CN113003230A - Chemical fiber knitted garment production equipment and processing technology thereof - Google Patents

Abstract

The utility model relates to a knitting clothing production facility of chemical fibre and processing technology thereof, belong to the field of clothing production, its equipment is including production platform and washing machine, the import has been seted up on washing machine's top, washing machine's lateral wall rotates and is connected with the lifting arm, the one end that washing machine was kept away from to the lifting arm rotates have with lifting arm vertically sleeve, sliding connection has the inserted bar in the sleeve, it is connected with the conveyer belt to rotate on the production platform, the side of production platform is equipped with annular slide rail, the production platform is located the inboard of slide rail, washing machine is located the outside of slide rail, sliding connection has a plurality of collecting boxes on the slide rail, the lateral wall of collecting box seted up with inserted bar complex slot. This application has the automation that realizes the clothes and wash the water transportation process, reduces artificial intensity of labour's effect.

Description

Chemical fiber knitted garment production equipment and processing technology thereof

Technical Field

The application relates to the field of clothing production, in particular to chemical fiber knitted clothing production equipment and a processing technology thereof.

Background

The clothing processing is a clothing production method which takes modern machine processing as the main part and takes manual processing as the auxiliary part. In the automatic production of clothes, in order to improve the production efficiency, the clothes are divided into a plurality of parts such as a clothes body, sleeves, a collar, accessories and the like, a program of specific parts is manually input into a computerized flat knitting machine to be respectively sewn, and then the combination sewing of the parts is manually performed through a sewing machine.

In the related art, reference may be made to application document with publication number CN105455262A, which discloses a production process of tencel knitted clothes, sequentially passing through tencel skein twisting process, scouring process, tencel dyeing process, dewatering process, drying process, yarn rewinding process, weaving process, sewing ready-to-wear process, washing process, dewatering process, moisture absorption and sweat releasing finishing process, drying process and steam ironing and shaping process.

In view of the above-mentioned related technologies, the inventor believes that although the washing process can ensure the cleanliness of the clothes production, the washing process usually requires manual binding and transportation, and thus has a drawback of high manual labor intensity.

Disclosure of Invention

In order to realize automation of clothes washing and transporting processes and reduce labor intensity of workers, the application provides chemical fiber knitted clothes production equipment and a processing technology thereof.

In a first aspect, the present application provides a chemical fiber knitted garment production device, which adopts the following technical scheme:

the utility model provides a knitting clothing production facility of chemical fibre, includes production platform and washing machine, the import has been seted up on washing machine's top, washing machine's lateral wall rotates and is connected with the lifting arm, the one end that washing machine was kept away from to the lifting arm rotates has with lifting arm vertically sleeve, sliding connection has the inserted bar in the sleeve, the last rotation of production platform is connected with the conveyer belt, the side of production platform is equipped with annular slide rail, the production platform is located the inboard of slide rail, washing machine is located the outside of slide rail, sliding connection has a plurality of collecting boxes on the slide rail, the lateral wall of collecting box seted up with inserted bar complex slot, the conveyer belt is located the slide rail directly over.

By adopting the technical scheme, after the worker sews up the clothes on the production table, the clothes are placed on the conveying belt, the collecting box moves to one end of the conveying belt at the moment, then the clothes fall into the collecting box, then the collecting box slides along the sliding rail, when the collecting box is close to the washing machine, the inserting rod slides in the sleeve, then the inserting rod is inserted into the slot, then the lifting arm rotates to enable the inserting rod to drive the collecting box to be separated from the sliding rail, when the collecting box moves to the upper side of the washing machine, the sleeve rotates to adjust the angle of the collecting box, so that the clothes are sent into the washing machine from the inlet, after the clothes are poured, the lifting arm, the sleeve and the inserting rod are restored to the initial state, the collecting box is placed on the sliding rail again, the automation of the clothes washing water transportation process can be.

Optionally, the lower surface of the collecting box is rotatably connected with a plurality of pulleys matched with the slide rail, a plurality of grooves are formed in the side wall of the slide rail, the grooves are formed along the length direction of the slide rail, balls are placed in the grooves, and the balls are abutted against the pulleys.

Through adopting above-mentioned technical scheme, the pulley rotates and to reduce the wearing and tearing between collecting box and the slide rail, and the in-process that pulley and slide rail break away from simultaneously, the ball rolls in the recess and to reduce the wearing and tearing between pulley and the slide rail, increase of service life.

Optionally, the pulley includes base and round wheel, the round wheel rotates with the base to be connected, the lateral wall of round wheel is seted up with the ring channel of slide rail adaptation, the base rotates with the collecting box to be connected.

Through adopting above-mentioned technical scheme, the ring channel can make being connected of round wheel and slide rail more stable, reduces the possibility that breaks away from between pulley and the slide rail, and then guarantees the stability of being connected between collecting box and the slide rail, and the base rotates simultaneously and can drive the round wheel and rotate, makes the process of collecting box turn remove more smoothly.

Optionally, a plurality of circular holes are formed in the lower surface of the collecting box, a circular groove above the circular hole is formed in the collecting box, the circular groove is coaxial with the circular hole, the diameter of the circular groove is larger than that of the circular hole, a circular rod inserted into the circular hole is fixedly connected to one side, close to the collecting box, of the base, a round-platform-shaped limiting block is fixedly connected to one end, close to the circular groove, of the circular rod, the cross sectional area of the limiting block is gradually reduced in the direction of the circular groove pointing to the circular hole, the maximum diameter of the limiting block is equal to that of the circular groove, and the minimum diameter of the limiting block is smaller than that of the circular hole.

Through adopting the above technical scheme, the base rotates and drives the round bar and rotate in the round hole groove, when the collecting box moves on the slide rail, the round hole groove is kept away from to the stopper, when the collecting box breaks away from with the slide rail, under the action of gravity of pulley, it slides in the round hole groove to drive the round bar, and then make the stopper insert establish in the round hole groove, and then the frictional force between the stopper of increase and the round hole groove, reduce the round bar and take place pivoted possibility, and then guarantee the stability that the pulley intersects the end, when guaranteeing that the collecting box places on the slide rail once more, the pulley can be accurate and the slide rail cooperation, guarantee the stability of collecting box.

Optionally, be equipped with the spring in the round hole groove, the one end fixed connection of round bar is kept away from to the one end of spring and stopper, one side fixed connection of round hole groove is kept away from to the other end and the round groove of spring, when the spring is in compression state, the round bar extends to in the round groove.

Through adopting above-mentioned technical scheme, when the slide rail was kept away from to the collecting box, the spring was resumeed to natural state gradually by compression state, and then promoted the stopper and inserted and establish in the round hole groove, can increase the frictional force between stopper and the round hole groove, further guaranteed the stability of pulley angle, guaranteed that the collecting box can accurately place on the slide rail, the time collecting box can normally move along the slide rail to guarantee the normal use of collecting box.

Optionally, the collecting box is rotatably connected with a circular plate located in the circular groove, the circular plate is coaxial with the circular groove, the circular plate is located on one side of the circular groove far away from the circular hole groove, and the spring is fixedly connected with the circular plate.

Through adopting above-mentioned technical scheme, the round bar rotates and drives the stopper and rotate, and then drives the spring and rotate, and the spring drives the plectane and rotates, and then can guarantee that the collecting box moves the in-process along the slide rail, the normal rotation of pulley to guarantee the normal removal of collecting box.

Optionally, the limiting block is sleeved with an anti-slip sleeve.

Through adopting above-mentioned technical scheme, the coefficient of friction of antiskid cover is great, can further improve the frictional force between stopper and the round hole groove, guarantees the stability of pulley angle to guarantee the normal use of collecting box.

In a second aspect, the application provides a processing technology for producing chemical fiber knitted garments, which adopts the following technical scheme:

s1 yarn guiding is carried out, the yarns are guided into cylindrical yarns and used for a computerized flat knitting machine;

s2, weaving each part of the clothes, and manually inputting a program into the computerized flat knitting machine to respectively weave each part of the clothes;

s3, integrally sewing all parts of the garment, and manually sewing all parts of the garment on a workbench according to the sewing sequence;

s4, rinsing, after all parts are sewn, manually placing clothes on a conveyor belt, then sending the clothes into a collection box by the conveyor belt, enabling the collection box to move along a track to be close to the washing machine, then enabling the lifting arm to be matched with the insertion rod to pour the clothes in the collection box into the washing machine, then placing the collection box on a sliding rail, enabling the collection box to slide again to be close to a workbench, and rinsing the clothes by the washing machine;

s5, ironing, namely ironing the rinsed clothes;

and S6, inspecting by needle, finally inspecting the quality of the clothes and inspecting by needle, and packaging into finished clothes.

By adopting the technical scheme, the computerized flat knitting machine carries out automatic textile production on each part of the clothes, then manually sews on the production table, then transports the sewed clothes through the conveyor belt and the collecting box, and then enables the washing machine to clean, so that the labor intensity of manually carrying the clothes can be reduced, the clothes are produced in a full-automatic direction, the automation degree of the clothes is improved, and the clothes production efficiency is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lifting arm, the cylinder, the inserting rod, the conveyor belt, the slide rail and the collecting box are arranged, the conveyor belt sends clothes into the Duoxiai collecting box, the collecting box moves along the slide rail, and the lifting arm, the cylinder and the inserting rod are matched with each other to lift the collecting box, so that the clothes are added into the washing machine, the automation of the clothes washing water transportation process can be realized, and the labor intensity of workers is reduced;

2. through the setting of pulley, stopper, round bar, spring and antiskid cover, the pulley drives the round bar and rotates, and then makes the process that the collecting box removed along the slide rail more smooth, and the setting of stopper, spring and antiskid cover can reduce the collecting box and keep away from the slide rail in-process simultaneously, and the pivoted possibility takes place for the pulley, guarantees on the collecting box can place the slide rail once more, makes the collecting box can normally remove along the slide rail, guarantees the normal use of collecting box.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the overall structure of a production table in the embodiment of the present application;

FIG. 3 is a schematic structural diagram of the connection relationship between the collecting box and the slide rail in the embodiment of the present application;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is a schematic view of the overall structure of the washing machine in the embodiment of the present application.

Description of reference numerals: 1. a production platform; 11. a conveyor belt; 12. assembling positions; 13. a conveying roller; 14. a belt; 15. a support; 16. a transfer motor; 2. a washing machine; 21. an inlet; 22. an outlet; 23. a working door; 24. a lift arm; 25. a sleeve; 26. inserting a rod; 27. a lifting cylinder; 28. an adjusting cylinder; 29. a telescopic cylinder; 3. a slide rail; 31. a groove; 32. a ball bearing; 4. a collection box; 41. a circular hole groove; 42. a circular groove; 43. a circular plate; 44. a slot; 5. a pulley; 51. a base; 52. a round wheel; 521. an annular groove; 53. a round bar; 54. a limiting block; 541. an anti-slip sleeve; 55. a spring; 56. a power motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses chemical fiber knitted garment production equipment. Referring to fig. 1, the production equipment for chemical fiber knitted clothes comprises a production table 1 and a washing machine 2, wherein the production table 1 is cuboid. The washing machine 2 is located at the side of the side wall where the short side of the production table 1 is located, a plurality of assembly positions 12 are arranged on the production table 1, and the assembly positions 12 are uniformly distributed along the length direction of the production table 1. Each assembly position 12 is provided with a corresponding worker, the worker stitches each clothes part produced by the computerized flat knitting machine on the assembly position 12, and then assembles complete clothes, and after the clothes are stitched, a certain amount of clothes are collected and then the clothes are put into the washing machine 2 for washing.

Referring to fig. 1 and 2, a conveyor belt 11 is rotatably connected to a side wall of the production table 1, and the conveyor belt 11 is located on a side of the production table 1 away from the assembly station 12. Two rotation holes have been seted up to the lateral wall of production platform 1, rotate the tip that the hole is close to production platform 1, and conveyer belt 11 includes belt 14 and two transfer rollers 13, and transfer roller 13 rotates to be connected in rotating the hole, and belt 14 is the annular around on two transfer rollers 13. And the side of production platform 1 is equipped with collecting box 4, and in the course of the work, collecting box 4 removes the end of the upper band face direction of rotation of belt 14, and the workman will accord with the clothes of accomplishing and place belt 14 on, and transfer roller 13 rotates and drives belt 14 and remove, and then carries the clothes and collect in collecting box 4 convenient operation.

Referring to fig. 2, a support 15 is arranged on one side of the conveying roller 13, which is far away from the production table 1, the support 15 is parallel to the upper surface of the production table 1, a rotary hole coaxial with the rotary hole is formed in the side wall of the support 15, and the conveying roller 13 is rotatably connected in the rotary hole. One side fixedly connected with conveying motor 16 that transfer roller 13 was kept away from to support 15, and in the output shaft of conveying motor 16 wore to establish support 15 and extended to the commentaries on classics hole, the output shaft of conveying motor 16 and the coaxial fixed connection of transfer roller 13. The support 15 can support the conveying roller 13, guarantees that the conveying roller 13 atress is stable, and 16 starts to drive the conveying roller 13 and rotate simultaneously, and convenient operation is laborsaving.

Referring to fig. 1 and 2, the side wall of the production table 1 is provided with rectangular slide rails 3, and the joints of the four corners of the slide rails 3 are in an arc shape. The washing machine 2 is positioned on one side of the short side of the slide rail 3 far away from the production table 1. The length direction of slide rail 3 is the same with the length direction of production platform 1, and production platform 1 is located the inboard of slide rail 3, and conveyer belt 11 is located directly over one of them long limit of slide rail 3, and collecting box 4 sliding connection is on slide rail 3, and the slip direction of collecting box 4 is the same with the direction of rotation of conveyer belt 11. The collecting box 4 slides along the slide rail 3 to the end of the belt, and after the clothes in the collecting box 4 are collected, the collecting box 4 slides along the slide rail 3 to a position close to the washing machine 2, and then the clothes in the collecting box 4 are conveniently added to the washing machine 2.

Referring to fig. 3 and 4, two pulleys 5 are rotatably connected to the lower surface of the collection box 4, and the pulleys 5 are located at the ends of the lower surface of the collection box 4, which are far away from each other. The pulley 5 is provided with an annular groove 521, and the width of the annular groove 521 is equal to the width of the longitudinal section of the sliding rail 3. In the process that the collecting box 4 moves, the sliding rail 3 is clamped in the annular groove 521, then the pulley 5 rolls along the sliding rail 3, so that the collecting box 4 is driven to move, the possibility that the roller is separated from the sliding rail 3 can be reduced, and the stability that the collecting box 4 moves along the sliding rail 3 is guaranteed. Meanwhile, the pulley 5 and the collecting box 4 rotate, so that the pulley 5 can conveniently pass through the arc-shaped edge of the sliding rail 3, the pulley 5 can slide more smoothly, and the collecting box 4 can be conveniently moved.

Referring to fig. 4, the pulley 5 includes a base 51 and a round wheel 52, and the base 51 is rotatably connected to the lower surface of the catch tank 4. The base 51 is far away from one side of collecting box 4 and is seted up the race, rotates in the race and is connected with the cross axle, and round wheel 52 is cylindrical, and round wheel 52 has seted up the cross bore coaxially, and the cross axle fixed connection is in the cross bore. The annular groove 521 is located on the surface of the circular wheel 52 and is opened along the circumferential direction of the circular wheel 52. The round wheel 52 slides along the slide rail 3, and simultaneously the round wheel 52 rotates around the horizontal shaft, so as to drive the base 51, and the base 51 drives the collecting box 4 to move.

Referring to fig. 3 and 4, a power motor 56 is fixedly connected to a side wall of the base 51, and an output shaft of the power motor 56 penetrates through the side wall of the base 51 and is coaxially and fixedly connected to a transverse shaft. In the moving process of the collecting box 4, the power motor 56 is started, the power motor 56 drives the cross shaft to rotate, and then the round wheel 52 is driven to rotate, so that the operation is convenient and labor-saving.

Referring to fig. 4, the lower surface of the collecting box 4 is provided with two circular holes 41, and the circular holes 41 are cylindrical and correspond to the bases 51 one by one. The end of the base 51 far away from the round wheel 52 is fixedly connected with a round rod 53, the round rod 53 is rotatably connected in the round hole groove 41, and the diameter of the round rod 53 is equal to that of the round hole groove 41. In the sliding process of the round wheel 52 along the sliding rail 3, when the round wheel 52 moves to the arc position of the sliding rail 3, the round wheel 52 drives the base 51 to further drive the round rod 53 to rotate in the round hole groove 41, so that the collecting box 4 can be conveniently moved.

Referring to fig. 4, the collecting box 4 is provided with a circular groove 42, the circular groove 42 is located on one side of the circular hole groove 41 far away from the base 51, the circular groove 42 is cylindrical and coaxial with the circular hole groove 41, and the diameter of the circular groove 42 is larger than that of the circular hole groove 41. The end of the round rod 53, which is far away from the base 51, is coaxially and fixedly connected with a limiting block 54, the limiting block 54 is in a circular truncated cone shape, and the cross-sectional area of the limiting block 54 is gradually reduced from the direction of the circular groove 42 pointing to the circular hole groove 41. The maximum diameter of the stopper 54 is equal to the diameter of the circular groove 42, and the minimum diameter of the stopper 54 is smaller than the diameter of the circular hole groove 41. The stopper 54 is rotatably connected to the circular groove 42, and the stopper 54 can slide along the length direction of the circular groove 42. When slide rail 3 is kept away from to collecting box 4, under pulley 5's action of gravity, round bar 53 slides along the length direction of round hole groove 41, and then drive stopper 54 and slide in round hole groove 42, thereby make stopper 54 insert and establish in round hole groove 41, and then increase the frictional force between stopper 54 and the round hole groove 41, reduce round bar 53 and take place pivoted possibility in round hole groove 41, and then guarantee the stability of pulley 5 angle, conveniently place collecting box 4 on slide rail 3 once more, make slide rail 3 joint once more to the ring channel 521, and convenient for operation.

Referring to fig. 4, the anti-slip sleeve 541 is sleeved on the limiting block 54, the friction coefficient of the anti-slip sleeve 541 is large, the friction force between the limiting block 54 and the circular hole groove 41 can be increased, the possibility that the limiting block 54 rotates between the circular hole grooves 41 can be reduced, the possibility that the circular rod 53 rotates in the circular hole groove 41 is further reduced, and the possibility that the angle of the pulley 5 rotates in the process that the collecting box 4 is far away from the sliding rail 3 is ensured.

Referring to fig. 4, a spring 55 is disposed in the circular hole groove 41, one end of the spring 55 is fixedly connected to one end of the stopper 54 away from the circular rod 53, and the other end of the spring 55 is fixed to one side of the circular groove 42 away from the circular hole groove 41. When the collecting box 4 is far away from the sliding rail 3, the spring 55 is gradually restored to a natural state from a compressed state, and then the limiting block 54 is inserted into the circular hole groove 41, so that the pressure between the anti-slip sleeve 541 and the circular hole groove 41 can be increased, the friction force between the anti-slip sleeve 541 and the circular hole groove 41 is increased, the stability between the limiting block 54 and the circular hole groove 41 is further ensured, and the stability of the angle of the pulley 5 is ensured. And when the pulley 5 slides along the sliding rail 3, the round rod 53 slides along the round hole groove 41 and extends into the round groove 42, and then pushes the stopper 54 to compress the spring 55.

Referring to fig. 4, the collecting box 4 is provided with a rotary groove, the rotary groove is positioned at one end of the circular groove 42 far away from the circular hole groove 41, the rotary groove is coaxial with the circular hole groove 41, a circular plate 43 is coaxially and rotatably connected in the rotary groove, and one end of the spring 55 far away from the fixing block is fixedly connected with the circular plate 43. When the limiting block 54 compresses the spring 55, when the round rod 53 rotates in the round hole groove 41, the round rod 53 drives the limiting block 54 to rotate in the round groove 42, and then drives the spring 55 to rotate, and the spring 55 drives the round plate 43 to rotate in the rotary groove, so that the pulley 5 can be more conveniently and smoothly rotated.

Referring to fig. 5, an inlet 21 is formed on an upper surface of the washing machine 2, an outlet 22 is formed on a sidewall of the washing machine 2, and a work door 23 is hinged to the sidewall of the washing machine 2 through a hinge. Clothes are introduced into the washing machine 2 from the inlet 21 and then washed in the washing machine 2, and after the washing is completed, a worker opens the work door 23 to take out the clothes from the outlet 22 and then performs uniform collection.

Referring to fig. 3 and 5, the side wall of the washing machine 2 with the outlet 22 and the side wall opposite to the outlet 22 are both provided with a lifting groove, a lifting shaft is rotatably connected in the lifting groove, and a lifting arm 24 is fixedly connected to one side of the lifting shaft away from the washing machine 2. One end of the lifting arm 24, which is far away from the washing machine 2, extends out of the side wall of the washing machine 2 and is close to the slide rail 3. A connecting rod is fixedly connected between the two lifting arms 24. Meanwhile, one end of the lifting arm 24, which is far away from the washing machine 2, is provided with a through hole along the length direction of the connecting rod, and a sleeve 25 is rotatably connected in the through hole. An insert rod 26 is slidably connected in the sleeve 25, and the insert rod 26 can slide along the length direction perpendicular to the connecting rod. Meanwhile, the side wall of the collecting box 4 is provided with a slot 44, when the collecting box 4 approaches the washing machine 2, the insertion rod 26 slides in the sleeve 25, then the insertion rod 26 is inserted into the slot 44, then the lifting arm 24 rotates to lift the collecting box 4 away from the sliding rail 3, meanwhile, the sleeve 25 rotates to adjust the angle of the collecting box 4, when the collecting box 4 moves above the inlet 21, the sleeve 25 rotates to drive the collecting box 4 to rotate, and therefore clothes are added into the washing machine 2 from the inlet 21.

Referring to fig. 5, the side wall of the washing machine 2 is rotatably connected with a lifting cylinder 27, a piston rod of the lifting cylinder 27 is fixedly connected with a hinge shaft, the hinge shaft is perpendicular to the piston rod of the lifting cylinder 27, a hinge hole is formed in the side wall of the lifting arm 24, and the hinge shaft is rotatably connected to the hinge hole. The piston rod of the lifting cylinder 27 contracts to drive the hinged shaft to rotate in the hinged hole, so that the lifting arm 24 is driven to rotate, and the operation is convenient and labor-saving.

Referring to fig. 5, the side wall of the lifting arm 24 is hinged with an adjusting cylinder 28, the side wall of the sleeve 25 is vertically and fixedly connected with an adjusting shaft, and the adjusting shaft is vertically and rotatably connected with a piston rod of the adjusting cylinder 28. The piston rod of the adjusting cylinder 28 stretches and retracts to drive the sleeve 25 to rotate, so that the angle of the insert rod 26 is adjusted, and the insert rod 26 drives the angle of the collecting box 4 to be adjusted.

Referring to fig. 3 and 5, a telescopic cylinder 29 is fixedly connected to one side of the sliding sleeve away from the sliding rail 3, and a piston rod of the telescopic cylinder 29 extends in a direction away from the sliding rail 3. The piston rod of the telescopic cylinder 29 is fixedly connected with one end of the inserted rod 26 far away from the slide rail 3. When the collecting box 4 is close to the washing machine 2, the piston rod of the telescopic cylinder 29 is contracted to pull the insertion rod 26 to slide in the sleeve 25, so that the insertion rod 26 is close to the collecting box 4, and the insertion rod 26 is inserted into the slot 44, so that the operation is convenient and labor-saving.

Referring to fig. 3 and 5, a plurality of grooves 31 are formed in the side wall of the slide rail 3, the grooves 31 are formed along the length direction of the slide rail 3, and balls 32 are disposed in the grooves 31. The balls 32 protrude from the side wall of the slide rail 3, and the balls 32 are abutted against the inner wall of the annular groove 521. In the process that the collecting box 4 is far away from the sliding rail 3, the ball 32 rolls in the groove 31, so that the abrasion between the sliding rail 3 and the round wheel 52 can be reduced, and the service life is prolonged.

The implementation principle of the chemical fiber knitted garment production equipment in the embodiment of the application is as follows: the worker places the sewed clothes on the conveyor belt 11, the conveyor motor 16 is started to drive the conveyor belt 11 to rotate, the conveyor belt 11 sends the clothes into the collecting box 4, then the power motor 56 is started to drive the collecting box 4 to move along the slide rail 3, when the collecting box 4 is close to the washing machine 2, the telescopic cylinder 29 is started to insert the insertion rod 26 into the insertion slot 44, meanwhile, the lifting cylinder 27 and the adjusting cylinder 28 are started, the lifting cylinder 27 controls the lifting arm 24 to lift, the collecting box 4 is driven to be far away from the slide rail 3, the adjusting cylinder 28 adjusts the angle of the collecting box 4, then the clothes are poured into the washing machine 2, after the pouring is completed, the collecting box 4 is placed on the slide rail 3 again, and then the collecting box 4 moves to one end of the conveyor belt.

The embodiment of the application also discloses a processing technology for producing the chemical fiber knitted garment.

A processing technology for producing chemical fiber knitted clothes adopts the following technical scheme:

s1 yarn guiding is carried out, the yarns are guided into cylindrical yarns and used for a computerized flat knitting machine;

s2, weaving each part of the clothes, and manually inputting a program into the computerized flat knitting machine to respectively weave each part of the clothes;

s3, integrally sewing all parts of the garment, and manually sewing all parts of the garment on a workbench according to the sewing sequence;

s4 rinsing, after all parts are sewn, manually placing clothes on a conveyor belt 11, then conveying the clothes into a collection box 4 by the conveyor belt 11, then enabling the collection box 4 to move along a rail to be close to the washing machine 2, then enabling a lifting arm 24 to be matched with an insert rod 26 to pour the clothes in the collection box 4 into the washing machine 2, then placing the collection box 4 on a slide rail 3, enabling the collection box 4 to slide to be close to a workbench again, and rinsing the clothes by the washing machine 2;

s5, ironing, namely ironing the rinsed clothes;

and S6, inspecting by needle, finally inspecting the quality of the clothes and inspecting by needle, and packaging into finished clothes.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A chemical fiber knitted garment production device is characterized in that: comprises a production table (1) and a washing machine (2), wherein the top end of the washing machine (2) is provided with an inlet (21), the side wall of the washing machine (2) is rotationally connected with a lifting arm (24), one end of the lifting arm (24) far away from the washing machine (2) is rotationally provided with a sleeve (25) vertical to the lifting arm (24), an inserted rod (26) is connected in the sleeve (25) in a sliding way, a conveyor belt (11) is connected on the production platform (1) in a rotating way, an annular slide rail (3) is arranged beside the production platform (1), the production platform (1) is positioned at the inner side of the slide rail (3), the washing machine (2) is positioned at the outer side of the sliding rail (3), the sliding rail (3) is connected with a plurality of collecting boxes (4) in a sliding way, the side wall of the collecting box (4) is provided with a slot (44) matched with the inserted rod (26), and the conveyor belt (11) is positioned right above the sliding rail (3).

2. The chemical fiber knitted garment production device of claim 1, wherein: the lower surface of the collecting box (4) is rotatably connected with a plurality of pulleys (5) matched with the sliding rail (3), a plurality of grooves (31) are formed in the side wall of the sliding rail (3), the grooves (31) are formed along the length direction of the sliding rail (3), balls (32) are placed in the grooves (31), and the balls (32) are abutted to the pulleys (5).

3. The chemical fiber knitted garment production device of claim 2, wherein: pulley (5) include base (51) and circle wheel (52), circle wheel (52) rotate with base (51) and are connected, the ring channel (521) with slide rail (3) adaptation are seted up to the lateral wall of circle wheel (52), base (51) rotate with collecting box (4) and are connected.

4. The chemical fiber knitted garment production device of claim 3, wherein: the collecting box is characterized in that a plurality of circular hole grooves (41) are formed in the lower surface of the collecting box (4), the circular groove (42) located above the circular hole grooves (41) is formed in the collecting box (4), the circular groove (42) is coaxial with the circular hole grooves (41), the diameter of the circular groove (42) is larger than that of the circular hole grooves (41), one side, close to the collecting box (4), of the base (51) is fixedly connected with a circular rod (53) inserted into the circular hole grooves (41), one end, close to the circular groove (42), of the circular rod (53) is fixedly connected with a circular truncated cone-shaped limiting block (54) in a coaxial mode, the cross section area of the limiting block (54) is gradually reduced in the direction that the circular groove (42) points to the circular hole grooves (41), the maximum diameter of the limiting block (54) is equal to the diameter of the circular groove (42), and the minimum diameter of the limiting block (54) is smaller than that.

5. The chemical fiber knitted garment production device according to claim 4, wherein: be equipped with spring (55) in round hole groove (41), the one end fixed connection of round bar (53) is kept away from with stopper (54) to the one end of spring (55), one side fixed connection of round hole groove (41) is kept away from with round groove (42) to the other end of spring (55), when spring (55) is in compression state, round bar (53) extend to in round groove (42).

6. The chemical fiber knitted garment production device of claim 5, wherein: the collecting box (4) is rotatably connected with a circular plate (43) positioned in the circular groove (42), the circular plate (43) is coaxial with the circular groove (42), the circular plate (43) is positioned on one side, away from the circular hole groove (41), of the circular groove (42), and the spring (55) is fixedly connected with the circular plate (43).

7. The chemical fiber knitted garment production device according to claim 4, wherein: the limiting block (54) is sleeved with an anti-slip sleeve (541).

8. A processing technology for chemical fiber knitted garment production aims at the chemical fiber knitted garment production equipment as claimed in any one of claims 1 to 7, and adopts the following technical scheme:

s1 yarn guiding is carried out, the yarns are guided into cylindrical yarns and used for a computerized flat knitting machine;

s2, weaving each part of the clothes, and manually inputting a program into the computerized flat knitting machine to respectively weave each part of the clothes;

s3, integrally sewing all parts of the garment, and manually sewing all parts of the garment on a workbench according to the sewing sequence;

s4 rinsing, after all parts are sewn, manually placing clothes on a conveyor belt (11), then sending the clothes into a collection box (4) by the conveyor belt (11), then enabling the collection box (4) to move along a track to be close to the washing machine (2), then enabling a lifting arm (24) to be matched with an inserted rod (26) to pour the clothes in the collection box (4) into the washing machine (2), then placing the collection box (4) on a sliding rail (3), enabling the collection box (4) to slide to be close to a workbench again, and rinsing the clothes by the washing machine (2);

s5, ironing, namely ironing the rinsed clothes;

and S6, inspecting by needle, finally inspecting the quality of the clothes and inspecting by needle, and packaging into finished clothes.

Images