JP2890295B2 - Clamping device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a clamp frame in which an object to be clamped is inserted between first and second arms provided on a clamp frame, and a clamp screw penetrated by one of the arms is clamped. The present invention relates to a clamp device.

[0002]

2. Description of the Related Art A conventional clamp apparatus of this type has a structure in which first and second fixed arms are provided on a clamp frame in a direction orthogonal to each other, and a clamp screw is passed through one of the fixed arms. An object to be clamped is inserted between the first and second fixed arms, and the clamp screw is tightened to clamp the object to be clamped between the tip of the clamp screw and the other fixed arm.

[0003]

However, in such a structure, depending on the thickness of the object to be clamped, the clamp cannot be carried out unless the clamp screw is screwed considerably before the object to be clamped is clamped. There has been a problem that the clamp takes a considerable amount of time due to its long length.

An object of the present invention is to provide a clamping device which can shorten a screwing stroke before clamping regardless of the thickness of an object to be clamped.

[0005]

A clamp device according to the present invention comprises a clamp frame, a fixed clamp arm provided in a direction perpendicular to the clamp frame, and a clamp frame provided in a direction perpendicular to the clamp frame. A movable clamp arm provided via an undulating lock-type connecting portion that is fixed and slidable when tilted from an orthogonal state; and a clamp screw that is threaded through the movable clamp arm. It has a structure.

According to another aspect of the present invention, there is provided a clamp apparatus comprising: a clamp frame; a fixed clamp arm provided in a direction perpendicular to the clamp frame; A structure comprising a movable clamp arm provided via an up-and-down lock type connecting portion which becomes slidable when tilted from a state, and a clamp screw penetrated by a screw connection to the fixed clamp arm. I have.

In the clamp device having such a structure, an object to be clamped is disposed between a fixed clamp arm and a movable clamp arm, and the movable clamp arm is tilted from an orthogonal state and is slid using the clamp frame as a guide to clamp the object to be clamped. Bring things closer. As described above, when the movable clamp arm is approached to the object to be clamped and the clamp screw is screwed in a state where the tip of the clamp screw is in contact with the object to be clamped, the movable clamp arm is raised in a direction orthogonal to the clamp frame, The movable clamp arm is locked to the clamp frame, and the clamp target is clamped by the fixed clamp arm and the movable clamp arm. By clamping in this way, the screwing stroke of the clamp screw is shortened, and the clamping operation can be performed more easily than in the past.

Further, the undulations locking type connecting portion is provided with a clamping frame through hole provided across this movable clamp arm, facing in a direction perpendicular to the sliding direction of the movable clamp arm In the middle of the first and second opposed walls of the clamp frame through hole, first and second opposed width changing corners are provided so as to be displaced in the through direction of the clamp frame through hole. On one mouth side of the hole, a first orthogonal wall portion is provided on the first opposing wall to reach the first opposing width changing corner portion, and the second opposing wall has an opposing width from the second opposing width changing corner portion. Second retreated in the direction
And a second orthogonal wall extending to a second opposing width change corner is provided on the second opposing wall on the other mouth side of the clamp frame through hole, and the first opposing wall is provided. A first retreating wall portion retreated in the opposing width direction from the first opposing width change corner portion is provided, and the width of the clamp frame viewed in a direction orthogonal to the sliding direction of the movable clamp arm is L, 1, the parallel interval between the second orthogonal wall portions is La, a line connecting the first opposed width change angle portion and the entrance end of the first receding wall portion, the second opposed width change angle portion, and the second Assuming that a parallel space between the receding wall portion and a line connecting the entrance-side end portions is Lb, the structure is such that La <L <Lb .

The undulating lock-type connecting portion having such a structure can be formed only by simple special processing of the first and second opposed walls in the clamp frame through-hole of the movable clamp arm, and is very suitable in practice. .

As another configuration, the undulating lock-type connecting portion is inserted into the channel groove of a C-channel type clamp frame having an inward flange on both sides in the width direction of the opening of the channel groove. It has a movable clamp arm head portion which is prevented from falling off by each inward flange portion, and the movable clamp arm head portion has first and second ends on both ends viewed in a direction orthogonal to the sliding direction of the movable clamp arm. The first and second outward walls have a head part height in a direction perpendicular to the sliding direction of the movable clamp arm at a portion in the middle of the channel groove as viewed in the groove direction. First and second head portion height dimension changing corners for changing the size are provided so as to be shifted in the groove direction of the channel groove, and a first side of the head portion viewed in the groove direction of the channel groove has a first side. In front of one outward facing wall A first channel groove parallel wall portion extending to the first head portion height dimension changing corner is provided, and the second outward wall has a head portion height dimension from the second head section height dimension changing corner. A second receding wall portion receding in the decreasing direction is provided, and a second head portion height dimensional change angle is provided on a second outward wall on the other side of the head portion as viewed in the groove direction of the channel groove. A second channel groove parallel wall portion extending to the first portion, and a first retreating portion of the first outward wall receding in a direction to decrease the head portion height dimension from the first head portion height dimension change corner portion. A wall portion is provided, the channel groove dimension of the clamp frame viewed in a direction orthogonal to the sliding direction of the movable clamp arm is L, the parallel interval between the first and second channel groove parallel wall portions is La, Movement direction of the head height dimension change corner and the first receding wall Lines and second connecting parts
Lb <L <La, where Lb is the parallel interval between the head height dimension change corner and the line connecting the end of the second receding wall in the moving direction .

The undulating lock type connecting portion having such a structure can be formed only by simple special processing of the first and second outward walls of the movable clamp arm head portion, and is very suitable in practice.

[0012]

1 to 7 show a first embodiment of a clamp device according to the present invention.
The clamp device 1 of the present embodiment includes a clamp frame 2 on a quadrangular prism, a fixed clamp arm 4 provided by being fixed with screws 3 in a direction perpendicular to the clamp frame 2, and a clamp frame 2 in a direction perpendicular to the clamp frame 2. A movable clamp arm 6 provided via an undulating lock-type connecting portion 5 fixed to the clamp frame 2 and slidable when tilted from an orthogonal state, and penetrated by a screw connection to the movable clamp arm 6 And a clamp screw 7 which is provided. The clamp screw 7 has a clamp pad 7a rotatably supported at its distal end, and a knob 7b at its proximal end.

In the present embodiment, a clamp frame through hole 8 is provided in the fixed clamp arm 4, and the screw 3 is inserted through the clamp frame 2 into the clamp frame through hole 8 at a predetermined position.
By tightening, the fixed clamp arm 4 is fixed to the clamp frame 2. The undulating lock-type connecting portion 5 has a clamp frame through-hole 9 provided in the movable clamp arm 6 so as to cross the movable clamp arm 6. In the middle of the first and second opposed walls 10 and 11 of the clamp frame through hole 9 opposed in the longitudinal direction of the clamp arm 6, first and second opposed width changing corners 12 and 13 are provided. One of the openings 9a of the clamp frame through hole 9 is provided so as to be shifted in the through direction of the through hole 9.
On the side, a first orthogonal wall portion 10a reaching the first opposing width changing corner portion 12 is provided on the first opposing wall 10, and the second opposing wall 11 has an opposing width from the second opposing width changing angle portion 13 on the second opposing wall 11. A second receding wall portion 11b which is receded in the direction is provided, and the second opposing wall 1b is provided on the other opening 9b side of the clamp frame through hole 9.
1. Second orthogonal wall portion 1 reaching second opposed width changing corner portion 13
1a, a first receding wall portion 10b is provided on the first opposing wall 10 and retreated in the opposing width direction from the first opposing width change corner portion 12 in the opposing width direction. The width of the clamp frame 2 as viewed in the direction perpendicular to it is L (see FIG. 2), and the first and second orthogonal wall portions 10a, 11a
Is set to La (see FIG. 4), a line connecting the first opposed width changing angle portion 12 and the entrance end of the first receding wall portion 10b, the second opposed width changing angle portion 13, and the second Assuming that a parallel space between the receding wall portion 11b and a line connecting the entrance-side end portion is Lb (see FIG. 4), the structure is such that La <L <Lb.

In the present embodiment, the first retreating wall portion 10b and the second
Is formed as a tapered surface that opens outward, and the first recessed wall portion 1 that is formed by these tapered surfaces.
0b and the 2nd retreat wall part 11b are in a mutually parallel state. In addition, 14 is a clamp target such as a desk.

Next, a clamp operation by the clamp device 1 having such a structure will be described with reference to FIGS. As shown in FIG. 5, the clamp object 14 is disposed between the fixed clamp arm 4 and the movable clamp arm 6, and the movable clamp arm 4 is tilted from the orthogonal state as shown in FIGS. 2 is slid as a guide to approach the clamp object 14.

In this case, the width L of the clamp frame 2 as viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6, the first opposed width changing corner 12 and the first retreating wall 10
The parallel distance Lb between the line connecting the entrance-side end of b and the line connecting the second opposing width change corner 13 and the entrance-side end of the second retreating wall 11b has a relationship of L <Lb. Therefore, the movable clamp arm 6 can be easily slid along the clamp frame 2.

In this manner, the movable clamp arm 6 is brought close to the clamp object 14 and the clamp screw 7 is held in a state where the clamp pad 7a at the tip of the clamp screw 7 is in contact with the clamp object 14 as shown in FIG. Fig. 7
The movable clamp arm 6 is raised in the direction orthogonal to the clamp frame 2 as shown in (1), the movable clamp arm 6 is locked to the clamp frame 2, and the fixed object 4 is clamped by the fixed clamp arm 4 and the movable clamp arm 6.
Will be in a state of clamping. That is, when the movable clamp arm 6 is raised in a direction perpendicular to the clamp frame 2, as described above, the first and second orthogonal wall portions 10a, 1
1a and the width L of the clamp frame 2 as viewed in a direction perpendicular to the sliding direction of the movable clamp arm 6 satisfies the relationship of La <L. Wall 10
The clamp frame 2 is non-slidably clamped between a and 11a, and the movable clamp arm 6 is non-slidably locked to the clamp frame 2.

When the clamp is performed in this manner, the screwing stroke of the clamp screw 7 is shortened, and the clamping operation can be performed more easily than in the conventional case. In addition, the undulating lock-type connecting portion 5 having the structure as in this example can be formed only by simple special processing of the first and second opposed walls 10 and 11 in the clamp frame through hole 9 of the movable clamp arm 6. Very suitable for practical use.

FIG. 8 shows a first modification of the movable clamp arm 6 in the undulating lock type connecting portion 5 of the clamp device 1 of the first example shown in FIGS. In this example, the first and second opposed walls 10 and 11 in the clamp frame through hole 9 of the movable clamp arm 6
The receding wall portions 10b and 11b are not tapered surfaces,
The example shown is an L-shaped recess having a surface parallel to the second orthogonal wall portions 10a, 11a. Naturally, the parallel space La of the first and second orthogonal walls 10a and 11a of the clamp frame through hole 9 and the entrance side of the first opposed width changing corner 12 and the first retreating wall 10b. A parallel distance Lb between a line connecting the ends, a line connecting the second opposed width changing corner 13 and the end of the second retreating wall 11b on the entrance side.
And the width L of the clamp frame 2 as viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6, is La <L <L.
The relationship of b is established. With such a structure, the same effects as those of the clamp device 1 shown in FIGS. 1 to 7 can be obtained.

FIG. 9 shows a second modification of the movable clamp arm 6 in the undulating lock type connecting portion 5 of the clamp device 1 of the first example shown in FIGS. In this example,
FIG. 10 shows an example of a structure for easily manufacturing the first modification shown in FIG. In this case, the movable clamp arm 6
Is formed of two metal plates 6a and 6b.
A clamp frame through-hole 9 is provided on the side of a, 6b as shown in the drawing, and spots 15a, 15b are spot-welded in a state where the clamp frame through-hole 9 has the same shape as that of FIG. ing. In this case, the first opposed width changing corner 12 is provided at a chamfered portion of the end of the clamp frame through hole 9 of the metal plate 6a, and similarly, the second opposed width changing corner 13 is provided on the metal plate 6b. The end portions of the clamp frame through-hole 9 are provided at chamfered positions, whereby the first and second opposed width changing corners 12 and 13 are displaced in the direction in which the clamp frame through-hole 9 penetrates.

In addition, this example is not limited to metal, but also wooden.
It can be formed by laminating two plates or connecting them with nails or the like.

FIG. 10 shows a third modification of the movable clamp arm 6 in the undulating lock type connecting portion 5 of the clamp device 1 of the first example. This example shows another example of a structure that easily makes the first modification shown in FIG. In this case, the movable clamp arm 6 is formed by bending a single metal plate. That is, in this example, the clamp frame through hole 9 is provided by displacing the position on both sides of the bent portion 6c of one metal plate, and the metal plate is formed as shown in the drawing so that a space 16 is formed inside the bent portion 6c. It is formed by bending. In this case, since the space 16 is provided, even if the chamfered portion is not provided, the position is shifted in the penetrating direction of the clamp frame through-hole 9 so that the first and second opposed width changing corners 12,
13 can be provided.

FIG. 11 shows another example of the undulating lock type connecting portion 5 of the clamp device 1 of the first example shown in FIGS. In this example, an example in which the clamp screw 7 is provided on the fixed clamp arm 4 is shown. Even with such a structure, the same effects as those of the clamp device 1 of the first example shown in FIGS. 1 to 7 can be obtained.

FIGS. 12 to 15 show a second embodiment of the clamp device according to the present invention. The clamp device 1 of the present embodiment is also fixed to the clamp frame 2, a fixed clamp arm 4 provided in a direction perpendicular to the clamp frame 2, and fixed to the clamp frame 2 in a direction perpendicular to the clamp frame 2. Undulating lock-type connecting part 5 that can slide when it is tilted from the orthogonal state
This is similar to the first example in that the movable clamp arm 6 is provided with a movable clamp arm 6 provided therethrough, and a clamp screw 7 penetrated through the fixed clamp arm 4 by screw connection. As in the first example, the clamp screw 7 has a clamp pad 7a rotatably supported at the distal end and a knob 7b provided at the proximal end.

In the clamp device 1 of the present embodiment, the structure of the clamp frame 2 and the structure of the undulating lock type connecting portion 5 are the first.
It is different from the example. The clamp frame 2 includes a main plate 2a.
Channel grooves 2c are formed by bending the side plates 2b on both sides in the width direction so as to face each other, and the ends of these side plates 2b are bent inward at right angles to form inward flanges 2d. Is provided, whereby the channel groove 2c is provided.
The opening 2e is formed in a C-channel shape having inward flanges 2d on both sides in the width direction. In this case, the inward flange 2d is oriented parallel to the main plate 2a.

The undulating lock type connecting portion 5 of the present embodiment is
As shown in FIGS. 14 and 15, the movable clamp arm head 1 inserted into the channel groove 2c of the C-channel type clamp frame 2 and prevented from falling off by the inward flanges 2d.
The movable clamp arm head 17 has first and second outward walls at both ends as viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6 (the direction of the arrow in FIG. 12). 18 and 19. In this case, the first outward wall 18 is formed by providing the movable clamp arm 6 with a concave portion 20 for allowing the inward flange portion 2d to escape.

The first and second outward walls 18 and 19 have a head height in a direction perpendicular to the sliding direction of the movable clamp arm 6 at a portion in the middle of the channel groove 2c as viewed in the groove direction. First and second head portion height dimension changing corners 21 and 22 for changing the size are provided so as to be shifted in the groove direction of the channel groove 2c, and the head portion 17 of the head portion 17 viewed in the groove direction of the channel groove 2c is provided. On one side a first outward wall 1
8 is provided with a first channel groove parallel wall portion 18a reaching the first head portion height dimension changing corner portion 21 and the second head portion height dimension changing corner portion 22 is formed on the second outward wall 19. A second receding wall portion 19b which is receded in the direction of decreasing the height of the head portion is provided, and a second outward wall 19 is provided on the other side of the head portion 17 in the groove direction of the channel groove 2c. A second channel groove parallel wall portion 19a extending to the second head portion height dimension changing corner is provided, and the first outward wall 18 has a head height higher than the first head section height dimension changing corner 21. A first retreat wall portion 18b is provided which retreats in a direction to decrease the height dimension, and a channel groove dimension of the clamp frame 2 viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6 (inward with respect to the main plate portion 2a). The distance between the flange 2d) and L (FIG. 14) ), The parallel interval between the first and second channel groove parallel wall portions 18a, 19a is La (see FIG. 15), and the first head portion height dimension change angle portion 21 and the first retreating wall portion 18b are moved. When a parallel interval between a line connecting the direction ends and a line connecting the second head portion height dimension changing corner 22 and the end of the second retreating wall portion 19b in the moving direction is Lb (see FIG. 15), The structure is set such that Lb <L <La.

In this embodiment, the first retreating wall 18b and the second
Is formed as a tapered surface inclined inward toward the groove direction of the channel groove 2c, and the first retreated wall portion 18b and the second retreated wall portion 19b formed of these tapered surfaces are mutually It is in a parallel state.

At the end of the clamp frame 2, a stopper pin 23 for preventing the movable clamp arm head 17 from coming off is provided therethrough. In the clamp device 1 having such a structure, the clamp target 14 is disposed between the fixed clamp arm 4 and the movable clamp arm 6, and the movable clamp arm 6 is tilted from an orthogonal state to guide the channel groove 2 c of the clamp frame 2. And make it approach the clamp object 14.

In this case, the channel groove dimension (the distance between the main plate portion 2a and the inward flange portion 2d) L of the clamp frame 2 as viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6, and the first facing The line connecting the width changing corner 12 and the entrance end of the first retreating wall 10b and the second facing width changing corner 1
3 and the parallel distance Lb between the line connecting the entrance side end of the second receding wall portion 11b and Lb <L, the movable clamp arm head portion 17 of the movable clamp arm 6 is connected to the clamp frame. 2 can be easily slid along the second channel groove 2c.

In this manner, when the movable clamp arm 6 is brought close to the clamp object 14 and the clamp screw 7 is screwed in a state in which the clamp pad 7a at the tip of the clamp screw 7 is in contact with the clamp object 14, the movable clamp arm 6 is raised in a direction orthogonal to the clamp frame 2,
The movable clamp arm 6 is locked to the clamp frame 2, and the clamp target 14 is clamped by the fixed clamp arm 4 and the movable clamp arm 6.

That is, when the movable clamp arm 6 is raised in a direction perpendicular to the clamp frame 2, as described above, the first and second channel groove parallel wall portions 18a, 19a
And a channel groove dimension (a distance between the main plate portion 2a and the inward flange portion 2d) L of the clamp frame 2 as viewed in a direction orthogonal to the sliding direction of the movable clamp arm 6.
Since L <La, the movable clamp arm head 17 of the clamp frame 2 is non-slidably held between the first and second channel groove parallel walls 18a and 19a, and the movable clamp The arm 6 is non-slidably locked to the clamp frame 2.

When the clamp is performed in this manner, the screwing stroke of the clamp screw 7 is shortened, and the clamping operation can be performed more easily than in the conventional case. In this second example, the clamp screw 7 can be provided on the movable clamp arm 6 in the same manner as in FIG.

[0034]

The clamp device according to the present invention comprises a clamp frame, a fixed clamp arm provided in a direction perpendicular to the clamp frame, and fixed to the clamp frame in a direction perpendicular to the clamp frame. A structure provided with a movable clamp arm provided through an undulating lock-type connecting portion that becomes slidable when tilted from an orthogonal state, and a clamp screw that is threaded through the movable clamp arm, or A clamp frame, a fixed clamp arm provided in a direction perpendicular to the clamp frame, and an up-and-down which is fixed to the clamp frame in a direction perpendicular to the clamp frame and slidable when dropped from the perpendicular state. Movable clamp arm and fixed clamp arm provided via a lock-type connection Since it has a structure with a clamp screw penetrated by screw connection, a clamp target is arranged between the fixed clamp arm and the movable clamp arm, the movable clamp arm is tilted from the orthogonal state, and the clamp frame is When the clamp screw is screwed in a state where the tip of the clamp screw is in contact with the clamp object by sliding as a guide and approaching the clamp object, the movable clamp arm is raised in a direction orthogonal to the clamp frame, and The movable clamp arm is locked to the clamp frame, and the fixed clamp arm and the movable clamp arm clamp the clamp target. Therefore, according to the present invention, the screwing stroke of the clamp screw is shortened, and the clamping operation can be performed more easily than in the past.

Further, an undulating lock type connecting portion has a clamp frame through hole provided across the movable clamp arm, and the movable clamp arm is opposed to the movable clamp arm in a direction orthogonal to the sliding direction. In the middle of the first and second opposed walls of the clamp frame through-hole, first and second opposed width changing corners are provided so as to be displaced in the through direction of the clamp frame through-hole. On one side of the mouth, a first orthogonal wall portion reaching the first opposing width change corner portion is provided on the first opposing wall, and the second opposing wall has an opposing width direction from the second opposing width change angle portion. A second receding wall portion is provided on the other side of the clamp frame through-hole, and a second orthogonal wall portion is provided on the second opposing wall to reach a second opposing width change corner portion. A first opposed width change corner on the first opposed wall; A first receding wall portion that is receded in the opposing width direction is provided, the width of the clamp frame viewed in a direction perpendicular to the sliding direction of the movable clamp arm is L, and the width of the first and second orthogonal wall portions is parallel. The interval is La, and a line connecting the first opposing width changing corner and the entrance end of the first receding wall is connected to the second opposing width changing corner and the entrance end of the second receding wall. When the parallel spacing with the line is Lb, if the structure is set so that La <L <Lb, the undulating lock-type connecting portion is connected to the first and second through holes in the clamp frame through hole of the movable clamp arm. It can be formed only by simple special processing of the opposing wall, and is very suitable in practice.

An undulating lock-type connecting portion is inserted into the channel groove of the C-channel type clamp frame having inward flanges on both sides in the width direction of the opening of the channel groove. A movable clamp arm head portion which is prevented from coming off, and the movable clamp arm head portion has first and second outward walls at both ends as viewed in a direction orthogonal to a sliding direction of the movable clamp arm. The first and second outward walls have a first portion for changing the height of the head portion in a direction perpendicular to the sliding direction of the movable clamp arm at a portion in the middle of the channel groove in the groove direction. , A second head portion height dimension change corner portion is provided so as to be displaced in the groove direction of the channel groove, and one side of the head portion viewed in the groove direction of the channel groove has a first outward wall. The height of the first head portion A first channel groove parallel wall portion reaching the normal change corner portion is provided, and the second outward wall is receded in a direction to decrease the head portion height dimension from the second head portion height size change corner portion. 2 is provided with a receding wall portion, and on the other side of the head portion viewed in the groove direction of the channel groove, a second channel reaching a second head portion height dimension changing corner portion on a second outward wall. A first parallel wall portion is provided, and a first retreating wall portion is provided on the first outward wall, the first retreating wall portion being receded in a direction of decreasing the head portion height dimension from the first head portion height dimension changing corner, and is movable. The channel groove dimension of the clamp frame viewed in a direction perpendicular to the sliding direction of the clamp arm is L, the parallel interval between the first and second channel groove parallel walls is La, and the first head section height dimension change angle. Between the end of the first retreating wall in the moving direction and the second Lb <L <La, where Lb is the parallel distance between the head height dimension change corner and the line connecting the end of the second receding wall in the moving direction, the structure is set as Lb <L <La. The undulating lock-type connecting portion can be formed only by a simple special processing of the first and second outward walls of the movable clamp arm head portion, which is very preferable in practice.

[Brief description of the drawings]

FIG. 1 shows a first embodiment of a clamp device according to the present invention.
It is a front view of an example.

FIG. 2 is an enlarged vertical sectional view of an undulating lock-type connecting portion in the clamp device of the first example.

FIG. 3 is a vertical cross-sectional view of a clamp frame through-hole in an undulating lock-type connecting portion of the first example.

FIG. 4 is an explanatory view showing a dimensional relationship of a clamp frame through-hole in the undulating lock-type connecting portion of the first example.

FIG. 5 is an explanatory view showing a clamping process in the clamping device of the first example.

FIG. 6 is an explanatory view showing a clamping process in the clamping device of the first example.

FIG. 7 is an enlarged vertical sectional view showing a clamp state in which a movable clamp arm is set in a direction orthogonal to a clamp frame in the undulating lock-type connecting portion of the first example.

FIG. 8 is a longitudinal sectional view showing a first modification of the movable clamp arm in the undulating lock-type connecting portion of the clamp device of the first example.

FIG. 9 is a longitudinal sectional view showing Modified Example 2 of the movable clamp arm in the undulating lock-type connecting portion of the clamp device of the first example.

FIG. 10 is a longitudinal sectional view showing a third modification of the movable clamp arm in the undulating lock-type connecting portion of the clamp device of the first example.

FIG. 11 is a front view showing another example of the undulating lock type connecting portion of the clamp device of the first example.

FIG. 12 is a front view showing a second example of the embodiment of the clamp device according to the present invention.

FIG. 13 is a bottom view of FIG.

FIG. 14 is a longitudinal sectional view showing the structure of an undulating lock-type connecting portion of the clamp device of the second example.

FIG. 15 is an explanatory view showing a dimensional relationship of a movable clamp arm head portion in the undulating lock type connection portion of the second example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Clamp apparatus 2 Clamp frame 2a Main plate part 2b Side plate part 2c Channel groove 2d Inward flange part 2e Opening part 3 Screw 4 Fixed clamp arm 5 Undulating lock type connecting part 6 Movable clamp arm 6a Metal plate 6b Metal plate 6c Bending part Reference Signs List 7 clamp screw 7a clamp pad 7b knob 8 clamp frame through hole 9 clamp frame through hole 9a one port 9b the other port 10 first opposing wall 10a first orthogonal wall 10b first retreating wall 11 second Opposing wall 11a second orthogonal wall portion 11b second receding wall portion 12 first opposing width changing angle portion 13 second opposing width changing angle portion 14 Clamp target 15a spot welding spot 15b spot welding spot 16 space 17 Movable clamp arm head 18 First outward wall 18a First channel groove parallel wall 1 b first receding wall portion 19 second outward wall 19a second channel groove parallel wall portion 19b second receding wall portion 20 concave portion 21 first head portion height dimension changing corner portion 22 second head portion Height dimension change corner 23 Stopper pin

Claims (4)

(57) [Claims] 1. A clamp frame, a fixed clamp arm provided in a direction perpendicular to the clamp frame, and fixed to the clamp frame in a direction perpendicular to the clamp frame, and slidable when lowered from the perpendicular state. A movable clamp arm provided through an up-and-down lock type connecting portion capable of being provided, and a clamp screw penetrated by a screw connection to the movable clamp arm.
The undulating lock-type connecting portion is
Clamp frame provided across the arm
With a through hole, the movable clamp arm
Of the clamp frame through hole facing in the direction
In the middle of the first and second opposed walls, the first and second opposed width changes
The corners are not positioned in the through direction of the clamp frame through hole.
One end of the clamp frame through hole
On the side, the first opposing wall has the first opposing width changing corner.
A first orthogonal wall portion is provided and the second
Retreating from the second opposing width change corner in the opposing width direction to the wall
A second receding wall portion is provided, and
On the other mouth side of the hole, the second opposing wall has the second opposing wall.
A second orthogonal wall extending to the width change corner is provided and
The first opposing wall has an opposing width from the first opposing width change corner.
A first retreating wall portion that retreats in the direction
Before seen in the direction perpendicular to the sliding direction of the lamp arm
The width of the clamp frame is L, and the first and second orthogonal walls are
The parallel interval of the portion is La, and the first opposed width change corner portion is
A line connecting the entrance side end of the first retreating wall and the second opposing wall;
Line connecting the width change corner and the end of the second receding wall on the entrance side
When the Lb parallel distance between, La <L <clamping device, characterized in that it is set to Lb. 2. A clamp frame and a clamp frame.
Fixed clamp arm provided in a direction perpendicular to the arm
In the direction orthogonal to the clamp frame,
When it is fixed to the frame and falls from the orthogonal state
Provided via a slidable locking connection
Movable clamp arm, and the movable clamp arm
And a clamp screw penetrated by screw connection.
In addition, the undulating lock-type connecting portion is provided with an opening of the channel groove.
Channel type with inward flanges on both sides in the width direction of the part
Inserted into the channel groove of the clamp frame.
Movable clamp lugs secured by the inward flanges
The movable clamp arm head.
Orthogonal to the sliding direction of the movable clamp arm
First and second outward walls at both ends as viewed in the direction,
The first and second outward walls have the groove direction of the channel groove.
The sliding direction of the movable clamp arm
The height of the head in the direction perpendicular to the
The first and second head height dimensional change corners are the channels.
The channel is provided so as to be shifted in the groove direction of the
One side of the head portion viewed in the groove direction of the groove has the first
The first head portion reaches an outwardly-directed wall at a height dimension change corner.
A first channel groove parallel wall portion is provided;
The second head portion height dimension change corner portion on the second outward wall.
The second retreated in the direction to reduce the height dimension of the head portion
A receding wall portion is provided, and the channel groove is viewed in a groove direction of the channel groove.
On the other side of the head portion, the second outward wall has the second
Channel groove leading to the head height dimension change corner
A parallel wall portion is provided and the first outward wall is
Head part height dimension from the first head part height dimension change corner
A first receding wall portion receding in a direction to reduce
Perpendicular to the sliding direction of the movable clamp arm.
Channel dimensions of the clamp frame viewed in the direction
L, the distance between the parallel portions of the first and second channel groove parallel walls.
The gap is La, the first head portion height dimension change corner portion and the
A line connecting the end of the first retreating wall in the moving direction and the second
Movement of the pad height dimensional change corner and the second receding wall
A clamp device , wherein Lb <L <La , wherein a parallel interval with a line connecting the opposite ends is Lb. 3. A clamp frame and the clamp frame.
Fixed clamp arm provided in a direction perpendicular to the arm
In the direction orthogonal to the clamp frame,
When it is fixed to the frame and falls from the orthogonal state
Provided via a slidable locking connection
Movable clamp arm and the fixed clamp arm
And a clamp screw penetrated by screw connection.
The undulating lock-type connecting portion has a clamp frame through-hole provided in the movable clamp arm so as to cross the movable clamp arm, and the clamp is opposed to a direction orthogonal to a sliding direction of the movable clamp arm. In the middle of the first and second opposed walls of the frame through hole, first and second opposed width changing corners are provided so as to be shifted in the direction of penetration of the clamp frame through hole. On one mouth side, a first orthogonal wall portion is provided on the first opposing wall to reach the first opposing width change angle portion, and a second orthogonal wall portion is provided on the second opposing wall from the second opposing width change angle portion. A second receding wall portion that is receded in the opposing width direction is provided, and a second orthogonal wall reaching the second opposing width changing corner portion on the second opposing wall on the other opening side of the clamp frame through hole. Part is provided and on the first opposing wall A first receding wall portion which is receded in the opposing width direction from the first opposing width changing corner portion is provided, and a width of the clamp frame viewed in a direction orthogonal to a sliding direction of the movable clamp arm is L, The parallel interval between the first and second orthogonal walls is La, the line connecting the first opposing width change angle portion and the entrance end of the first receding wall portion is the second opposing width change angle. when part and the parallel distance between the second line connecting the inlet side end portion of the backward wall was Lb, La <L <features and to torque lamp device that is set to Lb. 4. A clamp frame and the clamp frame.
Fixed clamp arm provided in a direction perpendicular to the arm
In the direction orthogonal to the clamp frame,
When it is fixed to the frame and falls from the orthogonal state
Provided via a slidable locking connection
Movable clamp arm and the fixed clamp arm
And a clamp screw penetrated by screw connection.
The undulating lock-type connecting portion is inserted into the channel groove of the C-channel type clamp frame having inward flanges on both sides in the width direction of the opening of the channel groove. A movable clamp arm head portion which is prevented from coming off, and the movable clamp arm head portion has first and second outward walls at both ends as viewed in a direction orthogonal to a sliding direction of the movable clamp arm. These first and second outward walls have a head portion height dimension in a direction perpendicular to the sliding direction of the movable clamp arm at a portion in the middle of the channel groove in the groove direction. First and second head portion height dimension changing corners are provided so as to be displaced in the groove direction of the channel groove, and the first portion is provided on one side of the head portion as viewed in the groove direction of the channel groove. The above on the outward wall A first channel groove parallel wall portion extending to the head portion height dimension changing corner portion is provided, and the second outward wall has a head portion height dimension from the second head portion height dimension changing corner portion. A second receding wall portion which is receded in a decreasing direction is provided, and the second outward wall is provided on the other side of the head portion as viewed in the groove direction of the channel groove.
A second channel groove parallel wall portion extending to the head portion height dimension changing corner portion is provided, and the first outward wall has a head portion height dimension from the first head portion height dimension changing corner portion. A first retreating wall portion retreating in a decreasing direction is provided, and a channel groove dimension of the clamp frame viewed in a direction orthogonal to a sliding direction of the movable clamp arm is L, and the first and second channels are provided. The parallel interval of the groove parallel wall portions is La, the line connecting the first head portion height dimension change angle portion and the end of the first receding wall portion in the movement direction, and the second head portion height size change angle. when part and the parallel distance between the second line connecting the moving direction end portion of the backward wall was Lb, Lb <L <features and to torque lamp device that is set to La.