This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2019-233793 filed on Dec. 25, 2019, the contents of which are incorporated herein by reference.
The present invention relates to a sewing device for forming a seam in an object-to-be-sewn by a needle and a looper.
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 instrument panel undergoes stitch pattern sewing (is provided with a seam). Recently, it has been attempted to perform this sewing by a sewing device. There is known as this kind of sewing device one disclosed by the applicant of the present application in International Publication No. 2019/187599.
Specifically, this sewing device comprises: a sewing mechanism such as a sewing machine; a sewing robot having its tip arm provided with the sewing mechanism; and a plurality of seating bodies (“workpiece holding jigs” referred to in International Publication No. 2019/187599) that seat in a withdrawable manner on certain regions of an inner surface of the instrument panel, that is, a rear face of a surface facing the vehicle interior, of the instrument panel to hold by suction the certain regions. The seating bodies are separately provided to piston rods of raising/lowering actuators, for example, air cylinders, or the like, and seat on the certain regions as the piston rods ascend. The shape of the instrument panel is maintained due to this seating.
In order for sewing to be continuously performed, the sewing mechanism moves sequentially along the instrument panel. When there is a state of the seating body having seated on a place where sewing is to be performed, of the instrument panel, the needle or looper interferes with the seating body. In order to avoid this interference, a configuration is adopted whereby, at the place where sewing is to be performed, the piston rod positioned at the place descends so that the seating body is withdrawn from the instrument panel. Then, when the sewing mechanism passes after sewing finishing, the piston rod re-ascends, and the seating body re-seats on the inner surface of the instrument panel. That is, the seating body re-supports the instrument panel.
It is assumed that after sewing has been performed on the instrument panel of a certain vehicle type, sewing will be performed on the instrument panel of another vehicle type.
Since the instrument panels have shapes and sizes that differ according to the vehicle type, it is required that at such a time, the seating body is exchanged for one matching the shape and size of the instrument panel.
As described above, there exist a plurality of the seating bodies. Hence, it is complicated for the individual seating bodies to be sequentially exchanged, and, moreover, a burden for a worker. Moreover, since a long time is required for exchange, sewing work has to be suspended over a long time. To that extent, sewing efficiency falls.
A main object of the present invention is to provide a sewing device that enables withdrawal or fitting of a plurality of seating bodies to actuators to be efficiently performed.
According to an embodiment of the present invention, there is provided a sewing device that forms a seam in an object-to-be-sewn by a needle configured to penetrate through or withdraw from the object-to-be-sewn due to repeating reciprocating movement, and a looper that faces the needle with the object-to-be-sewn therebetween and is housed within a post bed, the sewing device comprising:
According to the present invention, it is possible for a plurality of seating bodies to be collectively restrained by one restraining jig. Conversely to this, it is possible too for restraint of the plurality of seating bodies of the restraining jig to be collectively released. Therefore, the plurality of seating bodies can be collectively delivered from the restraining jig to actuators, or in a reverse direction to that, that is, from the actuators to the restraining jig. Hence, the plurality of seating bodies can be collectively exchanged.
That is, in the present invention, there is no need for work individually exchanging individual seating bodies to be performed. Therefore, exchange work is simplified, so the burden of the worker decreases. Moreover, since the seating bodies can be exchanged in a short time, a suspension time of the sewing work shortens. Accordingly, it can be avoided that sewing efficiency falls.
The above and other objects, features, and advantages of the present invention will become more apparent from the following description when taken in conjunction with the accompanying drawings, in which a preferred embodiment of the present invention is shown by way of illustrative example.
A preferred embodiment of a sewing device according to the present invention will be presented and described in detail below with reference to the accompanying drawings, in relation to an exchange method of seating bodies performed by the sewing device. Note that “front” hereafter will indicate a side where a holding mechanism 30 shown in
A seam 26 being a stitch pattern is formed in the instrument panel 20 along a sewing line L on an outer surface of the skin material 24. At this time, the instrument panel 20 is supported by seating bodies 54 from an inner surface side of the base material 22, and this will be mentioned later.
Returning to
The holding mechanism 30 includes: a base 34; and a holding board 36 positioned and fixed on the base 34. As shown in
A rear portion of the base 34 is provided with a plurality of (for example, 10) raising/lowering cylinders 42 as actuators, in such a manner that the raising/lowering cylinders 42 are arranged in a line along the width direction. The raising/lowering cylinder 42 is configured including a raising/lowering rod 44 as an advancing/retracting member that ascends or descends. The raising/lowering rod 44 performs a raising/lowering operation along a vertical direction.
Tips of the raising/lowering rods 44 are each provided with a placing block 46 shown in
On the other hand, the holding board 36 includes: a base portion 60 placed on an upper surface of the base 34 to be supported by the base 34; and support column portions 62 uprightly arranged on the base portion 60. The base portion 60, which is a substantially U-shaped flat plate, is provided with the two first embedding blocks 40 as described above. The support column portions 62 serve to support the instrument panel 20 in conjunction with the seating bodies 54, and are provided in five places of the base portion 60, that is, end portions to left and right in the width direction, a central portion, a portion between the left end portion and the central portion, and a portion between the right end portion and the central portion, of the base portion 60, for example.
The holding mechanism 30 further includes the seating bodies 54 that are restrained by the raising/lowering rods 44, or a restraining jig 64 shown in
Second embedding blocks 72 are provided in a lower surface of the main body portion 66 at positions corresponding to the second pallet clamps 48. In a similar manner to as described above, the second embedding block 72 is locked under action of a pressurized fluid such as compressed air or hydraulic oil, whereby it becomes difficult for the second pallet clamp 48 to withdraw from the second embedding block 72. Moreover, positioning holes 74 as recesses are formed in the lower surface of the main body portion 66 at positions corresponding to the positioning pins 52. By the positioning pins 52 entering the positioning holes 74, the seating body 54 is prevented from undergoing positional misalignment.
As shown in
When exchanging the seating bodies 54, a first arm member 90 and a second arm member 92 (both supports) shown in
As shown in
The restraining jig 64, which is a long body having a pedestal 110 and a sliding plate 112 (a sliding member) shown in
The bottom wall portion 114 has formed therein a front-side insertion hole 124 and a rear-side insertion hole 126 (both insertion holes) that penetrate along a thickness direction (a vertical direction). The front-side pin 80 and the rear-side pin 82 are respectively inserted through the front-side insertion hole 124 and the rear-side insertion hole 126. The number of each of the front-side insertion holes 124 and the rear-side insertion holes 126 is set according to the number of the seating bodies 54 to be restrained by the restraining jig 64. In the present embodiment, five of the 10 seating bodies 54 are held by one restraining jig 64, so the number of each of the front-side insertion holes 124 and the rear-side insertion holes 126 is five. In the bottom wall portion 114, an unillustrated pin hole is further formed, and a stopper pin 128 is uprightly arranged at a place separate from the pin hole.
Moreover, the front wall portion 116 and the rear wall portion 118 are provided with a total of four retaining portions 120. The retaining portions 120 prevent the sliding plate 112 from falling out of the sliding groove 122.
Furthermore, two flange portions 130 are formed on the rear wall portion 118 so as to project orthogonally to an extension direction of the rear wall portion 118, and in a rearward direction. The male joint 102 having the cock handle 100 is provided to the flange portion 130. Moreover, arched handles 132 to be gripped by the worker are fitted to the pedestal 110 so as to extend along the front-rear direction.
The sliding plate 112 is housed in a slidable manner in the sliding groove 122. This sliding plate 112 has front-side slits 134 and rear-side slits 136 (all notches) formed therein in numbers corresponding to the numbers of the front-side insertion holes 124 and the rear-side insertion holes 126. These front-side slits 134 and rear-side slits 136 each include: a circular portion 138 as a through-hole portion; and a narrowed portion 140 linked to the circular portion 138. These circular portion 138 and narrowed portion 140 each penetrate along a thickness direction of the sliding plate 112.
An inner diameter of the circular portion 138 is set larger than diameters of the front-side pin 80 and the rear-side pin 82. On the other hand, the narrowed portion 140 extends along the extension directions of the pedestal 110 and sliding plate 112, that is, along the width direction of the base 34. Moreover, a length of the narrowed portion 140 in the front-rear direction orthogonal to an extension direction is set smaller than the inner diameter of the circular portion 138. That is, the front-side slit 134 and the rear-side slit 136 are narrowed from the circular portion 138 to the narrowed portion 140. In other words, an opening dimension of the circular portion 138 is larger than the length of the narrowed portion 140 in the front-rear direction. Note that the length of the narrowed portion 140 in the front-rear direction is smaller than the diameters of the front-side pin 80 and the rear-side pin 82. Therefore, a front-side inner wall portion and a rear-side inner wall portion of the narrowed portion 140 function as second engaging portions as will be mentioned later.
The sliding plate 112 has further formed therein a pin insertion slit 142 through which the stopper pin 128 is inserted. The pin insertion slit 142 is formed substantially midway in the front-rear direction of the sliding plate 112, and extends along the width direction of the base 34. Moreover, a columnar handle 144 (a gripping portion) of hexagonal columnar shape is uprightly arranged in a vicinity of the pin insertion slit 142. The columnar handle 144 has formed therein a pin insertion hole 146 that extends along the vertical direction. The pin insertion hole 146 and the pin hole overlap when the front-side pin 80 and the rear-side pin 82 are positioned at a left end of the narrowed portion 140. At this time, a coupling pin 148 (refer to
As will be mentioned later, the first arm member 90, the second arm member 92, and the restraining jig 64 are provided when exchanging the seating bodies 54, and are removed when performing sewing.
As shown in
As shown in
The looper 162 has a hook-like hooking claw, although detailed illustration thereof will be omitted. A thread 166, which has been passed through a needle eye of a sewing machine needle 164 (a needle), is hooked on this hooking claw. Now, an upper end surface of the post bed 160 is open, and it is thus possible for the sewing machine needle 164 to enter or retract from an inside of the post bed 160.
The casing 150 is provided with a reciprocating shaft 168 that performs reciprocating movement. This reciprocating shaft 168 is provided with the sewing machine needle 164, via a needle holder 170. The sewing machine needle 164 performs reciprocating movement integrally with the reciprocating shaft 168, as a rotating shaft of the sewing motor 156 rotates. This configuration too is publicly known, so detailed illustration and description thereof will be omitted. Note that the sewing machine needle 164 faces the looper 162 within the post bed 160.
In the above configuration, the holding mechanism 30, the sewing mechanism 32, and the sewing robot 152 are electrically connected to a control unit 172 being a controlling means. The sewing robot 152 moves the sewing mechanism 32 at a constant speed along the sewing line L being a sewing direction, under controlling action of the control unit 172. Moreover, at this time, an attitude of the casing 150 is changed to match a shape of a sewing position of the instrument panel 20. As a result, an attitude of the sewing mechanism 32 is adjusted in such a manner that the sewing machine needle 164 will be substantially perpendicular to the sewing position of the instrument panel 20 (the sewing line L). The control unit 172 further performs energizing or de-energizing of the sewing motor 156.
The sewing device 10 according to the present embodiment, which is basically configured as above, will next have its operational advantages described in relation to an exchange method of the seating bodies 54.
When performing sewing on the instrument panel 20, initially, as shown in
Next, the suction pump is energized. Accordingly, suction is performed via the suction pads 70, whereby the suction pads 70 attach by suction to the inner surface of the base material 22. That is, the instrument panel 20 is positioned and fixed on the seating bodies 54.
Next, the sewing robot 152 appropriately operates under controlling action of the control unit 172, and the tip arm 154 of the sewing robot 152 is brought close to the instrument panel 20. As a result, as shown in
As shown in
The base material 22 configuring the instrument panel 20 is thick, and exhibits comparatively high rigidity. Therefore, even when the seating body 54 is separated from part of the instrument panel 20, it is avoided that deformation of the instrument panel 20 such as warping occurs at the place.
Next, the control unit 172 energizes the sewing motor 156. As a result, the reciprocating shaft 168 performs upward/downward reciprocating movement. Naturally, the sewing machine needle 164 held by the needle holder 170 also performs upward/downward reciprocating movement integrally with the reciprocating shaft 168. On the other hand, the looper 162 rotates. The looper 162 makes one rotation in the course of the sewing machine needle 164 making one back-and-forth movement.
The sewing machine needle 164 is inserted from an outer surface side of the skin material 24 in the course of advancing along an outward route downwardly from a highest point (a top dead point). Then, when the sewing machine needle 164 reaches a lowest point (a bottom dead point), its tip projects from a lower end surface of the base material 22, and enters a hollow inside of the post bed 160. As a result, the thread 166 penetrates the instrument panel 20. At this time, the hooking claw of the looper 162 has reached the top dead point, so the thread 166 that has penetrated the instrument panel 20 is caught by the hooking claw.
In this state, the sewing machine needle 164 begins to advance along a return route from the bottom dead point toward the top dead point. As the sewing machine needle 164 ascends and the looper 162 rotates, the thread 166 is pulled into the inside of the post bed 160. The pulled thread 166 forms a loop portion on an inner surface side of the base material 22.
While the sewing machine needle 164 performs reciprocating movement, the control unit 172 appropriately operates arms of the sewing robot 152 or changes its attitude. As a result, as shown in
When, after sewing has been performed on the instrument panel 20 of a certain vehicle type, sewing is performed on the instrument panel of another vehicle type, it is assumed that shape, size, and so on, of the seating bodies 54 will not handle the instrument panel of the other vehicle type. In such a case, the seating bodies 54 are exchanged.
The worker first raises all of the raising/lowering rods 44 to the highest point. As a result, height positions of all of the placing blocks 46 match. The placing blocks 46 and the seating bodies 54 are arranged in a line along the width direction of the base 34.
The worker next fits the first arm member 90 and the second arm member 92 (refer to
The worker next moves to a rear portion side of the holding mechanism 30, and positions the restraining jig 64 shown in
At this time point, the front-side insertion holes 124 and the rear-side insertion holes 126 formed in the pedestal 110 are respectively overlapped by the circular portions 138 of the front-side slits 134 and the rear-side slits 136 formed in the sliding plate 112. The front-side pins 80 and the rear-side pins 82 provided to the projecting end portions 76 of the seating bodies 54 respectively enter from the front-side insertion holes 124 and the rear-side insertion holes 126, and are exposed from the circular portions 138 immediately thereabove. That is, the front-side pins 80 are passed through the circular portions 138 of the front-side slits 134 via the front-side insertion holes 124, and, similarly, the rear-side pins 82 are passed through the circular portions 138 of the rear-side slits 136 via the rear-side insertion holes 126.
The worker next grips the columnar handle 144, and imparts a force moving the sliding plate 112 to the right. As a result, the sliding plate 112 slides rightwards in the sliding groove 122. Thus, due to the columnar handle 144 being provided, it becomes easy for the sliding plate 112 to be slid. Then, as a result of this sliding, as shown in
Now, the length of the narrowed portion 140 in the front-rear direction is smaller than the diameters of the front-side pin 80 and the rear-side pin 82, as described above. Moreover, the front-side pin 80 and the rear-side pin 82 each have two engaging grooves 84 formed therein. Hence, as shown in
The sliding plate 112 stops by the stopper pin 128 abutting on a leftward inner wall portion of the pin insertion slit 142. At this time point, positions of the pin insertion hole 146 formed in the columnar handle 144 and the pin hole formed in the pedestal 110 match. Note that the front-side pin 80 or rear-side pin 82 may abut on or may be separated from a leftward inner wall portion of the narrowed portion 140.
The worker next inserts the coupling pin 148 from the pin insertion hole 146. By a tip of the coupling pin 148 entering the pin hole, the sliding plate 112 is positioned and fixed on the pedestal 110. After that (or before that), the worker further rotates the cock handles 100 approximately 90°, and sets the female joints 98 and the male joints 102 to a locked state. As a result, the restraining jig 64 is firmly restrained by (coupled to) the upper ends of the first arm member 90 and the second arm member 92, via the second rotary locks.
The worker next stops actuation of the second pallet clamps 48. As a result, locking of the second pallet clamps 48 to the second embedding blocks 72 is released. Due to this release, the seating bodies 54 are released from restraint of the raising/lowering rods 44 via the placing blocks 46. In this state, all of the raising/lowering cylinders 42 are synchronously energized, and, as shown in
The worker next stops actuation of the first pallet clamps 38. Locking of the first pallet clamps 38 to the first embedding blocks 40 is thereby released, and, as a result, the holding board 36 is released from restraint of the base 34. In this state, the holding board 36 is conveyed, integrally with the first arm member 90, the second arm member 92, and the restraining jig 64, by a conveying mechanism such as a conveying robot (refer to
Next, in a reverse order to that described above, other seating bodies 54 are fitted to the placing blocks 46. Specifically, similarly to in
After the base portion 60 of the holding board 36 has been placed on the base 34, the worker actuates the first pallet clamps 38. As a result, the first embedding blocks 40 are locked to the first pallet clamps 38, and the holding board 36 is prevented from coming away from the base 34.
In this state, the worker raises all of the raising/lowering rods 44 to the highest point. Since the placing blocks 46 ascend integrally with the raising/lowering rods 44, the second pallet clamps 48 enter the second embedding blocks 72 provided in the main body portions 66 of the seating bodies 54. As a result, a similar state to that of
Simultaneously to the second pallet clamps 48 entering the second embedding blocks 72, the positioning pins 52 enter the positioning holes 74 (refer to
The worker next removes the coupling pin 148 from the pin hole and the pin insertion hole 146. As a result, the sliding plate 112 is released from restraint of the coupling pin 148, and becomes able to slide along the pedestal 110. After that (or before that), the worker further rotates the cock handles 100 approximately 90°, and sets the female joints 98 and the male joints 102 to a locking-released state. As a result, the restraining jig 64 is released from restraint of the first arm member 90 and the second arm member 92 via the second rotary locks.
The worker next grips the columnar handle 144, and imparts a force moving the sliding plate 112 to the left. As a result, the sliding plate 112 slides leftwards in the sliding groove 122. Consequently, similarly to in
Due to the front-side pins 80 and the rear-side pins 82 moving as described above, the front-side inner wall portions and the rear-side inner wall portions of the narrowed portions 140 withdraw from the respective engaging grooves 84 of the front-side pins 80 and the rear-side pins 82. That is, engagement of the engaging grooves 84 and the front-side inner wall portions and the rear-side inner wall portions of the narrowed portions 140, is released. Moreover, since the circular portions 138 have larger diameters than the front-side pins 80 and the rear-side pins 82, the inner wall portions of the circular portions 138 will never abut on the front-side pins 80 and the rear-side pins 82. For the above reasons, the seating bodies 54 are released from restraint of the restraining jig 64. In other words, the restraining jig 64 is in a state of being withdrawable from the seating bodies 54.
Subsequently, the worker grips the arched handles 132 to lift up the restraining jig 64. As a result, the front-side pins 80 and the rear-side pins 82 withdraw from the circular portions 138 and the front-side insertion holes 124 and the rear-side insertion holes 126 to achieve a state in which the restraining jig 64 is removed from the first arm member 90 and the second arm member 92 similarly to in
The worker next removes the first arm member 90 and the second arm member 92 from the holding board 36. Specifically, the cock handles 94 are rotated approximately 90°, and the female joints and male joints 96 are set to a locking-released state. Then, the worker grips the first arm member 90 and the second arm member 92 to lift them up, whereby the joint portions of the male joints 96 withdraw from the female joints.
Naturally, the remaining seating bodies 54 are also exchanged for other seating bodies 54 in accordance with what has been described above. Then, sewing of the other instrument panel 20 using the other seating bodies 54 is performed similarly to as described above.
As indicated above, according to the present embodiment, it is possible for the plurality of seating bodies 54 to be collectively restrained by one restraining jig 64. Therefore, the plurality of seating bodies 54 can be simultaneously withdrawn from the raising/lowering rods 44 (or raising/lowering cylinders 42). Moreover, since restraint of the plurality of seating bodies 54 by the restraining jig 64 is collectively released, the plurality of seating bodies 54 can be simultaneously fitted to the raising/lowering rods 44 (or raising/lowering cylinders 42). That is, it is possible for the plurality of seating bodies 54 to be collectively delivered from the restraining jig 64 to the raising/lowering rods 44, or in a reverse direction to that, that is, from the raising/lowering rods 44 to the restraining jig 64.
Thus, in the present embodiment, the plurality of seating bodies 54 can be collectively exchanged. Hence, there is no need for work individually exchanging the individual seating bodies 54 to be performed. Therefore, exchange work is simplified, and the burden of the worker decreases. Moreover, since the seating bodies 54 can be exchanged in a short time, a suspension time of sewing work shortens. Hence, it can be avoided that sewing efficiency falls.
Moreover, as may be understood from what has been described above, in the present embodiment, the base 34 is configured as a universal portion, and the holding board 36 (and the seating bodies 54) are configured as dedicated portions suited to the vehicle type. Moreover, a configuration is adopted to handle change of vehicle type by exchanging the dedicated portions after removing them from the base 34. Therefore, there is no particular need for a plurality of bases 34 to be prepared. Accordingly, a reduction in plant investment can be achieved.
The present invention is not specifically limited to the above-described embodiment, and a variety of alterations are possible in a range not departing from the spirit of the present invention.
For example, the seating body 54 may have a suction hole formed in the main body portion 66 thereof.
Moreover, a configuration may be adopted whereby a lubricating plate for facilitating sliding of the sliding plate 112 is inserted between the bottom surface of the sliding groove 122 and the sliding plate 112.
Furthermore, it goes without saying that the object-to-be-sewn is not limited to the instrument panel 20.
Number | Date | Country | Kind |
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JP2019-233793 | Dec 2019 | JP | national |
Number | Name | Date | Kind |
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4957054 | Sakuma | Sep 1990 | A |
5419268 | Fyler | May 1995 | A |
5915317 | Thrash | Jun 1999 | A |
5988085 | Martz | Nov 1999 | A |
6129031 | Sarh | Oct 2000 | A |
7076856 | Sarh | Jul 2006 | B2 |
7954440 | Joern | Jun 2011 | B2 |
Number | Date | Country |
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2019187599 | Oct 2019 | WO |
Number | Date | Country | |
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20210198824 A1 | Jul 2021 | US |