CN118697133A - Novel light leisure western-style clothes manufacturing process - Google Patents

Abstract

The invention relates to the technical field of western-style clothes production, in particular to a novel light leisure western-style clothes manufacturing process, which adopts a fabric conveying device to convey selected fabrics, and the cloth pieces of all parts of the western-style clothes are cut out from the fabric through the cutting device, then the redundant cloth is recovered through the waste recovery device, and finally the cut cloth pieces are sewn and ironed manually. According to the novel light leisure western-style clothes manufacturing process, the structure in the lifting device can be changed by starting the double-shaft motor in the fixing device, the outer sleeve device is driven to move, the material guiding roller in the material guiding device is driven to rotate, and then the waste cloth is separated from the cloth pieces of all parts on the cut western-style clothes, so that operators can quickly stack the cut cloth in a classified manner, and the time and the workload of subsequent arrangement are reduced.

Description

Novel light leisure western-style clothes manufacturing process

Technical Field

The invention relates to the technical field of western-style clothes production, in particular to a novel light leisure western-style clothes manufacturing process.

Background

The manufacturing process of the casual western-style clothes is a process integrating classical and fashionable, not only pays attention to comfort and attractiveness of the patterns, but also emphasizes detail treatment in the manufacturing process, in the process, cloth cutting is a crucial step, the pattern and wearing experience of the western-style clothes are directly related, and the accurate cutting can ensure smooth lines of the western-style clothes and fit the wearing; meanwhile, the recovery of the waste is also important, so that the waste of resources can be reduced, the production cost is reduced, and the environment-friendly production concept is also embodied.

The invention discloses a mechanical equipment for manufacturing a suit, which is disclosed in a patent with publication number CN109998203B and comprises a storage barrel, an extension plate, a control table, a support rod, a guide chute, an X-axis sliding control strip, a workbench, a perfect shaping device for a suit buttonhole and a Y-axis sliding control frame, wherein the bottom end of the storage barrel is fixedly connected to the left side surface of the top end of the workbench in an electric welding manner, the support rod is provided with two support rods, the top ends of the support rods are fixedly connected to the bottom end of the left side of the extension plate in an electric welding manner, and the support rods are pressed downwards through a top sleeve to serve as a power source to control an auxiliary conversion structure to exchange and transfer mechanical energy, so that a shaping clamp cutter has cutting kinetic energy.

In the traditional western-style clothes manufacturing process, after fabric is cut by a cutting device to form cloth pieces at all parts of the western-style clothes, the cloth pieces are taken out one by one from the fabric and then the rest of waste cloth is recycled, however, because a bottom air suction platform on which the fabric is transported is closed, when workers pick up the cloth pieces, the cloth pieces and the waste cloth are easily stacked, and the time and labor required by finishing work are increased; in addition, the waste cloth is required to be additionally sent to special cutting equipment for reprocessing, and the manual intervention is frequent in the whole process, so that the overall automation level of the western-style clothes manufacturing process is reduced.

In view of this, we propose a new light casual suit manufacturing process.

Disclosure of Invention

The invention aims to provide a novel light leisure western-style clothes manufacturing process for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a new light leisure western-style clothes manufacturing process comprises the following steps:

S1, firstly, selecting a proper fabric according to western-style clothes to be prepared, and pre-shrinking the fabric to reduce shrinkage after clothes are made;

s2, drawing out cloth pieces at all parts to be cut on the fabric according to the size of the western-style clothes and design templates, and reserving a blank area at the end part of the fabric when designing a scribing area;

S3, then, the fabric is integrally paved on the top surface of the fabric conveying device, and after an air suction device below the fabric conveying device is started, the fabric is moved towards the lower part of the cutting device;

S4, starting a cutting device, wherein the internal laser cutting device cuts out cloth pieces of all parts of the western-style clothes on the fabric according to the scribing range on the fabric;

S5, after the fabric cutting is finished, continuously moving towards the lower part of the waste recycling device along with the fabric conveying device;

S6, in the continuous transportation process of the fabric, the blank area at the end part of the fabric immediately passes through a guide bar of a lifting device in the waste recycling device, and after the blank area at the end part of the fabric immediately stays on the surface of a cross bar at the bottom of the lifting rod, a double-shaft motor in the fixing device is started;

s7, after the double-shaft motor is started, driving shafts at two ends are driven to rotate, and the wire wheel is driven to rotate, so that a lifting rope in the lifting device is driven to continuously shrink on the wire wheel;

s8, pulling the lifting rod in the retraction process of the lifting rope, and driving the whole lifting rod to move upwards until the top end of the lifting rod is contacted with the bottom surface of the arc cover plate in the jacket device;

S9, at the moment, a blank area of the fabric staying on the surface of the cross bar at the bottom of the lifting rod is close to the surface of a guide roller in the guide device;

S10, after the position of the lifting rod cannot be changed along with continuous shrinkage of the lifting rope, the lifting rope pulls the whole outer sleeve device to move rightwards in the fixing device;

S11, then, the butt joint ring teeth in the butt joint device are contacted with the rack edge racks and then rotate, and simultaneously are contacted with the annular toothed plate in the material guide device and drive the material guide roller to integrally rotate;

S12, at the moment, the whole outer sleeve device continuously rotates in the moving process of the material guiding roller in the material guiding device, the part of the fabric which is not cut is continuously transported to the inside of the waste storage bin through the rotation of the material guiding roller, and the cut fabric is kept on the surface of the fabric transporting device under the action of the air suction device at the bottom of the fabric transporting device;

S13, in the process that the material guiding roller continuously rotates, the cam rotates together, the contact position of the outer part of the cam and the butt-joint pulley is continuously changed, the butt-joint pulley and the fixed transverse plate move in a left-right reciprocating mode, and the fabric wound by the material guiding roller is cut through the cutting blade;

s14, after all the waste materials on the fabric are rolled up, an operator can directly take out the cut fabric from the surface of the fabric conveying device;

s15, after the double-shaft motor is closed, the butt joint ring body in the butt joint device rotates under the action of the spiral spring to drive the material guide roller to rotate anticlockwise, and the conveyor belt drives the whole material discharging device to rotate;

S16, after the rotating ring plates at the two ends in the discharging device rotate, pawls in the rotating ring plates immediately collide with the ratchet wheel to drive the ratchet wheel to rotate, and then the discharging auger is driven to rotate, so that cut fabric is discharged from the bottom of the discharging frame into the waste storage bin;

s17, after repeating the operation, the operator sends the cloth pieces of all parts on the batch western-style clothes to the hand of a sewing worker, and the sewing worker sews the cloth pieces into the western-style clothes through a sewing machine;

S18, after that, an operator uses an ironing machine to iron all parts of the sewn western-style clothes, so that the parts are more stiff and smooth, then, the thread ends are removed, the inspection quality is carried out, and dry cleaning or steam treatment is carried out on the western-style clothes according to the requirement to remove peculiar smell and wrinkles generated in the manufacturing process;

The method comprises the steps that a fabric conveying device is adopted to convey selected fabrics, cloth pieces of all parts of the western-style clothes are cut out of the fabrics through a cutting device, then redundant cloth is recovered through a waste recovery device, and then the cut cloth pieces are sewn and ironed manually;

The waste recycling device comprises a fixing device, an outer sleeve device arranged in the fixing device, a lifting device arranged in the outer sleeve device, a butt joint device which rotates along with the whole movement of the outer sleeve device, a material guiding device which rotates along with the whole rotation of the butt joint device, a cutting device for cutting waste materials, a material discharging device for cleaning the waste materials and a conveying belt arranged between the material guiding device and the material discharging device;

The fixing device comprises a fixing frame arranged on the outer side of the fabric conveying frame of the fabric conveying device, a double-shaft motor arranged on the top surface of a transverse plate at the top of the fixing frame, a driving shaft rotating along with the starting of the double-shaft motor and a wire wheel rotating along with the rotation of the driving shaft.

In the technical scheme of the invention, the outer sleeve device comprises two groups of symmetrically arranged movable frame plates, an arc-shaped cover plate arranged between the two groups of movable frame plates, a waste storage bin for storing waste and a discharging frame for discharging the waste;

The lifting device comprises a lifting rod with a T-shaped longitudinal section, a plurality of guide strips regularly arranged on the outer side wall of a cross rod at the bottom of the lifting rod, lifting ropes arranged at two ends of the top surface of the lifting rod and a first pressure spring sleeved on the outer side of the lifting rope;

the butt joint device comprises a butt joint ring body, butt joint ring teeth sleeved on the outer side of the butt joint ring body, a fixed rod arranged in the butt joint ring body and a spiral spring arranged on the outer side of the fixed rod.

In the technical scheme of the invention, the material guiding device comprises a material guiding roller, outer lantern rings arranged on the outer side walls of the front end and the rear end of the material guiding roller, annular toothed plates sleeved on the outer side walls of the outer lantern rings, a cam rotating along with the rotation of the outer lantern rings, and an air suction hose extending into the material guiding roller;

The cutting device comprises a butt-joint pulley which moves along with the rotation of the cam, a fixed transverse plate which moves along with the movement of the butt-joint pulley and a cutting blade arranged on the outer side wall of the fixed transverse plate;

The discharging device comprises a rotary circular plate, discharging augers arranged on the front side and the rear side of the rotary circular plate, a rotary ring plate sleeved on the outer side of the discharging augers, a plurality of pawls regularly arranged on the inner side annular wall of the rotary ring plate and a ratchet wheel rotating along with the rotation of the rotary ring plate;

the upper end and the lower end of the conveyor belt are respectively sleeved on the outer annular wall of the outer sleeve ring and the outer annular wall of the rotating annular plate.

In the technical scheme of the invention, the fixed frame is fixedly connected to the outer side wall of the fabric conveying frame through bolts, a plurality of regularly distributed frame edge racks are integrally formed on the outer side walls of the front end and the rear end of the fixed frame, the upper end and the lower end of the top surface of the right side of the fixed frame are respectively connected with a supporting frame for providing a rotation interval for a driving shaft in a clamping mode, the double-shaft motor is fixedly connected to the top surface of the fixed frame through bolts, the driving shaft is coaxially connected with the output shaft of the double-shaft motor, and the wire wheel is fixedly connected to the end position of the driving shaft in a clamping mode.

In the technical scheme of the invention, the movable frame plate is connected in a sliding manner in a through groove in the fixed frame, a lifting sliding groove and a movable sliding groove are respectively formed in the left end and the right end of the outer side wall of the movable frame plate, the front end and the rear end of the arc-shaped cover plate are respectively welded and fixed on the inner side walls of the fixed frames at the front end and the rear end, the waste storage bin and the arc-shaped cover plate are integrally formed, the discharging frame is welded and fixed on the groove walls of the upper through groove and the lower through groove in the movable frame plate, and a wire guide roller is fixedly clamped at the upper left corner of the groove walls of the upper through groove and the lower through groove of the movable frame plate.

In the technical scheme of the invention, the longitudinal section of the lifting rod is T-shaped, the convex rods at the front end and the rear end of the lifting rod are connected in the lifting chute in a sliding way, and the material guiding strip and the lifting rod are integrally formed.

In the technical scheme of the invention, two ends of the lifting rope are respectively welded and fixed on the top surface of the lifting rod end part protruding rod and the outer side of the wire winding wheel, a limiting plate is sleeved on the outer side of the lifting rope and is clamped and fixed on the groove wall of the upper through groove and the lower through groove of the movable frame plate, and the upper end and the lower end of the first pressure spring are respectively welded and fixed on the top surface of the lifting rod end part protruding rod and the bottom surface of the limiting plate.

In the technical scheme of the invention, the butt joint ring body is rotatably connected to the groove walls of the upper and lower through grooves of the movable frame plate, the butt joint ring teeth are fixedly clamped on the outer side wall of the butt joint ring body and meshed with the rack edge racks, the fixing rods are fixedly clamped on the groove walls of the upper and lower through grooves of the movable frame plate, and the inner and outer ends of the spiral springs are fixedly clamped on the outer side wall of the fixing rods and the inner side wall of the butt joint ring body respectively.

In the technical scheme of the invention, the front end and the rear end of the material guiding roller are respectively and rotatably connected to the inner side walls of the front moving frame plate and the rear moving frame plate, a plurality of regularly distributed and internally and externally through air suction holes are formed in the outer side wall of the material guiding roller, the outer sleeve ring and the material guiding roller are integrally formed, the annular toothed plate and the cam are fixedly connected to the outer side wall of the outer sleeve ring through clamping pins, one end of the air suction hose is rotatably connected to the inner side of the outer sleeve ring, and the other end of the air suction hose is connected with the air suction device.

In the technical scheme of the invention, a limiting telescopic rod is fixedly clamped on the outer side wall of the butt joint pulley, a fixing support is fixedly clamped at the end part of the limiting telescopic rod, the fixing support is fixedly connected to the groove wall of the upper through groove and the lower through groove of the movable frame plate through screws, a pressure spring is sleeved on the outer side of the limiting telescopic rod, and the left end and the right end of the pressure spring are respectively welded and fixed on the outer side wall of the butt joint pulley and the outer side wall of the fixing support.

In the technical scheme of the invention, the butt joint pulleys are abutted against the outer side walls of the cams, the front end and the rear end of the fixed transverse plate are respectively clamped and fixed with the outer side walls of the front butt joint pulley and the rear butt joint pulley, and the cutting blade is adhered and fixed on the outer side walls of the fixed transverse plate.

In the technical scheme of the invention, the rotating circular plate is rotationally connected to the inner side wall of the waste storage bin, the discharging auger is clamped and fixed on the outer side wall of the rotating circular plate, the rotating annular plate is rotationally connected to the outer side wall of the moving frame plate, the pawl is rotationally connected to the inside of the groove of the inner side annular wall of the rotating annular plate, and the ratchet wheel is fixedly connected to the end part of the central rod of the discharging auger through a clamping pin.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the novel light leisure western-style clothes manufacturing process, the structure in the lifting device can be changed by starting the double-shaft motor in the fixing device, the outer sleeve device is driven to move, the material guiding roller in the material guiding device is driven to rotate, and then the waste cloth is separated from the cloth pieces of all parts on the cut western-style clothes, so that operators can quickly stack the cut cloth in a classified manner, and the time and the workload of subsequent arrangement are reduced.

2. According to the novel light leisure western-style clothes manufacturing process, the guide roller in the guide device rotates and drives the cutting device to cut waste cloth, after the double-shaft motor is closed, the position of the outer sleeve device is restored under the elastic action of the spiral spring, the discharge auger in the discharge device is driven to rotate, the cut cloth can be discharged out of the waste storage bin, centralized treatment of waste is achieved, the follow-up recycling is convenient, the whole automation of equipment is improved, and manual intervention is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a waste recycling device according to the present invention;

FIG. 3 is a schematic view of a fixing device according to the present invention;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of a part of the waste recycling device according to the present invention;

FIG. 6 is a schematic view of a cut-away view of the jacket apparatus of the present invention;

FIG. 7 is a second schematic view of a part of the waste recycling device according to the present invention;

FIG. 8 is a schematic diagram of a pulling apparatus according to the present invention;

FIG. 9 is a schematic view of a docking mechanism according to the present invention;

FIG. 10 is a schematic diagram of a material guiding device according to the present invention;

FIG. 11 is a schematic view of a cutting device according to the present invention;

FIG. 12 is a schematic view of a discharging device according to the present invention;

FIG. 13 is a schematic view of a part of the structure of the discharging device in the present invention;

reference numerals illustrate:

100. A fabric transport device;

200. A cutting device;

300. A waste recycling device; 310. a fixing device; 311. a fixed frame; 3110. a rack edge rack; 312. a biaxial motor; 313. a drive shaft; 314. a support frame; 315. a wire wheel; 320. a jacket device; 321. moving the frame plate; 3210. lifting the chute; 3211. moving the chute; 322. an arc cover plate; 323. a waste storage bin; 324. a discharging frame; 325. a wire guide roller; 330. a lifting device; 331. a lifting rod; 332. a material guiding strip; 333. lifting a rope; 334. a limiting plate; 335. a first pressure spring; 340. a docking device; 341. a butt joint ring body; 342. butting ring teeth; 343. a fixed rod; 344. a spiral spring; 350. a material guiding device; 351. a guide roller; 3510. an air suction hole; 352. an outer collar; 353. an annular toothed plate; 354. a cam; 355. an air suction hose; 360. a cutting device; 361. a fixed bracket; 362. a pressure spring; 363. a limiting telescopic rod; 364. a butt joint pulley; 365. fixing the transverse plate; 366. a cutting blade; 370. a discharging device; 371. rotating the circular plate; 372. discharging auger; 373. rotating the ring plate; 374. a pawl; 375. a ratchet wheel; 380. a conveyor belt.

Detailed Description

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, the present embodiment provides a technical solution:

a new light leisure western-style clothes manufacturing process comprises the following steps:

S1, firstly, selecting a proper fabric according to western-style clothes to be prepared, and pre-shrinking the fabric to reduce shrinkage after clothes are made;

s2, drawing out cloth pieces at all parts to be cut on the fabric according to the size of the western-style clothes and design templates, and reserving a blank area at the end part of the fabric when designing a scribing area;

S3, then, the fabric is integrally paved on the top surface of the fabric conveying device 100, and after an air suction device below the fabric conveying device 100 is started, the fabric is moved towards the lower side of the cutting device 200;

S4, starting the cutting device 200, and cutting out cloth pieces of all parts of the western-style clothes on the fabric by the laser cutting device in the cutting device according to the scribing range on the fabric;

S5, after the fabric cutting is finished, the fabric conveying device 100 moves towards the lower part of the waste recycling device 300 along with the fabric;

S6, in the continuous transportation process of the fabric, the blank area at the end part of the fabric immediately passes through the material guide strip 332 of the lifting device 330 in the waste recycling device 300, and after the blank area at the end part of the fabric immediately stays on the surface of the cross bar at the bottom of the lifting rod 331, the double-shaft motor 312 in the fixing device 310 is started;

S7, after the double-shaft motor 312 is started, driving shafts 313 at two ends to rotate, driving the wire wheel 315 to rotate, and further driving a lifting rope 333 in the lifting device 330 to continuously shrink on the wire wheel 315;

S8, pulling the lifting rod 331 in the process of retracting the lifting rope 333, and driving the whole lifting rod 331 to move upwards until the top end of the lifting rod 331 contacts with the bottom surface of the arc-shaped cover plate 322 in the outer sleeve device 320;

s9, at the moment, a blank area of the fabric staying on the surface of the bottom cross rod of the lifting rod 331 is close to the surface of the material guide roller 351 in the material guide device 350;

s10, after the position of the lifting rod 331 cannot be changed along with the continuous shrinkage of the lifting rod 333, the lifting rod 333 pulls the whole outer sleeve device 320 to move to the right side in the fixing device 310;

s11, the butt ring teeth 342 in the butt device 340 will rotate after contacting with the rack edge teeth 3110, and simultaneously contact with the ring teeth 353 in the material guiding device 350, and drive the material guiding roller 351 to rotate integrally;

S12, at this time, the whole outer sleeve device 320 continuously rotates the guide roller 351 in the guide device 350 in the moving process, the part of the fabric which is not cut is continuously transported to the inside of the waste storage bin 323 through the rotation of the guide roller 351, and the cut fabric is kept on the surface of the fabric transport device 100 under the action of the air suction device at the bottom of the fabric transport device 100;

S13, in the process that the material guide roller 351 continuously rotates, the cam 354 rotates together, the contact position of the outer part of the cam 354 and the butt pulley 364 continuously changes, the butt pulley 364 and the fixed transverse plate 365 move left and right in a reciprocating manner, and the fabric wound by the material guide roller 351 is cut through the cutting blade 366;

S14, after all the waste materials on the fabric are rolled up, an operator can directly take out the cut fabric from the surface of the fabric conveying device 100;

S15, after the double-shaft motor 312 is closed, the butt joint ring body 341 in the butt joint device 340 rotates under the action of the scroll spring 344 to drive the material guide roller 351 to rotate anticlockwise, and the conveyor belt 380 drives the whole material discharging device 370 to rotate;

s16, after the rotating ring plates 373 at the two ends of the discharging device 370 rotate, the pawls 374 in the rotating ring plates immediately collide with the ratchet 375, so that the ratchet 375 is driven to rotate, and the discharging auger 372 is driven to rotate, so that the cut fabric is discharged from the bottom of the discharging frame 324 into the waste storage bin 323;

s17, after repeating the operation, the operator sends the cloth pieces of all parts on the batch western-style clothes to the hand of a sewing worker, and the sewing worker sews the cloth pieces into the western-style clothes through a sewing machine;

S18, after that, an operator uses an ironing machine to iron all parts of the sewn western-style clothes, so that the parts are more stiff and smooth, then, the thread ends are removed, the inspection quality is carried out, and dry cleaning or steam treatment is carried out on the western-style clothes according to the requirement to remove peculiar smell and wrinkles generated in the manufacturing process;

in this embodiment, as shown in fig. 1, the above steps adopt a fabric transport device 100 to transport the selected fabric, and cut out the fabric pieces of all parts of the western-style clothes on the fabric by a cutting device 200, then the excessive fabric is recovered by a waste recovery device 300, and then the cut fabric pieces are sewn and ironed by a person;

Further, the fabric transportation device 100 is used for transporting fabric to be cut, the cutting device 200 is used for cutting out the cloth pieces of all parts of the western-style clothes on the fabric, the fabric is integrally laid on the top surface of the fabric transportation device 100, after the air suction device below the fabric transportation device 100 is started, the fabric is moved towards the lower part of the cutting device 200, the cutting device 200 is started, the laser cutting device in the fabric is used for cutting out the cloth pieces of all parts of the western-style clothes on the fabric according to the scribing range on the fabric, and after the fabric is cut, the fabric is continuously moved towards the lower part of the waste recovery device 300 along with the fabric transportation device 100;

In this embodiment, as shown in fig. 2-13, the waste recycling device 300 includes a fixing device 310, a casing device 320 disposed inside the fixing device 310, a pulling device 330 disposed inside the casing device 320, a docking device 340 rotating with the whole movement of the casing device 320, a material guiding device 350 rotating with the whole rotation of the docking device 340, a cutting device 360 for cutting waste materials, a material discharging device 370 for cleaning waste materials, and a conveyor 380 disposed between the material guiding device 350 and the material discharging device 370;

specifically, the fixing device 310 includes a fixing frame 311 provided at an outer side of a transport frame of the fabric transport device 100, a biaxial motor 312 provided on a top surface of a top cross plate of the fixing frame 311, a driving shaft 313 rotated as the biaxial motor 312 is started, and a wire wheel 315 rotated as the driving shaft 313 is rotated.

Further, the fixing frame 311 is fixedly connected to the outer side wall of the transport frame of the fabric transport device 100 through bolts, a plurality of regularly distributed rack edge racks 3110 are integrally formed on the outer side walls of the front end and the rear end of the fixing frame 311, the upper end and the lower end of the right side top surface of the fixing frame 311 are respectively and fixedly connected with a supporting frame 314 for providing a rotation interval for the driving shaft 313, the double-shaft motor 312 is fixedly connected to the top surface of the fixing frame 311 through bolts, the driving shaft 313 is coaxially connected with an output shaft of the double-shaft motor 312, and the wire wheel 315 is fixedly connected to the end position of the driving shaft 313 in a clamping manner.

Further, the fixing frame 311 is used to ensure the strength of the overall structure of the fixing device 310, and after the dual-shaft motor 312 is started, the driving shafts 313 at the two ends are driven to rotate, so as to drive the wire wheel 315 to rotate.

In this embodiment, as shown in fig. 5 to 6, the outer sleeve 320 includes two sets of moving frame plates 321 symmetrically arranged, an arc-shaped cover plate 322 arranged between the two sets of moving frame plates 321, a waste storage bin 323 for storing waste, and a discharge frame 324 for discharging waste;

Specifically, the movable frame plate 321 is slidably connected to the inside of the through slot in the fixed frame 311, the left and right ends of the outer side wall of the movable frame plate 321 are respectively provided with a lifting sliding slot 3210 and a movable sliding slot 3211, the front and rear ends of the arc-shaped cover plate 322 are respectively welded and fixed on the inner side walls of the fixed frame 311 at the front and rear ends, the waste storage bin 323 and the arc-shaped cover plate 322 are integrally formed, the discharging frame 324 is welded and fixed on the slot walls of the up and down through slot in the movable frame plate 321, and the upper left corner of the slot walls of the up and down through slot in the movable frame plate 321 is fixedly clamped with the wire guide roller 325.

Further, the movable frame plate 321 is used for providing a placement area for the lifting device 330, the docking device 340 and the material guiding device 350, the arc-shaped cover plate 322 is used for limiting a movement area of waste cloth, and simultaneously providing a movement area for the material guiding device 350 and the cutting device 360, the waste storage bin 323 is used for storing cut fabric, and the discharging frame 324 is used for discharging the cut fabric.

In this embodiment, as shown in fig. 8, the lifting device 330 includes a lifting rod 331 with a T-shaped longitudinal section, a plurality of guide bars 332 regularly arranged on the outer side wall of the bottom cross rod of the lifting rod 331, lifting ropes 333 arranged at two ends of the top surface of the lifting rod 331, and a first pressure spring 335 sleeved outside the lifting ropes 333;

Specifically, the longitudinal section of the lifting rod 331 is T-shaped, the protruding rods at the front and rear ends of the lifting rod 331 are slidably connected to the inside of the lifting sliding groove 3210, and the material guiding strip 332 and the lifting rod 331 are integrally formed.

Further, two ends of the lifting rope 333 are welded and fixed on the top surface of the protruding rod at the end of the lifting rod 331 and the outer side of the wire reel 315, a limiting plate 334 is sleeved on the outer side of the lifting rope 333, the limiting plate 334 is clamped and fixed on the groove wall of the upper and lower through grooves of the movable frame plate 321, and the upper and lower ends of the first pressure spring 335 are welded and fixed on the top surface of the protruding rod at the end of the lifting rod 331 and the bottom surface of the limiting plate 334 respectively.

Further, after the wire wheel 315 rotates, the lifting rope 333 in the lifting device 330 is driven to continuously shrink on the wire wheel 315, the lifting rope 333 pulls the lifting rod 331 in the shrinking process, and drives the whole position of the lifting rod 331 to move upwards until the top end of the lifting rod 331 contacts with the bottom surface of the arc-shaped cover plate 322 in the outer sleeve device 320, at this time, the blank area of the fabric staying on the surface of the bottom cross rod of the lifting rod 331 is close to the surface of the guide roller 351 in the guide device 350, and as the lifting rope 333 continuously shrinks, the position of the lifting rod 331 cannot be changed, the lifting rope 333 pulls the outer sleeve device 320 to move to the right side in the fixing device 310.

In this embodiment, as shown in fig. 9, the docking device 340 includes a docking ring 341, docking ring teeth 342 sleeved on the outer side of the docking ring 341, a fixing rod 343 disposed inside the docking ring 341, and a spiral spring 344 disposed on the outer side of the fixing rod 343;

Specifically, the docking ring 341 is rotatably connected to the walls of the upper and lower through slots of the moving frame plate 321, the docking ring teeth 342 are fastened and fixed on the outer side wall of the docking ring 341 and engaged with the rack edge teeth 3110, the fixing rod 343 is fastened and fixed on the walls of the upper and lower through slots of the moving frame plate 321, and the inner and outer ends of the spiral spring 344 are fastened and fixed on the outer side wall of the fixing rod 343 and the inner side wall of the docking ring 341, respectively.

Further, during the movement of the outer sleeve 320, the docking ring teeth 342 of the docking device 340 will rotate after contacting the rack side teeth 3110, and when the dual-shaft motor 312 is turned off, the docking ring 341 of the docking device 340 will rotate under the action of the spiral spring 344.

In this embodiment, as shown in fig. 10, the material guiding device 350 includes a material guiding roller 351, outer collars 352 disposed on outer sidewalls of front and rear ends of the material guiding roller 351, annular toothed plates 353 sleeved on outer sidewalls of the outer collars 352, cams 354 rotating with rotation of the outer collars 352, and air suction hoses 355 extending into the material guiding roller 351;

Specifically, the front and rear ends of the material guiding roller 351 are respectively connected to the inner side walls of the front and rear movable frame plates 321 in a rotating manner, a plurality of regularly distributed air suction holes 3510 which are internally and externally communicated are formed in the outer side wall of the material guiding roller 351, the outer sleeve 352 and the material guiding roller 351 are integrally formed, the annular toothed plate 353 and the cam 354 are fixedly connected to the outer side wall of the outer sleeve 352 through clamping pins, one end of the air suction hose 355 is connected to the inner side of the outer sleeve 352 in a rotating manner, and the other end of the air suction hose 355 is connected with an air suction device.

Further, when the docking ring teeth 342 rotate, they contact with the annular toothed plate 353 in the material guiding device 350 and drive the material guiding roller 351 to rotate integrally, at this time, the whole outer sleeve device 320 rotates continuously in the moving process, the unclamped part of the fabric is transported to the waste storage bin 323 continuously through the rotation of the material guiding roller 351, the cut fabric is retained on the surface of the fabric transporting device 100 under the action of the air suction device at the bottom of the fabric transporting device 100, and after the external air suction device is started, the air flow flows towards the air suction hose 355 through the air suction holes 3510 on the material guiding roller 351, so as to ensure the stability of the waste fabric during transportation.

In this embodiment, as shown in fig. 11, the cutting device 360 includes a docking pulley 364 moving with the rotation of the cam 354, a fixed cross plate 365 moving with the movement of the docking pulley 364, and a cutting blade 366 disposed on the outer side wall of the fixed cross plate 365;

Specifically, a limiting telescopic rod 363 is fixedly clamped on the outer side wall of the docking pulley 364, a fixing bracket 361 is fixedly clamped at the end part of the limiting telescopic rod 363, the fixing bracket 361 is fixedly connected to the walls of the upper and lower through grooves of the movable frame plate 321 through screws, a pressure spring 362 is sleeved on the outer side of the limiting telescopic rod 363, and the left end and the right end of the pressure spring 362 are respectively welded and fixed on the outer side wall of the docking pulley 364 and the outer side wall of the fixing bracket 361.

Further, the docking pulley 364 is abutted against the outer side wall of the cam 354, the front and rear ends of the fixed cross plate 365 are respectively clamped and fixed with the outer side walls of the front and rear groups of docking pulleys 364, and the cutting blade 366 is adhered and fixed on the outer side wall of the fixed cross plate 365.

Further, in the process that the material guiding roller 351 rotates continuously, the cam 354 rotates together, the contact position between the outside of the cam 354 and the butt-joint pulley 364 changes continuously, the butt-joint pulley 364 moves left and right along with the fixed cross plate 365 in a reciprocating manner, the fabric wound by the material guiding roller 351 is cut by the cutting blade 366, and then, after all the waste materials on the fabric are wound, an operator can directly take out the cut fabric from the surface of the fabric conveying device 100.

In this embodiment, as shown in fig. 12-13, the discharging device 370 includes a rotary circular plate 371, discharging augers 372 disposed on the front and rear sides of the rotary circular plate 371, a rotary ring plate 373 sleeved on the outer side of the discharging augers 372, a plurality of pawls 374 regularly disposed on the inner side wall of the rotary ring plate 373, and a ratchet 375 rotating along with the rotation of the rotary ring plate 373;

Specifically, the rotating circular plate 371 is rotatably connected to the inner side wall of the waste storage bin 323, the discharging auger 372 is fastened and fixed to the outer side wall of the rotating circular plate 371, the rotating annular plate 373 is rotatably connected to the outer side wall of the moving frame plate 321, the pawl 374 is rotatably connected to the inside of the groove of the inner side annular wall of the rotating annular plate 373, and the ratchet 375 is fixedly connected to the end of the central rod of the discharging auger 372 through a bayonet lock.

Further, the upper and lower ends of the conveyor 380 are respectively sleeved on the outer annular wall of the outer collar 352 and the outer annular wall of the rotating annular plate 373.

Further, when the outer collar 352 rotates via the conveyor belt 380, the rotating collar plate 373 is driven to rotate, the pawl 374 in the rotating collar plate is abutted against the ratchet 375, the ratchet 375 is driven to rotate, and the discharging auger 372 is driven to rotate, so that the cut fabric is discharged from the bottom of the discharging frame 324 into the waste storage bin 323.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. The scope of the invention is intended to be defined by the description and equivalents thereof.

Claims (10)

1. The novel light leisure western-style clothes manufacturing process is characterized by comprising the following steps of:

S1, firstly, selecting a proper fabric according to western-style clothes to be prepared, and pre-shrinking the fabric to reduce shrinkage after clothes are made;

s2, drawing out cloth pieces at all parts to be cut on the fabric according to the size of the western-style clothes and design templates, and reserving a blank area at the end part of the fabric when designing a scribing area;

S3, then, the fabric is integrally paved on the top surface of the fabric conveying device (100), and after an air suction device below the fabric conveying device (100) is started, the fabric is moved towards the lower part of the cutting device (200);

S4, starting a cutting device (200), wherein the internal laser cutting device cuts out cloth pieces of all parts of the western-style clothes on the fabric according to the scribing range on the fabric;

s5, after the fabric cutting is finished, continuously moving towards the lower part of the waste recycling device (300) along with the fabric conveying device (100);

S6, in the continuous transportation process of the fabric, the blank area at the end part of the fabric passes through a material guide strip (332) of a lifting device (330) in the waste recycling device (300), and after the blank area at the end part of the fabric is stopped on the surface of a cross rod at the bottom of a lifting rod (331), a double-shaft motor (312) in a fixing device (310) is started;

S7, after the double-shaft motor (312) is started, driving the driving shafts (313) at two ends to rotate, driving the wire wheel (315) to rotate, and further driving the lifting rope (333) in the lifting device (330) to continuously shrink on the wire wheel (315);

S8, pulling the lifting rod (331) in the shrinkage process of the lifting rope (333), and driving the whole lifting rod (331) to move upwards until the top end of the lifting rod (331) is contacted with the bottom surface of the arc-shaped cover plate (322) in the outer sleeve device (320);

S9, at the moment, a blank area of the fabric staying on the surface of the bottom cross rod of the lifting rod (331) is close to the surface of a guide roller (351) in the guide device (350);

S10, after the position of the lifting rod (331) cannot be changed along with continuous shrinkage of the lifting rod (333), the lifting rod (333) pulls the whole jacket device (320) to move to the right side in the fixing device (310);

S11, then, the butt joint ring teeth (342) in the butt joint device (340) are contacted with the rack edge racks (3110) and then rotate, and simultaneously are contacted with the annular toothed plate (353) in the material guiding device (350) and drive the material guiding roller (351) to integrally rotate;

S12, at the moment, the whole jacket device (320) rotates continuously in the moving process of the guide roller (351) in the guide device (350), the part, which is not cut, on the fabric is transported to the inside of the waste storage bin (323) continuously through the rotation of the guide roller (351), and the cut fabric is kept on the surface of the fabric transport device (100) under the action of the air suction device at the bottom of the fabric transport device (100);

S13, in the process that the material guiding roller (351) continuously rotates, the cam (354) rotates together, the contact position of the outer part of the cam and the butt joint pulley (364) is continuously changed, the butt joint pulley (364) and the fixed transverse plate (365) move left and right in a reciprocating mode, and the fabric wound by the material guiding roller (351) is cut through the cutting blade (366);

s14, after all the waste materials on the fabric are rolled up, an operator can directly take out the cut fabric from the surface of the fabric conveying device (100);

S15, after the double-shaft motor (312) is closed, the butt joint ring body (341) in the butt joint device (340) rotates under the action of the scroll spring (344), and drives the material guide roller (351) to rotate anticlockwise, and then drives the material discharging device (370) to rotate integrally through the conveying belt (380);

S16, after rotating ring plates (373) at two ends in the discharging device (370) rotate, pawls (374) in the rotating ring plates immediately collide with a ratchet wheel (375) to drive the ratchet wheel (375) to rotate, and then the discharging auger (372) is driven to rotate, so that cut fabric is discharged from the bottom of the discharging frame (324) into the waste storage bin (323);

s17, after repeating the operation, the operator sends the cloth pieces of all parts on the batch western-style clothes to the hand of a sewing worker, and the sewing worker sews the cloth pieces into the western-style clothes through a sewing machine;

S18, after that, an operator uses an ironing machine to iron all parts of the sewn western-style clothes, so that the parts are more stiff and smooth, then, the thread ends are removed, the inspection quality is carried out, and dry cleaning or steam treatment is carried out on the western-style clothes according to the requirement to remove peculiar smell and wrinkles generated in the manufacturing process;

The method comprises the steps that a fabric conveying device (100) is adopted to convey selected fabrics, cloth pieces of all parts of the western-style clothes are cut out of the fabrics through a cutting device (200), then redundant cloth is recovered through a waste recovery device (300), and then the cut cloth pieces are sewn and ironed manually;

the waste recycling device (300) comprises a fixing device (310), an outer sleeve device (320) arranged in the fixing device (310), a lifting device (330) arranged in the outer sleeve device (320), a butt joint device (340) rotating along with the integral movement of the outer sleeve device (320), a material guiding device (350) rotating along with the integral rotation of the butt joint device (340), a cutting device (360) for cutting waste materials, a discharging device (370) for cleaning the waste materials and a conveying belt (380) arranged between the material guiding device (350) and the discharging device (370);

The fixing device (310) comprises a fixing frame (311) arranged on the outer side of a conveying frame of the fabric conveying device (100), a double-shaft motor (312) arranged on the top surface of a transverse plate on the top of the fixing frame (311), a driving shaft (313) rotating along with the starting of the double-shaft motor (312) and a wire wheel (315) rotating along with the rotation of the driving shaft (313).

2. The novel light-weight casual suit making process according to claim 1, wherein:

The outer sleeve device (320) comprises two groups of symmetrically arranged movable frame plates (321), an arc-shaped cover plate (322) arranged between the two groups of movable frame plates (321), a waste storage bin (323) for storing waste and a discharging frame (324) for discharging the waste;

The lifting device (330) comprises a lifting rod (331) with a T-shaped longitudinal section, a plurality of guide strips (332) regularly arranged on the outer side wall of a cross rod at the bottom of the lifting rod (331), lifting ropes (333) arranged at two ends of the top surface of the lifting rod (331) and a first pressure spring (335) sleeved on the outer side of the lifting ropes (333);

the butt joint device (340) comprises a butt joint ring body (341), butt joint ring teeth (342) sleeved on the outer side of the butt joint ring body (341), a fixed rod (343) arranged in the butt joint ring body (341) and a spiral spring (344) arranged on the outer side of the fixed rod (343).

3. The novel light-weight casual suit making process according to claim 2, wherein:

The material guiding device (350) comprises a material guiding roller (351), outer rings (352) arranged on the outer side walls of the front end and the rear end of the material guiding roller (351), annular toothed plates (353) sleeved on the outer side walls of the outer rings (352), cams (354) rotating along with the rotation of the outer rings (352) and air suction hoses (355) extending into the material guiding roller (351);

The cutting device (360) comprises a butt pulley (364) which moves along with the rotation of the cam (354), a fixed transverse plate (365) which moves along with the movement of the butt pulley (364) and a cutting blade (366) arranged on the outer side wall of the fixed transverse plate (365);

The discharging device (370) comprises a rotary circular plate (371), discharging augers (372) arranged on the front side and the rear side of the rotary circular plate (371), a rotary ring plate (373) sleeved on the outer side of the discharging augers (372), a plurality of pawls (374) regularly arranged on the inner side annular wall of the rotary ring plate (373) and a ratchet wheel (375) rotating along with the rotation of the rotary ring plate (373);

The upper end and the lower end of the conveyor belt (380) are respectively sleeved on the outer annular wall of the outer sleeve ring (352) and the outer annular wall of the rotating annular plate (373).

4. The novel light-weight casual suit making process according to claim 3, wherein: the fixed frame (311) is fixedly connected to the outer side wall of the fabric conveying frame of the fabric conveying device (100) through bolts, a plurality of frame edge racks (3110) which are regularly distributed are integrally formed on the outer side wall of the front end and the rear end of the fixed frame (311), the upper end and the lower end of the top surface of the right side of the fixed frame (311) are respectively clamped with a supporting frame (314) which is used for providing a rotation interval for a driving shaft (313), the double-shaft motor (312) is fixedly connected to the top surface of the fixed frame (311) through bolts, the driving shaft (313) is coaxially connected with an output shaft of the double-shaft motor (312), and the wire wheel (315) is clamped and fixedly connected to the end position of the driving shaft (313);

Remove framed panel (321) sliding connection in the inside of the inside logical groove of fixed frame (311), both ends have been seted up respectively about removing framed panel (321) lateral wall and have been carried and have been pulled spout (3210) and remove spout (3211), both ends weld respectively around arc-shaped cover plate (322) are fixed in on the inside wall of both ends fixed frame (311) around, waste material deposit storehouse (323) with arc-shaped cover plate (322) integrated into one piece, arrange material frame (324) welded fastening in on the cell wall of going up and down logical groove in removing framed panel (321), the upper left corner joint of going up and down logical groove cell wall of removing framed panel (321) is fixed with wire roller (325).

5. The novel light-weight casual suit making process according to claim 4, wherein: the longitudinal section of the lifting rod (331) is T-shaped, the convex rods at the front end and the rear end of the lifting rod (331) are connected in the lifting sliding groove (3210) in a sliding mode, and the material guide strip (332) and the lifting rod (331) are integrally formed;

The lifting device is characterized in that two ends of the lifting rope (333) are welded and fixed on the top surface of the protruding rod at the end part of the lifting rod (331) and the outer side of the wire reel (315) in a wound mode respectively, a limiting plate (334) is sleeved on the outer side of the lifting rope (333), the limiting plate (334) is clamped and fixed on the groove wall of the upper through groove and the lower through groove of the movable frame plate (321), and the upper end and the lower end of the first pressure spring (335) are welded and fixed on the top surface of the protruding rod at the end part of the lifting rod (331) and the bottom surface of the limiting plate (334) respectively.

6. The novel light-weight casual suit making process according to claim 5, wherein: the butt joint ring body (341) is rotationally connected to the groove wall of the upper and lower through grooves of the movable frame plate (321), the butt joint ring teeth (342) are fixedly clamped on the outer side wall of the butt joint ring body (341) and meshed with the rack edge teeth (3110), the fixing rod (343) is fixedly clamped on the groove wall of the upper and lower through grooves of the movable frame plate (321), and the inner end and the outer end of the spiral spring (344) are fixedly clamped on the outer side wall of the fixing rod (343) and the inner side wall of the butt joint ring body (341).

7. The novel light-weight casual suit making process according to claim 6, wherein: the front end and the rear end of the guide roller (351) are respectively connected to the inner side walls of the front moving frame plate (321) and the rear moving frame plate in a rotating mode, a plurality of regularly distributed air suction holes (3510) which are internally and externally communicated are formed in the outer side walls of the guide roller (351), the outer sleeve (352) is integrally formed with the guide roller (351), the annular toothed plate (353) and the cam (354) are fixedly connected to the outer side walls of the outer sleeve (352) through clamping pins, one end of the air suction hose (355) is connected to the inner side of the outer sleeve (352) in a rotating mode, and the other end of the air suction hose (355) is connected with an air suction device.

8. The novel light-weight casual suit making process according to claim 7, wherein: the utility model discloses a butt joint pulley, including fixed frame (321) and fixed frame (361), joint is fixed with spacing telescopic link (363) on the lateral wall of butt joint pulley (364), the tip joint of spacing telescopic link (363) is fixed with fixed bolster (361), fixed bolster (361) pass through screw fixed connection in on the cell wall of going up logical groove about mobile frame board (321), the outside cover of spacing telescopic link (363) is equipped with pressure spring (362), both ends about pressure spring (362) weld respectively and are fixed in the lateral wall of butt joint pulley (364) with on the lateral wall of fixed bolster (361).

9. The novel light-weight casual suit making process according to claim 8, wherein: the butt joint pulley (364) is in conflict with the outer side wall of the cam (354), the front end and the rear end of the fixed transverse plate (365) are respectively clamped and fixed with the outer side walls of the front butt joint pulley (364) and the rear butt joint pulley (364), and the cutting blade (366) is adhered and fixed on the outer side wall of the fixed transverse plate (365).

10. The novel light-weight casual suit making process according to claim 9, wherein: the rotary circular plate (371) is rotationally connected to the inner side wall of the waste storage bin (323), the discharging auger (372) is fixedly clamped on the outer side wall of the rotary circular plate (371), the rotary annular plate (373) is rotationally connected to the outer side wall of the movable frame plate (321), the pawl (374) is rotationally connected to the inside of a groove of the inner side annular wall of the rotary annular plate (373), and the ratchet wheel (375) is fixedly connected to the end part of the central rod of the discharging auger (372) through a clamping pin.