阅读说明：本技术 一种布料箱包生产装置及其生产工艺 (Cloth luggage production device and production process thereof ) 是由 沈小波 于 2021-01-13 设计创作，主要内容包括：本发明公开一种布料箱包生产装置,生产装置包括操作平台,所述操作平台,操作平台上转动设有传输装置,传输装置上转动设有布料控制件,布料控制件的一侧转动设有切割装置,切割装置远离布料控制件的一侧滑动设有夹紧件,操作平台上固定有用于控制夹紧件滑动的驱动件,操作平台上设有可升降的画粉装置,操作平台上固定有用于控制画粉装置升降的控制件,操作平台上设有多台缝装置。本发明生产装置通过流水线的生产方式,可以加快箱包生产效率,通过第二气缸驱动第一插杆移动,可实现对布料卷筒的拆卸与安装,便于更换布料卷筒,通过第六气缸驱动限位件可以实现对画粉模具的拆卸与安装,便于更换画粉模具。(The invention discloses a cloth luggage production device which comprises an operating platform, wherein a transmission device is rotatably arranged on the operating platform, a cloth control piece is rotatably arranged on the transmission device, a cutting device is rotatably arranged on one side of the cloth control piece, a clamping piece is slidably arranged on one side, far away from the cloth control piece, of the cutting device, a driving piece used for controlling the clamping piece to slide is fixed on the operating platform, a liftable powder painting device is arranged on the operating platform, a control piece used for controlling the lifting of the powder painting device is fixed on the operating platform, and a plurality of sewing devices are arranged on the operating platform. The production device can accelerate the production efficiency of the luggage by a production mode of the assembly line, the second cylinder drives the first insert rod to move, the cloth winding drum can be disassembled and installed, the cloth winding drum is convenient to replace, the limiting piece is driven by the sixth cylinder, the disassembling and the installing of the painting powder mold can be realized, and the painting powder mold is convenient to replace.)

1. A cloth luggage production device comprises an operation platform (1) and is characterized in that the operation platform (1) is provided with a transmission device (2) in a rotating manner, the transmission device (2) is provided with a cloth control piece (3) in a rotating manner, one side of the cloth control piece (3) is provided with a cutting device (4) in a rotating manner, one side, far away from the cloth control piece (3), of the cutting device (4) is provided with a clamping piece (5) in a sliding manner, a driving piece (6) used for controlling the sliding of the clamping piece (5) is fixed on the operation platform (1), a liftable painting device (7) is arranged on the operation platform (1), a control piece (8) used for controlling the lifting of the painting device (7) is fixed on the operation platform (1), and a plurality of seam devices (9) are arranged on the operation platform (1);

the operating platform (1) comprises a disc (11), stations (12) distributed in an array manner are fixed on the side wall of the disc (11), table legs (13) distributed in an array manner are fixed below the disc (11), a first through hole (14) is formed in the center of the disc (11), an annular slide rail (15) coaxial with the first through hole (14) is arranged on the disc (11), a first connecting plate (16) is arranged below the disc (11), a second connecting plate (17) and a third connecting plate (18) are vertically arranged on the first connecting plate (16), the second connecting plate (17) is positioned above the third connecting plate (18), a second rotating connecting hole is formed in the second connecting plate (17), a first annular groove coaxial with the second rotating connecting hole is formed in the second connecting plate (17), a second annular groove is formed in the first annular groove, a first mounting hole is formed in one side of the second rotating connecting hole, a second mounting hole is formed in the third connecting plate (18);

the automatic powder cutting machine is characterized in that a station (12) close to the feeding position on the operating platform (1) is a cutting station (121), a station (12) adjacent to the cutting station (121) in the clockwise direction is a powder painting station (122), a station (12) adjacent to the powder painting station (122) in the clockwise direction is a trimming station (123), and the rest stations (12) are sewing stations (124).

2. The distribution box production device of claim 1, wherein the cutting station (121) comprises a cutting station body (1211), a fixed blade (1212) is fixed on one side of the cutting station body (1211), a first connecting block (1213) is arranged at one end of the fixed blade (1212), a first T-shaped slide rail (1214) is arranged at the other end of the fixed blade (1212), a second connecting block (1215) is symmetrically arranged above the first connecting block (1213), a second rotating connecting hole (1216) is arranged on the second connecting block (1215), a third connecting block (1217) is arranged at one end of the first T-shaped slide rail away from the fixed blade (1212), a third mounting hole (1218) is arranged on the third connecting block (1217), a fourth connecting block (1219) is fixed above the cutting station (121), a fourth mounting hole (12110) is arranged on the fourth connecting block (1219), a second T-shaped slide rail (12111) is symmetrically arranged between the fourth connecting block (1219) and the fixed blade (1214), a fifth connecting block (12112) is vertically arranged on one side of the first connecting block (1213), a third rotating connecting hole (12113) is formed in the fifth connecting block (12112), a U-shaped connecting plate (12114) is fixed on one side of the first T-shaped sliding rail (1214), a fourth rotating connecting hole (12115) is formed in a side plate, close to the fifth connecting block (12112), of the U-shaped connecting plate (12114), a fifth mounting hole (12116) is formed in a side plate far away from the fifth connecting block (12112), a sixth mounting hole (12117) is formed in one side of the fifth mounting hole (12116), and a graduated scale (12119) parallel to the second T-shaped sliding rail (12111) is fixed above the cutting station (121);

be equipped with U type connecting rod (1221) on painting station (122), be equipped with seventh mounting hole (1222) on U type connecting rod (1221), be fixed with on pruning station (123) and accomodate check (1231), placed clipper in accomodating check (1231), install on sewing station (124) sewing machine (9).

3. A cloth bag production device according to claim 1, wherein the transmission device (2) comprises a first air cylinder (21), the first air cylinder (21) is fixed below the third connecting plate (18), the output shaft of the first air cylinder (21) passes through the second mounting hole and is fixed with a first rotating member (22), the second connecting plate (17) is fixed with a first motor (23), the output shaft of the first motor (23) passes through the first mounting hole and is fixed with a first gear (24), the operating platform (1) is rotatably provided with a carrier member (25), the carrier member (25) is slidably connected with the first rotating member (22), the second connecting plate (17) is rotatably provided with a second gear (26), the second gear (26) is slidably connected with the first rotating member (22), and the second gear (16) is in transmission with the first gear (24);

the first rotating part (22) comprises a first rectangular sliding rod (221), a first connecting rod (222) is fixed above the first rectangular sliding rod (221) through a first through hole (14), L-shaped connecting rods (223) distributed in a circumferential array mode are fixed on the first connecting rod (222), and a sliding cover (224) is fixed below the L-shaped connecting rods (223);

the sliding cover (224) comprises a cover body (2241), guide rods (2242) distributed in an array mode are fixed below the cover body (2241), a limiting block (2243) is fixed below the guide rods (2242), and an L-shaped carrier plate (2244) is fixed below the cover body (2241);

the carrying piece (25) comprises a first annular sliding block (251) matched with the annular sliding rail (15), carrying boxes (253) distributed in an array mode are arranged above the first annular sliding block (251), and a first connecting ring (252) is connected between each carrying box (253) and the corresponding first annular sliding block (251);

the carrying box (253) comprises a box body (2531), eighth mounting holes (2532) are distributed in an array mode above the box body (2531), sliding grooves (2533) are formed in the eighth mounting holes (2532), the sliding cover (224) is matched with the eighth mounting holes (2532) through guide rods (2242), and the sliding cover and the sliding grooves (2533) are matched through limiting blocks (2243) and are located on the carrying box (253) to slide;

the second gear (26) comprises a second gear body (261), a second connecting ring (262) is fixed below the second gear body (261), a second annular sliding block (263) matched with the second annular groove is fixed below the second connecting ring (262), and a first rectangular through hole (264) matched with the first rectangular sliding rod (221) is formed in the second gear (26).

4. A cloth box production device according to claim 2, wherein the cloth control member (3) comprises a second cylinder (31), the second cylinder (31) is fixed on a U-shaped connecting plate (12114), an output shaft of the second cylinder (31) passes through a fifth mounting hole (12116) and is rotatably provided with a first inserting rod (32), the U-shaped connecting plate (12114) is rotatably provided with a first connecting member (33), the first connecting member (33) is slidably connected with the first inserting rod (32), the fifth connecting member (12112) is rotatably provided with a second connecting member (34), the second connecting member (34) is clamped with a cloth reel (35), the first inserting rod (32) passes through the first connecting member (33) and is clamped on the cloth reel (35), the U-shaped connecting plate (12114) is fixed with a third cylinder (36), an output shaft of the third cylinder (36) passes through a sixth mounting hole (12117) and is fixed with a first clamping block (361), the cloth control piece (3) is limited by clamping the first clamping block (361) on the first connecting piece (33);

a first rotating block (311) is fixed on an output shaft of the second cylinder (31);

the first inserting rod (32) comprises a rectangular rod body (321), one end of the rectangular rod body (321) is provided with a ninth mounting hole (322), and a first rotating groove (323) matched with the first rotating block (311) is arranged in the ninth mounting hole (322);

the first connecting piece (33) comprises a first rotating shaft (331) matched with the fourth rotating connecting hole (12115), first limiting pieces (332) which are symmetrically distributed are arranged on the first rotating shaft (331), a brake block (333) is fixed at one end of the first rotating shaft (331), first clamping grooves (334) which are distributed in an array manner are formed in the brake block (333), a second rectangular through hole (335) matched with the rectangular rod body (321) is formed in the axial direction of the first rotating shaft (331), and the cloth control piece (3) is braked by inserting the first clamping block (361) into the first clamping groove (334);

the second connecting piece (34) comprises a second rotating shaft (341) matched with the third rotating connecting hole (12113), the second rotating shaft (341) is provided with second limiting sheets (342) which are symmetrically distributed, and one end of the second rotating shaft (341) is provided with a second clamping groove (343);

the cloth winding drum (35) comprises a cloth winding drum body (351), one end of the cloth winding drum body (351) is provided with a slot (353) matched with the first inserted rod (32), and the other end of the cloth winding drum body is provided with a second clamping block (352) matched with the second clamping groove (343).

5. A cloth bag production device according to claim 2, wherein the cutting device (4) comprises a fourth cylinder (41), the fourth cylinder (41) is fixed on the third connecting block (1217), an output shaft of the fourth cylinder (41) passes through the third mounting hole (1218) and is fixed with a first sliding member (42), a first hinge member (43) is rotatably arranged on the first sliding member (42), a cutting member (44) is rotatably arranged on the cutting station (121), and the cutting member (44) is hinged with the first hinge member (43);

the first sliding part (42) comprises a first T-shaped sliding block (421) matched with the first T-shaped sliding rail (1214), and a third rotating shaft (422) is fixed on the first T-shaped sliding block (421);

the first hinge part (43) comprises a second connecting rod (431), one end of the second connecting rod (431) is provided with a sixth connecting block (432), the other end of the second connecting rod is vertically provided with seventh connecting blocks (434) which are symmetrically distributed, a fourth rotating shaft (433) is arranged on the sixth connecting block (432), a fifth rotating connecting hole (435) is arranged on the seventh connecting block (434), and the first hinge part (43) is positioned on the third rotating shaft (422) to rotate through the fifth rotating connecting hole (435);

the cutting piece (44) comprises a third connecting rod (441), a rotary cutter (442) is arranged below the third connecting rod (441), one end of the third connecting rod (441) is provided with a fifth rotating shaft (443) matched with the second rotary connecting hole (1216), the other end of the third connecting rod is provided with eighth connecting blocks (444) which are symmetrically distributed, and the eighth connecting blocks (444) are provided with sixth rotary connecting holes (445) matched with the fourth rotating shaft (433).

6. A cloth luggage production apparatus according to claim 2, wherein the clamping member (5) comprises a first clamping arm (51) sliding on the cutting station (121), a second clamping arm (53) is rotatably disposed on the first clamping arm (51), a second hinge member (52) is rotatably disposed on the first clamping arm (51), a second sliding member (54) is rotatably disposed on the second hinge member (52), the second sliding member (54) is slidably connected with the second clamping arm (53), and a second motor (55) for driving the second sliding member (54) to slide is fixed on the second clamping arm (53);

the first clamping arm (51) comprises a first clamping plate (511), a first buffer block (512) is arranged on the first clamping plate (511), a fourth connecting plate (513) is arranged on one side, away from the first buffer block (512), of the first clamping plate (511), a seventh rotating connecting hole (514) is formed in the fourth connecting plate (513), a second T-shaped sliding block (515) matched with a second T-shaped sliding rail (12111) is fixed below the first clamping plate (511), a ninth connecting block (516) is arranged between the fourth connecting plate (513) and the first buffer block (512), and a sixth rotating shaft (517) is arranged on the ninth connecting block (516);

the second clamping arm (53) comprises a second clamping plate (531), a second buffer block (532) is fixed below the second clamping plate (531), a tenth connecting block (533) is fixed above the second clamping plate (531), a tenth mounting hole is formed in the tenth connecting block (533), eleventh connecting blocks (534) which are symmetrically distributed are arranged on one side, away from the second buffer block (532), of the second clamping plate (531), a seventh rotating shaft (535) matched with the seventh rotating connecting hole (514) is arranged between the eleventh connecting blocks (534), a second through hole (536) is formed in the second clamping plate (531), and sliding rails are arranged on the inner walls of two sides of the second through hole (536);

the second sliding part (54) comprises a fourth connecting rod (541) positioned in the second through hole (536), the fourth connecting rod (541) is provided with a sliding block (542) matched with the sliding rail, a twelfth connecting block (544) is arranged above the fourth connecting rod (541), an eighth rotating shaft (543) is arranged below the fourth connecting rod (541), and the twelfth connecting block (544) is provided with a threaded hole (545);

the second hinge part (52) comprises a fifth connecting rod (521), the two ends of the fifth connecting rod (521) are respectively provided with a thirteenth connecting block (522) which is symmetrically distributed, the thirteenth connecting block (522) is provided with an eighth rotating connecting hole (523), the second hinge part (52) is positioned on the sixth rotating shaft (517) to rotate through the eighth rotating connecting hole (523) at one end, and is hinged with the eighth rotating shaft (543) through the eighth rotating connecting hole (523) at the other end;

the second motor (55) is fixed on the tenth connecting block (533), an output shaft of the second motor (55) penetrates through the tenth mounting hole to be fixed with a screw rod (551), and the second motor (55) is located in the threaded hole (545) through the screw rod (551) to rotate.

7. A cloth bag production device according to claim 6, wherein the driving member (6) is a fifth cylinder fixed on a fourth connecting block (1219), and an output shaft of the fifth cylinder passes through a fourth mounting hole (12110) and is fixed on the fourth connecting plate (513).

8. The cloth box production device according to claim 2, wherein the powder painting device (7) comprises a bracket (71), one side of the bracket (71) is rotatably provided with a third connecting piece (72), the other side of the bracket (71) is fixedly provided with a sixth air cylinder (74), a fourth connecting piece (73) is arranged between the sixth air cylinder (74) and the third connecting piece (72), the fourth connecting piece (73) is positioned on the bracket (71) to rotate, an output shaft of the sixth air cylinder (74) is rotatably provided with a limiting piece (75), the limiting piece (75) is slidably connected with the fourth connecting piece (73), a powder painting mold (76) is clamped between the limiting piece (75) and the third connecting piece (72), one side of the sixth air cylinder (74) is provided with a third motor (77), the third motor (77) is fixed on the bracket (71), and a third gear (78) which is driven by the fourth connecting piece (73) is fixed on an output shaft of the third motor (77);

the support (71) comprises a top plate (711), one end of the top plate (711) is vertically provided with a fifth connecting plate (712), the other end of the top plate (711) is vertically provided with a sixth connecting plate (714), a seventh connecting plate (712) is arranged between the fifth connecting plate (712) and the sixth connecting plate (714), the fifth connecting plate (712) is provided with a fifth rotating connecting hole (713), the sixth connecting plate (714) is provided with an eleventh mounting hole (717), a twelfth mounting hole (716) is arranged above the eleventh mounting hole, and the seventh connecting plate (712) is provided with a tenth rotating connecting hole (718);

the third connecting piece (72) comprises a ninth rotating shaft (721), third limiting plates (722) are symmetrically distributed on the ninth rotating shaft (721), a fourteenth connecting block (723) is arranged at one end of the ninth rotating shaft (721), and third clamping grooves (724) are symmetrically distributed on the fourteenth connecting block (723);

the fourth connecting piece (73) comprises a fourth gear (731) which is in transmission with the engaging tooth of the third gear (78), one end of the fourth gear (731) is provided with a tenth rotating shaft (732) which is matched with the tenth rotating connecting hole (718), the tenth rotating shaft (732) is provided with fourth limiting sheets (733) which are symmetrically distributed, and the fourth gear (731) is axially provided with a third rectangular through hole (734);

the sixth air cylinder (74) is fixed on the sixth connecting plate (714), and a second rotating block (741) is fixed on an output shaft of the sixth air cylinder (74) through an eleventh mounting hole (717);

the limiting piece (75) comprises a second rectangular sliding rod (751) matched with a third rectangular through hole (734), one end of the second rectangular sliding rod (751) is provided with a sixteenth connecting block (752), the other end of the second rectangular sliding rod is provided with a seventeenth connecting block (753), the seventeenth connecting block (753) is provided with a thirteenth mounting hole (754), a second rotating groove (753) matched with the second rotating block (741) is arranged in the thirteenth mounting hole (754), and a fourth clamping groove is arranged on one side, away from the second rectangular sliding rod (751), of the sixteenth connecting block (752);

the powder drawing die (76) comprises a polyhedral prism (761), die heads (76) are fixed on the side faces of the polyhedral prism (761), erasable toner is coated on the die heads (76), and the shape of the die heads (76) is determined according to the pattern of cut cloth required by manufacturing a case;

the third motor (77) is fixed on the sixth connecting plate (714), and an output shaft of the third motor (77) passes through the twelfth mounting hole (716) and is fixed on the third gear (78).

9. A cloth bag production device as claimed in claim 8, wherein the control member (8) is a seventh cylinder fixed above the U-shaped connecting rod (1221), and the output shaft of the seventh cylinder is fixed on the top plate (711) through a seventh mounting hole (1222).

10. A production process for producing a cloth bag based on the cloth bag production apparatus of any one of claims 1 to 9, the production process comprising the steps of:

s1, cutting

The cloth cutting device is characterized in that the starting end of cloth on the cloth winding drum (35) penetrates through the space between the fixed blade (1212) and the rotary cutter (442), the clamping piece (5) clamps the starting end of the cloth, the clamping piece (5) is driven by the fifth cylinder to move in the direction far away from the cloth winding drum (35), after the cloth is released to a required length, the first clamping block (361) is pushed by the third cylinder (36), so that the first clamping block (361) is clamped in the corresponding first clamping groove (334) to fix the cloth winding drum (35), the rotary blade (442) is driven by the fourth cylinder (41) to rotate downwards, preliminary cutting of the cloth is achieved, the above operations are repeated, and all cloth required for manufacturing a suitcase is preliminarily cut according to the required length;

s2, transmission

Pushing a sliding cover (224) to slide upwards through a first air cylinder (2), placing the materials finished in the above steps on an L-shaped carrier plate (2244), pushing the sliding cover (224) to slide downwards through the first air cylinder (2), closing a carrier box (253), driving the carrier box (253) to rotate to a next station (12) through a first motor (23), pushing the sliding cover (224) to slide upwards through the first air cylinder (2), taking the materials finished in the above steps out of the carrier box (253) by the L-shaped carrier plate (2244), and taking out the materials finished in the above steps;

s3, drawing powder

Laying the cloth cut by the S1 below the powder drawing device (7), controlling the powder drawing die (76) to rotate through a third motor (77), enabling the required die head (76) to rotate above the cloth, driving the powder drawing die (76) to move downwards through a seventh air cylinder until the toner is adhered to the cloth, repeating the operation of the step, and drawing powder on all the cloth conveyed in the step S2;

s4 is the same as the step S2;

s5, pruning

Trimming the cloth conveyed by the S4 along the powder line of the S3;

s6 is the same as the step S4;

s7, sewing

And (4) sewing the cloth trimmed by the S5 according to the working requirements of the sewing station, conveying the semi-finished product to the next station according to the transmission mode of S2 after the sewing is finished, and sewing the next station until the bag is sewn.

Technical Field

The invention relates to a film pressing device, in particular to a cloth luggage production device and a production process thereof.

Background

At present, in the production process of bags, a plurality of fabrics with different shapes are sewn, and the processes of cutting the fabrics to sewing are mostly carried out independently, and then the fabrics are conveyed to the sewing position to be integrally sewn.

The existing production mode is high in labor intensity and low in working efficiency, the facility automation degree of the existing assembly line is low, the actual requirements of workers cannot be met, and the cloth case production device with the automatic shearing function and the automatic powder drawing function is designed.

Disclosure of Invention

The invention aims to provide a cloth luggage production device and a production process thereof, which can accelerate luggage production efficiency through a production mode of a production line, can realize the disassembly and the installation of a cloth winding drum through driving a first inserted bar to move by a second cylinder, is convenient to replace the cloth winding drum, can realize the disassembly and the installation of a painting powder mold through driving a limiting piece by a sixth cylinder, and is convenient to replace the painting powder mold.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a cloth case and bag apparatus for producing, apparatus for producing includes operation platform, the last rotation of operation platform is equipped with transmission device, the last rotation of transmission device is equipped with cloth control, one side of cloth control is rotated and is equipped with cutting device, one side that cutting device kept away from the cloth control slides and is equipped with the clamping piece, be fixed with on the operation platform and be used for controlling the gliding driving piece of clamping piece, the last drawing powder device that is equipped with the liftable that is equipped with of operation platform, the last control that is used for controlling the lifting of drawing powder device that is fixed with of operation platform, the last many seam devices that are equipped with of operation platform.

The operation platform comprises a disc, stations distributed in an array mode are fixed on the side wall of the disc, table legs distributed in the array mode are fixed below the disc, a first through hole is formed in the center of the disc, an annular slide rail coaxial with the first through hole is arranged on the disc, a first connecting plate is arranged below the disc, a second connecting plate and a third connecting plate are perpendicularly arranged on the first connecting plate, the second connecting plate is located above the third connecting plate, a second rotating connecting hole is formed in the second connecting plate, a first annular groove coaxial with the second rotating connecting hole is formed in the second connecting plate, a second annular groove is formed in the first annular groove, a first mounting hole is formed in one side of the second rotating connecting hole, and a second mounting hole is formed in the third connecting plate.

The station close to the feeding position on the operating platform is a cutting station, the station adjacent to the cutting station in the clockwise direction is a painting station, the station adjacent to the painting station in the clockwise direction is a trimming station, and the rest stations are sewing stations.

Further, the cutting station comprises a cutting station body, a fixed blade is fixed on one side of the cutting station body, a first connecting block is arranged at one end of the fixed blade, a first T-shaped slide rail is arranged at the other end of the fixed blade, second connecting blocks which are symmetrically distributed are arranged above the first connecting block, a second rotating connecting hole is arranged on the second connecting block, a third connecting block is arranged at one end of the first T-shaped slide rail, which is far away from the fixed blade, a third mounting hole is arranged on the third connecting block, a fourth connecting block is fixed above the cutting station, a fourth mounting hole is arranged on the fourth connecting block, a second T-shaped slide rail which is symmetrically distributed is arranged between the fourth connecting block and the fixed blade, a fifth connecting block is vertically arranged on one side of the first connecting block, a third rotating connecting hole is arranged on the fifth connecting block, a U-shaped connecting plate is fixed on one side of the first T-shaped slide rail, and a fourth rotating connecting hole is arranged on a side plate of the U-shaped connecting plate, which is close to the fifth connecting block, and a fifth mounting hole is formed in the side plate far away from the fifth connecting block, a sixth mounting hole is formed in one side of the fifth mounting hole, and a graduated scale parallel to the second T-shaped sliding rail is fixed above the cutting station.

The powder painting station is provided with a U-shaped connecting rod, the U-shaped connecting rod is provided with a seventh mounting hole, a containing grid is fixed on the trimming station, a trimming tool is placed in the containing grid, and the sewing machine is installed on the sewing station.

Furthermore, the transmission device comprises a first air cylinder, the first air cylinder is fixed below the third connecting plate, an output shaft of the first air cylinder penetrates through the second mounting hole and is fixedly provided with a first rotating piece, a first motor is fixed below the second connecting plate, an output shaft of the first motor penetrates through the first mounting hole and is fixedly provided with a first gear, the operating platform is rotatably provided with a carrying piece, the carrying piece is connected with the first rotating piece in a sliding mode, the second connecting plate is rotatably provided with a second gear, the second gear is connected with the first rotating piece in a sliding mode, and the second gear is in transmission with the first gear.

The first rotating part comprises a first rectangular slide bar, a first connecting rod is fixed above the first rectangular slide bar through a first through hole, L-shaped connecting rods distributed in a circumferential array mode are fixed on the first connecting rod, and a sliding cover is fixed below the L-shaped connecting rods.

The sliding cover comprises a cover body, guide rods distributed in an array mode are fixed below the cover body, a limiting block is fixed below the guide rods, and an L-shaped support plate is fixed below the cover body.

The carrying piece comprises a first annular sliding block matched with the annular sliding rail, carrying boxes distributed in an array mode are arranged above the first annular sliding block, and a first connecting ring is connected between each carrying box and the corresponding first annular sliding block.

The delivery box includes the box, and the top of box is equipped with the eighth mounting hole of array distribution, is equipped with the spout in the eighth mounting hole, and the sliding closure passes through the guide bar and cooperates with the eighth mounting hole, slides on being located the delivery box through stopper and spout cooperation.

The second gear comprises a second gear body, a second connecting ring is fixed below the second gear body, a second annular sliding block matched with the second annular groove is fixed below the second connecting ring, and a first rectangular through hole matched with the first rectangular sliding rod is formed in the second gear.

Furthermore, the cloth control part comprises a second cylinder, the second cylinder is fixed on a U-shaped connecting plate, an output shaft of the second cylinder penetrates through a fifth mounting hole to be rotatably provided with a first inserting rod, the U-shaped connecting plate is rotatably provided with a first connecting piece, the first connecting piece is in sliding connection with the first inserting rod, the fifth connecting piece is rotatably provided with a second connecting piece, a cloth winding drum is clamped on the second connecting piece, the first inserting rod penetrates through the first connecting piece to be clamped on the cloth winding drum, a third cylinder is fixed on the U-shaped connecting plate, a first clamping block is fixed on an output shaft of the third cylinder, and the cloth control part is limited by clamping the first clamping block on the first connecting piece;

and a first rotating block is fixed on an output shaft of the second cylinder.

The first inserted bar comprises a rectangular bar body, a ninth mounting hole is formed in one end of the rectangular bar body, and a first rotating groove matched with the first rotating block is formed in the ninth mounting hole.

The cloth control piece is characterized in that the first connecting piece comprises a first rotating shaft matched with the fourth rotating connecting hole, first limiting pieces are symmetrically distributed on the first rotating shaft, a brake block is fixed at one end of the first rotating shaft, first clamping grooves distributed in an array mode are formed in the brake block, a second rectangular through hole matched with the rectangular rod body is formed in the axial direction of the first rotating shaft, and the cloth control piece is braked by inserting the first clamping pieces into the first clamping grooves.

The second connecting piece comprises a second rotating shaft matched with the third rotating connecting hole, second limiting pieces are symmetrically distributed on the second rotating shaft, and a second clamping groove is formed in one end of the second rotating shaft.

The cloth winding drum comprises a cloth winding drum body, one end of the cloth winding drum body is provided with a slot matched with the first inserted link, and the other end of the cloth winding drum body is provided with a second clamping block matched with the second clamping slot.

Furthermore, the cutting device comprises a fourth cylinder, the fourth cylinder is fixed on a third connecting block, an output shaft of the fourth cylinder penetrates through a third mounting hole and is fixed with a first sliding piece, a first hinge piece is rotatably arranged on the first sliding piece, a cutting piece is rotatably arranged on the cutting station, and the cutting piece is hinged to the first hinge piece.

The first sliding part comprises a first T-shaped sliding block matched with the first T-shaped sliding rail, and a third rotating shaft is fixed on the first T-shaped sliding block.

The first articulated elements comprise second connecting rods, a sixth connecting block is arranged at one end of each second connecting rod, seventh connecting blocks which are symmetrically distributed are perpendicularly arranged at the other end of each second connecting rod, a fourth rotating shaft is arranged on each sixth connecting block, a fifth rotating connecting hole is formed in each seventh connecting block, and the first articulated elements are located on the third rotating shaft through the fifth rotating connecting holes and rotate.

The cutting piece comprises a third connecting rod, a rotary cutter is arranged below the third connecting rod, a fifth rotating shaft matched with the second rotary connecting hole is arranged at one end of the third connecting rod, eighth connecting blocks symmetrically distributed are arranged at the other end of the third connecting rod, and a sixth rotary connecting hole matched with the fourth rotating shaft is arranged on each eighth connecting block.

Furthermore, the clamping piece includes the gliding first arm lock that is located the station of tailorring, rotates on the first arm lock and is equipped with the second arm lock, rotates on the first arm lock and is equipped with the second articulated elements, rotates on the second articulated elements and is equipped with the second slider, sliding connection between second slider and the second arm lock, is fixed with on the second arm lock and is used for driving the gliding second motor of second slider.

The first clamping arm comprises a first clamping plate, a first buffering block is arranged on the first clamping plate, a fourth connecting plate is arranged on one side, away from the first buffering block, of the first clamping plate, a seventh rotating connecting hole is formed in the fourth connecting plate, a second T-shaped sliding block matched with a second T-shaped sliding rail is fixed below the first clamping plate, a ninth connecting block is arranged between the fourth connecting plate and the first buffering block, and a sixth rotating shaft is arranged on the ninth connecting block.

The second clamping arm comprises a second clamping plate, a second buffer block is fixed below the second clamping plate, a tenth connecting block is fixed above the second clamping plate, a tenth mounting hole is formed in the tenth connecting block, an eleventh connecting block which is symmetrically distributed is arranged on one side, away from the second buffer block, of the second clamping plate, a seventh rotating shaft matched with a seventh rotating connecting hole is arranged between the eleventh connecting block, a second through hole is formed in the second clamping plate, and sliding rails are arranged on the inner walls of two sides of the second through hole.

The second sliding part comprises a fourth connecting rod located in the second through hole, a sliding block matched with the sliding rail is arranged on the fourth connecting rod, a twelfth connecting block is arranged above the fourth connecting rod, an eighth rotating shaft is arranged below the fourth connecting rod, and a threaded hole is formed in the twelfth connecting block.

The second articulated elements include the fifth connecting rod, and the both ends of fifth connecting rod all are equipped with the thirteenth connecting block of symmetric distribution, are equipped with the eighth on the thirteenth connecting block and rotate the connecting hole, and the second articulated elements rotates the connecting hole through the eighth of one end and is located the rotation in the sixth pivot, and the eighth through the other end rotates the connecting hole and is articulated with the eighth pivot.

The second motor is fixed on the tenth connecting block, an output shaft of the second motor penetrates through the tenth mounting hole and is fixed with a screw rod, and the second motor rotates in the threaded hole through the screw rod.

Furthermore, the driving piece is a fifth cylinder, the fifth cylinder is fixed on the fourth connecting block, and an output shaft of the fifth cylinder penetrates through the fourth mounting hole and is fixed on the fourth connecting plate.

Further, draw whitewashed device and include the support, one side of support is rotated and is equipped with the third connecting piece, the opposite side is fixed with the sixth cylinder, be equipped with the fourth connecting piece between sixth cylinder and the third connecting piece, the fourth connecting piece is located the support and rotates, it is equipped with the locating part to rotate on the output shaft of sixth cylinder, sliding connection between locating part and the fourth connecting piece, the block has the powder mould of drawing between locating part and the third connecting piece, one side of sixth cylinder is equipped with the third motor, the third motor is fixed on the support, be fixed with on the output shaft of third motor with the driven third gear of fourth connecting piece rodent.

The support comprises a top plate, a fifth connecting plate is vertically arranged at one end of the top plate, a sixth connecting plate is vertically arranged at the other end of the top plate, a seventh connecting plate is arranged between the fifth connecting plate and the sixth connecting plate, a fifth rotating connecting hole is formed in the fifth connecting plate, an eleventh mounting hole is formed in the sixth connecting plate, a twelfth mounting hole is formed above the eleventh mounting hole, and a tenth rotating connecting hole is formed in the seventh connecting plate.

The third connecting piece comprises a ninth rotating shaft, third limiting pieces are symmetrically distributed on the ninth rotating shaft, a fourteenth connecting block is arranged at one end of the ninth rotating shaft, and third clamping grooves are symmetrically distributed on the fourteenth connecting block;

the fourth connecting piece includes the fourth gear with third gear tooth transmission, and the one end of fourth gear is equipped with the tenth pivot with tenth rotating connection hole complex, is equipped with the fourth spacing piece of symmetric distribution in the tenth pivot, and the axial of fourth gear is equipped with third rectangle through hole.

The sixth cylinder is fixed on the sixth connecting plate, and an output shaft of the sixth cylinder penetrates through the eleventh mounting hole and is fixed with the second rotating block.

The locating part includes the second rectangle slide bar with third rectangle through hole complex, and the one end of second rectangle slide bar is equipped with the sixteenth connecting block, and the other end is equipped with the seventeenth connecting block, is equipped with the thirteenth mounting hole on the seventeenth connecting block, is equipped with in the thirteenth mounting hole with second turning block complex second rotation groove, and one side that the second rectangle slide bar was kept away from to the sixteenth connecting block is equipped with fourth block groove.

The powder drawing die comprises a polyhedral prism, die heads are fixed on the side faces of the polyhedral prism, erasable toner is coated on the die heads, and the shape of the die heads is determined according to the pattern of cut cloth required by manufacturing bags.

The third motor is fixed on the sixth connecting plate, and an output shaft of the third motor penetrates through the twelfth mounting hole and is fixed on the third gear.

Furthermore, the control piece is a seventh cylinder, the seventh cylinder is fixed above the U-shaped connecting rod, and an output shaft of the seventh cylinder penetrates through the seventh mounting hole and is fixed on the top plate.

A production process for producing a cloth case by a cloth case production device comprises the following steps:

s1, cutting

Will the initiating terminal of cloth passes between fixed blade and the rotation cutter on the cloth reel, the clamping piece presss from both sides the initiating terminal of cloth tightly, move to the direction of keeping away from the cloth reel through fifth cylinder drive clamping piece, after release cloth to required length, promote first block piece through the third cylinder, make first block piece block in the first block inslot that corresponds, be used for fixing the cloth reel, rotate the blade downwards through the drive of fourth cylinder, realize the preliminary tailorring to the cloth, repeat above operation, will make all cloth that a case and bag required and carry out preliminary tailorring according to required length.

S2, transmission

The first cylinder pushes the sliding cover to slide upwards, the materials finished in the steps are placed on the L-shaped carrier plate, the first cylinder pushes the sliding cover to slide downwards to seal the carrying box, the carrying box is driven by the first motor to rotate to the next station, the sliding cover is pushed to slide upwards by the first cylinder, the materials finished in the steps are taken out of the carrying box by the L-shaped carrier plate, and the materials finished in the steps are taken out.

S3, drawing powder

And (3) paving the cloth cut by the S1 below the powder drawing device, controlling the powder drawing die to rotate through a third motor, enabling the required die head to rotate to the upper side of the cloth, driving the powder drawing die to move downwards through a seventh cylinder until the toner is adhered to the cloth, repeating the operation of the step, and drawing powder on all the cloth transmitted in the step S2.

The step S4 is the same as the step S2.

S5, pruning

And trimming the cloth conveyed by the S4 along the powder line of the S3.

The step S6 is the same as the step S4.

S7, sewing

And (4) sewing the cloth trimmed by the S5 according to the working requirements of the sewing station, conveying the semi-finished product to the next station according to the transmission mode of S2 after the sewing is finished, and sewing the next station until the bag is sewn.

The invention has the beneficial effects that:

1. the production device can accelerate the production efficiency of the luggage by a production mode of a production line;

2. the production device can realize the disassembly and the assembly of the cloth winding drum and is convenient to replace the cloth winding drum by driving the first insertion rod to move through the second cylinder, and can realize the disassembly and the assembly of the painting powder mold and be convenient to replace the painting powder mold by driving the limiting piece through the sixth cylinder

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the structure of a production apparatus of the present invention;

FIG. 2 is a schematic diagram of the present invention;

FIG. 3 is a schematic view of the present invention showing the construction of the cutting station;

FIG. 4 is a schematic illustration of an exploded view of the transfer device of the present invention;

FIG. 5 is a schematic view of an exploded view of the cloth control of the present invention;

FIG. 6 is a schematic view of an exploded structure of the cutting device of the present invention;

FIG. 7 is a schematic view of an exploded view of the clamp of the present invention;

fig. 8 is a schematic diagram of the explosive structure of the chalk device of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a cloth case and bag apparatus for producing, apparatus for producing includes operation platform 1, as shown in fig. 1, operation platform 1, it is equipped with transmission device 2 to rotate on operation platform 1, it is equipped with cloth control 3 to rotate on transmission device 2, one side of cloth control 3 is rotated and is equipped with cutting device 4, one side that cloth control 3 was kept away from to cutting device 4 slides and is equipped with clamping piece 5, be fixed with on operation platform 1 and be used for controlling the gliding driving piece 6 of clamping piece 5, the last drawing powder device 7 that is equipped with the liftable that is equipped with of operation platform 1, be fixed with the control 8 that is used for controlling drawing powder device 7 to go up and down on operation platform 1, operation platform 1 is last to be equipped with many seam devices 9.

The operation platform 1 comprises a disc 11, as shown in fig. 2, stations 12 distributed in an array manner are fixed on the side wall of the disc 11, table legs 13 distributed in an array manner are fixed below the disc 11, a pipe through hole 14 is formed in the center of the disc 11, an annular slide rail 15 coaxial with the first through hole 14 is arranged on the disc 11, a first connecting plate 16 is arranged below the disc 11, a second connecting plate 17 and a third connecting plate 18 are vertically arranged on the first connecting plate 16, the second connecting plate 17 is located above the third connecting plate 18, a second rotating connecting hole is formed in the second connecting plate 17, a first annular groove coaxial with the second rotating connecting hole is formed in the second connecting plate 17, a second annular groove is formed in the first annular groove, a first mounting hole is formed in one side of the second rotating connecting hole, and a second mounting hole is formed in the third connecting plate 18.

The station 12 close to the feeding position on the operating platform 1 is a cutting station 121, the station 12 adjacent to the cutting station 121 in the clockwise direction is a pastering station 122, the station 12 adjacent to the pastering station 122 in the clockwise direction is a trimming station 123, and the rest stations 12 are sewing stations 124.

The cutting station 121 includes a cutting station body 1211, as shown in fig. 3, a fixed blade 1212 is fixed on one side of the cutting station body 1211, a first connecting block 1213 is disposed on one end of the fixed blade 1212, a first T-shaped slide rail 1214 is disposed on the other end of the fixed blade 1212, a second connecting block 1215 is disposed above the first connecting block 1213 and symmetrically distributed, a second rotating connecting hole 1216 is disposed on the second connecting block 1215, a third connecting block 1217 is disposed on one end of the first T-shaped slide rail away from the fixed blade 1212, a third mounting hole 1218 is disposed on the third connecting block 1217, a fourth connecting block 1219 is fixed above the cutting station 121, a fourth mounting hole 12110 is disposed on the fourth connecting block 1219, a second T-shaped slide rail 12111 is symmetrically distributed between the fourth connecting block 1219 and the fixed blade 1214, a fifth connecting block 12112 is vertically disposed on one side of the first connecting block 1213, a third rotating connecting hole 12113 is disposed on the fifth connecting block 12112, a U-shaped connecting plate 12114 is fixed on one side of the first T-shaped slide rail 1214, a fourth rotation connecting hole 12115 is arranged on a side plate of the U-shaped connecting plate 12114 close to the fifth connecting block 12112, a fifth mounting hole 12116 is arranged on a side plate far away from the fifth connecting block 12112, a sixth mounting hole 12117 is arranged on one side of the fifth mounting hole 12116, and a graduated scale 12119 parallel to the second T-shaped slide rail 12111 is fixed above the cutting station 121.

Be equipped with U type connecting rod 1221 on the powder painting station 122, be equipped with seventh mounting hole 1222 on the U type connecting rod 1221, be fixed with on the pruning station 123 and accomodate check 1231, placed the clipper in accomodating check 1231, sewing machine 9 installs on sewing station 124.

The transmission device 2 comprises a first air cylinder 21, as shown in fig. 4, the first air cylinder 21 is fixed below the third connecting plate 18, an output shaft of the first air cylinder 21 passes through the second mounting hole and is fixed with a first rotating member 22, a first motor 23 is fixed below the second connecting plate 17, an output shaft of the first motor 23 passes through the first mounting hole and is fixed with a first gear 24, a carrying member 25 is rotatably arranged on the operating platform 1, the carrying member 25 is slidably connected with the first rotating member 22, a second gear 26 is rotatably arranged on the second connecting plate 17, the second gear 16 is slidably connected with the first rotating member 22, and the second gear 16 is in transmission with the first gear 24.

The first rotating member 22 includes a first rectangular slide rod 221, a first connecting rod 222 is fixed above the first rectangular slide rod 221 through the tube through hole 14, L-shaped connecting rods 223 distributed in a circumferential array are fixed on the first connecting rod 222, and a sliding cover 224 is fixed below the L-shaped connecting rods 223.

The slide cover 224 includes a cover 2241, guide bars 2242 distributed in an array are fixed below the cover 2241, a stopper 2243 is fixed below the guide bars 2242, and an L-shaped carrier 2244 is fixed below the cover 2241.

The carrier 25 comprises a first annular slide block 251 matched with the annular slide rail 15, an array of carrier boxes 253 are arranged above the first annular slide block 251, and a first connecting ring 252 is connected between the carrier boxes 253 and the first annular slide block 251.

Delivery case 253 includes box 2531, and the top of box 2531 is equipped with array distribution eighth mounting hole 2532, is equipped with spout 2533 in the eighth mounting hole 2532, and sliding closure 224 passes through guide bar 2242 and the cooperation of eighth mounting hole 2532, slides on being located delivery case 253 through stopper 2243 and the cooperation of spout 2533.

The second gear 26 includes a second gear body 261, a second connecting ring 262 is fixed below the second gear body 261, a second annular slider 263 engaged with the second annular groove is fixed below the second connecting ring 262, and a first rectangular through hole 264 engaged with the first rectangular sliding rod 221 is provided on the second gear 26.

The cloth control member 3 includes a second cylinder 31, as shown in fig. 5, the second cylinder 31 is fixed on a U-shaped connecting plate 12114, an output shaft of the second cylinder 31 is rotatably provided with a first insertion rod 32 through a fifth mounting hole 12116, the U-shaped connecting plate 12114 is rotatably provided with a first connecting member 33, the first connecting member 33 is slidably connected with the first insertion rod 32, a second connecting member 34 is rotatably provided on a fifth connecting plate 12112, a cloth drum 35 is fastened on the second connecting member 34, the first insertion rod 32 is fastened on the cloth drum 35 through the first connecting member 33, a third cylinder 36 is fixed on the U-shaped connecting plate 12114, an output shaft of the third cylinder 36 is fixed with a first fastening block 361 through a sixth mounting hole 12117, and the cloth 3 is limited by fastening the first fastening block 361 on the first connecting member 33.

A first rotation block 311 is fixed to the output shaft of the second cylinder 31.

The first inserting rod 32 includes a rectangular rod 321, a ninth mounting hole 322 is formed at one end of the rectangular rod 321, and a first rotating groove 323 matched with the first rotating block 311 is formed in the ninth mounting hole 322.

The first connecting member 33 includes a first rotating shaft 331 engaged with the fourth rotating connecting hole 12115, the first rotating shaft 331 is provided with first limiting pieces 332 symmetrically distributed, one end of the first rotating shaft 331 is fixed with a brake block 333, the brake block 333 is provided with first engaging slots 334 distributed in an array, the first rotating shaft 331 is axially provided with a second rectangular through hole 335 engaged with the rectangular rod 321, and the cloth control member 3 is braked by inserting the first engaging block 361 into the first engaging slot 334.

The second connecting member 34 includes a second rotating shaft 341 engaged with the third rotating connecting hole 12113, the second rotating shaft 341 is provided with second limiting pieces 342 symmetrically distributed, and one end of the second rotating shaft 341 is provided with a second engaging groove 343.

The cloth roll 35 includes a cloth roll body 351, one end of the cloth roll body 351 is provided with a slot 353 engaged with the first insertion rod 32, and the other end is provided with a second engaging block 352 engaged with the second engaging slot 343.

The cutting device 4 comprises a fourth cylinder 41, as shown in fig. 6, the fourth cylinder 41 is fixed on the third connecting block 1217, an output shaft of the fourth cylinder 41 passes through the third mounting hole 1218 and is fixed with a first sliding member 42, the first sliding member 42 is rotatably provided with a first hinge member 43, the cutting station 121 is rotatably provided with a cutting member 44, and the cutting member 44 is hinged with the first hinge member 43.

The first sliding member 42 includes a first T-shaped sliding block 421 engaged with the first T-shaped sliding rail 1214, and a third rotating shaft 422 is fixed on the first T-shaped sliding block 421.

The first hinge member 43 includes a second connecting rod 431, one end of the second connecting rod 431 is provided with a sixth connecting block 432, the other end is vertically provided with seventh connecting blocks 434 which are symmetrically distributed, the sixth connecting block 432 is provided with a fourth rotating shaft 433, the seventh connecting block 434 is provided with a fifth rotating connecting hole 435, and the first hinge member 43 is positioned on the third rotating shaft 422 to rotate through the fifth rotating connecting hole 435.

The cutting member 44 includes a third connecting rod 441, a rotary cutter 442 is disposed below the third connecting rod 441, a fifth rotating shaft 443 engaged with the second rotary connecting hole 1216 is disposed at one end of the third connecting rod 441, eighth connecting blocks 444 symmetrically distributed are disposed at the other end of the third connecting rod 441, and a sixth rotary connecting hole 445 engaged with the fourth rotating shaft 433 is disposed on the eighth connecting block 444.

The clamping member 5 includes a first clamping arm 51 sliding on the cutting station 121, as shown in fig. 7, a second clamping arm 53 is rotatably disposed on the first clamping arm 51, a second hinge 52 is rotatably disposed on the first clamping arm 51, a second sliding member 54 is rotatably disposed on the second hinge 52, the second sliding member 54 is slidably connected to the second clamping arm 53, and a second motor 55 for driving the second sliding member 54 to slide is fixed on the second clamping arm 53.

First arm lock 51 includes first splint 511, be equipped with first buffer block 512 on first splint 511, one side that first splint 511 kept away from first buffer block 512 is equipped with fourth connecting plate 513, be equipped with seventh rotation connecting hole 514 on the fourth connecting plate 513, the below of first splint 511 is fixed with second T type slider 515 with second T type slide rail 12111 complex, be equipped with ninth connecting block 516 between fourth connecting plate 513 and first buffer block 512, be equipped with sixth pivot 517 on the ninth connecting block 516.

The second clamping arm 53 comprises a second clamping plate 531, a second buffer block 532 is fixed below the second clamping plate 531, a tenth connecting block 533 is fixed above the second clamping plate 531, a tenth mounting hole is formed in the tenth connecting block 533, eleventh connecting blocks 534 which are symmetrically distributed are arranged on one sides of the second clamping plate 531 far away from the second buffer block 532, a seventh rotating shaft 535 matched with the seventh rotating connecting hole 514 is arranged between the eleventh connecting blocks 534, a second through hole 536 is formed in the second clamping plate 531, and sliding rails are arranged on inner walls of two sides of the second through hole 536.

The second sliding part 54 includes a fourth connecting rod 541 located in the second through hole 536, a sliding block 542 disposed on the fourth connecting rod 541 and engaged with the sliding rail, a twelfth connecting block 544 disposed above the fourth connecting rod 541, an eighth rotating shaft 543 disposed below the fourth connecting rod 541, and a threaded hole 545 disposed on the twelfth connecting block 544.

The second hinge 52 includes a fifth connecting rod 521, both ends of the fifth connecting rod 521 are provided with thirteenth connecting blocks 522 symmetrically distributed, the thirteenth connecting blocks 522 are provided with eighth rotating connecting holes 523, the second hinge 52 rotates on the sixth rotating shaft 517 through the eighth rotating connecting hole 523 at one end, and is hinged to the eighth rotating shaft 543 through the eighth rotating connecting hole 523 at the other end.

The second motor 55 is fixed on the tenth connecting block 533, the output shaft of the second motor 55 passes through the tenth mounting hole and is fixed with a screw 551, and the second motor 55 rotates in the threaded hole 545 through the screw 551.

The driving element 6 is a fifth cylinder, the fifth cylinder is fixed on the fourth connecting block 1219, and an output shaft of the fifth cylinder passes through the fourth mounting hole 12110 and is fixed on the fourth connecting plate 513.

The device for drawing the chalk 7 comprises a bracket 71, as shown in fig. 8, a third connecting piece 72 is rotatably arranged on one side of the bracket 71, a sixth air cylinder 74 is fixed on the other side of the bracket 71, a fourth connecting piece 73 is arranged between the sixth air cylinder 74 and the third connecting piece 72, the fourth connecting piece 73 is positioned on the bracket 71 and rotates, a limiting piece 75 is rotatably arranged on an output shaft of the sixth air cylinder 74, the limiting piece 75 is slidably connected with the fourth connecting piece 73, a chalk mold 76 is clamped between the limiting piece 75 and the third connecting piece 72, a third motor 77 is arranged on one side of the sixth air cylinder 74, the third motor 77 is fixed on the bracket 71, and a third gear 78 which is in transmission with a tooth of the fourth connecting piece 73 is fixed on an output shaft of the third motor 77.

The support 71 includes a top plate 711, one end of the top plate 711 is vertically provided with a fifth connecting plate 712, the other end of the top plate 711 is vertically provided with a sixth connecting plate 714, a seventh connecting plate 712 is arranged between the fifth connecting plate 712 and the sixth connecting plate 714, the fifth connecting plate 712 is provided with a ninth rotating connecting hole 713, the sixth connecting plate 714 is provided with an eleventh mounting hole 717, a twelfth mounting hole 716 is arranged above the eleventh mounting hole, and the seventh connecting plate 712 is provided with a tenth rotating connecting hole 718.

The third connecting member 72 includes a ninth rotating shaft 721, third limiting plates 722 are symmetrically disposed on the ninth rotating shaft 721, a fourteenth connecting block 723 is disposed at one end of the ninth rotating shaft 721, and third engaging grooves 724 are symmetrically disposed on the fourteenth connecting block 723.

The fourth connecting member 73 includes a fourth gear 731 in transmission with the third gear 78, one end of the fourth gear 731 is provided with a tenth rotating shaft 732 matched with the tenth rotating connection hole 718, the tenth rotating shaft 732 is provided with fourth limiting plates 733 which are symmetrically distributed, and the fourth gear 731 is axially provided with a third rectangular through hole 734.

The sixth cylinder 74 is fixed to the sixth link plate 714, and the second rotary block 741 is fixed to the output shaft of the sixth cylinder 74 through the eleventh mounting hole 717.

The limiting member 75 includes a second rectangular sliding rod 751 matching with the third rectangular through hole 734, one end of the second rectangular sliding rod 751 is provided with a sixteenth connecting block 752, the other end is provided with a seventeenth connecting block 753, the seventeenth connecting block 753 is provided with a thirteenth mounting hole 754, the thirteenth mounting hole 754 is provided with a second rotating groove 753 matching with the second rotating block 741, and one side of the sixteenth connecting block 752 far away from the second rectangular sliding rod 751 is provided with a fourth engaging groove.

The painting die 76 comprises a multi-face prism 761, die heads 76 are fixed on the sides of the multi-face prism 761, erasable toner is smeared on the die heads 76, and the shapes of the die heads 76 are determined according to the patterns of cut cloth needed for manufacturing bags.

The third motor 77 is fixed to the sixth link plate 714, and the output shaft of the third motor 77 is fixed to the third gear 78 through the twelfth mounting hole 716.

The control member 8 is a seventh cylinder, the seventh cylinder is fixed above the U-shaped connecting rod 1221, and an output shaft of the seventh cylinder passes through the seventh mounting hole 1222 and is fixed on the top plate 711.

A production process for producing a cloth case by a cloth case production device comprises the following steps:

s1, cutting

The starting end of cloth on the cloth winding drum 35 penetrates through the space between the fixed blade 1212 and the rotary cutter 442, the starting end of the cloth is clamped by the clamping piece 5, the clamping piece 5 is driven by the fifth cylinder to move in the direction far away from the cloth winding drum 35, after the cloth is released to the required length, the first clamping block 361 is pushed by the third cylinder 36, the first clamping block 361 is clamped in the corresponding first clamping groove 334 and used for fixing the cloth winding drum 35, the rotary blade 442 is driven by the fourth cylinder 41 to rotate downwards, preliminary cutting of the cloth is achieved, the above operations are repeated, and all cloth required for manufacturing one luggage is preliminarily cut according to the required length.

S2, transmission

The first cylinder 2 pushes the sliding cover 224 to slide upwards, the material completed in the above steps is placed on the L-shaped carrier 2244, the first cylinder 2 pushes the sliding cover 224 to slide downwards, the carrying box 253 is closed, the first motor 23 drives the carrying box 253 to rotate to the next station 12, the first cylinder 2 pushes the sliding cover 224 to slide upwards, the material completed in the above steps is taken out of the carrying box 253 by the L-shaped carrier 2244, and the material completed in the above steps is taken out.

S3, drawing powder

And (3) paving the cloth cut in the step S1 below the powder drawing device 7, controlling the powder drawing die 76 to rotate through the third motor 77, enabling the required die head 76 to rotate to the upper side of the cloth, driving the powder drawing die 76 to move downwards through the seventh air cylinder until the toner is adhered to the cloth, repeating the operation of the step, and drawing powder on all the cloth conveyed in the step S2.

The step S4 is the same as the step S2.

S5, pruning

And trimming the cloth conveyed by the S4 along the powder line of the S3.

The step S6 is the same as the step S4.

S7, sewing

And (4) sewing the cloth trimmed by the S5 according to the working requirements of the sewing station, conveying the semi-finished product to the next station according to the transmission mode of S2 after the sewing is finished, and sewing the next station until the bag is sewn.

During the use, through the production mode of assembly line, can accelerate case and bag production efficiency, remove through the first inserted bar 32 of second cylinder 31 drive, can realize dismantling and installing cloth reel 35, be convenient for change cloth reel 35, can realize dismantling and installing drawing powder mould 76 through sixth cylinder 74 drive locating part 75, be convenient for change drawing powder mould 76.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.