The present invention relates to a sewing device and a sewing method for implementing sewing on a skin material.
Sometimes, in order to create a high-quality feeling in a vehicle interior of an automobile, a skin material that has been cut or molded to match a shape of an interior base material of an instrument panel, or the like, undergoes implementation of stitch pattern sewing (is provided with a seam). The sewing has conventionally been performed by a worker using a fixed type sewing machine. In the sewing machine, a workpiece-to-be-sewn is disposed on a sewing machine table, and sewing is performed by a sewing machine needle through which a thread has been passed being caused to penetrate through and withdraw from that workpiece-to-be-sewn.
When performing such sewing, sometimes too, in order to prevent deformation, the sewing is performed with the workpiece-to-be-sewn fixed by a jig of a predetermined shape. For example, Japanese Laid-Open Patent Publication No. 2017-071382 relates to a method of forming a stitch pattern by a needle thread alone, and describes the workpiece-to-be-sewn being supported by a receiving jig.
However, in a conventional sewing device, which is for sewing a comparatively flat portion of the workpiece-to-be-sewn, a countermeasure for preventing interference of a curved workpiece-to-be-sewn and the receiving jig is not considered. Therefore, it is not possible for a pre-shaped workpiece-to-be-sewn to have the receiving jig disposed on its rear surface to undergo thread circulation, or for sewing such as chain stitching or lock stitching to be performed. Moreover, if the receiving jig is forcibly disposed, then there are problems such as the workpiece-to-be-sewn being damaged by the receiving jig, or there occurring positional misalignment of the seam.
The present invention has an object of providing a sewing device and a sewing method by which sewing can be performed on a shaped curved workpiece-to-be-sewn without the workpiece-to-be-sown being damaged.
One aspect of the present invention is present in a sewing device comprising: a plurality of seating portions disposed in a sewing direction, each of the seating portions being configured to, by a workpiece-to-be-sewn being seated on a seating surface thereof of a predetermined shape, hold the workpiece-to-be-sewn in a state of the workpiece-to-be-sewn having been shaped in a predetermined shape; a sewing mechanism configured to perform sewing on the workpiece-to-be-sewn by a sewing machine needle; a drive mechanism configured to move the sewing mechanism along a predetermined sewing line; and a retraction mechanism configured to, depending on a position of the sewing mechanism, retract at least some of the seating portions from the workpiece-to-be-sewn in a manner that interference of the sewing mechanism and the seating portions is avoided, the retraction mechanism including a guiding mechanism configured to, when the seating portions are retracted from the workpiece-to-be-sewn, perform movement in a first retracting direction for avoiding a first undercut portion of the workpiece-to-be-sewn and movement in a second retracting direction for avoiding a second undercut portion of the workpiece-to-be-sewn.
Yet another aspect of the present invention is present in a sewing method in which a sewing mechanism is employed to perform sewing along a predetermined sewing line on a workpiece-to-be-sewn in a state of the workpiece-to-be-sewn having been shaped in a predetermined shape, the sewing mechanism comprising: a sewing machine needle configured to, by moving in a reciprocating manner, penetrate through or withdraw from the workpiece-to-be-sown; a post bed that faces the sewing machine needle with the workpiece-to-be-sewn disposed therebetween; and a pressing mechanism configured to press the workpiece-to-be-sewn against the post bed from a side of the sewing machine needle, the sewing method comprising: a step of shaping the workpiece-to-be-sewn in the predetermined shape by the workpiece-to-be-sewn being seated on a plurality of seating portions disposed along the sewing line of the workpiece-to-be-sewn; a step of forming a retraction region where both surfaces of the workpiece-to-be-sewn have been set adrift, by retracting some of the seating portions; and a step of performing sewing with the both surfaces of the workpiece-to-be-sewn being pinched by the sewing mechanism, in the retraction region of the workpiece-to-be-sewn, wherein, in the step of forming the retraction region, interference of the seating portions and the workpiece-to-be-sewn is avoided by sequentially moving the seating portions in a first retracting direction of separating from a first undercut portion of the workpiece-to-be-sewn and in a second retracting direction of separating from a second undercut portion of the workpiece-to-be-sewn.
According to the above-described sewing device and sewing method, sewing can be performed on a shaped curved workpiece-to-be-sewn without the workpiece-to-be-sewn being damaged.
A preferred embodiment of the present invention will be presented and described in detail below with reference to the accompanying drawings. Note that “up”, “down”, “left”, and “right” in the description below respectively correspond to upward, downward, leftward, and rightward in the drawings. However, this is an indication of directions which has been adopted for convenience in order to facilitate understanding, and does not define directions when a sewing device, a workpiece holding jig, and a sewing method are actually used.
As shown in
The workpiece holding jig 12 comprises a seating portion 20, a retraction mechanism 30, and a frame 26. The seating portion 20 has a seating surface 20a formed in its upper portion. The seating surface 20a is formed in the same shape as a workpiece-to-be-sewn 58 (refer to
A plurality of the seating portions 20 are disposed along a sewing direction of the sewing mechanism 14. Upper end portions of the seating surfaces 20a of these seating portions 20 are provided along a sewing line L (refer to
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As shown in
As shown in
The air cylinder 24 has a base end portion fixed to a connecting portion 28a provided on a base portion 28 of the frame 26, and has a tip portion (its end portion on the piston rod 24a side) upwardly disposed. The piston rod 24a is configured to be capable of moving in an up-down direction of the drawing with operation of the air cylinder 24. This air cylinder 24 operates by compressed air supplied from outside via an air hose (unillustrated).
The air cylinder 24 is fitted to the base portion 28 via the rotatable connecting portion 28a, in such a manner that the air cylinder 24 is capable of tracking movement of the cylinder block 34 along a guiding slit 33a. As shown in
As shown in
The seesaw portion 31 is fitted to an inside of a fitting hole 26e provided in an upper end portion of the frame 26. The seesaw portion 31 is fixed to the guide plate 33 by a shaft pin 31a. The shaft pin 31a, which is a pair of columnar members extending out in a width direction from side portions of the seesaw portion 31, is inserted in hole portions 33h provided in the guide plate 33. The seesaw portion 31 is configured to be rotatable about an axis in a width direction (a direction perpendicular to a paper surface in
The guide bush 32 is fixed to the seesaw portion 31. As shown in
As shown in
Upper end portions of the pair of guide plates 33 are inserted in the fitting hole 26e of the frame 26, and respectively joined to inner walls of the fitting hole 26e by a method such as screw fastening. Moreover, lower end portions of the guide plates 33 are joined to supports 26c of the frame 26. The seesaw portion 31, the guide bushes 32, the cylinder block 34, and the stopper mechanism 36 are disposed between the pair of guide plates 33.
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Moreover, an upper portion of the guide plate 33 is provided with the stopper mechanism 36 that prevents upward movement of the cylinder block 34. The stopper mechanism 36 is joined by a method such as screw fastening, to the guide plate 33. The stopper mechanism 36 may be provided with: a damper that abuts on an upper surface of the cylinder block 34 to lower a moving speed of the cylinder block 34; and a hard stopper mechanism that prevents movement of the cylinder block 34. The stopper mechanism 36 is configured to prevent contact of the guiding pin 34a of the cylinder block 34 and an end portion of the guiding slit 33a, and thereby prevent damage of the guiding pin 34a.
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As shown in
The sewing machine needle 49 is fitted so as to be able to move in a reciprocating manner in the up-down direction by a drive mechanism (not unillustrated) of the projection 50a. Reciprocating movement of the sewing machine needle 49 describes an elliptical locus when viewed from a front of the main body 50. As a result, it is configured such that, even when the main body 50 is moved at a constant speed, the sewing machine needle 49 is penetrated through the workpiece-to-be-sewn 58 while maintaining a constant position with respect to the workpiece-to-be-sewn 58. The tip of this sewing machine needle 49 has a thread 52 inserted therethrough, and is inserted into a receiving portion of the post bed 46 via the through-hole 48b. Although not specifically limited, two items of the sewing machine needle 49 are provided in the drawing, and these can form two parallel stitch patterns S.
The post bed 46 is provided with an unillustrated looper that holds a loop portion of the thread 52 formed by entry of the sewing machine needle 49. That post bed 46 is configured in such a manner that thread circulation, in which the loop portion of the sewing machine needle 49 is caught on the next loop portion formed in an entering portion of the sewing machine needle 49 to connect up the loop portions, is performed, whereby sewing such as chain stitching or lock stitching is performed.
As shown in
The sewing device 10 according to the present embodiment is configured as above. The action along with the operation thereof will be described below.
As shown in
As shown in the enlarged portion of
The sewing mechanism 14 moves at a constant speed in a rightward direction of
As a result, the workpiece-to-be-sewn 58 attains a state where both surfaces thereof have been set adrift from the seating portion 20, and to that portion, the sewing mechanism 14 can be moved along the sewing line L. Note that even when one seating portion 20 has been retracted, the shape of the workpiece-to-be-sewn 58 is maintained by the adjacent seating portions 20, hence sewing can be performed on the workpiece-to-be-sewn 58 in a shaped state thereof.
Moreover, the conveyor robot 16 (refer to
Incidentally, the workpiece-to-be-sewn 58 on which sewing is to be performed by the sewing device 10 is for example an interior material configuring an instrument panel of a vehicle having a shape like that shown in
As shown in
Accordingly, in the sewing device 10 of the present embodiment, the seating portion 20 is displaced along a path enabling the first undercut portion 58a and the second undercut portion 58b to be avoided, under action of the guiding mechanism 23.
In the state shown in
Due to the retraction operation, the piston rod 24a of the air cylinder 24 withdraws into the air cylinder 24, and, as a result, the cylinder block 34 descends, as shown in
Upon the piston rod 24a of the air cylinder 24 further withdrawing, the guiding pin 34a of the cylinder block 34 enters the second region 33c of the guiding slit 33a, as shown in
Upon the piston rod 24a of the air cylinder 24 further completely withdrawing, the cylinder block 34 moves to a vicinity of a lower end portion of the guide plate 33, whereby the retraction operation is completed, as shown in
The sewing device 10 of the present embodiment exhibits the following advantages.
The sewing device 10 includes the guiding mechanism 23 that, when the seating portion 20 is retracted from the workpiece-to-be-sewn 58, performs displacement in the first retracting direction for avoiding the first undercut portion 58a of the workpiece-to-be-sewn 58 and displacement in the second retracting direction for avoiding the second undercut portion 58b of the workpiece-to-be-sewn 58.
As a result, the sewing device 10 enables sewing using the seating portions 20 to be performed even on the workpiece-to-be-sewn 58 of complicated shape that has the plurality of undercut portions 58a, 58b, and that, in an operation of retracting the seating portion 20 in one direction alone, ends up interfering with the seating portion 20. Moreover, in the sewing device 10, the seating portion 20 and the workpiece-to-be-sewn 58 do not contact each other, hence damage of the workpiece-to-be-sewn 58 can be prevented, and misalignment of the sewing position accompanying contact of the seating portion 20 can also be prevented.
Moreover, the retraction mechanism 30 of the sewing device 10 may comprise: the guide pin 22 including a tip portion to which the seating portion 20 is connected; the seesaw portion 31 that supports the guide pin 22 in a manner that the guide pin 22 is rotatable about an axis in the sewing direction (the width direction); the guide bush 32 that is fitted to the seesaw portion 31, and that supports the guide pin 22 in a manner allowing the guide pin 22 to be inserted therethrough; and the driving unit that is connected to the base end portion of the guide pin 22 to raise/lower the guide pin 22.
As a result, the guide pin 22 can be raised/lowered in an inclined state, and it becomes possible to perform displacement in the first retracting direction for avoiding the first undercut portion 58a of the workpiece-to-be-sewn 58 and displacement in the second retracting direction for avoiding the second undercut portion 58b of the workpiece-to-be-sewn 58.
The guiding mechanism 23 of the sewing device 10 may comprise: the guide plate 33 including the guiding slit 33a whose leading portion and terminating portion extend in different directions; and the cylinder block 34 that is joined to the base end portion of the guide pin 22, and that is displaced while being guided by the guiding slit 33a.
Configuring in this way results in that, in the retraction operation, retraction can be performed while inclination of the guide pin 22 is changed, and interference of the seating portion 20 and the workpiece-to-be-sewn 58 can be prevented. In the above-described case, the driving unit may be a cylinder, and the piston rod 24a of the cylinder may be connected to the cylinder block 34.
In the sewing device 10, the tip portion of the piston rod 24a and the base end portion of the guide pin 22 may be connected via the cylinder block 34 so as to enable a bent shape to be formed by the piston rod and the guide pin.
As a result, linear displacement of the piston rod 24a of the air cylinder 24 is converted into a retraction operation along a bent or curved path.
In the sewing device 10, the cylinder block 34 may include: the main body 34d that slides along the guide plate 33; the guiding pin 34a that engages with the guiding slit 33a of the guide plate 33; and the rod connecting portion 35 fitted in a rotatable manner to the main body 34d.
Moreover, the sewing method of the present embodiment includes a step of forming a retraction region by sequentially moving the seating portions 20 in the first retracting direction of separating from the first undercut portion 58a of the workpiece-to-be-sewn 58 and in the second retracting direction of separating from the second undercut portion 58b of the workpiece-to-be-sewn 58. As a result, interference of the seating portions 20 and the workpiece-to-be-sewn 58 can be avoided.
In the above description, the present invention has been described by presenting the preferred embodiment thereof. However, the present invention is not limited to the above-described embodiment, and it goes without saying that various modifications thereof are possible in a range not departing from the spirit of the present invention.
Number | Date | Country | Kind |
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2018-145779 | Aug 2018 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2019/025918 | 6/28/2019 | WO | 00 |