shape of the spring 16 may be other than the spiral shape shown in the figure. Also, a rubber block or the like may be used as the elastic body instead of the spring 16 or together with the spring 16 .

A portion of the first clamping body 11 and the second clamping body 12 on the distal end side of the shaft body 14 is a clamping portion P capable of clamping an object to be clamped.
In the holding portion P, the hook portion 20 extends in the left-right direction, which is the same direction as the holding direction.
Further, in the clamping portion P, the partially cylindrical 1-1 depression 21 and the partially cylindrical 2-1 depression 31 face each other. It is a first recess set D1 that matches the outer shape of the electric wire. A first set of indentations D1 adjoins hooks 20 . At least one of the 1-1 recessed portion 21 and the 2-1 recessed portion 31 may have a partially elliptical cylindrical surface shape or the like.
Further, in the clamping portion P, the 1-2 hollow portion 22, which is partially hexagonal prism-shaped, and the 2-2 hollow portion 32, which is partially hexagonal prism-shaped, face each other. There is a second set of recesses D2 that matches the profile of the columnar bolt head and nut. The second set of indentations D2 is adjacent to the first set of indentations D1. The cross-sectional area (in the closed state) of the second set of indentations D2 is greater than the cross-sectional area (in the closed state) of the first set of indentations D1. At least one of the 1-2 recessed portion 22 and the 2-2 recessed portion 32 may have a partially polygonal prismatic surface shape other than a partially hexagonal prismatic surface shape, including a partially quadrangular prismatic surface shape. can be
Furthermore, in the holding portion P, a bent portion N is formed by the first bent portion 24 and the second bent portion 34 . A first and second set of depressions D1 and D2 are arranged on the distal end side of the bend N. As shown in FIG. In addition, the arrangement of the set of depressions in the bent portion N can be changed in various ways. Also, the bent portion N may be omitted.

A portion of the first clamping body 11 and the second clamping body 12 closer to the base end side than the shaft body 14 is a grip portion G that can be gripped by an operator.
Since the first protrusion 27 and the second protrusion 37 are provided in the grip part G, even if the fingers of the operator gripping the grip part G come close to the surrounding objects, the first protrusion 27 or the second protrusion 37 may be removed. The part 37 collides with surrounding objects before the finger. Therefore, the operator's fingers are protected.
Further, in the grip portion G, the first grip portion 28 has a shape (reverse warp shape) that protrudes toward the second grip portion 38 side, and the second grip portion 38 protrudes toward the first grip portion 28 side. It has a shape (reverse warp shape). Therefore, the central portion of the first grip portion 28 approaches the second grip portion 38 and the central portion of the second grip portion 38 approaches the first grip portion 28 . Therefore, the operator can easily grip the grip portion G and easily apply force to the grip portion G, so that the pinching portion P can be sufficiently opened with less force.

The length of the clip 2, that is, the distance from the tip of the hook portion 20 to the lower end of the second grip portion 38 is, for example, 215 mm (millimeters).
Further, in the holding portion P in the maximum open state, the distance from the right end of the hook portion 20 of the first holding member 11 to the left tip of the second holding member is, for example, 27 mm.

The ground clip 4 clamps the object to be clamped. An object to be clamped by the grounding clip 4 is the grounding end.
As shown in FIG. 1, the grounding clip 4 has a holding portion PE, a grip portion GE, a shaft SE, and an elastic portion (for example, a plate spring) not shown.
The holding part PE holds the object to be held.
When the operator grips the grip part GE, the clamping part PE opens around the shaft body SE.
The elastic portion biases the holding portion PE in the holding direction.

The cord portion 6 has a branch terminal portion 40 , three clip side cords 42 and a ground side cord 44 .
A first end of each clip-side cord 42 and a first end of each ground-side cord 44 are connected to the branch terminal portion 40 .
A corresponding clip 2 is connected to the second end of each clip-side cord 42 via a hole 38H and a bolt B that enters this. At least one of the three clips 2 may be connected to the clip-side cord 42 in a manner other than the bolt B fixing, such as welding.
The ground clip 4 is connected to the second end of the ground cord 44 .
Each clip-side cord 42 and the ground-side cord 44 are electrically connected by the cord portion 6 .
The length of each clip-side cord 42 is, for example, 1000 mm.
The length of the ground cord 44 is, for example, 2000 mm.

The connecting portion 8 has a carabiner 50 and a string portion 52 .
The carabiner 50 can be hooked to a hole or the like on the clamping target side of the grounding clip 4 .
The cord portion 52 connects the carabiner 50 and the ground cord 44 . The length of the cord portion 52 is, for example, 1000 mm.
The connecting portion 8 prevents the short-circuiting/earthing device 1 from being separated from the installation location.
In addition, in the connection part 8, instead of the carabiner 50, or together with the carabiner 50, a hook fitting or the like may be used. The cord portion 52 may be connected to a portion other than the ground side cord 44 such as the branch terminal portion 40 .

An example of use of such a short-circuiting/grounding device 1 is described below.
The operator grasps the grip portion GE of the grounding clip 4, opens the clamping portion PE, brings it close to the grounding end, and clamps the grounding end with the clamping portion PE. In general, the grounding end is located at a position lower than a short-circuit grounding object such as a high-voltage line, and the posture of the grounding clip 4 is such that the clamping portion PE is positioned downward and the grip portion GE is positioned upward.
Also, the operator grasps the grip portion G of one clip 2, opens the clamping portion P, brings it close to the corresponding short-circuit grounded object, and clamps the short-circuit grounded object with the clamping portion P. The operator repeats such clamping for the remaining two clips 2 . In many cases, the operator does not notice the short-circuit grounding object because the electric wire or the like extends to the front side from the short-circuit grounding object, and the space on the side of the short-circuit grounding object is wider than the space on the opposite side of the short-circuit grounding object. When the operation is performed from the lateral side of the object, since the first bent portion 24 and the second bent portion 34 form the bent portion N on the tip side of the clamping portion P, clamping from the side of the object to be short-circuited and grounded does not cause bending. Compared to the case where the part N is not provided, it is easier to carry out.
Further, the operator hooks the carabiner 50 of the connection part 8 to a hole or the like adjacent to the short-circuit grounding target to connect the short-circuiting grounding tool 1 to the adjacent part of the short-circuiting grounding target.
Then, the operator inspects the equipment related to the short-circuit grounding target.
The operator removes the short-circuiting/grounding device 1 after completing the inspection or the like.

Here, when the object to be short-circuited and grounded is an electric wire, the operator clamps the electric wire in the first recess set D1.
In the unlikely event that a short-circuit current flows down to the short-circuit earthing device 1, the short-circuiting earthing device 1 may move violently due to the electromagnetic repulsion of the short-circuit current, and the electric wire will move relatively to the tip side of at least one of the clips 2. In this case, the short-circuiting/grounding device 1 may be separated from the electric wire and blown away.
Each clip 2 of the short-circuiting/grounding device 1 is provided with a hook portion 20 extending in a direction intersecting the distal end proximal direction (the same direction as the clamping direction) at a position adjacent to the distal end side of the first recessed portion set D1. Therefore, even if the electric wire moves relatively to the tip side of the clip 2, each clip 2 is guided by the first recess set D1 and the hook 20 based on the guiding action of the first recess set D1 and the hook 20. At least one of the sections 20 rotates around the enclosing wire. Due to such rotation, each clip 2 makes the direction of kinetic energy generated by the electromagnetic repulsion the direction of rotation (rotational moment) from the direction of the distal end to the violent movement based on the electromagnetic repulsive force of the short-circuit current. , it can be dealt with while maintaining the connection without causing disconnection from the electric wire.
Such guiding action and rotation ensure that even if the diameter (shape) of the first set of depressions D1 and the diameter (outer shape) of the wires do not completely match, the wires can be routed to the first set of depressions D1. Partial entry takes place in the first set of dimples D1.

Also, when the short-circuit grounding target is a bolt or nut, the operator holds both left and right sides of the bolt or nut in the second recess set D2. Both left and right sides of the bolt or nut fit into the second recess set D2.
In the unlikely event that a short-circuit current flows down to the short-circuit earthing device 1, even if the clip 2 tries to move violently due to the electromagnetic repulsive force of the short-circuit current, both left and right sides of the prism-shaped bolt or nut are placed in the prism-shaped second recess set D2. Such movement is suppressed due to the fit of the part.
In addition, even if the bolt or nut moves relatively to the distal end side of the clip 2, the clip 2 can maintain the hook portion 20 (and the second Under the guidance of one set of indentations D1), the hook 20 (and/or the first set of indentations D1) rotates around the bolt or nut with which it is in contact. Due to such rotation, each clip 2 can deal with the violent movement based on the electromagnetic repulsive force of the short-circuit current without detachment from the electric wire while maintaining the connection.

Furthermore, the short-circuit-grounding device 1 has first and second depression sets D1, D2 associated with a plurality of short-circuit-grounded objects.
Therefore, the short-circuiting/grounding device 1 can be attached to various short-circuiting/grounding targets in a state in which detachment is prevented.

The short-circuiting/earthing device 1 described above has three clips 2 . Each clip 2 includes a clamping portion P for clamping an object to be clamped, and a grip portion G for opening and closing the clamping portion P. As shown in FIG. The clamping portion P is a combination of the hook portion 20 extending in the same direction as the clamping direction, the 1-1 recess portion 21 and the 2-1 recess portion 31, and matches the outer shape of the clamp object (electric wire). , a first set of depressions D1, a combination of the first-second depressions 22 and the second-second depressions 32, and a second depression that matches the outer shape of the object to be clamped (bolt or nut) a set D2;
Therefore, in the short-circuiting and grounding device 1, the clip 2 to be clamped during a short circuit is formed by the hook portion 20 and the first recess set D1, or by the hook portion 20, the first recess set D1 and the second recess set D2. A relative movement that attempts to escape to the tip side is changed to a rotational movement. Therefore, in the short-circuit earthing device 1, the possibility of blowing off when the short-circuit current flows is further reduced.
Furthermore, in the short-circuiting/earthing device 1, the object to be clamped can be fitted into the first set of depressions D1 or the second set of depressions D2, which further improves workability. In addition, the short-circuiting/grounding device 1 can appropriately handle at least two types of objects to be clamped by the first and second sets of depressions D1 and D2.

The first set of indentations D1 is also adjacent to the hooks 20 . Therefore, in the clip 2 of the short-circuiting/grounding device 1, the conversion to rotational movement during short-circuiting is smoother. Therefore, in the short-circuit earthing device 1, the possibility of blowing off when the short-circuit current flows down is further reduced.
In addition, the grip part G has a spring 16, and the spring constant of the spring 16 is 2.4 kgf/mm or more and 3.0 kgf/mm or less. Therefore, in the clip 2 of the short-circuiting/earthing device 1 having at least one of the hook portion 20, the first recessed portion set D1, and the second recessed portion set D2, a sufficient clamping force for preventing slippage was obtained. In this state, the force for opening the holding portion P is reduced, and workability is improved.

The grip portion G has a first grip portion 28 and a second grip portion 38 facing in the same direction, and the central axis of the first grip portion 28 is convex toward the second grip portion 38 side. The central axis of the second grip portion 38 is convex toward the first grip portion 28 side. Therefore, the operator can easily open the holding portion P of the clip 2 . Therefore, workability of the short-circuiting/earthing device 1 is improved.
Furthermore, the material of each clip 2 is an aluminum alloy. Therefore, the clip 2 of the short-circuiting/earthing device 1 having at least one of the hook portion 20, the first recessed portion set D1, and the second recessed portion set D2 has sufficient strength, and further weight reduction is achieved. is planned.
Furthermore, objects to be clamped include electric wires, bolts and nuts. Therefore, the clip 2 of the short-circuiting/earthing device 1 is sufficiently compatible with electric wires, bolts and nuts.

It should be noted that the present invention is not limited to the above embodiments and modified examples, and may include further modified examples as described below.
As in the clip 102 according to the modified example shown in FIG. 7, the first clamping body 111 and the second clamping body 112 may be further provided with a third recess set D3. In addition, in FIG. 7, the same reference numerals are given to members or portions that are similar to those in the above embodiment. Also, in this modification of the short-circuiting/earthing device, the members other than the three clips 102 are the same as those in the above embodiment.
Similar to the second recess set D2, the third recess set D3 includes a partially hexagonal prism surface-shaped 1-3 recess portion 122 and a partially hexagonal prism surface-shaped 2-3 recess portion 132. are formed to match the outer shape of the bolt or nut. The third set of depressions D3 is arranged on the proximal side of the bending portion N of the clamping portion PP. The third recess set D3 may be formed so as to match the external shape of the bolt or nut, or may be arranged on the distal end side of the bent portion N.

All or part of the various components may be replaced by other equivalent or similar items.
One depression set may be formed by one depression, or may be formed by three or more depressions. The multiple set of indentations may be one for thin wire shapes, one for thick wire shapes, and so on. Four or more sets of a plurality of recessed portions may be provided, and each shape may be suitable for three or more types of clamping objects.

Reference Signs List 1 short-circuiting and grounding device, 2, 102 clip, 16 spring (elastic body), 20 hook portion, 21 1st-1 recess portion, 22 1-2 recess portion, 28 1st grip portion, 31 2nd-1 recess portion, 32 2nd-2 recess portion, 38 2nd grip portion, 122 1-3 recess portion, 132 2nd -3 recessed portions, D1: first recessed portion set, D2: second recessed portion set, D3: third recessed portion set, G: grip portion, P, PP: clamping portion.

Claims (5)

A short circuit grounding device having a clip,
The clip is
a clamping portion for clamping a clamping target disposed on the distal end side ;
a grip portion for opening and closing the clamping portion disposed on the proximal side ;
and
The holding portion is
a hook portion extending in the same direction as the sandwiching direction;
a first set of indentations that is a combination of indentations and conforms to the contour of the object to be clamped;
and
The object to be clamped includes an electric wire,
the first set of indentations conforms to the contour of the wire and is proximally adjacent to the hook;
When the wire is clamped by the first set of recesses and moves toward the distal end relative to the clamping portion, the clip is guided by the first set of recesses and the hook portion. actuated to rotate about the wire surrounded by the first set of indentations and/or the hooks;
A short-circuit grounding device characterized by: A short circuit grounding device having a clip,
The clip is
a clamping portion for clamping a clamping target disposed on the distal end side;
a grip portion for opening and closing the clamping portion disposed on the proximal side;
and
The holding portion is
a hook portion extending in the same direction as the sandwiching direction;
a second set of indentations that is a combination of indentations and conforms to the contour of the object to be clamped;
and
The object to be clamped includes a bolt or nut,
the second set of indentations conforms to the contour of the bolt or nut and is located proximal to the hook;
When the bolt or the nut is clamped by the second set of recesses and moves toward the distal end side relative to the clamping portion, the clip is guided by the hook portion to: Rotate around the bolt or nut that the hook contacts
A short-circuit grounding device characterized by: The grip portion has an elastic body,
3. The short-circuiting /earthing device according to claim 1 , wherein the elastic body has a spring constant of 2.4 kgf/mm or more and 3.0 kgf/mm or less. The grip portion has a first grip portion and a second grip portion facing in the same direction,
The central axis of the first grip is convex toward the second grip, or the central axis of the second grip is convex toward the first grip. 3. The short circuit grounding device according to claim 1 or claim 2 . 3. The short-circuiting/earthing device according to claim 1 , wherein the clip is made of an aluminum alloy.

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