JP2017148179A - Clamping auxiliary device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the workability of mounting a sewing object.SOLUTION: A clamping auxiliary device 50 assists work for clamping a sewing object with a clamping tool 30 including: clamping members 41A and 41B for clamping a sewing object C; supporting mechanisms 43A and 43B for supporting the clamping members in such a manner that the clamping members can be each switched between a clamping position and a releasing position; and a frame 31 which holds the clamping members via the supporting mechanisms and can be attached to and detached from a sewing machine 100. The clamping auxiliary device 50 includes: a base 60 for supporting the frame of the clamping tool; connecting members 73A and 73B which can be connected to the supporting mechanisms of the clamping tool; actuators 71A and 71B for switching the clamping members of the clamping tool each from the releasing position to the clamping position via the connecting members; and an operation input part 93 for actuating the actuators.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a clamp assisting device that assists a work for holding a sewing product with a clamp jig.

For example, in shoe sewing, the upper part of a shoe consisting of two left and right members is stitched into a toe part and a heel part, and a sewing part such as a label or a reinforcing material is sewn outside the heel part. .
The upper heel part of the shoe needs to be curved to match the shape of the foot heel, but in order to sew with the upper curved, the fabric on both sides of the sewing position can be curved. As described above, a so-called post bed sewing machine in which the shuttle and the needle plate are erected upward from the upper surface of the sewing machine bed portion has been used.

By the way, there is also a demand for sewing by an automatic feed along a pattern corresponding to the outer shape of the sewn part even for a curved workpiece such as the upper heel portion of the shoe.
However, a sewing machine that performs sewing by automatic feeding according to a predetermined pattern is generally one in which a sewing object is placed on a plane, and the sewing object is sewn by moving the sewing object for each needle according to a plane coordinate. It could not cope with the sewing of a curved surface like the upper of a shoe.

  In order to cope with this problem, a conventional sewing machine includes a cylindrical support body that holds a curved-shaped sewing product and a stepping motor that arbitrarily rotates the support body, and automatically feeds along the circumferential surface. Sewing has been realized (for example, see Patent Document 1).

JP-A 61-265169

  However, the above-described conventional sewing machine has a problem that workability is poor because the work to be held on the support must be performed inside the narrow pocket (between the sewing machine bed part and the sewing machine arm part). .

  An object of the present invention is to improve workability.

The invention described in claim 1
A clamp member that clamps the workpiece, a support mechanism that supports the clamp member so as to be switched between a clamp position and a release position, and holds the clamp member via the support mechanism and is detachable from the sewing machine. A clamp assisting device for assisting a clamping operation of a sewing product by a clamping jig having a certain frame,
A base for supporting the frame of the clamp jig;
A connecting member connectable to a support mechanism of the clamp jig;
An actuator for switching the clamp member of the clamp jig from the release position to the clamp position via the connecting member;
And an operation input unit that operates the actuator.

The invention according to claim 2 is the clamp auxiliary device according to claim 1,
The support mechanism for the clamp jig includes an operation member that extends in a predetermined direction and switches the clamp member between a clamp position and a release position.
The connection member is characterized in that a locking portion is provided at a position where the connection member can be connected to the operation member in a state where the frame of the clamp jig is supported by the base.

The invention described in claim 3 is the clamping assist device according to claim 1 or 2,
The operation input unit is a foot pedal.

The invention according to claim 4 is the clamp auxiliary device according to any one of claims 1 to 3,
A control device that controls the actuator so as to move the clamp member from the release position to the clamp position stepwise is provided.

The invention according to claim 5 is the clamp auxiliary device according to any one of claims 1 to 4,
The support mechanism of the clamp jig is a toggle mechanism structure capable of maintaining the clamp member at the clamp position,
When the clamp member is moved to the clamp position, a control device that stops the output of thrust of the actuator is provided.

The invention according to claim 6 is the clamp auxiliary device according to any one of claims 1 to 5,
The clamp jig includes a plurality of the clamp member and the support mechanism, and a jig side adjustment mechanism that adjusts the arrangement of the clamp member with respect to the frame.
A plurality of the connection members and the actuators are provided, and an auxiliary device side adjustment mechanism for adjusting the arrangement of the connection members and the actuators with respect to the base is provided.

  The clamp auxiliary device according to the present invention includes a base that supports the frame of the clamp jig, a connection member that can be connected to the support mechanism of the clamp jig, and the clamp member of the clamp jig from the release position via the connection member. It is equipped with an actuator that switches to the clamp position and an operation input section that operates the actuator, and it is not the sewing machine side where it is difficult to secure a sufficient work space for clamping the work to be sewn by the clamp member of the clamp jig, Since it can be performed in a clamp auxiliary device that is not limited by the work space, it is possible to easily and quickly perform the work of clamping the workpiece to the clamp jig, and it is possible to improve workability.

It is a front view of the clamp jig | tool with which a clamp auxiliary device is mounted | worn. It is a top view of a clamp jig. It is a right view of a clamp jig. It is a rear view of a clamp jig. It is a right view of a clamp unit. It is sectional drawing of the flame | frame in the attachment position of a clamp unit on either side. It is a perspective view of a clamp auxiliary device. It is a front view of a clamp auxiliary device. It is a front view of the state which removed the front side support plate of the clamp auxiliary device. It is a front view of the state which equipped the clamp jig | tool of the clamp auxiliary | assistance apparatus. FIG. 6 is a front view after adjusting the position of the drive unit in a state in which the clamp jig of the clamp auxiliary device is mounted. It is a perspective view of a center drive unit. It is a perspective view of the left drive unit. It is a block diagram which shows the control system of a clamp auxiliary | assistance apparatus. It is a perspective view of the foot pedal of a clamp auxiliary device. It is a perspective view of the front side of a sewing machine. It is a perspective view of the rear side of a sewing machine. It is a block diagram which shows the control system of a sewing machine.

[Whole structure of sewing machine]
Hereinafter, a sewing machine 100, a clamp jig 30, and a clamp auxiliary device 50 according to an embodiment of the present invention will be described with reference to the drawings.
The sewing machine 100 is an automatic sewing machine that performs needle dropping at an arbitrary position in accordance with a predetermined sewing pattern using a clamp jig 30 as a clamp holder suitable for holding a workpiece having a curved surface. The device 50 is a device that assists the work of mounting the workpiece C on the clamp jig 30.

[Clamp jig: Overview]
1 is a front view of the clamp jig 30, FIG. 2 is a plan view, FIG. 3 is a right side view, and FIG. 4 is a rear view.
The clamp jig 30 is arranged side by side along the Y-axis direction, which will be described later, and includes three clamp units 40A, 40B, and 40B that clamp the workpiece C, and a frame 31 that supports the clamp units 40A, 40B, and 40B. And.

The clamp units 40B and 40B disposed on both sides of the central clamp unit 40A have a symmetrical structure, and therefore will be described using the same reference numerals and redundant description will be omitted.
Further, since the basic structure of the central clamp unit 40A and the clamp units 40B and 40B on both sides are the same, only the clamp unit 40A will be described, and only the differences between the clamp unit 40B and the clamp unit 40A will be described.

For the configuration unique to the clamp unit 40A, a code obtained by adding an alphabet “A” after the number is used. For the configuration unique to the clamp unit 40B, a code obtained by adding an alphabet “B” after the number. The components common to the clamp unit 40A and the clamp unit 40B will be described below using numerals that do not add any of the letters “A” and “B” to the numerals.
The frame 31 of the clamp jig 30 is a flat plate having a predetermined shape. One direction parallel to the flat plate surface and orthogonal to each other is defined as a Y-axis direction, and the other direction is defined as a Z-axis direction. One of these is “left”, the other is “right”, one in the Z-axis direction is “upper”, and the other is “lower”. Further, the direction orthogonal to the flat surface of the frame 31 is defined as the X-axis direction, and one (front side in FIG. 1) is “front” and the other (back side in FIG. 1) is “rear”.

[Clamp jig: Clamp unit at the center]
Each of the clamp units 40A, 40B, 40B is equipped on the front side of the frame 31.
The clamp unit 40A includes a pair of left and right upper clamp members 41A and 41A disposed on the upper side of the sewing product C, and a pair of left and right lower clamp members 42A and 42A disposed on the lower side of the sewing product C. The support mechanism 43A supports the upper clamp member 41A and the lower clamp member 42A so as to be switchable between the clamp position and the release position, and the support block 44A supports the support mechanism 43A.

[Clamp unit: Lower clamp member]
The left and right lower clamp members 42A, 42A are symmetrical in the left-right direction, both of which are long plate-like members along the X-axis direction and extend forward from the support block 44A. Yes. Further, the front end portions of the lower clamp members 42A and 42A have a shape projecting outward in the left-right direction.

Each of the left and right lower clamp members 42A and 42A is composed of clamp surfaces 421A and 421A along the same outer peripheral surface with the center axis directed in the X-axis direction, and the upper surface of the front end portion is in the Y-axis direction. The lower clamp members 42B of the two clamp units 40B and 40B located at both ends of the clamp are also composed of the clamp surfaces 421B and 421B along the outer peripheral surface described above.
That is, the clamp surfaces 421A, 421A, 421B, 421B of the lower clamp members 42A, 42A, 42B, 42B of these clamp units 40A, 40B, 40B are all arranged along the same outer peripheral surface. Yes.

Further, the left and right lower clamp members 42A, 42A of the clamp unit 40A are attached to the support block 44A with screws 441A in a state where the upper surface of the rear end portion is in contact with the lower surface of the support block 44A.
As shown in FIG. 2, the support block 44A is formed with two elongated holes 442A penetrating vertically on the left side thereof in parallel toward the left front side, and a screw 441A is passed through one of the elongated holes 442A. A boss 422A protruding from the upper surface of the left lower clamp member 42A is inserted into the other elongated hole 442A.
In addition, two long holes 442A penetrating vertically are formed on the right side of the support block 44A side by side toward the front right side, and a screw 441A is passed through the front long hole 442A, and the rear side A boss 422A protruding from the upper surface of the lower clamp member 42A on the right side is inserted into the long hole 442A.
Accordingly, the screw 441A is loosened, the lower clamp members 42A and 42A are brought into sliding contact with the lower surface of the support block 44A, moved along the X-axis direction and the Y-axis direction, and the screw 441A is fastened at an arbitrary position. It is possible to adjust the extension length of the lower clamp members 42A and 42A with respect to the support block 44A and the mutual distance in the Y-axis direction.

  Further, each of the lower clamp members 42A and 42A has a shape viewed from the Z-axis direction of the front end portion thereof, which approximates the shape of the front edge portion of the sewing product C. For this reason, in the case of sewing, the vicinity of the needle drop position along the front side edge part of the to-be-sewn material C can be hold | maintained.

[Clamp unit: Upper clamp member]
The left and right upper clamp members 41A, 41A are symmetrical in the left-right direction, and both are long plate-like members along the X-axis direction, and extend forward from the movable block 45A of the support mechanism 43A. Has been issued. Furthermore, the front end portions of the upper clamp members 41A and 41A have a shape projecting outward in the left-right direction.

The left and right upper clamp members 41A and 41A are supported by the support block 44A via the support mechanism 43A in a state where the lower surfaces thereof are opposed to the upper surfaces of the lower clamp members 42A and 42A.
The left and right upper clamp members 41A and 41A are each composed of clamp surfaces 411A and 411A along the same inner peripheral surface with the central axis directed in the X-axis direction, and both ends in the Y-axis direction. The upper clamp members 41B and 41B of the two clamp units 40B and 40B located in the section are also configured by the clamp surfaces 411B and 411B along the inner peripheral surface described above.
That is, the clamp surfaces 411A, 411A, 411B, and 411B of the upper clamp members 41A, 41A, 41B, and 41B of these clamp units 40A, 40B, and 40B are all arranged along the same inner peripheral surface. Yes.

  Further, the inner peripheral surfaces of the clamp surfaces 411A, 411A, 411B, and 411B of the upper clamp members 41A, 41A, 41B, and 41B of the clamp units 40A, 40B, and 40B, and the lower clamp members 42A, 42A, 42B, and 42B that face each other. The clamp surfaces 421A, 421A, 421B, 421B have the same diameter, are individually opposed and parallel, and the upper clamp members 41A, 41A, 41B, 41B and the lower clamp members 42A, 42A. , 42B, 42B can be held in a state along the circumferential surface along the inner circumferential surface and the outer circumferential surface described above.

The left and right upper clamp members 41A and 41A of the clamp unit 40A are attached to the movable block 45A with screws 451A in a state where the upper surfaces thereof are in contact with the lower surface of the movable block 45A of the support mechanism 43A.
As shown in FIG. 2, the movable block 45A is formed with two elongated holes 452A penetrating vertically on the left side of the movable block 45A in a front-rear direction toward the left front side, and a screw 451A is provided in the elongated hole 452A on the front side. And a boss 412A protruding from the upper surface of the left upper clamp member 41A is inserted into the rear elongated hole 452A.
Further, two elongated holes 452A penetrating vertically are formed on the right side of the movable block 45A so as to be lined up and down toward the right front side, and a screw 451A is passed through the elongated hole 452A on the front side. A boss 412A protruding from the upper surface of the upper clamp member 41A on the right side is inserted into the long hole 452A.
Therefore, by loosening the screw 451A, sliding the upper clamp members 41A, 41A to the lower surface of the movable block 45A, moving along the X-axis direction and the Y-axis direction, and fastening the screw 451A at an arbitrary position, It is possible to adjust the extension length of the upper clamp members 41A and 41A with respect to the movable block 45A and the mutual distance in the Y-axis direction.

  Further, each of the upper clamp members 41A and 41A has a shape viewed from the Z-axis direction of the front end portion thereof, which approximates the shape of the front edge portion of the sewing product C. For this reason, in the case of sewing, the vicinity of the needle drop position along the front side edge part of the to-be-sewn material C can be hold | maintained.

[Clamp unit: Support mechanism]
FIG. 5 is a side view of the support mechanism.
As shown in FIGS. 3 and 5, the support mechanism 43A includes a movable block 45A that holds the upper clamp members 41A and 41A, a base 432 that is fixedly mounted on the upper surface of the support block 44A, and an upper clamp member that is rotated. An operation lever 433 for switching 41A between a holding position facing the lower clamp member 42A and a release position separated from the lower clamp member 42A, and a rotation supporting the upper clamp member 41A via the movable block 45A and the columns 431 and 431. A moving arm 434, a link member 435 that connects the base 432 and the operation lever 433, and a transmission body 46 as an operation member that inputs a thrust of the switching operation from the clamp auxiliary device 50 to the operation lever 433 are provided.
The “holding position” refers to a state in which the upper clamp member 41A is close to the lower clamp member 42A so that the workpiece C can be clamped or a state in which the clamp surfaces are in contact with each other. The upper clamp member 41A is sufficiently spaced apart from the lower clamp member 42A and does not even face the lower clamp member 42A (opened to nearly 90 °).

The base portion 432 supports a lower portion of the rear end of the rotating arm 434 at its front end portion so as to be rotatable around the Y axis, and can rotate one end portion of the link member 435 around the Y axis at the rear end portion of the base portion 432. I support it.
The operation lever 433 has a front end portion coupled to the upper portion of the rear end of the rotation arm 434 so as to be rotatable about the Y axis, and the rear end portion is an input operation portion for switching between a holding position and a release position. It has become. Further, at a position somewhat behind the front end portion of the operation lever 433, the other end portion of the link member 435 is coupled to be rotatable about the Y axis.

Thereby, the base 432, the operation lever 433, the rotating arm 434, and the link member 435 constitute a four-bar link mechanism.
In this configuration, when the input operation portion of the operation lever 433 is rotated downward, a line connecting the connection point a between the operation lever 433 and the rotation arm 434 and the connection point b between the link member 435 and the base portion 432 is set. The connection point c between the operation lever 433 and the link member 435 is on the lower side. In this state, even if the sewing product C is clamped between the upper clamp member 41A and the lower clamp member 42A and the operation lever 433 is pushed back by the restoring force, force is exerted in the direction in which the connection point c moves further downward. Thus, the operation lever 433 and the base 432 come into contact with each other to prevent the upper clamp member 41A and the lower clamp member 42A from being opened, and the clamped state can be maintained.
That is, the upper clamp member 41 </ b> A and the lower clamp member 42 </ b> A can be switched to the holding position where the workpiece C is held by sandwiching the workpiece C by the downward rotation of the input operation portion of the operation lever 433.

Further, when the input operation portion of the operation lever 433 is rotated upward from the holding position, the connection point a between the operation lever 433 and the rotation arm 434 and the connection point b between the link member 435 and the base portion 432 are connected. The connection point c between the operation lever 433 and the link member 435 located below the straight line moves upward from the straight line. As a result, the upper clamp member 41A and the lower clamp member 42A are not prevented from opening, and when the input operation portion of the operation lever 433 is further rotated upward, the connection point a between the operation lever 433 and the rotation arm 434 is set. When the link member 435 and the base portion 432 are attracted to the connection point b side, the upper clamp member 41A rotates upward to reach the release position.
That is, the upper clamp member 41A can be switched to the release position of the sewing product C by the upward rotation of the input operation portion of the operation lever 433.
Accordingly, the support mechanism 43A constitutes a so-called toggle mechanism.

  The transmission body 46 is supported by a flat support block 44 </ b> A, and has a U-shaped frame portion 461, a round bar-like linear motion shaft 462 fixedly mounted on the bottom of the frame portion 461, and the inside of the frame portion 461. The first contact shaft 463 and the second contact shaft 464 are provided.

  Inside the frame portion 461, a first contact shaft 463 and a second contact shaft 464 that are parallel to the Y-axis direction are fixedly mounted side by side. The input operation portion of the operation lever 433 of the support mechanism 43A described above is inserted between the first contact shaft 463 and the second contact shaft 464.

The linear movement shaft 462 is supported by a sliding bearing (not shown) provided at a position somewhat behind the center of the flat plate surface of the support block 44A so as to be movable in the longitudinal direction.
The flat plate surface of the support block 44A is parallel to the XY plane, and the linear motion shaft 462 can move forward along the Z-axis direction.

One end portion (upper end portion) of the linear motion shaft 462 is fixedly connected to the frame portion 461, and the other end portion (lower end portion) thereof is connected to a connecting member 73A of the clamp assisting device 50 described later below the support block 44A. It can be connected. That is, a locked portion 462a having a shape narrowed by a groove that goes around the outer peripheral surface is formed on the outer peripheral surface of the lower end portion of the linear motion shaft 462.
The connecting member 73A includes a locking portion 734A formed of a concave notch with one end opened, and the locked portion 462a is inserted into the locking portion 734A so as to be connected to the linear motion shaft 462. It is possible to concatenate. And in the said connection state, the input of the movement operation | movement to the upper direction of the linear motion shaft 462 from the clamp auxiliary | assistance apparatus 50 side and the downward direction is enabled.

Due to the upward movement of the linear movement shaft 462, the second contact shaft 464 of the frame portion 461 comes into contact with the input operation portion of the operation lever 433 and pushes upward, and the downward movement of the linear movement shaft 462 causes the first movement of the frame portion 461. The abutment shaft 463 can abut against the input operation portion of the operation lever 433 and can be pushed down.
Thereby, the switching operation between the holding position and the release position of the upper clamp member 41A and the lower clamp member 42A from the clamp auxiliary device 50 side is enabled via the transmission body 46.

The support block 44A is a rectangular flat plate along the XY plane as described above, and supports the upper clamp member 41A on the upper surface side via the support mechanism 43A and supports the lower clamp member 42A on the lower surface side. doing.
Further, the support block 44A has an end surface portion that abuts against the flat plate surface of the frame 31 at the rear end portion, and is supported by the frame 31 with screws while the end surface portion is in close contact.

[Clamp jig: Left and right clamp units]
The left and right clamp units 40B and 40B will be described. As described above, since the left and right clamp units 40B and 40B are symmetrical in the left-right direction, only the right clamp unit 40B will be described here, and the description of the left clamp unit 40B will be omitted. Only the difference between the clamp unit 40B and the center clamp unit 40A already described will be described.

The support blocks 44A, 44B, and 44B of the clamp units 40A, 40B, and 40B have circumferential surfaces that follow the clamp surfaces of the upper clamp members 41A, 41A, 41B, and 41B and the lower clamp members 42A, 42A, 42B, and 42B described above. It is supported by the frame 31 in a direction that circumscribes it. Accordingly, the support block 44A located at the center in the Y-axis direction is oriented parallel to the XY plane, and the support blocks 44B and 44B located on the left and right sides are all about the X axis with respect to the XY plane. The direction is inclined.
Accordingly, the left and right clamp units 40B and 40B are all inclined in the same manner as the support blocks 44B and 44B.

In addition, the clamp unit 40B supports only one upper clamp member 41B and lower clamp member 42B.
Further, the support block 44B of the clamp unit 40B fixes and holds the lower clamp member 42B, and the position adjustment of the lower clamp member 42B with respect to the support block 44B is impossible.
Similarly, the movable block 45B of the support mechanism 43B fixes and holds the upper clamp member 41B, and the position adjustment of the upper clamp member 41B with respect to the movable block 45B is impossible.
As will be described later, the position of the clamp unit 40B relative to the frame 31 can be adjusted.

  Further, since the front end portions of the upper clamp member 41B and the lower clamp member 42B have a shape that follows the shape of the sewing product C, the upper clamp member 41B and the lower clamp member 42A have different shapes. ing.

[Clamp jig: Frame]
As shown in FIG. 4, the frame 31 extends from the both ends of the rectangular main body 32 elongated in the Y-axis direction and the Y-axis direction of the main body 32 to the left diagonally downward and right diagonally downward, respectively. It has two arm portions 33, 33 and a rectangular hanging portion 34 extending downward from the central lower portion of the main body portion 32, and these form an integral flat plate shape along the YZ plane. Yes.

  Positioning holes 321 and 341 penetratingly formed in the X-axis direction are formed in the central portion in the Y-axis direction at the upper portion of the main body portion 32 and the central portion in the Y-axis direction of the hanging portion 34. The positioning holes 321 and 341 are inserted with positioning protrusions 641 and 642 provided on the sewing machine 100 and the clamp auxiliary device 50 when the clamp jig 30 is mounted on the sewing machine 100 or the clamp auxiliary device 50 described later. As a result, the clamp jig 30 is properly positioned.

  Further, the lower end portion of the drooping portion 34 is formed in a wedge shape that is sharpened downward. When the clamp jig 30 is attached to the sewing machine 100, the lower end portion 34 is expanded upward. The lower end portion of the drooping portion 34 is inserted into the gap so that the vertical positioning can be easily performed. Note that a gap provided in the sewing machine 100 that is widened upward is set such that the opening angle thereof is somewhat larger than the tip angle of the lower end portion of the drooping portion 34, and the lower end portion of the drooping portion 34. Is inserted into the gap, the upper end side of the frame 31 is allowed to swing along the X-axis direction. This allows the positioning protrusions 641 and 642 to be inserted into the positioning holes 321 and 341 described above. It is possible.

A pair of left and right jig gripping mechanisms 35, 35 are provided on the upper rear surface side of the main body 32 of the frame 31.
The clamp jig 30 is mounted so that the center portion of the main body portion 32 and the rear surface of the hanging portion 34 are in contact with a long rectangular mounting plate of the sewing machine 100 or the clamp auxiliary device 50 whose longitudinal direction is along the Z-axis direction. Is done.
The pair of left and right jig gripping mechanisms 35 and 35 are configured to hold the jig gripping mechanisms 35 and 35 and the rear surface of the frame 31 by pressing the rear surface of the upper end of the mounting plate forward. The clamp jig 30 is fixed to the mounting plate.

  As shown in FIGS. 2 and 4, the jig gripping mechanism 35 includes a gripping pad 351 made of an elastic member for gripping a mounting plate of the sewing machine 100 and the clamp auxiliary device 50, and a base 352 fixedly mounted on the rear surface of the frame 31. An operation lever 353 for switching the gripping pad 351 between a gripping position for gripping the mounting plate and a release position separated from the mounting plate by a rotating operation, a rotating arm 354 for supporting the gripping pad 351, a base 352, and an operating lever. And a link member 355 that couples the H.353.

The jig gripping mechanism 35 has substantially the same structure as the support mechanisms 43A and 43B of the clamp units 40A and 40B, and switches between a gripping state and a releasing state of the mounting plate by the gripping pad 351 using a toggle mechanism. .
That is, when the input operation portion of the operation lever 353 is rotated forward, the operation lever 353 and the straight line connecting the connection point between the operation lever 353 and the rotation arm 354 and the connection point between the link member 355 and the base portion 352 A connection point with the link member 355 is the front side. In this state, the grip pad 351 presses the mounting plate forward to grip the frame 31 (gripping position).
Further, when the input operation portion of the operation lever 353 is rotated backward from the gripping position, a straight line connecting a connection point between the operation lever 353 and the rotation arm 354 and a connection point between the link member 355 and the base portion 352 is obtained. In addition, the connection point between the operation lever 353 and the link member 355 that are positioned forward moves further backward than the straight line. As a result, the grip pad 351 moves rearward and the attachment plate is released (release position).
Thereby, the clamp jig 30 can be attached to and detached from the attachment plate of the sewing machine 100 or the clamp auxiliary device 50.

[Clamp jig: Jig side adjustment mechanism]
Between the frame 31 and the clamp unit 40B, a jig side adjusting mechanism 47 for adjusting the arrangement of the two clamp units 40B with respect to the frame 31 is provided. The central clamp unit 40A is fixedly mounted on the frame 31, and the position is not adjusted.

As the jig-side adjusting mechanism 47, the left and right clamp units 40B, 40B are individually attached to the respective arm portions 33, 33 of the frame 31, so that they are formed by a plurality of straight lines along a curved arc. An upper mounting hole 471 and a lower mounting hole 472 that are long holes are formed so as to penetrate vertically.
The left and right arm portions 33, 33 and the upper mounting hole 471 and the lower mounting hole 472 provided in each arm portion 33, 33 are symmetrical in the left-right direction. The upper mounting hole 471 and the lower mounting hole 472 will be described.

The upper mounting hole 471 includes three straight portions 471a, 471b, and 471c, and the lower mounting hole 472 includes two straight portions 472a and 472b.
The straight portions 471 a, 471 b, and 471 c of the upper mounting hole 471 are formed along a common arc A 1 whose center position is set below the frame 31.
Further, the straight portions 472 a and 472 b of the lower mounting hole 472 are formed along a common arc A <b> 2 whose center position is set below the frame 31.
The arc A2 is concentric with the arc A1 described above and is set to have a smaller diameter than the arc A1. Further, the centers of the arcs A1, A2 are the clamp surfaces 411A, 411A, 411B, 411B of the upper clamp members 41A, 41A, 41B, 41B of the clamp units 40A, 40B, 40B described above and the lower clamp members 42A, 42A, The clamp surfaces 421A, 421A, 421B, and 421B of 42B and 42B are positioned on the central axis of the peripheral surface (hereinafter, the central axis of the peripheral surface is referred to as “the central axis of the clamp surface”).
The upper mounting hole 471 and the lower mounting hole 472 may be formed in a single arc shape along the arc A1 or A2 instead of a plurality of linear portions.

FIG. 6 is a cross-sectional view of the frame 31 at the attachment position of the clamp unit 40B.
As shown in FIGS. 2 to 4 and 6, the jig side adjusting mechanism 47 protrudes rearward from the rear end surface of the support block 44 </ b> B of the clamp unit 40 </ b> B in addition to the upper mounting hole 471 and the lower mounting hole 472. Two bosses 473 and 473 and a screw 474 having a hand-operated handle for fastening and fixing the support block 44B to the frame 31 are provided.

The two bosses 473 and 473 are arranged side by side along the arc A1 of the upper mounting hole 471, and these bosses 473 and 473 are inserted into the upper mounting hole 471.
The screw 474 is passed through the lower mounting hole 472 from the rear surface side of the frame 31 to the screw hole 476 formed at the position of the arc A2 on the rear end surface of the support block 44B, and through the washer 475. It is screwed.
Therefore, when the position of the clamp unit 40B is adjusted, the handwheel is turned to loosen the screw 474, and the support block 44B is moved along the upper mounting hole 471 and the lower mounting hole 472 by the screw 474 and the bosses 473 and 473. Thus, the position can be arbitrarily adjusted along the arcs A1 and A2. Then, once the position is determined, the handwheel is turned again to fasten the screw 474, and the clamp unit 40B can be fixed at that position.

The jig-side adjustment mechanism 47 includes an intermittent movement mechanism 48 that adjusts the position of the clamp unit 40B in units of a constant position change amount. The intermittent movement mechanism 48 is formed on the rear end surface of the support block 44A and a plurality of positioning holes 481 formed on the front side of the frame 31 at regular intervals along the arcs concentric with the arcs A1 and A2. A spherical body 483 that is retractably retracted in the bottomed hole 482 and a coil spring 484 as an elastic body that pressurizes the spherical body 483 in a direction in which the spherical body 483 protrudes from the bottomed hole 482 are provided.
The opening of the bottomed hole 482 is caulked so that the sphere 483 protrudes to the outside to some extent but does not fall off.

  The outer diameter of the spherical body 483 is larger than the inner diameter of the positioning hole 481, and when a part of the spherical body 483 protrudes from the bottomed hole 482, the spherical body 483 is fitted into the positioning hole 481. As a result, when the support block 44B is moved along the arcs A1 and A2 when adjusting the position of the clamp unit 40B, the sphere 483 is sequentially fitted into the plurality of positioning holes 481 while moving forward and backward. The support block 44B can be positioned each time.

The positioning hole 481 only needs to be open on the front surface side, and does not have to penetrate forward and backward as shown in FIG.
Further, the member fitted into the positioning hole 481 is not limited to the spherical body 483, but may be a protrusion with a rounded tip that allows the movement of the support block 44B.
A plurality of positioning holes 481 may be provided on the rear end surface of the support block 44B, a bottomed hole 482 may be provided on the front surface side of the frame 31, and the sphere 483 and the coil spring 484 may be stored.

[Clamp auxiliary device: Overview]
7 is a perspective view of the clamp auxiliary device 50, FIG. 8 is a front view, FIG. 9 is a front view with the front support plate 62 removed, FIG. 10 is a front view with the clamp jig 30 attached, and FIG. It is a front view of the clamp auxiliary | assistance apparatus 50 of the state which mounted | wore the clamp jig | tool 30 after adjusting corresponding to the to-be-sewn material C. FIG.
The clamp auxiliary device 50 is individually provided corresponding to the base 60 that supports the frame 31 of the clamp jig 30 and the clamp units 40A, 40B, and 40B of the clamp jig 30, and each clamp unit 40A, 40B, and 40B. Drive units 70A, 70B, 70B for applying power for switching the clamp positions and release positions of the upper clamp members 41A, 41B, 41B, and auxiliary devices for adjusting the arrangement of the drive units 70B, 70B with respect to the base 60 Side adjustment mechanisms 80, 80 and a control device 90 for controlling the drive units 70A, 70B, 70B are provided.

Note that the drive units 70B and 70B arranged on both sides of the central drive unit 70A have symmetrical structures, and therefore will be described using the same reference numerals, and redundant description will be omitted.
Further, since the basic structure of the central drive unit 70A and the drive units 70B and 70B on both sides are the same, only the drive unit 70A will be described, and only the differences between the drive unit 70B and the drive unit 70A will be described.

It should be noted that “A” is appended to the number for the configuration unique to the drive unit 70A, “B” is appended to the number for the configuration unique to the drive unit 70B, and any common configuration is not described above. This is the same as the case of the clamp unit.
Further, the X axis direction, the Y axis direction, and the Z axis direction in each drawing of the clamp auxiliary device 50 are the X axis direction determined by the clamp jig 30 when the clamp jig 30 is attached to the clamp auxiliary device 50, Y Axial direction and Z-axis direction are applied.

[Clamp auxiliary device: Base]
The base 60 is a rectangular flat plate bottom plate 61 along the XY plane, a front support plate 62 erected on the front end portion of the upper surface of the bottom plate 61, and a rear end portion of the upper surface of the bottom plate 61. The rear support plate 63 and the mounting plate 64 of the clamp jig 30 fixedly provided at the center of the front upper portion of the rear support plate 63 are provided.

  The front support plate 62 and the rear support plate 63 are all rectangular flat plates along the YZ plane, except for the lower part screwed to the bottom plate 61. The front support plate 62 and the rear support plate 63 are equal in size to each other and are arranged to face each other with a certain distance in the X-axis direction. The drive units 70A, 70B, and 70B are arranged in a region between the front support plate 62 and the rear support plate 63.

  The mounting plate 64 is in contact with the upper and lower positioning projections 641 and 642 inserted into the positioning holes 321 and 341 of the frame 31 of the clamp jig 30 and the left and right side edges of the hanging portion 34 of the frame 31 on the front surface. Four protrusions 643, 643, 643, 643 that are positioned in the axial direction, and a lower end support member 644 with which the lower end portion of the hanging portion 34 abuts.

The positioning protrusions 641 and 642 are provided so as to protrude forward on the front surface of the mounting plate 64, and are individually rearward with respect to the positioning holes 321 and 341 formed in the frame 31 of the clamp jig 30 attached to the front side of the mounting plate 64. Inserted from the side.
The four protrusions 643, 643, 643, 643 are provided so as to protrude forward on the front surface of the mounting plate 64, and are arranged in the Y-axis direction so as to be spaced apart at an interval substantially equal to the width of the hanging part 34 in the Y-axis direction. Two sets of two protrusions 643 and 643 are arranged vertically.

The lower end support member 644 is a long rectangular member having a length approximately equal to the width in the Y-axis direction of the hanging portion 34 of the frame 31 of the clamp jig 30, and extends along the Y-axis direction on the front surface of the mounting plate 64. Fixedly equipped.
When the clamp jig 30 is mounted on the mounting plate 64 by the lower end support member 644, the lower end portion of the hanging portion 34 comes into contact with the upper surface of the lower end support member 644, and the clamp jig 30 is properly positioned in the Z-axis direction. can do.

[Clamp auxiliary device: central drive unit]
FIG. 12 is a perspective view of the drive unit 70A.
As shown in FIGS. 7 to 9 and FIG. 12, the drive unit 70 </ b> A disposed in the center in the Y-axis direction on the base 60 has a clamp position and a release position of the upper clamp member 41 </ b> A of the clamp unit 40 </ b> A of the clamp jig 30. The air cylinder 71A as an actuator serving as a drive source for inputting the switching operation of the air cylinder, the support frame 72A for supporting the plunger of the air cylinder 71A in the upward direction, and the plunger of the air cylinder 71A are equipped. And a connecting member 73A.

The support frame 72 </ b> A has an inverted U shape, and a lower end portion serving as two legs is fixedly mounted on the upper surface of the bottom plate 61 of the base 60 by screws.
The air cylinder 71A is stored and held inside the support frame 72A, and a plunger protrudes upward from an opening formed in the upper end surface of the support frame 72A.

  The connecting member 73A includes a bottom surface portion 731A connected to the plunger of the air cylinder 71A, a standing plate portion 732A erected upward from the rear end portion of the bottom surface portion 731A, and forward from the upper end portion of the standing plate portion 732A. The upper surface portion 733A is formed by bending, and these are integrally formed.

  The bottom surface portion 731A supports two guide bars 74A and 74A depending on the front end portion thereof, and the guide bars 74A and 74A can move up and down with respect to an opening formed on the upper end surface of the support frame 72A. Is inserted. Accordingly, when the connecting member 73A moves up and down together with the plunger of the air cylinder 71A, the guide bars 74A and 74A suppress the wobbling of the connecting member 73A and enable a stable operation.

  The upper surface portion 733A has a flat plate shape parallel to the XY plane, extends forward, and engages with a front end of the locked portion 462a of the linear movement shaft 462 of the clamp unit 40A. A stop 734A is provided. The locking portion 734A is formed by a notch that is open at the front and concave toward the rear. Since the locking portion 734A has the above structure, the locked portion 462a formed at the lower end portion of the linear motion shaft 462 of the clamp unit 40A is moved rearward relative to the locking portion 734A. The locked portion 462a can be fitted inside the locking portion 734A to easily form a connected state between the linear motion shaft 462 and the connecting member 73A.

As shown in FIGS. 11 and 12, the locking portion 734 </ b> A of the connecting member 73 </ b> A comes on the axis of the linear movement shaft 462 of the clamp jig 30 in a state where the clamp jig 30 is mounted on the mounting plate 64. Thus, the arrangement of the mounting plate 64 and the drive unit 70A is set.
Therefore, when the clamp jig 30 is mounted on the clamp assisting device 50, the inside of the air cylinder 71A is released and the plunger is in a free state (a state in which the plunger is not restrained up and down). Can be easily connected by raising and lowering.

[Clamp auxiliary device: Left and right drive unit]
FIG. 13 is a perspective view of the drive unit 70B.
Since the left and right drive units 70B and 70B are symmetrical structures, only the left drive unit 70B will be described here, and the description of the right drive unit 70B will be omitted.
As shown in FIGS. 7 to 9, the drive unit 70 </ b> B disposed on the left side of the drive unit 70 </ b> A in the base 60 has a clamp position and a release position of the upper clamp member 41 </ b> B of the clamp unit 40 </ b> B on the left side of the clamp jig 30. Equipped with an air cylinder 71B as an actuator serving as a drive source for inputting a switching operation, a support frame 72B that supports the plunger of the air cylinder 71B in a state of being directed diagonally downward to the right, and a plunger of the air cylinder 71B The movable block 74B, and a connecting member 73B supported by the movable block 74B are provided.

  The support frame 72B is a flat plate shape that is perpendicular to the forward / backward movement direction of the plunger of the air cylinder 71B and supports the air cylinder 71B, and a flat plate shape that is parallel to the YZ plane and is a front support plate. 62 is opposite to the front surface portion 722B facing the rear surface of the 62, the flat surface parallel to the YZ plane and the rear surface portion 723B facing the front surface of the rear support plate 63, and the support portion 721B of the front surface portion 722B. And a rotation support arm 724B extending obliquely upward to the right from the end on the side.

The support part 721B has an opening part in which the plunger of the air cylinder 71B is loosely inserted in the center part thereof, and the air cylinder 71B is fixedly supported by screwing with the plunger passing through the opening part. ing.
The drive unit 70B can adjust the angle around the X axis by the auxiliary device side adjusting mechanism 80, but the support portion 721B supports the air cylinder 71B almost upside down as described above, so that the plunger is directed upward. Interference with the air cylinder 71A of the adjacent drive unit 70A arranged as described above can be avoided and the drive units 70A and 70B can be arranged close to each other, which contributes to downsizing of the entire apparatus. .

The front surface portion 722B is supported by the front support plate 62 via the auxiliary device side adjustment mechanism 80, and the rear surface portion 723B is supported by the rear support plate 63 via the auxiliary device side adjustment mechanism 80.
The rotation support arm 724B extended from the lower right end of the front surface portion 722B is a flat plate integrated with the front surface portion 722B, and the extended end portion is provided on the front support plate 62. The support shaft 621 is supported so as to be rotatable around the X axis. The support shaft portion 621 supports the entire drive unit 70B through the rotation support arm 724B so as to be rotatable, and the rotation center line of the support shaft portion 621 corresponds to the state where the clamp jig 30 is mounted on the mounting plate 64. The clamp jig 30 is arranged to coincide with the center axis of the clamp surface.
Further, the auxiliary device side adjusting mechanism 80 described later also has a structure for adjusting the position by rotating the drive unit 70B around the same rotation center line, so that the drive unit 70B is stably rotated by the rotation support arm 724B. The operation can be performed, and the position adjustment can be performed smoothly.

  The movable block 74B is provided with a projection (not shown) that is inserted into a long hole 725B along the forward and backward movement direction of the plunger of the air cylinder 71B provided on the rear surface portion 723B, and the movable block 74B together with the plunger of the air cylinder 71B. When moving forward and backward, the protrusion suppresses the wobbling of the movable block 74B, and enables stable operation.

  The connecting member 73B includes a bottom surface portion 731B connected to the movable block 74B, a standing plate portion 732B erected diagonally upward to the left from the end portion of the bottom surface portion 731B, and a front left diagonally downward from the upper end portion of the standing plate portion 732B. The upper surface portion 733B is bent and formed integrally with each other.

The upper surface portion 733A is a flat plate shape parallel to a plane obtained by inclining the XY plane around the X axis, and a locked portion 462a of the linear motion shaft 462 of the clamp unit 40B is provided on the front side edge portion thereof. A locking portion 734B for locking is provided. The locking portion 734B is formed of a notch that is open at the front and concave toward the rear. By the locking portion 734B having the above structure, the locked portion 462a formed at the lower end of the linear movement shaft 462 of the clamp unit 40B is moved rearward relative to the locking portion 734B. The locked portion 462a can be fitted inside the locking portion 734B to easily form a connection state between the linear motion shaft 462 and the connecting member 73B.
The clamp unit 40B and the drive unit 70B can be adjusted in inclination angle around the X axis by the jig side adjustment mechanism 47 and the auxiliary device side adjustment mechanism 80, respectively, and the linear motion shaft 462, the connecting member 73B, These connections are based on the premise that the respective inclination angles are the same.

[Clamp auxiliary device: Auxiliary device side adjustment mechanism]
Between the base 60 and the drive unit 70B, an auxiliary device side adjustment mechanism 80 that adjusts the arrangement of the air cylinder 71B and the connecting member 73B with respect to the base 60 is provided. The central drive unit 70A is fixedly mounted on the base 60 and is not adjusted in position. Further, since the auxiliary device side adjusting mechanisms 80, 80 of the left and right drive units 70B, 70B are symmetrical with each other in the left-right direction, only the left auxiliary device side adjusting mechanism 80 will be described, and the right auxiliary device side adjusting mechanism 80 will be described. Description is omitted.

  As shown in FIGS. 7 to 9, the auxiliary device side adjusting mechanism 80 includes arcuate guide holes 81 and 82 formed in the front support plate 62 and the rear support plate 63 of the base 60, and a drive unit. A shaft portion (not shown) provided on each of the front surface portion 722B and the rear surface portion 723B of the support frame 72A of 70B, and a handwheel handle 83 provided on the shaft portion (the handwheel handle 83 on the rear support plate 63 side is not illustrated). Consists of.

  Both the guide hole 81 of the front support plate 62 and the guide hole 82 of the rear support plate 63 are centered on the central axis of the clamp surface of the clamp jig 30 with the clamp jig 30 mounted on the mounting plate 64. The guide holes 81 of the front support plate 62 and the guide holes 82 of the rear support plate 63 have the same arrangement and length as viewed from the X-axis direction.

  The shaft portions equipped on the front surface portion 722B and the rear surface portion 723B of the support frame 72B of the drive unit 70B are individually inserted into the guide holes 81 of the front support plate 62 and the guide holes 82 of the rear support plate 63, respectively. The front end portion protrudes to the outside of the front support plate 62 and the rear support plate 63.

The hand turning handle 83 is connected to the front end portion of the shaft portion on the outside of the front support plate 62 and the rear support plate 63 so as to be rotatable about a direction orthogonal to the longitudinal direction of the shaft portion.
In addition, a cam is provided at the end of the handwheel 83 on the side of the rotation fulcrum. When the handwheel 83 is tilted along the flat surface of the front support plate 62 or the rear support plate 63, the cam is provided. Presses the front support plate 62 and the front surface portion 722B of the support frame 72B or the rear support plate 63 and the rear surface portion 723B of the support frame 72B to restrict the movement of the drive unit 70B.
Further, when the handwheel handle 83 is erected so as to be substantially perpendicular to the flat surface of the front support plate 62 or the rear support plate 63, the cam is supported on the front support plate 62 and the front portion 722B of the support frame 72A or the rear support plate. 63 and the rear surface portion 723B of the support frame 72B are released, and the drive unit 70B can be moved.

Therefore, the auxiliary device side adjustment mechanism 80 can easily adjust the position of the drive unit 70B by the turning operation of the handwheel handle 83 provided before and after the drive unit 70B.
For example, FIG. 10 shows a state in which the left and right clamp units 40B and 40B have been adjusted so that the opening angle around the central axis of the clamp surface is increased in the clamp jig 30 in order to clamp a large workpiece C. FIG. 11 shows a state in which the left and right clamp units 40B and 40B are adjusted so that the opening angle around the central axis of the clamp surface is reduced in the clamp jig 30 in order to clamp the small sewing product C.
In order to cope with these, the auxiliary device side adjusting mechanism 80 is used to adjust the left and right drive units 70B and 70B so that the opening angle around the central axis of the clamp surface is equal to that of the left and right clamp units 40B and 40B. Thus, the locking portions 734B and 734B of the connecting members 73B and 73B of the drive units 70B and 70B can be arranged on the axis of the linear movement shaft 462 of the clamp units 40B and 40B, and the left and right clamp units 40B, The locked portions 462a and 462a of 40B and the locking portions 734B and 734B of the drive units 70B and 70B can be easily connected.

[Clamp auxiliary device: Control system]
As shown in FIG. 14, the control device 90 of the auxiliary clamp device 50 includes electromagnetic valves 711A, 711B, 711B for operating the air cylinders 71A, 71B, 71B of the drive units 70A, 70B, 70B, respectively, in the drive circuit 712A. , 712B, 712B.
The control device 90 is connected to a foot pedal 93 for operating the air cylinders 71A, 71B, 71B via an interface (not shown).
The control device 90 includes a CPU 91 that performs predetermined control on each of the air cylinders 71A, 71B, and 71B, and a memory 92 in which a control program for executing the control and setting data are written.

Each of the air cylinders 71A, 71B, 71B is double-acting and includes an air chamber on the pushing side of the plunger and an air chamber on the drawing side.
Each solenoid valve 711A, 711B, 711B is configured to release the air pressure to the atmospheric pressure individually for the air chamber on the pushing side and the air chamber on the drawing side of the plunger of each air cylinder 71A, 71B, 71B. Can be switched.

  FIG. 15 is a perspective view of the foot pedal 93. The foot pedal 93 includes three pedals 931, 932, and 933 for individually performing the clamping of the workpiece C by the three clamp units 40A, 40B, and 40B of the clamp jig 30 attached to the clamp auxiliary device 50. And a release lever 934 that simultaneously releases the clamped state by the three clamp units 40A, 40B, and 40B.

[Operation control of clamp auxiliary device by control device]
The operation of attaching the workpiece C to the clamp jig 30 using the clamp auxiliary device 50 will be described based on the operation control of the clamp auxiliary device 50 executed by the control device 90.
First, the worker attaches the clamp jig 30 to the clamp assisting device 50 in a state where the sewing is completed and the sewn workpiece is clamped.
That is, the grip pads 351 and 351 of the left and right jig gripping mechanisms 35 and 35 of the clamp jig 30 are in a released state, and the mounting plate 64 of the clamp assisting device 50 is interposed between the grip pads 351 and 351 and the frame 31. Is inserted from below, and the hanging portion 34 is positioned by the four protrusions 643 and the lower end support member 644.
On the other hand, the control device 90 previously releases the air chambers on the push-out side and the air chambers on the pull-in side of the air cylinders 71A, 71B, 71B by the electromagnetic valves 711A, 711B, 711B in advance. The connecting members 73A, 73B, 73B of the drive units 70A, 70B, 70B are moved up and down and connected to the linear motion shafts 462 of the clamp units 40A, 40B, 40B.
Then, the positioning protrusions 641 and 642 are inserted into the positioning holes 321 and 341, and the operation levers 353 and 353 of the left and right jig gripping mechanisms 35 and 35 are pushed forward. As a result, each of the grip pads 351 and 351 grips the mounting plate 64, and the clamp jig 30 is in the mounted state.

Here, the operator operates the release lever 934 of the foot pedal 93. When detecting the operation of the release lever 934, the control device 90 drives all the air cylinders 71A, 71B, 71B with the maximum stroke in the direction in which the connecting members 73A, 73B, 73B are raised.
As a result, in the clamp jig 30, the upper clamp members 41A, 41A, 41B, 41B of the respective clamp units 40A, 40B, 40B are rotated upward to the release position.
The operator removes the sewing product C that has been sewn and places a new sewing product C on each lower clamp member 42A, 42A, 42B, 42B.

Thereafter, the control device 90 controls each air cylinder 71A, 71B, 71B so that each upper clamp member 41A, 41A, 41B, 41B reaches the clamp position from the release position in a stepwise manner (for example, two steps). .
Specifically, the control device 90 counts the number of depressions of the pedals 931 to 933 of the foot pedal 93 up to the second time. For example, when the first depression of the pedal 931 is detected, the control device 90 causes the upper clamp members 41A and 41A to be in an intermediate position between the release position and the clamp position (for example, the lower clamp members 42A and 42A). And the upper clamp members 41A and 41A, the air cylinder 71A is controlled via the electromagnetic valve 711A so as to stop at a position where a gap larger than the thickness of the workpiece C is formed.
By providing the intermediate position in this way, accidents such as pinching of fingers can be prevented. Further, since the upper clamp members 41A and 41A are close to the sewing product C, the sewing product C can be positioned at an appropriate position.

  In order to stop the upper clamp members 41A and 41A at the intermediate position, for example, the time for supplying air pressure to the air chamber for lowering the upper clamp member 41A in the air cylinder 71A is adjusted, and the time is shorter than the time for moving to the clamp position. Examples thereof include a method of stopping the supply of air pressure, and a method of stopping the plunger at an intermediate position by supplying air pressure to the air chambers on both sides.

When the second depression of the pedal 931 is detected, the control device 90 controls the air cylinder 71A via the electromagnetic valve 711A so that the upper clamp members 41A and 41A reach the clamp position. That is, sufficient air pressure is supplied to the air chamber in which the plunger is moved in the direction of lowering the upper clamp member 41A in the air cylinder 71A.
As a result, the workpiece is clamped between the upper clamp members 41A and 41A and the lower clamp members 42A and 42A.

Furthermore, when the upper clamp members 41A and 41A reach the clamp position from the release position, the control device 90 executes control to stop the thrust output from the air cylinder 71A.
Since the support mechanism 43A of the clamp unit 40A has a toggle mechanism structure, when the upper clamp members 41A and 41A are moved to the clamp position, the clamp position can be maintained even if the thrust of the air cylinder 71A is interrupted.
Accordingly, the control device 90 controls the electromagnetic valve 711A to switch the air chamber on the clamp position side with respect to the air cylinder 71A to the atmospheric release state, and also sets the air cylinder 71A to the atmospheric release state by setting the air chamber on the release position side to the atmospheric release state. It is set as the state which does not drive also to the direction.
Thereby, waste of air pressure can be reduced.

The control device 90 also controls the air cylinders 71B and 71B similarly to the air cylinder 71A when detecting the depression of the pedals 932 and 933 of the foot pedal 93, and sets all the upper clamp members 41A, 41B and 41B to the clamp positions.
In this state, the operator operates the operation levers 353 and 353 to release the grip pads 351 and 351 of the left and right jig gripping mechanisms 35 and 35 of the clamp jig 30, and clamps from the mounting plate 64. The jig 30 is removed and the operation is finished.

[Sewing machine: Outline]
16 and 17 are perspective views of the sewing machine 100 with a part of the configuration omitted, and FIG. 18 is a block diagram showing a control system of the sewing machine.
The sewing machine 100 includes a needle bar that holds a sewing needle at the lower end, a needle bar vertical movement mechanism that moves the needle bar up and down, a hook mechanism that captures the upper thread passed through the sewing needle and entangles the lower thread, An intermediate pressing mechanism for moving the intermediate presser 11 up and down, a swinging mechanism 120 for holding and swinging the clamp jig 30, an axis moving mechanism 140 for moving the clamp jig 30 along its swing axis, A sewing machine frame 110 that stores or mounts each component and a control device 160 that controls each component and performs needle drop at an arbitrary position of the sewing product C are provided.
Note that the X axis direction, the Y axis direction, and the Z axis direction in each drawing of the sewing machine 100 are when the clamp jig 30 is attached to the sewing plate 100 to a mounting plate 121 described later, and the mounting plate 121 is at the reference position. The X-axis direction, Y-axis direction, and Z-axis direction determined for the clamp jig 30 in a certain state (a state in which the mounting plate 121 is erected vertically) are applied.

The sewing machine frame 110 includes a sewing bed part 111 located at a lower part, a standing body part 112 raised from the sewing machine bed part 111, and a sewing machine extending from the upper end part of the standing body part 112 in parallel with the sewing machine bed part 111. Arm portion 113.
16 and 17, the illustration of the cover of each part of the sewing machine frame 110 is partially omitted, and the illustration of the internal configuration thereof is also omitted.

  The needle bar up-and-down movement mechanism includes a sewing machine motor 102, an upper shaft that is rotated by the sewing machine motor 102, and a crank mechanism that converts the rotational force of the upper shaft into a driving force for vertical movement and applies it to the needle bar. The detailed description is omitted.

The hook mechanism is a well-known configuration including a so-called horizontal hook, a hook shaft that supports the horizontal hook, a lower shaft that is rotated by the sewing machine motor 102, and a transmission mechanism that transmits rotational force from the lower shaft to the hook shaft. The detailed explanation is omitted.
Further, the sewing machine 100 is a so-called post bed sewing machine, and a horizontal shuttle is built in an upper part of a post bed 114 erected at a position below the sewing needle in the sewing machine bed portion 111.

The intermediate presser mechanism is a well-known configuration comprising an intermediate presser bar that holds the intermediate presser at the lower end portion, and a crank mechanism that converts the rotational force of the upper shaft into a vertical drive force and applies it to the intermediate presser bar. The detailed explanation is omitted.
The intermediate presser includes a cylindrical portion into which the sewing needle is loosely inserted, and the cylindrical portion has a role of pressing the sewing product from above when the sewing needle is raised to suppress fluttering of the sewing product.
The intermediate presser mechanism transmits an operation so that the intermediate presser moves in the same cycle as the sewing needle and moves up and down behind the sewing needle. As a result, the object to be sewn that is pulled up by the raising of the sewing needle is pressed down, and the sewing needle is pulled out from the article to be sewn well.

[Sewing machine: swing mechanism]
The swing mechanism 120 is connected to a mounting plate 121 detachably holding the clamp jig 30 by the jig gripping mechanism 35 of the clamp jig 30, and a lower end portion of the mounting plate 121. A pivot shaft 122 that swings the clamp jig 30; a swing motor 123 that is mounted on the rear end of the sewing machine bed portion 111 and serves as a drive source for the swing operation of the clamp jig 30; And a transmission mechanism 124 that transmits the torque of the swing motor 123 to the mounting plate 121.

  The mounting plate 121 is in contact with the upper and lower positioning projections 1211 and 1212 inserted into the positioning holes 321 and 341 of the frame 31 of the clamp jig 30 and the left and right side edges of the hanging portion 34 of the frame 31 on the front surface. Four protrusions 1213, 1213, 1213, and 1213 that are positioned in the axial direction, and a lower end support member 1214 with which the lower end portion of the hanging portion 34 abuts.

The positioning protrusions 1211 and 1212 are provided so as to protrude forward on the front surface of the mounting plate 121 and are individually rearward with respect to the positioning holes 321 and 341 formed in the frame 31 of the clamp jig 30 attached to the front side of the mounting plate 121. Inserted from the side.
The four protrusions 1213, 1213, 1213 and 1213 are provided so as to protrude forward on the front surface of the mounting plate 121 and are spaced apart in the Y-axis direction at an interval substantially equal to the width of the hanging part 34 in the Y-axis direction. Two sets of projections 1213 and 1213 are arranged in the vertical direction.

The lower end support member 1214 is a long rectangular member having a length approximately equal to the width in the Y-axis direction of the hanging portion 34 of the frame 31 of the clamp jig 30, and extends along the Y-axis direction on the front surface of the mounting plate 121. Fixedly equipped.
The lower end support member 1214 corresponds to the wedge shape of the lower end portion of the hanging portion 34, and an inclined surface inclined obliquely rearward and downward is formed on the upper surface thereof, and between the inclined surface and the front surface of the mounting plate 121. A gap for inserting the wedge-shaped lower end portion of the hanging portion 34 is formed.
When the clamp jig 30 is mounted on the mounting plate 121 by the lower end support member 1214, the lower end portion of the hanging portion 34 is held by the lower end support member 1214, and the clamp jig 30 is properly positioned in the Z-axis direction. Can do.

Further, the mounting plate 121 has an insertion hole for inserting the front end portion of the rotating shaft 122 at the lower end portion thereof, and is fixedly connected by hugging in a state where the front end portion of the rotating shaft 122 is inserted.
The rotation shaft 122 is parallel to the X-axis direction, and by rotating, the clamp jig 30 mounted on the upper portion of the mounting plate 121 can be swung along the Y-axis direction.
Further, the position of the center line of the rotating shaft 122 with respect to the mounting plate 121 is set so as to be on the same line as the center axis of the clamp surface of the clamp jig 30 mounted on the mounting plate 121. Therefore, the clamp jig 30 can swing along the peripheral surface of the clamp surface by the rotation of the rotation shaft 122.

  The rotation shaft 122 is disposed in a state of penetrating front and rear along the X-axis direction at a substantially central portion in the Y-axis direction at the lower portion of the standing body portion 112. The vicinity of the front end portion and the rear end portion of the rotation shaft 122 can be rotated by a ball spline 115 (the rear surface side is not shown) provided on the front surface and the rear surface of the upright body portion 112 and travels along the rotation center line direction. Supported as possible.

The transmission mechanism 124 includes a main pulley 1241 provided on the output shaft of the swing motor 123, a driven pulley 1242 provided on the rear end portion of the rotating shaft 122, and timings spanned between these pulleys 1241 and 1242. Belt 1243.
The outer diameter of the driven pulley 1242 is set to be equal to the diameter of the clamp surface of the clamp jig 30, and the largest one is used in a range allowed for the sewing machine 100. In other words, the diameter of the clamp surface of the clamp jig 30 is equal to the range of the work area at the time of sewing, and if it is a pulley equal to this size, it can be within the range of width allowed by the sewing machine.
The outer diameter of the main pulley 1241 is set sufficiently small with respect to the increase in the size of the driven pulley 1242. Thereby, although the rotation speed transmitted to the rotating shaft 122 is decelerated, the torque can be increased. Therefore, even when a thick sewing product C or a hard sewing product C is attached to the clamp jig 30, and the resistance to the swinging operation increases due to friction with the sewing needle during sewing, the clamp jig 30 The delay of the swinging motion of the tool 30 can be suppressed.

  Further, the rotating shaft 122 has a spline groove formed from the rear end portion to the vicinity of the front end portion, and the driven pulley 1242 has a spline nut structure. As a result, torque can be transmitted to the rotating shaft 122 while allowing the rotating shaft 122 to move in the thrust direction.

The swing motor 123 is not particularly limited as long as the operation amount can be controlled. For example, a stepping motor is used.
With these configurations, the swing mechanism 120 can arbitrarily control the swing angle of the sewing product C held by the clamp jig 30.

[Sewing machine: Axis movement mechanism]
The axis moving mechanism 140 moves the clamp jig 30 along the swing axis direction (X-axis direction) of the swing operation via the rotating shaft 122 and the mounting plate 121 of the swing mechanism 120.
For this reason, the axis moving mechanism 140 includes an axis moving motor 141 serving as a driving source for movement in the swing axis direction, a main driving pulley 142 provided on the output shaft of the axis moving motor 141 on the front side of the right side surface of the standing body 112, A driven pulley 143 provided on the rear side of the right side surface of the standing body 112, a timing belt 144 stretched between these pulleys 142, 143, and a slide member 145 fixedly provided in the middle of the timing belt 144; And a slide guide 146 that supports the slide member 145 slidably along the X-axis direction on the right side surface of the standing trunk portion 112.

The axis movement motor 141 is supported on the front side of the right side surface of the standing body 112 with the output shaft directed downward. The axis moving motor 141 is not particularly limited as long as the operation amount can be controlled. For example, a stepping motor is used.
Due to the arrangement of the axial movement motor 141, the main pulley 142 is supported so as to be rotatable about the Z axis. Further, the driven pulley 143 is also supported on the rear side of the right side surface of the standing trunk portion 112 so as to be rotatable around the Z axis.
Therefore, the main pulley 142 and the driven pulley 143 are arranged side by side in the X-axis direction, and the timing belt 144 stretched between these pulleys 142 and 143 is conveyed in a state along the X-axis direction.

Since the slide member 145 is connected to the timing belt 144 and supported by the slide guide 146, the slide member 145 moves in the X-axis direction by driving the axis movement motor 141.
The slide member 145 is connected to the inside of the standing trunk portion 112 via a rotation shaft 122 of the swing mechanism 120 and a thrust bearing.
In other words, the slide member 145 can transmit the moving force in the thrust direction (oscillation axis direction [X-axis direction]) to the rotation shaft 122 while allowing the rotation of the rotation shaft 122 by the thrust bearing. .
With these configurations, the axis moving mechanism 140 can arbitrarily move the sewing product C held by the clamp jig 30 along the swing axis direction.

[Sewing machine control system]
As shown in FIG. 18, the control device 160 includes a display panel 164 that displays various settings related to sewing and the current state of the sewing machine, and screen selections and commands for performing various settings provided in the display panel 164. A setting switch 165 as setting input means for inputting numerical values and an operation pedal 168 for inputting the start of sewing are connected via an input / output circuit (not shown).

  The operation pedal 168 is means for inputting a sewing operation drive command to the control device 160 by a stepping operation. That is, when the operation pedal 168 is depressed, the control device 160 performs operation control for starting sewing.

  From the setting switch 165, the operator inputs various parameters for sewing the workpiece C, for example, setting of sewing pattern data for sewing sewing, selection of a sewing pattern, and the like.

Further, the control device 160 is connected to a sewing machine motor 102, a swing motor 123, and an axis moving motor 141, which are to be controlled, via drive circuits 102a, 123a, 141a, respectively.
The control device 160 includes a CPU 161 that performs various controls, and a memory 162 in which a control program that executes operation control of the sewing machine 100 and various sewing data are written.

For example, sewing pattern data is stored in the memory 162.
The sewing pattern data is data including position coordinate data in which all the needle drop positions constituting the sewing pattern of the workpiece C are developed in a coordinate system composed of a position in the swing axis direction and a swing angle.
A plurality of sewing pattern data are prepared in the memory 162, and can be appropriately selected from these sewing pattern data.

  In accordance with the control program, the CPU 161 reads the selected sewing pattern data, and positions the sewing product C at each needle drop position constituting the sewing pattern, so that the swing motor 123 and the axis moving motor 141 for each needle are controlled. The operation amount is calculated, and the swing motor 123 and the axis moving motor 141 are driven and controlled so as to be the calculated operation amount for each stitch in synchronization with the sewing machine motor 102.

[Sewing preparation and sewing operation]
The flow from the preparation work to the sewing work when sewing the sewing product C of the sewing machine 100 will be described.
Attachment of the sewing product C to the clamp jig 30 is performed by the clamp auxiliary device 50 described above. Then, the clamp jig 30 in a state where the workpiece C is clamped is attached to the mounting plate 121.
That is, with the holding pads 351 and 351 of the left and right jig holding mechanisms 35 and 35 of the clamp jig 30 in the released state, the mounting plate 121 is inserted between the holding pads 351 and 351 and the frame 31 from below, The hanging part 34 is positioned by the four protrusions 1213 and the lower end support member 1214.
Further, the positioning protrusions 1211, 1212 are inserted into the positioning holes 321, 341, and the operation levers 353, 353 of the left and right jig gripping mechanisms 35, 35 are pushed forward. As a result, each of the grip pads 351 and 351 grips the mounting plate 121, and the clamp jig 30 is in the mounted state.

When the preparatory work is completed and the sewing pattern data is selected from the setting switch 165 of the sewing machine 100, the CPU 161 calculates the operation amount for each stitch of the swing motor 123 and the axis moving motor 141.
Further, when the start of sewing is input by the operation pedal 168, the CPU 161 starts to drive the sewing machine motor 102, and in synchronization with the vertical movement of the needle bar, the swing motor 123 and the axis movement motor 141 for each needle. Is driven with the calculated movement amount, the workpiece C is swung and moved axially, and needle drops are sequentially performed at the needle drop positions determined in the sewing pattern data.

When needle dropping is performed at all needle dropping positions determined in the sewing pattern data, the sewing machine motor 102 is stopped and the sewing operation is completed.
Further, the clamp jig 30 is removed from the mounting plate 121, and the workpiece C is removed from the clamp jig 30 in the clamp auxiliary device 50, and a series of sewing operations is completed.

[Effect of the embodiment]
The clamp auxiliary device 50 includes drive units 70A and 70B including connecting members 73A and 73B and air cylinders 71A and 71B, and can sufficiently clamp the work to be sewn by the clamp units 40A, 40B, and 40B of the clamp jig 30. Since it is possible to perform the work on the clamping auxiliary device 50 that is not limited by the working space, not on the sewing machine side where it is difficult to secure a working space, the work for attaching the workpiece to the clamp jig 30 can be performed easily and quickly. It is possible to improve the workability.

  In addition, the clamp assisting device 50 uses the air cylinders 71A, 71B, 71B as driving sources to clamp the workpiece by the upper clamp members 41A, 41A, 41B, 41B, so that the clamp position is manually switched to the clamp position. The work burden can be reduced.

  Further, the drive units 70A, 70B, 70B of the clamp auxiliary device 50 are locked at positions where they can be connected to the locked portions 462a of the linear motion shafts 462 of the clamp units 40A, 40B, 40B of the clamp jig 30. Since the connecting members 73A, 73B, and 73B having the portions 734A, 734B, and 734B are provided, when the clamp jig 30 is attached to the mounting plate 64, the linear motion shaft 462 and the connecting members 73A, 73B, and 73B are connected. It is possible to easily perform the mounting operation of the clamp jig 30 to the clamp assisting device 50.

  Further, in the clamp assisting device 50, since the foot pedal 93 is used as an operation input unit for inputting an operation for operating each air cylinder 71A, 71B, 71B, the workpiece C is clamped to the clamp jig 30. Both hands can be used when the work to be performed is performed, and the workability can be further improved.

  Further, in the clamp assisting device 50, the control device 90 controls the air cylinders 71A, 71B, 71B so that the upper clamp members 41A, 41A, 41B, 41B are moved stepwise from the release position to the clamp position. Therefore, when the upper clamp members 41A, 41A, 41B, 41B are stopped on the way, accidents such as finger pinching can be prevented and safety can be improved. Further, since the upper clamp members 41A, 41A, 41B, and 41B stop in the middle, the workpiece C can be aligned using the upper clamp members 41A, 41A, 41B, and 41B, thereby further improving workability. It becomes possible.

  In the above-described embodiment, the case where the upper clamp members 41A, 41A, 41B, and 41B are moved in two stages is illustrated, but control may be performed so as to reach the clamp position through more stages.

  Further, in the auxiliary clamp device 50, when the control device 90 moves the upper clamp members 41A, 41A, 41B, 41B to the clamp position, the thrust output of the air cylinders 71A, 71B, 71B is stopped. To the air cylinders 71A, 71B, 71B after the upper clamp members 41A, 41A, 41B, 41B maintain the clamp position by the toggle mechanism structure of the support mechanisms 43A, 43B, 43B of the 30 clamp units 40A, 40B, 40B. The supply of air pressure can be eliminated, and waste of air pressure can be reduced.

  The actuators of the drive units 70A, 70B, and 70B are not limited to the air cylinders 71A, 71B, and 71B, and a motor or a solenoid can be used. Even in this case, when the upper clamp members 41A, 41A, 41B, 41B reach the clamp position, it is possible to save power by performing control to stop the energization of the drive current and stop the thrust.

  In addition, the clamp auxiliary device 50 includes the auxiliary device side adjustment mechanism 80 that adjusts the position of the two drive units 70B and 70B. Therefore, the position of each clamp unit 40B and 40B is adjusted by the jig side adjustment mechanism 47 in the clamp jig 30. Even when adjustment is performed, the drive units 70B and 70B can be adjusted correspondingly, and the locked portions 462a of the linear motion shafts 462 of the clamp units 40B and 40B and the drive units 70B and 70B can be adjusted. The engaging portions 734B and 734B of the connecting members 73B and 73B can be properly aligned, and the attaching operation of the clamp jig 30 to the clamp auxiliary device 50 can be performed satisfactorily.

In addition, the sewing machine 100 includes a swing mechanism 120 that swings the clamp jig 30 around the central axis of the clamp surface of the clamp jig 30, and the clamp jig 30 along the axis that the clamp jig 30 swings. An axis moving mechanism 140 for moving the sewing machine, and a control device 90 for controlling these and performing needle drop at an arbitrary position of the sewing product.
Therefore, the combination of the swing and the linear motion makes it possible to perform needle dropping at an arbitrary position on the curved surface of the workpiece, and to perform various sewing on the curved surface.
Further, in the sewing machine 100, if the needle drop positions are stored in order based on the sewing pattern data or the like, automatic sewing can be performed on the sewing pattern on the curved surface.

In the sewing machine 100, the rotation shaft 122, the swing motor 123, and the transmission mechanism 124 of the swing mechanism 120 are all supported by the sewing machine frame 110.
In the maintenance, the sewing machine 100 is tilted around the fulcrum provided on the side edge of the sewing machine bed portion 111, for example, around the X axis so that the bottom of the sewing machine bed portion 111 can be seen. In this case, since each component of the swing mechanism 120 tilts together with the sewing machine frame 110 and does not hinder the tilting, it is possible to eliminate the handling work and improve the maintenance workability. .

  Further, by adopting a configuration in which the axis moving mechanism 140 is also supported by the sewing machine frame 110, it is possible to improve maintenance workability in the same manner.

Further, the pivot shaft 122 of the swing mechanism 120 is disposed so as to penetrate the standing body portion 112 of the sewing machine. Unlike the sewing machine bed portion 111 and the sewing machine arm portion 113, the standing body portion 112 is stored inside. Therefore, the installation space for the rotating shaft 122 can be easily secured, and the sewing machine can be prevented from being enlarged.
In addition, the axis moving mechanism 140 can be provided in the standing body 112 by arranging the rotation shaft 122 in the standing body 112.
Thereby, said sewing machine 100 can be realized by a simple modification to an existing post bed sewing machine, and a sewing machine that is easy to manufacture can be provided.

  In addition, since the clamping jig 30 can be attached to and detached from the sewing machine 100, the attachment and detachment of the workpiece C to and from the clamping jig 30 can be performed at a place other than the sewing machine, for example, the clamping auxiliary device 50, and a narrow space. Therefore, the workability can be improved.

[Others]
In the clamp jig 30, the number of clamp units may be at least two, and may be increased or decreased. The same applies to the number of individual drive units of the clamp assisting device 50.

Further, in the clamp jig 30, the position of the clamp unit 40A may be adjustable in the same manner as the clamp unit 40B.
The position of the drive unit 70A of the clamp assisting device 50 may be adjustable in the same way as the drive unit 70B.

  Although the foot pedal 93 is illustrated as the operation input unit, the present invention is not limited to this, and other input means that allows the operator to perform an input operation using the body may be used.

  The axis moving mechanism 140 moves the clamp jig 30 in the axial direction. However, the present invention is not limited to this, and the mechanism for moving the needle bar in the axial direction or the lower end of the needle bar swings along the axial direction. A needle swinging mechanism to be used may be mounted on the sewing machine 100.

30 Clamp jig (Clamp holder)
31 Frame 35 Jig holding mechanism 40A, 40B Clamp unit 41A, 41B Upper clamp member (clamp member)
42A, 42B Lower clamp members 43A, 43B Support mechanism 46 Transmitter 47 Jig side adjustment mechanism 48 Intermittent movement mechanism 50 Clamp auxiliary device 60 Base 64 Mounting plates 70A, 70B Drive units 71A, 71B Air cylinder (actuator)
73A, 73B Connecting member 80 Auxiliary device side adjustment mechanism 90 Control device 93 Foot pedal (operation input unit)
DESCRIPTION OF SYMBOLS 100 Sewing machine 110 Sewing machine frame 111 Sewing machine bed part 112 Standing trunk part 113 Sewing machine arm part 114 Post bed 115 Ball spline 120 Swing mechanism 121 Mounting plate 122 Swing shaft 123 Swing motor 124 Transmission mechanism 140 Axis movement mechanism 141 Axis movement motor 142 Drive pulley 143 Drive pulley 160 Controllers 411A, 411B Clamp surfaces 421A, 421B Clamp surface 462 Linear shaft 462a Locked portion 734A, 734B Lock portion 1241 Drive pulley 1242 Drive pulley A1, A2 Arc C Sewing product

Claims (6)

A clamp member that clamps the workpiece, a support mechanism that supports the clamp member so as to be switched between a clamp position and a release position, and holds the clamp member via the support mechanism and is detachable from the sewing machine. A clamp assisting device for assisting a clamping operation of a sewing product by a clamping jig having a certain frame,
A base for supporting the frame of the clamp jig;
A connecting member connectable to a support mechanism of the clamp jig;
An actuator for switching the clamp member of the clamp jig from the release position to the clamp position via the connecting member;
A clamp assisting device comprising: an operation input unit that operates the actuator. The support mechanism for the clamp jig includes an operation member that extends in a predetermined direction and switches the clamp member between a clamp position and a release position.
The locking portion is provided at a position where the connecting member can be connected to the operation member in a state where the frame of the clamp jig is supported by the base. Clamp auxiliary device.   3. The clamp assisting device according to claim 1, wherein the operation input unit is a foot pedal.   The clamp auxiliary device according to any one of claims 1 to 3, further comprising a control device that controls the actuator so that the movement of the clamp member from the release position to the clamp position is performed stepwise. The support mechanism of the clamp jig is a toggle mechanism structure capable of maintaining the clamp member at the clamp position,
The clamp auxiliary device according to any one of claims 1 to 4, further comprising a control device that stops the output of thrust of the actuator when the clamp member is moved to the clamp position. The clamp jig includes a plurality of the clamp member and the support mechanism, and a jig side adjustment mechanism that adjusts the arrangement of the clamp member with respect to the frame.
6. The apparatus according to claim 1, comprising a plurality of the connecting members and the actuators, and an auxiliary device side adjusting mechanism that adjusts an arrangement of the connecting members and the actuators with respect to the base. Clamp auxiliary device.

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