CN217077976U - Full-automatic sewing and cutting integrated machine - Google Patents

Abstract

The utility model discloses a full-automatic sewing and cutting integrated machine, aiming at providing a full-automatic sewing and cutting integrated machine with high working efficiency, which has the technical proposal that the full-automatic sewing and cutting integrated machine comprises a workbench, wherein a sewing mechanism and a cutting mechanism are arranged on the workbench, the sewing mechanism comprises a sewing machine head and a sewing platform, and the full-automatic sewing and cutting integrated machine also comprises a feeding mechanism arranged on the side surface of the workbench, and the feeding mechanism is positioned on one side of the sewing mechanism away from the cutting mechanism; the blanking mechanism is arranged on the side surface of the workbench and is positioned on one side of the sewing mechanism close to the cutting mechanism; the feeding mechanisms are arranged on the workbench and are respectively positioned at two sides of the sewing mechanism close to the feeding mechanism and the discharging mechanism; install the translation mechanism in the workstation, it is used for the translation of cloth feeding direction drive sewing mechanism along perpendicular to feeding mechanism, the utility model is suitable for a sewing machine technical field.

Description

Full-automatic sewing and cutting integrated machine

Technical Field

The utility model belongs to the technical field of sewing machine, refer in particular to a full-automatic sewing and cutting integrated machine.

Background

The sewing machine is a machine which uses one or more sewing threads to form one or more stitches on a sewing material so as to interweave or sew one or more layers of the sewing material; the sewing machine can sew fabrics such as cotton, hemp, silk, wool, artificial fiber and the like and products such as leather, plastic, paper and the like, and the sewed stitches are neat, beautiful, flat and firm, the sewing speed is high, and the use is simple and convenient.

If chinese patent application No. (CN201520116611.2) discloses a sewing machine with automatic cutting mechanism, including sewing machine head and workstation, sewing machine head is located the workstation, sewing machine head has the presser foot, automatic cutting mechanism is equipped with to the front end of presser foot, automatic cutting mechanism is including the support of placing the yardage roll, feeding roller, the knife rest that has the cut-off knife, cut-off cylinder, the small motor, feeding roller has two and supports each other and lean on, one of them feeding roller is by small motor drive, the cut-off knife is rectangle and inlays and can slide from top to bottom along the knife rest in the knife rest, cut-off cylinder fixes in the knife rest upper end, cut-off cylinder's push rod and cut-off knife link firmly mutually, the knife rest has the rubber cutting board, but the sewing machine head of this application still needs the manual work, low working efficiency, await improvement.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a full-automatic sewing all-in-one of tailorring that work efficiency is high.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an all-in-one is tailor in full-automatic sewing, includes the workstation, installs sewing machine on the workstation and constructs and tailor the mechanism, and sewing machine constructs including sewing machine head and sewing platform, still includes:

the feeding mechanism is arranged on the side surface of the workbench and is positioned on one side of the sewing mechanism, which is far away from the cutting mechanism;

the blanking mechanism is arranged on the side surface of the workbench and is positioned on one side of the sewing mechanism close to the cutting mechanism;

the feeding mechanism is arranged on the workbench and is respectively positioned at two sides of the sewing mechanism close to the feeding mechanism and the discharging mechanism;

and the translation mechanism is arranged in the workbench and is used for driving the sewing mechanism to translate along the cloth feeding direction vertical to the feeding mechanism.

The utility model discloses further set up to, feed mechanism includes:

the first support frame is connected to the side face of the workbench;

the two ends of the first feeding roller are arranged on the first support frame through a first support plate;

the two ends of the second feeding roller are arranged on the first support frame through second support plates;

the guide rollers are a plurality of and are respectively installed on one side, close to the workbench, of the first support frame and used for guiding the feeding of the first feeding roller and the second feeding roller.

The utility model discloses further set up to, translation mechanism includes:

the sliding rail is arranged on the workbench, and the sewing mechanism is provided with a sliding block on the bottom surface of the sewing platform to slide on the sliding rail;

the supporting block is arranged on the bottom surface of the sewing platform;

the first screw rod assembly is arranged in the workbench and is used for driving the supporting block to move;

wherein, first lead screw subassembly passes through servo motor drive.

The utility model discloses further set up to, feeding mechanism includes:

the feeding platform is installed on the workbench and is flush with the surface of the sewing platform, and comprises a first feeding platform and a second feeding platform, wherein the first feeding platform is located on one side, close to the feeding mechanism, of the sewing machine head, and the second feeding platform is located on one side, close to the discharging mechanism, of the sewing machine head.

The upper feeding roller is arranged on the upper side of the feeding platform;

the lower feeding roller is arranged on the lower side of the feeding platform;

the gear end is respectively arranged at the two ends of the upper feeding roller and the lower feeding roller and is used for linkage of the upper feeding roller and the lower feeding roller;

the lower feeding roller penetrates through the rectangular groove and is flush with the surface of the feeding platform;

the adjusting assembly is arranged below the feeding platform and connected with two ends of the upper feeding roller;

wherein, the lower feeding roller is driven by a servo motor.

The utility model discloses further set up to, the adjusting part includes:

the first bearing seats are connected to two ends of the upper feeding roller;

the top end of the supporting cylinder is connected with the first bearing seat through a bolt, and the bottom end of the supporting cylinder penetrates through the feeding platform and extends to the position below the feeding platform;

the sleeve seat is arranged on the bottom surface of the feeding platform and sleeved on the surface of the supporting cylinder;

the top end of the sliding rod extends into the supporting cylinder and is in sliding connection with the inner wall of the bottom end of the supporting cylinder;

the adjusting sheet is sleeved on the surface of the sliding rod, and a spring sleeved on the surface of the sliding rod is arranged between the adjusting sheet and the bottom end of the supporting cylinder;

the air cylinder is installed on the workbench, and the output end of the air cylinder is abutted to the bottom end of the sliding rod.

Wherein, the surface of the lower half section of the slide bar is provided with external threads, and an adjusting nut in threaded connection with the slide bar is arranged below the adjusting sheet.

The utility model discloses further set up to, still include:

the inclined plate is arranged on the first feeding platform;

the integration roller, it is a plurality of to integrate the roller, and all install on the swash plate.

The utility model discloses further set up to, still include:

the compression roller is arranged on the second feeding platform;

the second bearing seats are connected to two ends of the press roll and used for mounting the press roll on the second feeding platform;

the annular grooves are formed in the surfaces of the press roller and the upper feeding roller at equal intervals;

and the transmission rope is sleeved in the annular grooves on the surfaces of the compression roller and the upper feeding roller and is used for linkage of the upper feeding roller and the compression roller.

The utility model discloses further set up to, cutting mechanism includes:

the cutting groove is formed in the second feeding platform;

the driving motor is arranged on the second feeding platform;

the second screw rod assembly is arranged below the second feeding platform;

the third support frame penetrates through the cutting groove, one side of the third support frame is used for installing a driving motor, and the other side of the third support frame is driven by the second screw rod assembly to slide along the cutting groove;

the cutting knife is connected to the output end of the driving motor, is driven by the driving motor, and the bottom end of the cutting knife extends into the cutting groove;

the protective cover is arranged on the third supporting frame and sleeved outside the cutting knife.

The utility model discloses further set up to, unloading mechanism includes:

the second support frame is connected to the side face of the workbench;

the synchronous wheels are arranged in multiple groups and are all arranged on the second support frame through a third support plate, and meanwhile, each group of synchronous wheels are driven through a synchronous belt;

the fourth supporting plate is arranged on the synchronous belt;

the mechanical claw is arranged on the fourth supporting plate;

wherein, the synchronizing wheel is driven by a servo motor.

The utility model discloses further set up to, still include:

and the hanging rod is arranged on the second support frame and is used for placing a finished product.

The utility model discloses a sewing machine constructs, cutting mechanism, feed mechanism, unloading mechanism, feeding mechanism and translation mechanism all preferably adopt motion control ware, through the drive of sewing machine head in the motion control ware control sewing machine structure promptly, the drive of second lead screw subassembly in the cutting mechanism, driving motor's in the cutting mechanism drive, the drive of synchronizing wheel in the unloading mechanism, the drive of gripper in the unloading mechanism, the drive of feed roll under in the feeding mechanism, the drive of cylinder in the feeding mechanism, the drive of first lead screw subassembly in the translation mechanism.

The utility model has the advantages that:

1. the feeding mechanism is used for feeding materials, the feeding mechanism is used for longitudinally moving the cloth, the translation mechanism is used for transversely moving the sewing mechanism, the sewing head is used for sewing the cloth on the sewing platform, the blanking mechanism is used for blanking after the processing is finished, and the cutting mechanism is used for cutting the processed cloth, so that the blanking mechanism is convenient to blank, the whole process is fully automatically controlled, and the processing production efficiency is effectively improved;

2. the material is supplied by the first feeding roller and the second feeding roller in the feeding mechanism, direction correction is carried out by the guide roller, and the inclined plate and the integrating roller are matched, so that the uniformity of the cloth to be processed entering the feeding mechanism is improved, the phenomenon of wrinkles when multiple layers of cloth are overlapped is prevented, the production effect is improved, and the defective rate and the production cost are reduced;

3. the upper feeding roller and the lower feeding roller are matched, so that the cloth moves longitudinally, the sewing is facilitated, the gear end is convenient for the linkage of the upper feeding roller and the lower feeding roller, the adjusting assembly can adjust the pressure between the upper feeding roller and the lower feeding roller, and the sewing machine is even suitable for processing the cloth with different thicknesses;

4. due to the arrangement of the compression roller, the cloth is prevented from tilting at the cutting mechanism, so that the clamping of the mechanical claw is influenced on one hand, the size control during cutting of the cutting mechanism is influenced on the other hand, and the processing effect is effectively improved; the upper feeding roller is driven by the transmission rope, so that additional power is avoided, and the structure is simplified;

5. the synchronous belt is driven to move back and forth through the synchronous wheel, so that the fourth supporting plate drives the mechanical claw to move back and forth, the blanking efficiency is guaranteed, and full-automatic production is realized.

Drawings

FIG. 1 is a schematic structural diagram of the present invention

FIG. 2 is an enlarged view of the present invention at A in FIG. 1;

FIG. 3 is an enlarged view of the present invention at B in FIG. 1;

FIG. 4 is an enlarged view of the present invention at C in FIG. 1;

fig. 5 is an enlarged view of fig. 1 at D according to the present invention;

fig. 6 is a partial schematic view of the upper feed roller of the present invention;

in the drawings: 1. a work table; 2. a sewing mechanism; 20. a sewing machine head; 21. a sewing platform; 3. a cutting mechanism; 30. cutting a groove; 31. a drive motor; 32. a second lead screw assembly; 33. a third support frame; 34. a cutting knife; 35. a protective cover; 4. a feeding mechanism; 40. a first support frame; 41. a first feeding roller; 42. a first support plate; 43. a second feeding roller; 44. a second support plate; 45. a guide roller; 5. a blanking mechanism; 50. a second support frame; 51. a synchronizing wheel; 52. a third support plate; 53. a synchronous belt; 54. a fourth support plate; 55. a gripper; 56. a hanging rod; 6. a feeding mechanism; 60. a feeding platform; 600. a first feeding platform; 601. a second feeding platform; 61. an upper feed roller; 62. a lower feed roller; 63. a gear end; 64. a rectangular groove; 65. an adjustment assembly; 650. a first bearing housing; 651. a support cylinder; 652. a sleeve seat; 653. a slide bar; 654. a regulating sheet; 655. a spring; 656. a cylinder; 657. adjusting the nut; 7. a translation mechanism; 70. a slide rail; 71. a slider; 73. a support block; 74. a first lead screw assembly; 8. a sloping plate; 9. an integration roller; 10. a compression roller; 11. a second bearing housing; 12. an annular groove; 13. a transmission rope.

Detailed Description

The invention is further described in the following with reference to fig. 1 to 6 in specific embodiments:

example 1:

the embodiment provides a full-automatic sewing and cutting integrated machine, including workstation 1, install sewing machine structure 2 and cutting mechanism 3 on the workstation 1, sewing machine structure 2 includes sewing machine head 20 and sewing platform 21, still includes:

the feeding mechanism 4 is arranged on the side surface of the workbench 1 and is positioned on one side of the sewing mechanism 2 away from the cutting mechanism 3;

the blanking mechanism 5 is arranged on the side surface of the workbench 1 and is positioned on one side, close to the cutting mechanism 3, of the sewing mechanism 2;

the feeding mechanism 6 is arranged on the workbench 1, and the feeding mechanism 6 is respectively positioned at two sides of the sewing mechanism 2 close to the feeding mechanism 4 and the blanking mechanism 5;

the translation mechanism 7 is arranged in the workbench 1 and is used for driving the sewing mechanism 2 to translate along the cloth feeding direction perpendicular to the feeding mechanism 6;

the sewing mechanism 2, the cutting mechanism 3, the feeding mechanism 4, the blanking mechanism 5, the feeding mechanism 6 and the translation mechanism 7 preferably adopt motion controllers, namely a servo motor and a sewing machine head 20 are driven by a synchronous wheel, and synchronous forward sewing and synchronous backward sewing are realized by the motion controllers.

According to the embodiment, the feeding mechanism 4 is used for feeding materials, the feeding mechanism 6 is used for feeding materials to a processing area, the translation mechanism 7 transversely moves the sewing mechanism 2, the sewing machine head 20 is used for sewing the cloth on the sewing platform 21, the blanking mechanism 5 is used for blanking after the processing is finished, the processed cloth is cut by the cutting mechanism 3, the blanking mechanism 5 is convenient to blank, the whole process is fully automatically controlled, and the processing production efficiency is effectively improved.

Example 2:

in this embodiment, in addition to the structural features of embodiment 1, the feed mechanism 4 further includes:

the first support frame 40, the first support frame 40 is connected to the side of the work bench 1;

the device comprises a first feeding roller 41, a first support frame 40 and a second support frame 40, wherein two ends of the first feeding roller 41 are arranged on the first support frame through a first support plate 42;

the two ends of the second feeding roller 43 are arranged on the first support frame 40 through a second support plate 44;

the guide rollers 45 are arranged on one side, close to the workbench 1, of the first support frame 40 and used for guiding the feeding of the first feeding roller 41 and the second feeding roller 43;

the first support frame 40 and the workbench 1 are preferably welded, two ends of the first feeding roller 41 and the second feeding roller 43 are respectively and preferably connected with the first support plate 42 and the second support plate 44 through bearings, the first support plate 42 and the second support plate 44 are preferably connected with the first support frame 40 through bolts, and two ends of the guide rollers 45 are preferably connected to the side face of the workbench 1 and the first support frame 40 through bearings and bearing seats.

In the embodiment, the first feeding roller 41 and the second feeding roller 43 in the feeding mechanism 4 provide materials, and then the direction correction is performed through the guide roller 45, so that the uniformity of the cloth to be processed entering the feeding mechanism 6 is improved, the phenomenon of wrinkles when multiple layers of cloth are overlapped is prevented, the production effect is improved, and the defective rate and the production cost are reduced.

Example 3:

in this embodiment, in addition to the structural features of embodiment 2, further, the translation mechanism 7 includes:

the sliding rail 70 is arranged on the workbench 1, and the sewing mechanism 2 is provided with a sliding block 71 on the bottom surface of the sewing platform 21 to slide on the sliding rail 70;

a supporting block 73, the supporting block 73 is installed on the bottom surface of the sewing platform 21;

the first screw rod assembly 74, the first screw rod assembly 74 is installed in the workbench 1, and is used for driving the supporting block 73 to move;

the first screw rod assembly 74 is driven by a servo motor, the sewing mechanism 2 further comprises an oil storage tank arranged at the lower end of the sewing platform 21, the sliding rail 70 is preferably installed on the workbench 1 by bolts, and the sliding block 71 and the oil storage tank are preferably welded; the supporting block 73 and the oil storage tank are preferably welded; the screw rod assembly is the prior art, and redundant description is omitted here.

In this embodiment, it can be seen that the first screw assembly 74 drives the supporting block 73 to move, so as to drive the sewing mechanism 2 to translate, wherein the sliding rail 70 and the sliding block 71 can effectively improve the stability of the sewing mechanism 2 during translation.

Example 4:

in this embodiment, in addition to the structural features of embodiment 3, the feeding mechanism 6 further includes:

the feeding platform 60 is mounted on the workbench 1, is flush with the surface of the sewing platform 21, and comprises a first feeding platform 600 positioned on one side of the sewing machine head 20 close to the feeding mechanism 4 and a second feeding platform 601 positioned on one side of the sewing machine head 20 close to the blanking mechanism 5.

An upper feeding roller 61, wherein the upper feeding roller 61 is arranged on the upper side of the feeding platform 60;

a lower feeding roller 62, wherein the lower feeding roller 62 is arranged at the lower side of the feeding platform 60;

the gear end 63 is respectively arranged at two ends of the upper feeding roller 61 and the lower feeding roller 62, and is used for linkage of the upper feeding roller 61 and the lower feeding roller 62;

the rectangular groove 64 is formed in the feeding platform 60, and the lower feeding roller 62 penetrates through the rectangular groove 64 to be flush with the surface of the feeding platform 60;

the adjusting assembly 65 is installed below the feeding platform 60, and the adjusting assembly 65 is connected with two ends of the upper feeding roller 61;

wherein, the lower feeding roller 62 is driven by a servo motor; the feeding platform 60 is preferably connected with the workbench 1 through bolts, and two ends of the lower feeding roller 62 are preferably arranged on the bottom surface of the feeding platform 60 through bearings and bearing seats.

In this embodiment, through the cooperation of upper feed roll 61 and lower feed roll 62 for the cloth is along longitudinal movement, the going on of sewing of being convenient for, and gear end 63 is convenient for the linkage of upper feed roll 61 and lower feed roll 62 simultaneously, and pressure between adjusting part 65 can adjust upper feed roll 61 and the lower feed roll 62 even if be suitable for the processing of the cloth of different thickness.

Example 5:

in this embodiment, in addition to the structural features of embodiment 4, further, the adjusting assembly 65 includes:

a first bearing block 650, the first bearing block 650 being connected to both ends of the upper feed roller 61;

the top end of the supporting cylinder 651 is connected with the first bearing seat 650 through bolts, and the bottom end of the supporting cylinder 651 penetrates through the feeding platform 60 and extends to the position below the feeding platform 60;

the sleeve seat 652 is arranged on the bottom surface of the feeding platform 60, and is sleeved on the surface of the supporting cylinder 651;

the top end of the sliding rod 653 extends into the supporting cylinder 651 and is in sliding connection with the inner wall at the bottom end of the supporting cylinder 651;

the adjusting sheet 654 is sleeved on the surface of the sliding rod 653, and a spring 655 sleeved on the surface of the sliding rod 653 is arranged between the adjusting sheet 654 and the bottom end of the supporting cylinder 651;

and the air cylinder 656 is arranged on the workbench 1, and the output end of the air cylinder 656 abuts against the bottom end of the sliding rod 653.

Wherein, the surface of the lower half section of the sliding rod 653 is provided with an external thread, and an adjusting nut 657 which is in threaded connection with the sliding rod 653 is arranged below the adjusting sheet 654; the first bearing pedestal 650 is preferably connected with the two ends of the upper feeding roller 61 through bearings, and the sleeve pedestal 652 is preferably mounted on the bottom surface of the feeding platform 60 through bolts.

In this embodiment, it can be seen that, when the air cylinder 656 is started, the output end abuts against the bottom end of the sliding rod 653, so as to push the sliding rod 653 to slide upwards in the supporting cylinder 651, and push the adjusting tab 654 to move upwards through the adjusting nut 657, so as to compress the spring 655, and under the action of the compression force of the spring 655, the supporting cylinder 651 is jacked to slide upwards along the sleeve seat 652, and jacks up the upper feed roller 61 through the first bearing seat 650, and due to the weight of the upper feed roller 61, the upper feed roller 61 and the spring 655 tend to be balanced, so that the height of the adjusting tab 654 on the sliding rod 653 can be changed through the adjusting nut 657, so as to change the compression degree of the spring 655, and further change the pressure of the upper feed roller 61 on the cloth, thereby facilitating the processing of cloth with different thicknesses, wherein the closing of the air cylinder 656 can facilitate the adjustment of the adjusting nut 657.

Example 6:

in this embodiment, in addition to the structural features of embodiment 4, the method further includes:

the inclined plate 8, the inclined plate 8 is installed on the first material conveying platform 600;

a plurality of integrating rollers 9, wherein the integrating rollers 9 are arranged on the inclined plate 8;

wherein, preferred adopting integrated into one piece between swash plate 8 and the first material platform 600 of walking, the roller 9 that integrates preferably adopts the bolt to install on swash plate 8, integrates the roller 9 movable sleeve promptly and establishes on the bolt surface.

According to the embodiment, the feeding mechanism 4 is matched with the inclined plate 8 and the integrating roller 9, the uniformity of the cloth to be processed entering the feeding mechanism 6 is further improved, the phenomenon that the multiple layers of cloth are folded when being overlapped is prevented, the production effect is improved, and the defective rate and the production cost are reduced.

Example 7:

in this embodiment, in addition to the structural features of embodiment 4, the method further includes:

the press roller 10 is installed on the second feeding platform 601;

the second bearing seats 11 are connected to two ends of the press roll 10, and are used for installing the press roll 10 on the second feeding platform 601;

the annular grooves 12 are formed in the surfaces of the press roller 10 and the upper feeding roller 61 at equal intervals;

the transmission rope 13 is sleeved in the annular grooves 12 on the surfaces of the compression roller 10 and the upper feeding roller 61, and is used for linkage of the upper feeding roller 61 and the compression roller 10;

wherein, preferably adopt the bearing to be connected between compression roller 10 and the second bearing frame 11, driving rope 13 preferably has certain elasticity to improve the frictional resistance between driving rope 13 and compression roller 10 and the last feed roller 61, be convenient for go up feed roller 61 and compression roller 10's linkage.

In the embodiment, the press roller 10 is arranged, so that the cloth is prevented from tilting at the cutting mechanism 3, the clamping of the mechanical claw 55 is influenced on one hand, the size control during cutting of the cutting mechanism 3 is influenced on the other hand, and the processing effect is effectively improved; and is driven by the upper feeding roller 61 through the transmission rope 13, thereby avoiding additional power and simplifying the structure.

Example 8:

in this embodiment, in addition to the structural features of embodiment 7, further, the cutting mechanism 3 includes:

the cutting groove 30 is formed in the second feeding platform 601;

the driving motor 31, the driving motor 31 is installed on the second feeding platform 601;

the second screw rod assembly 32, the second screw rod assembly 32 is installed below the second feeding platform 601;

the third supporting frame 33 penetrates through the cutting groove 30, one side of the third supporting frame 33 is used for installing the driving motor 31, and the other side of the third supporting frame 33 is driven by the second screw rod assembly 32 to slide along the cutting groove 30;

the cutting knife 34 is connected to the output end of the driving motor 31, is driven by the driving motor 31, and the bottom end of the cutting knife 34 extends into the cutting groove 30;

the protective cover 35 is arranged on the third supporting frame 33, and is sleeved outside the cutting knife 34;

wherein, the second lead screw subassembly 32 preferably adopts bearing and bearing frame to install in second material platform 601 below of walking, preferably adopt bolted connection between third support frame 33 and the driving motor 31, preferably adopt splined connection between the output of cutting sword 34 and driving motor 31, preferably adopt bolted connection between protection casing 35 and the third support frame 33, and the clearance that leaves between protection casing 35 bottom and the second material platform 601 surface to be greater than cloth thickness, the lead screw subassembly is prior art, here is not repeated for too much.

In this embodiment, it can be seen that the cutter 34 is driven to rotate by the driving motor 31, and the second lead screw assembly 32 drives the cloth to move along the cutting groove 30, so that the cloth on the second feeding platform 601 is cut, wherein the protective cover 35 avoids the potential safety hazard caused by the cutter 34, and the cloth can be prevented from being warped to a certain extent.

Example 9:

in this embodiment, in addition to the structural features of embodiment 8, further, the blanking mechanism 5 includes:

the second support frame 50, the second support frame 50 is connected to the side of the work bench 1;

the synchronous wheels 51 are provided with a plurality of groups of synchronous wheels 51 and are all arranged on the second support frame 50 through a third support plate 52, and meanwhile, the synchronous wheels 51 of each group are driven through a synchronous belt 53;

a fourth support plate 54, the fourth support plate 54 being mounted on the timing belt 53;

a gripper 55, the gripper 55 being mounted on the fourth support plate 54;

the synchronous wheel 51 is driven by a servo motor, the second support frame 50 and the workbench 1 are preferably welded, the third support plate 52 and the synchronous wheel 51 are preferably connected by a bearing and a rotating shaft, the third support plate 52 and the second support frame 50 are preferably connected by bolts, the fourth support plate 54 and the synchronous belt 53 are preferably fixed by bolts and nuts, and the mechanical claw 55 and the fourth support plate 54 are preferably connected by bolts; while the synchronizing wheels 51 are preferably two sets and the gripper 55 is preferably two.

In the embodiment, the synchronous wheel 51 drives the synchronous belt 53 to reciprocate, so that the fourth support plate 54 drives the mechanical claw 55 to reciprocate, the blanking efficiency is ensured, and the full-automatic production is realized.

Example 10:

in this embodiment, in addition to the structural features of embodiment 9, the method further includes:

the hanging rod 56 is installed on the second supporting frame 50 and used for placing finished products;

wherein, the hanging rod 56 is preferably connected with the second supporting frame 50 by bolts.

According to the embodiment, the hanging rod 56 is arranged, so that the finished cloth is grabbed by the mechanical claw 55 and placed on the hanging rod 56, and the recovery work efficiency is improved.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a full-automatic sewing and cutting integrated machine, includes workstation (1), install sewing machine structure (2) and cutting mechanism (3) on workstation (1), sewing machine structure (2) include sewing machine head (20) and sewing platform (21), and characterized by still includes:

the feeding mechanism (4) is arranged on the side surface of the workbench (1) and is positioned on one side, far away from the cutting mechanism (3), of the sewing mechanism (2);

the blanking mechanism (5) is arranged on the side surface of the workbench (1) and is positioned on one side, close to the cutting mechanism (3), of the sewing mechanism (2);

the feeding mechanism (6) is arranged on the workbench (1) and is respectively positioned at two sides of the sewing mechanism (2) close to the feeding mechanism (4) and the discharging mechanism (5);

the translation mechanism (7) is installed in the workbench (1) and used for driving the sewing mechanism (2) to translate along the cloth feeding direction perpendicular to the feeding mechanism (6).

2. An all-in-one machine according to claim 1, characterized in that said feeding mechanism (4) comprises:

the first support frame (40), the first support frame (40) is connected to the side of the workbench (1);

the device comprises a first feeding roller (41), wherein two ends of the first feeding roller (41) are arranged on a first support frame (40) through a first support plate (42);

the two ends of the second feeding roller (43) are arranged on the first support frame (40) through second support plates (44);

the guide rollers (45) are arranged on one side, close to the workbench (1), of the first support frame (40) respectively, and are used for guiding the feeding of the first feeding roller (41) and the second feeding roller (43).

3. An all-in-one machine according to claim 2, characterized in that said translation mechanism (7) comprises:

the sliding rail (70), the sliding rail (70) is installed on the workbench (1), and the sewing mechanism (2) is provided with a sliding block (71) through the bottom surface of the sewing platform (21) to slide on the sliding rail (70);

the supporting block (73), the said supporting block (73) is installed on the bottom surface of the sewing platform (21);

the first screw rod assembly (74), the first screw rod assembly (74) is installed in the workbench (1) and is used for driving the supporting block (73) to move;

wherein the first lead screw assembly (74) is driven by a servo motor.

4. A machine as claimed in claim 3, wherein said feed mechanism (6) comprises:

the feeding platform (60) is arranged on the workbench (1), is flush with the surface of the sewing platform (21), and comprises a first feeding platform (600) positioned on one side, close to the feeding mechanism (4), of the sewing machine head (20) and a second feeding platform (601) positioned on one side, close to the discharging mechanism (5), of the sewing machine head (20);

the upper feeding roller (61), the upper feeding roller (61) is arranged on the upper side of the feeding platform (60);

the lower feeding roller (62), the lower feeding roller (62) is arranged at the lower side of the feeding platform (60);

the gear ends (63) are respectively installed at two ends of the upper feeding roller (61) and the lower feeding roller (62) and used for linkage of the upper feeding roller (61) and the lower feeding roller (62);

the feeding device comprises a rectangular groove (64), wherein the rectangular groove (64) is formed in the feeding platform (60), and the lower feeding roller (62) penetrates through the rectangular groove (64) to be flush with the surface of the feeding platform (60);

the adjusting assembly (65), the adjusting assembly (65) is installed below the feeding platform (60) and connected with two ends of the upper feeding roller (61);

wherein the lower feed roller (62) is driven by a servo motor.

5. Machine according to claim 4, wherein said adjusting assembly (65) comprises:

a first bearing block (650), wherein the first bearing block (650) is connected to two ends of the upper feeding roller (61);

the top end of the supporting cylinder (651) is connected with the first bearing seat (650) through bolts, and the bottom end of the supporting cylinder penetrates through the feeding platform (60) and extends to the position below the feeding platform (60);

the sleeve seat (652) is installed on the bottom surface of the feeding platform (60) and sleeved on the surface of the supporting cylinder (651);

the top end of the sliding rod (653) extends into the supporting cylinder (651) and is in sliding connection with the inner wall at the bottom end of the supporting cylinder (651);

the adjusting sheet (654), the said adjusting sheet (654) is set up in the surface of slide bar (653), and set up the spring (655) set up in the surface of slide bar (653) between bottom end of the supporting cylinder (651);

the air cylinder (656), the said air cylinder (656) is installed on work level (1), and the output end is connected with bottom end of the slide bar (653) abuttingly;

wherein, the surface of the lower half section of the sliding rod (653) is provided with an external thread, and an adjusting nut (657) which is in threaded connection with the sliding rod (653) is arranged below the adjusting sheet (654).

6. The machine as claimed in claim 4, further comprising:

the inclined plate (8), the inclined plate (8) is installed on the first material conveying platform (600);

the integrated rollers (9) are multiple, and the integrated rollers (9) are all installed on the inclined plate (8).

7. The machine as claimed in claim 4, further comprising:

the press roller (10), the press roller (10) is installed on the second feeding platform (601);

the second bearing seats (11) are connected to two ends of the press roll (10), and are used for installing the press roll (10) on the second feeding platform (601);

the annular grooves (12), the annular grooves (12) are arranged on the surfaces of the press roll (10) and the upper feeding roll (61) at equal intervals;

and the transmission rope (13) is sleeved in the annular grooves (12) on the surfaces of the compression roller (10) and the upper feeding roller (61) and is used for linkage of the upper feeding roller (61) and the compression roller (10).

8. An all-in-one machine according to claim 7, characterized in that said cutting means (3) comprise:

the cutting groove (30), the cutting groove (30) is arranged on the second material conveying platform (601);

the driving motor (31), the driving motor (31) is installed on the second material conveying platform (601);

the second screw rod assembly (32), the second screw rod assembly (32) is installed below the second feeding platform (601);

the third supporting frame (33) penetrates through the cutting groove (30), one side of the third supporting frame (33) is used for installing the driving motor (31), and the other side of the third supporting frame (33) is driven by the second screw rod assembly (32) to slide along the cutting groove (30);

the cutting knife (34) is connected to the output end of the driving motor (31), is driven by the driving motor (31), and the bottom end of the cutting knife (34) extends into the cutting groove (30);

the protective cover (35) is installed on the third supporting frame (33), and the protective cover (35) is sleeved on the outer side of the cutting knife (34).

9. An all-in-one machine according to claim 8, wherein said blanking mechanism (5) comprises:

the second supporting frame (50), the second supporting frame (50) is connected to the side face of the workbench (1);

the synchronous wheels (51) are arranged in multiple groups and are arranged on the second support frame (50) through a third support plate (52), and meanwhile, a synchronous belt (53) is arranged between each group of synchronous wheels (51) for transmission;

a fourth support plate (54), the fourth support plate (54) being mounted on a timing belt (53);

a gripper (55), said gripper (55) being mounted on a fourth support plate (54);

wherein the synchronizing wheel (51) is driven by a servo motor.

10. The machine as claimed in claim 9, further comprising:

the hanging rod (56), the hanging rod (56) is installed on the second supporting frame (50) and is used for placing finished products.

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