CN112401374A - Processing technology and assembly line of sports clothes - Google Patents

Abstract

The invention provides a processing technology of sports wear, which comprises the following steps: (1) cutting the fabric according to a design drawing, and cutting the fabric into a front panel, a back panel and breathable shielding cloth; (2) punching holes on the front or rear panel to form a first air-permeable part, punching holes on the air-permeable shielding cloth, and forming a second air-permeable part corresponding to the first air-permeable part; (3) cutting artificial leather according to a design drawing, and cutting the artificial leather into a fixed connecting sheet and a breathable shielding sheet; (4) punching a hole on the fixed connecting sheet to process a third air-permeable part corresponding to the first air-permeable part, and punching a hole on the air-permeable shielding sheet to process a fourth air-permeable part corresponding to the first air-permeable part; according to the invention, the first stitching piece and the second stitching piece are matched through the movable connecting part, so that the purposes of opening the first air hole and completely closing the first air hole are achieved, and the heat on the body of people is more easily volatilized. The invention also provides a processing line of the sports wear.

Description

Processing technology and assembly line of sports clothes

Technical Field

The invention relates to the technical field of sports wear processing, in particular to a processing technology and a production line of sports wear.

Background

Usually, when the body is exercised, the body is exercised by matching with proper sports clothes, and the body can play a great auxiliary role in the exercise process.

The traditional sports wear is usually made of breathable materials, so that the breathability of the sports wear cannot be increased when the breathability of the sports wear is insufficient, hot air on the body cannot be discharged in time, people doing sports feel uncomfortable like wearing a raincoat, people feel dry and hot, the sports experience is affected, or the sports wear is provided with air holes, but the air holes cannot be closed when the sports wear is not needed, and the size of the air holes is easily affected by the posture of people during sports due to the fact that the clothes are made of soft materials; and before the fabric is cut to be sewn to clothes, the fabric needs to be conveyed to the side of a worker of a sewing machine manually, and the automation degree is not high.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide a processing technology of sports wear, which aims to solve the problems that the air permeability of the sports wear cannot be increased when the air permeability is insufficient, hot air on the body cannot be removed in time, the sports experience is influenced, the size of an air hole is easily influenced by the posture of people during sports, and the automation degree is not high in the prior art.

The invention also aims to provide a processing line of sports wear, which cuts the fabric and the artificial leather into preset shapes according to design drawings through a cutting device, and cuts a front panel, a rear panel, air-permeable shielding cloth, a fixed connecting sheet and an air-permeable shielding sheet through the cutting device respectively; the punching device respectively punches the front or rear overlapped panels, the breathable shielding cloth, the fixed connecting sheet and the breathable shielding sheet; the cut materials are conveyed to the stations of corresponding workers one by one through the transfer device, so that the workers can process the materials conveniently; according to the invention, materials are transferred through the transfer device, so that the process of manually transporting the materials is reduced, the processing operation is simpler and quicker, the automation degree is high, and the processing efficiency is improved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a processing technology of sports clothes comprises the following steps:

(1) cutting the fabric according to a design drawing, and cutting the fabric into a front panel, a back panel and breathable shielding cloth;

(2) punching holes on the front or rear panel to form a first air-permeable part, punching holes on the air-permeable shielding cloth, and forming a second air-permeable part corresponding to the first air-permeable part;

(3) cutting artificial leather according to a design drawing, and cutting the artificial leather into a fixed connecting sheet and a breathable shielding sheet;

(4) punching a hole on the fixed connecting sheet to process a third air-permeable part corresponding to the first air-permeable part, and punching a hole on the air-permeable shielding sheet to process a fourth air-permeable part corresponding to the first air-permeable part;

(5) sewing and covering the fixed connecting sheet on the first ventilating part, and overlapping the first ventilating part and the third ventilating part together to form a first sewing piece;

(6) sewing and covering the breathable shielding cloth on the breathable shielding sheet, and overlapping the second breathable part and the fourth breathable part to form a second sewing piece;

(7) the fixed connecting sheet and the breathable shielding sheet are connected together through a movable connecting part;

(8) sewing the front panel and the back panel together by a sewing device to form a garment body;

(9) the second seam is attached to the garment body by a side release fastener assembly.

Further, in the step (2), a plurality of first air holes are punched on the first air permeable part, and the first air holes are arranged in a matrix; and a plurality of second air holes which are in one-to-one correspondence with the first air holes are punched on the second air holes, and a sealing cloth for sealing the first air holes is formed between the adjacent second air holes.

Further, in the step (4), a plurality of third air holes corresponding to the first air holes are punched on the third air hole part, and a first sealing sheet for sealing the second air holes is formed between the adjacent third air holes; and a plurality of fourth air holes which are in one-to-one correspondence with the first air holes are punched on the fourth air hole part, and a second sealing sheet for sealing the first air holes is formed between the adjacent fourth air holes.

Further, in the step (7), the movable connecting portion includes a plurality of movable mesh fabrics sewn between each first closing sheet and the second closing sheet corresponding to the first closing sheet; one end of the movable mesh cloth is connected with the first closing piece in a sewing mode, and the other end of the movable mesh cloth is connected with the second closing piece in a sewing mode.

Further, the movable mesh cloth extends along the length direction of the clothes main body.

Further, the width dimension of the movable mesh cloth is equal to the vertical length dimension between the position of the movable mesh cloth on the second closing sheet and the axis of the downward adjacent fourth ventilation hole.

Further, in step (9), the female fastener component and the second sewing member of the side release fastener assembly are sewn together, and the sub-fastener component and the garment body of the side release fastener assembly are sewn together.

Further, the box subassembly includes ventilative box, ventilative box is sewed up on the upper portion of ventilative cloth lateral surface that shelters from.

Further, the sub-buckle assembly comprises an air-permeable sub-buckle, and the air-permeable sub-buckle is sewn above the first air-permeable part.

Further, the second stitching piece is provided with a first side edge, a second side edge, a third side edge and a fourth side edge which are sequentially and adjacently arranged; the second side edge is sewn to the garment body on one side of the first breathable portion and the fourth side edge is sewn to the garment body on the other side of the first breathable portion.

Further, processing a first air hole of the front or rear panel, a second air hole of the air permeable shielding cloth, a third air hole of the fixed connecting sheet and a fourth air hole of the air permeable shielding sheet by a punching device; the front or rear panel, the breathable shielding cloth, the fixed connecting sheet and the breathable shielding sheet are orderly and respectively stacked, after the stacked materials are placed on a workbench of the punching device one by one, the punching driving device drives the punching tool bit to move downwards, the front or rear panel is punched with a first vent hole, the breathable shielding cloth is punched with a second vent hole, the fixed connecting sheet is punched with a third vent hole, and the breathable shielding sheet is punched with a fourth vent hole.

A processing line of sports wear comprises a cutting device for cutting fabric into a front cloth, a back cloth and a breathable shielding cloth, and cutting artificial leather into a fixed connecting sheet and a breathable shielding sheet; a punching device for punching a first air hole on the front or rear panel, punching a second air hole on the air-permeable shielding cloth, punching a third air hole on the fixed connecting sheet, and punching a fourth air hole on the air-permeable shielding sheet; and a sewing device for sewing the materials.

Further, the cutting device comprises a cutting assembly for cutting the fabric and the artificial leather and a material conveying device for conveying the fabric and the artificial leather.

Further, the cutting assembly comprises a cutting head and a first power driving device for driving the cutting head to move; the output end of the first power driving device is connected with the cutting head.

Furthermore, the bottom end of the cutting head is provided with a cutting tip for cutting the fabric and the artificial leather.

Further, the first power driving device comprises a first lifting driving device for driving the cutting tip to move up and down, a first moving driving device for driving the cutting tip to move left and right, and a second moving driving device for driving the cutting tip to move back and forth; the output end of the first lifting driving device is connected with the cutting head, the output end of the first moving driving device is connected with the first lifting driving device, and the output end of the second moving driving device is connected with the first moving driving device.

Further, the material conveying device comprises a conveying belt and a conveying driving device for driving the conveying belt to convey.

Further, the conveying driving device comprises a driving roller, a driven roller and a conveying motor; the conveyer belt twines the setting of drive roll and driven voller, the output and the drive roll of conveying motor link together.

Further, the material conveying device further comprises a sliding assembly in sliding connection with the first power driving device.

Further, the sliding assembly includes a first sliding portion and a second sliding portion; the first sliding part is arranged on one side of the conveying belt, and the second sliding part is arranged on the other side of the conveying belt.

Further, a first sliding groove for the first power driving device to slide is formed in the first sliding part; the second sliding part is provided with a second sliding groove for the first power driving device to slide; the first power driving device is connected with the sliding assembly in a sliding mode through the first sliding groove and the second sliding groove.

Further, the punching device comprises a punching assembly for punching the material.

Further, the punching assembly comprises a plurality of punching tool bits for punching; the interior of the punching tool bit is hollow, and an inlet for allowing redundant waste to enter is formed at the bottom end of the punching tool bit; the punching tool bits are arranged in a matrix.

Further, the punching assembly also comprises a punching driving device for driving the punching tool bit to move downwards.

Further, the punching driving device comprises a connecting plate and a punching cylinder for driving the connecting plate to move downwards; a plurality of one end of the punching tool bit is connected with the bottom end of the connecting plate.

Furthermore, the punching device also comprises a material blowing device for blowing the waste material in the punching tool bit; the blowing device comprises a connecting seat and a blowing device for inputting air to the connecting seat; the air blowing device is characterized in that an air inlet connected with the air blowing device is formed in the connecting seat, an air cavity for containing air is formed in the connecting seat, and the air inlet is communicated with the air cavity; the upper surface of connecting plate and the lower surface of connecting seat set up of laminating mutually, the top of the tool bit that punches a hole forms the inlet port that the air got into, the tool bit that punches a hole is linked together through the wind chamber of connecting plate and connecting seat.

Further, the air blowing device comprises an air compressor; the air compressor is connected with the air inlet through a connecting pipe.

Further, the punching device also comprises a guide component for guiding the punching tool bit.

Further, the guide part comprises a first guide plate, a plurality of guide holes corresponding to the punching tool bits one to one are formed in the first guide plate, and the first guide plate is arranged on the lower portion of the punching tool bits through the guide holes.

Further, the guide component also comprises a second guide plate and a third guide plate which are arranged vertically to the first guide plate; connecting seat, connecting plate and the tool bit that punches a hole all locate between second deflector and the third deflector, and the one end of connecting seat and connecting plate all with the inside wall sliding connection of second deflector, the other end of connecting seat and connecting plate all with the inside wall sliding connection of third deflector.

Furthermore, the punching device also comprises a workbench for placing stacked materials; the workbench is arranged below the first guide plate.

Furthermore, a groove is formed in the upper surface of the workbench, and a movable jacking portion which is connected with the groove in a sliding mode and jacks materials upwards is arranged in the groove.

Further, the movable jacking part comprises a jacking block for jacking the material upwards and a jacking driving device for driving the jacking block to move upwards; the jacking block is provided with a plurality of through holes for the punching tool bits to pass through, the jacking block forms a projection area on the plane where the workbench is located, and the projections of the punching tool bits on the plane where the workbench is located are all located in the range of the projection area.

Further, the punching device is provided with a support frame; the support frame is arranged on the upper surface of the workbench; the support frame comprises a first support plate, the punching cylinder is arranged on the upper surface of the first support plate, and the output end of the punching cylinder penetrates through the first support plate and is connected with the top end of the connecting seat; a connecting hole communicated with the air inlet is formed on the upper surface of the first supporting plate; the guide part is arranged at the bottom end of the first supporting plate.

Furthermore, the punching device is also provided with a waste collecting box for collecting the punched waste; the opening of the waste collection box is upward, and the waste collection box is arranged below the workbench.

Further, a plurality of the through holes are all positioned inside the opening of the waste collection box.

Further, the sewing device includes a sewing machine.

Further, still include the material after each tailorring and wait to sew the transfer device that the material transported behind the counterpunch hole.

Furthermore, the transfer device comprises a first feeding device for transferring the cut materials and a transition table for placing the cut materials.

Further, first material feeding unit includes the first electrostatic absorption dish that absorbs the material and the second power drive device that drives first electrostatic absorption dish and remove.

Furthermore, the transfer device also comprises a transfer table for placing the material to be sewn, a second feeding device for picking up the material on the transfer table, and a circulating conveying device for conveying the material to be sewn.

Furthermore, the second feeding device comprises a second electrostatic adsorption disc for adsorbing the materials and a third power driving device for driving the second electrostatic adsorption disc to move.

Further, the circulating conveying device comprises a clamping device for receiving the materials picked up by the second feeding device and a circulating assembly for circularly conveying the clamping device.

Further, the clamping device comprises a plurality of clamping parts for clamping materials; the clamping part comprises a first clamping claw, a second clamping claw and a closing driving device for driving the first clamping claw and the second clamping claw to close.

Further, the circulating assembly comprises a conveying belt, a first frame body, a second frame body, a rotating wheel and a transmission driving device for driving the conveying belt to convey; the first frame body and the second frame body are arranged in a closed loop mode, the conveyor belt is arranged between the first frame body and the second frame body, a first annular rail for the rotating wheels to slide is arranged on the lower surface of the first frame body, a second annular rail for the rotating wheels to slide is arranged on the upper surface of the second frame body, and a gap for the rotating wheels to roll is formed between the first frame body and the second frame body; the axis level of rotating the wheel sets up and installs between first support body and second support body, and is a plurality of press from both sides the portion of getting and run through the connecting rod and rotate the wheel and install on the conveyer belt and encircle the equidistant setting of conveyer belt.

Further, the transmission driving device comprises a driving wheel, a driven wheel and a transmission motor for driving the driving wheel to rotate; a first fixing plate is arranged on one side of the first frame body, a second fixing plate is arranged on the other side of the first frame body, the driving wheel is mounted at the bottom end of the first fixing plate and is rotatably connected with the first fixing plate, and the driven wheel is mounted at the bottom end of the second fixing plate and is rotatably connected with the second fixing plate; the conveyer belt winding action wheel sets up with following the driving wheel, transmission motor's output runs through first fixed plate and links together with the action wheel.

Further, the sorting device is used for sorting the surplus cut fabrics and artificial leathers.

Further, the sorting device comprises a third electrostatic adsorption disc for adsorbing redundant materials and a fourth power driving device for driving the third electrostatic adsorption disc to move.

Further, the sorting device also comprises a sorting box for collecting redundant materials.

After adopting the structure, the processing technology of the sports wear has at least the following beneficial effects:

the fixed connecting piece and the clothes main body are sewn together, and the third air hole of the fixed connecting piece and the first air hole on the clothes main body are overlapped together to form a first sewn piece; the breathable shielding piece and the breathable shielding cloth are sewn together, and the second air hole and the fourth air hole are overlapped together to form a second sewn piece; the first sewing piece and the second sewing piece are connected through the movable connecting part, the second sewing piece is connected with the clothes main body through the side-opening buckle assembly, and the first air hole, the second air hole, the third air hole and the fourth air hole are overlapped together at the moment, so that the clothes main body is in a ventilation state; through the movable connecting part, when people do not need to enhance the air permeability of the clothes main body, the limit of the side-opening buckle component is released, the second sewing piece moves downwards under the action of gravity, the movable connecting part is attached to the clothes main body, the second sewing piece is driven to be gradually attached to the clothes main body, the second seal of the air-permeable shielding piece is overlapped with the first air hole and the third air hole, and the effect of sealing the first air hole is achieved; when people feel dry heat gradually in the movement process, the second sewing piece is pulled upwards to be connected with the clothes main body through the side-opening buckle assembly, the first air hole, the second air hole, the third air hole and the fourth air hole are overlapped together, the clothes main body is in a ventilation state, the ventilation performance of the sports clothes is enhanced, perspiration and body heat control are facilitated, the fixed connecting piece and the ventilation shielding piece are made of artificial leather, the fixed connecting piece is covered on the first ventilation part, the first air hole is prevented from deforming when the human body moves, the ventilation effect is prevented from being weakened due to deformation of the first air hole, the effect is better when the second sealing piece seals the first air hole, the ventilation shielding cloth is connected with the ventilation shielding piece, the artificial leather is shielded, and the clothes are attractive; according to the invention, the first sewing piece and the second sewing piece are matched through the movable connecting part, so that the purposes of opening the first air hole and completely closing the first air hole are achieved, the heat on the body of people is more easily volatilized, the pleasant mood is kept while the body is exercised, meanwhile, the artificial leather is used as a manufacturing material, the deformation of the first air hole is avoided, and the sealing effect is improved.

The invention also provides a processing line of the sports wear, which cuts the fabric and the artificial leather into preset shapes according to the design drawing through the cutting device, and cuts the front panel, the rear panel, the breathable shielding cloth, the fixed connecting sheet and the breathable shielding sheet through the cutting device respectively; the punching device respectively punches the front or rear overlapped panels, the breathable shielding cloth, the fixed connecting sheet and the breathable shielding sheet; the cut materials are conveyed to the stations of corresponding workers one by one through the transfer device, so that the workers can process the materials conveniently; according to the invention, materials are transferred through the transfer device, so that the process of manually transporting the materials is reduced, the processing operation is simpler and quicker, the automation degree is high, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic view of the present invention relating to a processing technology of a sports wear and a structure of the sports wear for opening a first vent hole of a production line;

FIG. 2 is a schematic view of a first vent sealing structure of the sports wear in the processing technology and assembly line of the sports wear according to the present invention;

FIG. 3 is a schematic sectional view showing the connection of the main body of the sports wear, the fixing connecting piece, the air-permeable shielding piece and the air-permeable shielding cloth according to the processing technique and the assembly line of the sports wear of the present invention;

FIG. 4 is a schematic perspective view of a manufacturing process of a sports wear and a manufacturing line of the manufacturing line according to the present invention;

FIG. 5 is a schematic perspective view of a cutting device of the present invention for a sports wear processing technology and a production line;

FIG. 6 is a schematic structural diagram of a punching device of a processing technology and a production line of a sports wear according to the present invention;

fig. 7 is a schematic perspective view of a circular conveying device of a processing technology and a production line of a sports wear according to the present invention.

In the figure: 1-front panel, 2-breathable shielding cloth, 11-first breathable part, 21-second breathable part, 3-fixed connecting piece, 31-third breathable part, 4-breathable shielding piece, 41-fourth breathable part, 12-movable connecting part, 10-side opening buckle component, 111-first breathable hole, 211-second breathable hole, 212-sealing cloth, 311-third breathable hole, 312-first sealing piece, 411-fourth breathable hole, 412-second sealing piece, 101-female buckle component, 102-male buckle component, 1011-breathable female buckle, 1021-breathable male buckle, 5-cutting device, 6-sewing device, 51-cutting component, 52-material conveying device, 511-cutting head, 512-first power driving device, 5111-cutting tip, 5121-first lifting drive device, 5122-first moving drive device, 5123-second moving drive device, 521-conveying belt, 522-sliding component, 5221-first sliding part, 5222-second sliding part, 5223-first sliding groove, 5224-second sliding groove, 7-transfer device, 71-first feeding device, 72-transition table, 711-first electrostatic adsorption plate, 712-second power drive device, 73-transfer table, 74-second feeding device, 75-circulating conveying device, 741-second electrostatic adsorption plate, 742-third power drive device, 751-clamping device, 752-circulating component, 7511-clamping part, 75111-first clamping claw, 75112-second clamping claw, 7521-conveyor belt, 7522-first frame, 7523-second frame, 7524-rotating wheel, 7525-transmission drive, 75231-second endless track, 75251-transmission motor, 75221-first fixed plate, 75222-second fixed plate, 8-sorting device, 81-third electrostatic adsorption disk, 82-fourth power drive, 83-sorting box, 9-punching device, 91-punching assembly, 911-punching tool bit, 912-punching drive, 9121-connecting plate, 9122-punching cylinder, 92-blowing device, 921-connecting seat, 9211-air inlet, 93-guide member, 94-worktable, 931-first guide plate, 932-second guide plate, 933-third guide plate, 95-movable tightening part, 951-a jacking block, 952-a jacking driving device, 96-a support frame, 961-a first support plate and 97-a waste collection box.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 7, the processing technology of the sports wear of the present invention includes the following steps:

(1) cutting the fabric according to a design drawing, and cutting the fabric into a front panel 1, a rear panel and a breathable shielding cloth 22;

(2) punching a hole on the front panel 1 or the rear panel to form a first air-permeable part 11, punching a hole on the air-permeable shielding cloth 2 to form a second air-permeable part 21 corresponding to the first air-permeable part 11;

(3) cutting artificial leather according to a design drawing, and cutting the artificial leather into a fixed connecting sheet 3 and a breathable shielding sheet 4;

(4) punching a hole on the fixed connecting sheet 3 to form a third air-permeable part 31 corresponding to the first air-permeable part 11, and punching a hole on the air-permeable shielding sheet 4 to form a fourth air-permeable part 41 corresponding to the first air-permeable part 11;

(5) sewing the fixed connecting sheet 3 on the first ventilating part 11, and overlapping the first ventilating part 11 and the third ventilating part 31 together to form a first sewing piece;

(6) sewing the air-permeable shielding cloth 2 on the air-permeable shielding sheet 4, and overlapping the second air-permeable part 21 and the fourth air-permeable part 41 together to form a second sewing piece;

(7) the fixed connecting sheet 3 and the air-permeable shielding sheet 4 are connected together through a movable connecting part 12;

(8) sewing the front panel 1 and the rear panel together by a sewing device 6 to form a garment body;

(9) the second seam is attached to the garment body by the side release button assembly 10.

Thus, the fixed connecting piece 3 and the clothes main body are sewed together, and the third air hole 311 of the fixed connecting piece 3 and the first air hole 111 of the clothes main body are overlapped together to form a first sewed piece; the air permeable shielding piece 4 and the air permeable shielding cloth 2 are sewn together, and the second air vent 211 and the fourth air vent 411 are overlapped together to form a second sewn piece; the first sewing piece and the second sewing piece are connected through a movable connecting part 12, the second sewing piece is connected with the clothes main body through a side-opening buckle component 10, and at the moment, the first air hole 111, the second air hole 211, the third air hole 311 and the fourth air hole 411 are overlapped together, so that the clothes main body is in a ventilation state; through the movable connecting part 12, when people do not need to enhance the air permeability of the clothes main body, the limit of the side-release buckle assembly 10 is released, the second sewing piece moves downwards under the action of gravity, the movable connecting part 12 is attached to the clothes main body, the second sewing piece is driven to be gradually attached to the clothes main body, the second seal of the air-permeable shielding piece 4 is overlapped with the first air hole 111 and the third air hole 311, and the effect of sealing the first air hole 111 is achieved; when people feel dry heat gradually during the exercise, the second sewing piece is pulled upwards to be connected with the clothes main body through the side-opening buckle assembly 10, so that the first air hole 111, the second air hole 211, the third air hole 311 and the fourth air hole 411 are overlapped together, the clothes main body is in a ventilation state, the ventilation performance of the sports clothes is enhanced, the sweat releasing and the body heat control are facilitated, the fixed connecting sheet 3 and the ventilating shielding sheet 4 are made of artificial leather, and the fixed connecting sheet 3 is covered on the first ventilating part 11, so that when the human body moves, the first ventilation hole 111 is deformed, thereby preventing the ventilation effect from being weakened due to the deformation of the first ventilation hole 111, meanwhile, the second sealing sheet 412 has better effect when sealing the first air holes 111, and the air-permeable shielding cloth 2 is connected with the air-permeable shielding sheet 4 to shield the artificial leather, so that the clothes are beautiful; according to the invention, the first sewing piece and the second sewing piece are matched through the movable connecting part 12, so that the purposes of opening the first air hole 111 and completely closing the first air hole 111 are achieved, the heat on the body of people is volatilized more easily, the pleasant mood is kept while the body is exercised, meanwhile, the artificial leather is used as a manufacturing material, the deformation of the first air hole 111 is avoided, and the sealing effect is improved.

Preferably, in the step (2), a plurality of first ventilation holes 111 are punched on the first ventilation part 11, and the plurality of first ventilation holes 111 are arranged in a matrix; a plurality of second ventilation holes 211 corresponding to the first ventilation holes 111 one by one are punched on the second ventilation holes 211, and a sealing cloth 212 for sealing the first ventilation holes 111 is formed between the adjacent second ventilation holes 211. The plurality of first ventilation holes 111 are arranged, so that the ventilation performance of the sports clothes is enhanced.

Preferably, in the step (4), a plurality of third ventilation holes 311 corresponding to the first ventilation holes 111 one by one are punched on the third ventilation part 31, and a first sealing sheet 312 for sealing the second ventilation holes 211 is formed between the adjacent third ventilation holes 311; a plurality of fourth ventilation holes 411 corresponding to the first ventilation holes 111 one by one are punched on the fourth ventilation part 41, and a second sealing sheet 412 for sealing the first ventilation holes 111 is formed between the adjacent fourth ventilation holes 411. When the first vent 111, the second vent 211, the third vent 311 and the fourth vent 411 are overlapped together, the clothes body is in a state of enhancing ventilation; when the second sealing sheet 412 and the sealing cloth 212 are overlapped with the first airing hole 111 and the third airing hole 311, the clothes are in a normal airing state.

Preferably, in the step (7), the movable connecting portion 12 includes a plurality of movable webs sewn between each first closing sheet 312 and the second closing sheet 412 corresponding to the first closing sheet 312; one end of the movable mesh cloth is sewn with the first closing sheet 312, and the other end of the movable mesh cloth is sewn with the second closing sheet 412. Through the movable mesh, the air-permeable shielding sheet 4 is gradually attached to the surface of the garment body when moving downwards under the action of gravity, so that the second sealing sheet 412 seals the first air hole 111.

Preferably, in order to make the connection between the movable web and the first and second closure panels 312 and 412 more stable, the movable web extends along the length of the garment body.

Preferably, the width dimension of the moving web is equal to the vertical length dimension between the position of the moving web on the second closing sheet 412 and the axis of the downwardly adjacent fourth airing hole 411. So that the second sealing sheet 412 completely seals the first airing hole 111.

Preferably, in step (9), the female buckle assembly 101 and the second sewing member of the side buckle assembly 10 are sewn together, and the sub-buckle assembly 102 of the side buckle assembly 10 and the garment body are sewn together. The opening and closing of the first air hole 111 are controlled through the matching of the female buckle component 101 and the male buckle component 102 of the side-opening buckle component 10, so that the effect of adjusting the air permeability of the sports clothes is achieved.

Preferably, in order to facilitate adjustment of the air permeability of the sports garment, the female button assembly 101 includes an air permeable female button 1011, and the air permeable female button 1011 is sewn to an upper portion of the outer side surface of the air permeable blocking cloth 2.

Preferably, in order to adjust the air permeability of the sports garment, the sub-buckle assembly 102 includes an air permeable sub-buckle 1021, and the air permeable sub-buckle 1021 is sewn on the top of the first air permeable portion 11.

Preferably, in order to make the attaching structure of the second seam on the garment main body more stable, the second seam has a first side edge, a second side edge, a third side edge and a fourth side edge which are adjacently arranged in sequence; the second side edge is sewn to the garment body on one side of the first breathable portion 11, and the fourth side edge is sewn to the garment body on the other side of the first breathable portion 11.

Preferably, the first vent hole 111 of the front panel 1 or the rear panel, the second vent hole 211 of the breathable shielding cloth 2, the third vent hole 311 of the fixed connection sheet 3, and the fourth vent hole 411 of the breathable shielding sheet 4 are processed by the punching device 9; the front panel 1 or the rear panel, the breathable shielding cloth 2, the fixed connecting sheet 3 and the breathable shielding sheet 4 are orderly stacked in sequence respectively, after the stacked materials are placed on a workbench 94 of the punching device 9 one by one, the punching driving device 912 drives the punching tool bit 911 to move downwards, the front panel 1 or the rear panel is punched with the first air holes 111, the breathable shielding cloth 2 is punched with the second air holes 211, the fixed connecting sheet 3 is punched with the third air holes 311, and the breathable shielding sheet 4 is punched with the fourth air holes 411.

A processing line of sports wear comprises a cutting device 5 for cutting fabric into a front panel 1, a rear panel and a breathable shielding cloth 2, and cutting artificial leather into a fixed connecting sheet 3 and a breathable shielding sheet 4; a punching device 9 for punching a first air hole 111 on the front panel 1 or the rear panel, punching a second air hole 211 on the air permeable shielding cloth 2, punching a third air hole 311 on the fixed connecting sheet 3, and punching a fourth air hole 411 on the air permeable shielding sheet 4; and a sewing device 6 for sewing the materials.

Thus, the fabric and the artificial leather are cut into a preset shape according to a design drawing through the cutting device 5, and the front panel 1, the rear panel, the breathable shielding cloth 2, the fixed connecting sheet 3 and the breathable shielding sheet 4 are respectively cut through the cutting device 5; the punching device 9 respectively punches the front panel 1 or the rear panel, the breathable shielding cloth 2, the fixed connecting sheet 3 and the breathable shielding sheet 4 which are stacked; the cut materials are conveyed to the stations of corresponding workers one by one through the transfer device 7, so that the workers can process the materials conveniently; according to the invention, materials are transferred through the transfer device 7, so that the process of manually transporting the materials is reduced, the processing operation is simpler and quicker, the automation degree is high, and the processing efficiency is improved.

Preferably, the cutting means 5 comprise a cutting assembly 51 for cutting the fabric and the artificial leather, and a material conveying means 52 for conveying the fabric and the artificial leather. After the fabric and the artificial leather are cut into a required shape according to a design drawing by the cutting assembly 51, the cut fabric and artificial leather are gradually output by the material conveying device 52.

Preferably, the cutting assembly 51 comprises a cutting head 511, and a first power driving device 512 for driving the cutting head 511 to move; the output of the first power drive 512 is connected to the cutting head 511. The cutting head 511 is driven by the first power driving device 512 to move according to a preset track, and a required shape is cut.

Preferably, in order to cut the fabric and the artificial leather into a desired shape more precisely, the bottom end of the cutting head 511 is provided with a cutting tip 5111 for cutting the fabric and the artificial leather.

Preferably, the first power driving means 512 includes a first elevation driving means 5121 for driving the cutting tip 5111 to move up and down, a first movement driving means 5122 for driving the cutting tip 5111 to move left and right, and a second movement driving means 5123 for driving the cutting tip 5111 to move back and forth; the output end of the first elevation driving unit 5121 is connected to the cutting head 511, the output end of the first movement driving unit 5122 is connected to the first elevation driving unit 5121, and the output end of the second movement driving unit 5123 is connected to the first movement driving unit 5122. The cutting shear tip 5111 is displaced in the up, down, left, right, front and rear directions by the first lifting driving device 5121, the first moving driving device 5122 and the second moving driving device 5123; specifically, the first lifting driving device 5121 is a lifting cylinder, and the output end of the lifting cylinder is connected with the cutting head 511, so as to achieve the purpose of moving the cutting tip 5111 up and down, the first moving driving device 5122 is a first moving cylinder for driving the cutting tip 5111 to move left and right, and the second moving driving device 5123 is a second moving cylinder for driving the cutting tip 5111 to move back and forth.

Preferably, the material conveying device 52 comprises a conveying belt 521 and a conveying driving device for driving the conveying belt 521 to convey. The conveying belt 521 is driven by the conveying driving device, so that the cut materials are gradually output by the conveying belt 521.

Preferably, the conveying driving device comprises a driving roller, a driven roller and a conveying motor; the conveyer belt 521 is wound around the driving roller and the driven roller, and the output end of the conveyer motor is connected with the driving roller. When the conveying motor is started, the driving roller drives the conveying belt 521 to rotate, and the conveying belt 521 rotates to drive the driven roller to rotate, so that the whole transmission mechanism stably operates.

Preferably, in order to make the operation of the cutting assembly 51 more stable, the material conveying device 52 further comprises a sliding assembly 522 slidably connected with the first power driving device 512.

Preferably, in order to make the operation of the cutting assembly 51 more stable, the sliding assembly 522 includes a first sliding portion 5221 and a second sliding portion 5222; the first sliding portion 5221 is disposed on one side of the conveying belt 521, and the second sliding portion 5222 is disposed on the other side of the conveying belt 521.

Preferably, in order to stabilize the operation of the cutting assembly 51, the first sliding portion 5221 is provided with a first sliding groove 5223 for the first power driving device 512 to slide; the second sliding portion 5222 is provided with a second sliding groove 5224 for the first power driving device 512 to slide; the first power driving means 512 is slidably coupled to the sliding member 522 through the first and second sliding grooves 5223 and 5224.

Preferably, the punching device 9 comprises a punching assembly 91 for punching the material. The first vent hole 111, the second vent hole 211, the third vent hole 311 and the fourth vent hole 411 are punched through the punching assembly 91.

Preferably, the punch assembly 91 includes a plurality of punch tips 911 for punching; the interior of the punching tool bit 911 is hollow, and the bottom end of the punching tool bit 911 forms an inlet for excess waste to enter; a plurality of punch blades 911 are arranged in a matrix arrangement. When the punching tool bit 911 moves downwards to punch the stacked materials, the punched waste materials are contained in the punching tool bit 911; specifically, the punch blade 911 is a cylindrical punch blade 911.

Preferably, the punch assembly 91 further comprises punch drive means 912 for driving the punch tip 911 downwardly. The punching driving device 912 drives the punching tool 911 to move downwards to perform a punching action.

Preferably, the punching driving device 912 includes a connection plate 9121, and a punching cylinder 9122 driving the connection plate 9121 to move downward; one end of a plurality of punching tool bits 911 is connected with the bottom end of connecting plate 9121. The punching cylinder 9122 drives the connecting plate 9121 to move downwards, and the connecting plate 9121 drives the punching tool bit 911 to move downwards for punching.

Preferably, the punching device 9 further comprises a blowing device 92 for blowing the waste inside the punching head 911; the blowing device 92 comprises a connecting seat 921 and a blowing device for inputting air to the connecting seat 921; an air inlet 9211 connected with the blowing device is formed in the connecting seat 921, an air cavity for containing air is formed in the connecting seat 921, and the air inlet 9211 is communicated with the air cavity; the setting of laminating mutually of the upper surface of connecting plate 9121 and the lower surface of connecting seat 921, the top of the tool bit 911 that punches a hole forms the inlet port that the air got into, and the tool bit 911 that punches a hole is linked together through the wind chamber of connecting plate 9121 and connecting seat 921. Blow up in the wind cavity of connecting seat 921 through blowing up the device, make the inside waste material of punching tool bit 911 fly out from the entry of bottom, be convenient for discharge the waste material in punching tool bit 911.

Preferably, the air blowing device comprises an air compressor; the air compressor is connected with the air inlet 9211 through a connecting pipe. The air compressor machine blows up to air inlet 9211 through the connecting pipe, makes the wind cavity fill with gas, makes inside gas towards each tool bit 911 that punches a hole, blows off the waste material of the inside tool bit 911 that punches a hole from the entry of bottom gradually.

Preferably, in order to prolong the service life of the punching head 911 and make the structure of the punching head 911 more stable, the punching device 9 further includes a guide member 93 for guiding the punching head 911.

Preferably, the guide member 93 includes a first guide plate 931, the first guide plate 931 is provided with a plurality of guide holes corresponding one to each of the punching bits 911, and the first guide plate 931 is provided at a lower portion of the punching bit 911 through each of the guide holes. Make the difficult emergence of the tool bit 911 that punches a hole through first deflector 931, the life of the tool bit 911 that punches a hole is prolonged.

Preferably, in order to make the operation of the punching head 911 more stable and more accurate, the guide member 93 further includes a second guide plate 932 and a third guide plate 933 disposed perpendicularly to the first guide plate 931; connecting seat 921, connecting plate 9121 and the tool bit 911 that punches a hole all locate between second deflector 932 and third deflector 933, and the one end of connecting seat 921 and connecting plate 9121 all with the inside wall sliding connection of second deflector 932, the other end of connecting seat 921 and connecting plate 9121 all with the inside wall sliding connection of third deflector 933.

Preferably, in order to facilitate the punching operation, the punching device 9 further comprises a work table 94 for placing the stacked materials; the table 94 is disposed below the first guide plate 931.

Preferably, in order to enable the material to be in a tightly-jacking state in the punching process and enable the air holes of the material to be higher in precision, a groove is formed in the upper surface of the workbench 94, and a movable tightly-jacking portion 95 which is connected with the groove in a sliding mode and enables the material to be tightly jacked upwards is arranged in the groove.

Preferably, the movable tightening part 95 comprises a tightening block 951 for upwards tightening the material, and a tightening driving device 952 for driving the tightening block 951 to move upwards; the tightening block 951 is provided with a plurality of through holes for the punching heads 911 to pass through, the tightening block 951 forms a projection area on the plane of the workbench 94, and the projections of the punching heads 911 on the plane of the workbench 94 are all in the projection area range. The material is placed on the tightening block 951, the tightening driving device 952 drives the tightening block 951 to move upwards, and the tightening block 951 moves upwards to enable the material to be in contact with the lower surface of the first guide plate 931, so that the material is clamped between the tightening block 951 and the first guide plate 931, the punching tool bit 911 can punch holes conveniently, and the punching precision is improved; specifically, the jacking driving device is a jacking air cylinder.

Preferably, in order to make the structure of the punching device 9 more stable, the punching device 9 is provided with a support frame 96; a support frame 96 is provided on the upper surface of the table 94; the supporting frame 96 comprises a first supporting plate 961, the punching cylinder 9122 is installed on the upper surface of the first supporting plate 961, and the output end of the punching cylinder 9122 penetrates through the first supporting plate 961 and is connected with the top end of the connecting seat 921; a connection hole communicated with the air inlet 9211 is formed on the upper surface of the first support plate 961; the guide member 93 is provided at the bottom end of the first support plate 961.

Preferably, the punching device 9 is also provided with a scrap collecting box 97 for collecting the punched scrap; the opening of the scrap collecting box 97 is upward, and the scrap collecting box 97 is provided below the table 94. When the material that stacks is put on workstation 94, the cylinder 9122 that punches a hole drives connecting seat 921 downstream, drive connecting plate 9121 downstream, connecting plate 9121 drives the action that punches a hole tool bit 911 downstream to the material that stacks, after punching a hole, the tool bit 911 that punches a hole keeps the position after punching a hole downwards, the waste material after punching a hole gets into in the inside cavity of drift tool bit, start the air compressor machine input gas this moment, make gaseous entering the plenum, the waste material in the tool bit 911 that will punch a hole blows off, fall into in the garbage collection box 96, be convenient for collect the waste material, keep operational environment's clean and tidy.

Preferably, in order to ensure that the blown waste material falls into the waste collection box 97, a plurality of through holes are located inside the opening of the waste collection box 97.

Preferably, the sewing device 6 comprises a sewing machine. The worker sews the front panel 1 or the rear panel on which the first air holes 111 are processed with the fixed connecting sheet 3 through a sewing machine to form a first sewing piece; the air-permeable shielding piece 4 and the air-permeable shielding cloth 2 are sewn together to form a second sewing piece; the first and second stitching members are stitched together by means of a moving grid, and finally the front and rear panels 1 are stitched together.

Preferably, in order to improve the material transfer efficiency, the device further comprises a transfer device 7 for transferring each cut material and the material to be sewn after punching.

Preferably, the transfer device 7 comprises a first feeding device 71 for transferring the cut material and a transition table 72 for placing the cut material. The materials cut by the cutting device 5 are sucked and placed on the transition table 72 through the first feeding device 71, and various materials on the transition table 72 are respectively overlapped together by a worker, so that subsequent punching or sewing is facilitated.

Preferably, the first feeding device 71 includes a first electrostatic adsorption plate 711 for sucking the material, and a second power driving device 712 for driving the first electrostatic adsorption plate 711 to move. The first electrostatic adsorption disc 711 is driven to the material to be picked up through the second power driving device 712, the first electrostatic adsorption disc 711 adsorbs the cut front panel 1, rear panel, breathable shielding cloth 2, fixed connecting sheet 3 and breathable shielding sheet 4, and all the materials are transferred to the transition table 72; specifically, the second power driving means 712 includes a first connection arm, a second connection arm, a first motor, a second motor, a third motor, and a first rotary cylinder, one end of the first connection arm and one end of the second connection arm are hinged together, the other end of the first connection arm and the first electrostatic adsorption disk 711 are hinged together, the first motor is disposed at the hinged position of the first connection arm and the first electrostatic adsorption disk 711, used for controlling the rotation angle of the first electrostatic adsorption disc 711, the second motor is arranged at the hinge joint of the first connecting arm and the second connecting arm, for controlling the longitudinal displacement of the first electrostatic adsorption disk 711 via the first connecting arm, a third motor is provided at the other end of the second connecting arm, the first electrostatic adsorption disc 711 is driven by the first rotary cylinder to transfer back and forth between the fabric conveying device and the transition table 72.

Preferably, the transfer device 7 further comprises a transfer table 73 on which the material to be sewn is placed, a second feeding device 74 which picks up the material on the transfer table 73, and an endless conveying device 75 which transports the material to be sewn. When the worker puts the punched materials and the materials which do not need to be punched on the transfer table 73, the second feeding device 74 picks up the materials to be sewn and puts the materials on the circulating conveying device 75, so that the materials are circularly conveyed to the working position of the sewing machine, and the worker on the sewing machine can take the materials conveniently.

Preferably, the second feeding device 74 includes a second electrostatic adsorption disc 741 sucking the material, and a third power driving device 742 driving the second electrostatic adsorption disc 741 to move. The second electrostatic adsorption disc 741 is driven to the transfer table 73 by the third power driving device 742, the second electrostatic adsorption disc 741 adsorbs the material to be sewn, and transfers the material to be sewn to the circulating conveyor 75 one by one; specifically, the third power driving device 742 includes a third connecting arm, a fourth motor, a fifth motor, a sixth motor, and a second rotating cylinder, one end of the third connecting arm and one end of the fourth connecting arm are hinged together, the other end of the third connecting arm and the second electrostatic adsorption disc 741 are hinged together, the fourth motor is disposed at the hinged position of the third connecting arm and the second electrostatic adsorption disc 741, used for controlling the rotation angle of the second electrostatic adsorption disc 741, a fifth motor is arranged at the hinge joint of the third connecting arm and the fourth connecting arm, for controlling the second electrostatic adsorption disc 741 to longitudinally displace by the third connecting arm, a sixth motor is provided at the other end of the fourth connecting arm, for controlling the lateral displacement of the second electrostatic chuck 741 through the fourth connecting arm, the second electrostatic chuck 741 is driven by the second rotary cylinder to be transferred back and forth between the transfer stage 73 and the endless conveyor 75.

Preferably, the circulating conveyor 75 includes a gripper 751 for receiving the material picked up by the second feeding device 74, and a circulating assembly 752 for circulating the gripper 751. After the second electrostatic adsorption disc 741 moves the material to the predetermined position, the material is clamped by the clamping device 751 and conveyed to the corresponding station of the sewing machine through the circulating assembly 752.

Preferably, the grasping device 751 comprises a plurality of grasping portions 7511 for grasping material; the gripping section 7511 includes a first gripping claw 75111, a second gripping claw 75112, and a closing drive device that drives the first gripping claw 75111 and the second gripping claw 75112 to close. The closing driving device drives the first clamping claw 75111 and the second clamping claw 75112 to close, so that the materials are clamped; specifically, the closing driving device is a bidirectional closing cylinder, and the bidirectional closing cylinder drives the first clamping claw 75111 and the second clamping claw 75112 to clamp the material by respectively installing the first clamping claw 75111 and the second clamping claw 75112 at two output ends of the bidirectional closing cylinder.

Preferably, the circulating assembly 752 includes a conveyor belt 7521, a first frame 7522, a second frame 7523, a rotating wheel 7524, and a transmission drive 7525 for driving the conveyor belt 7521 to transmit; the first frame body 7522 and the second frame body 7523 are arranged in a closed loop, the conveyor belt 7521 is arranged between the first frame body 7522 and the second frame body 7523, a first annular track for the rotating wheel 7524 to slide is arranged on the lower surface of the first frame body 7522, a second annular track 75231 for the rotating wheel 7524 to slide is arranged on the upper surface of the second frame body 7523, and a gap for the rotating wheel 7524 to roll is formed between the first frame body 7522 and the second frame body 7523; an axis of the rotating wheel 7524 is horizontally disposed and installed between the first frame body 7522 and the second frame body 7523, and a plurality of gripping parts 7511 are installed on the conveyor belt 7521 through the rotating wheel 7524 by a connecting rod and are disposed at equal intervals around the conveyor belt 7521. The conveying belt 7521 is connected with the connecting rod, the transmission driving device 7525 drives the conveying belt 7521 to rotate, the conveying belt 7521 drives the connecting rod to rotate, the connecting rod drives the clamping portion 7511 to circularly convey materials around the conveying belt 7521, the rotating wheel 7524 moves through the first annular track on the first frame body 7522 and the second annular track 75231 on the second frame body 7523, gravity borne by the connecting rod is borne by the rotating wheel 7524 and the second frame body 7523, and the movement of the conveying clamping portion 7511 of the conveying belt 7521 is more stable.

Preferably, the transmission driving device 7525 includes a driving wheel, a driven wheel, and a transmission motor 75251 for driving the driving wheel to rotate; a first fixing plate 75221 is arranged on one side of the first frame body 7522, a second fixing plate 75222 is arranged on the other side of the first frame body 7522, the driving wheel is mounted at the bottom end of the first fixing plate 75221 and is rotatably connected with the first fixing plate 75221, and the driven wheel is mounted at the bottom end of the second fixing plate 75222 and is rotatably connected with the second fixing plate 75222; the transmission belt 7521 is wound around the driving wheel and the driven wheel, and the output end of the transmission motor 75251 penetrates through the first fixing plate 75221 and is connected with the driving wheel. The overall strength of the driving wheel and the driven wheel is respectively enhanced through the first fixing plate 75221 and the second fixing plate 75222, the motor drives the driving wheel to rotate, the driving wheel rotates to drive the conveying belt 7521 to rotate, the conveying belt 7521 rotates to drive the driven wheel to rotate, and the purpose of material circulating conveying is achieved.

Preferably, in order to collect the surplus materials after cutting, a sorting device 8 for sorting the surplus fabrics and artificial leathers after cutting is also included.

Preferably, the sorting device 8 comprises a third electrostatic adsorption disc 81 for sucking the redundant materials and a fourth power driving device 82 for driving the third electrostatic adsorption disc 81 to move. The fourth power driving device 82 drives the third electrostatic adsorption disc 81 to adsorb redundant materials; specifically, the fourth power driving device 82 includes a fifth connecting arm, a sixth connecting arm, a seventh motor, an eighth motor, a ninth motor and a third rotating cylinder, one end of the fifth connecting arm is hinged to one end of the sixth connecting arm, the other end of the fifth connecting arm is hinged to the third electrostatic adsorption disk 81, the seventh motor is disposed at the hinged position of the fifth connecting arm and the third electrostatic adsorption disk 81 and is used for controlling the rotation angle of the third electrostatic adsorption disk 81, the eighth motor is disposed at the hinged position of the fifth connecting arm and the sixth connecting arm and is used for controlling the longitudinal displacement of the third electrostatic adsorption disk 81 through the fifth connecting arm, the ninth motor is disposed at the other end of the sixth connecting arm and is used for controlling the transverse displacement of the third electrostatic adsorption disk 81 through the sixth connecting arm, the third rotating cylinder drives the third electrostatic adsorption disk 81 to rotate to the direction of the conveying belt 521 of the material conveying device 52 to suck up redundant material, after the third electrostatic adsorption plate 81 adsorbs the redundant materials, the third electrostatic adsorption plate rotates to the position of the sorting box 83, and the redundant materials are placed in the sorting box 83.

Preferably, to facilitate centralized processing after collection of the surplus material, the sorting device 8 further comprises a sorting bin 83 for collecting the surplus material.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (10)

1. A processing technology of sports clothes is characterized by comprising the following steps:

(1) cutting the fabric according to a design drawing, and cutting the fabric into a front panel, a back panel and breathable shielding cloth;

(2) punching holes on the front or rear panel to form a first air-permeable part, punching holes on the air-permeable shielding cloth, and forming a second air-permeable part corresponding to the first air-permeable part;

(3) cutting artificial leather according to a design drawing, and cutting the artificial leather into a fixed connecting sheet and a breathable shielding sheet;

(4) punching a hole on the fixed connecting sheet to process a third air-permeable part corresponding to the first air-permeable part, and punching a hole on the air-permeable shielding sheet to process a fourth air-permeable part corresponding to the first air-permeable part;

(5) sewing and covering the fixed connecting sheet on the first ventilating part, and overlapping the first ventilating part and the third ventilating part together to form a first sewing piece;

(6) sewing and covering the breathable shielding cloth on the breathable shielding sheet, and overlapping the second breathable part and the fourth breathable part to form a second sewing piece;

(7) the fixed connecting sheet and the breathable shielding sheet are connected together through a movable connecting part;

(8) sewing the front panel and the back panel together by a sewing device to form a garment body;

(9) the second seam is attached to the garment body by a side release fastener assembly.

2. The processing technology of the sports wear according to claim 1, characterized in that: in the step (2), a plurality of first air holes are punched on the first air permeable part, and the first air holes are arranged in a matrix; and a plurality of second air holes which are in one-to-one correspondence with the first air holes are punched on the second air holes, and a sealing cloth for sealing the first air holes is formed between the adjacent second air holes.

3. The processing technology of the sports wear according to claim 2, characterized in that: in the step (4), a plurality of third air holes which correspond to the first air holes one by one are punched on the third air holes, and first sealing sheets for sealing the second air holes are formed between the adjacent third air holes; and a plurality of fourth air holes which are in one-to-one correspondence with the first air holes are punched on the fourth air hole part, and a second sealing sheet for sealing the first air holes is formed between the adjacent fourth air holes.

4. The processing technology of the sports wear according to claim 3, characterized in that: in the step (7), the movable connecting part comprises a plurality of movable net cloths sewed between each first closing sheet and the second closing sheet corresponding to the first closing sheet; one end of the movable mesh cloth is connected with the first closing piece in a sewing mode, and the other end of the movable mesh cloth is connected with the second closing piece in a sewing mode.

5. The processing technology of the sports wear according to claim 4, wherein the processing technology comprises the following steps: the movable mesh cloth extends along the length direction of the clothes main body.

6. The processing technology of the sports wear according to claim 5, characterized in that: the width dimension of the movable mesh cloth is equal to the vertical length dimension between the position of the movable mesh cloth on the second closing sheet and the axis of the downward adjacent fourth ventilation hole.

7. The processing technology of the sports wear according to claim 6, characterized in that: in step (9), the female buckle assembly of the side release buckle assembly and the second sewing member are sewn together, and the male buckle assembly of the side release buckle assembly and the garment body are sewn together.

8. The processing technology of the sports wear according to claim 7, characterized in that: the female buckle assembly comprises a breathable female buckle, and the breathable female buckle is sewn on the upper portion of the outer side face of the breathable shielding cloth.

9. The processing technology of the sports wear according to claim 8, wherein the processing technology comprises the following steps: the sub-buckle assembly comprises an air permeable sub-buckle, and the air permeable sub-buckle is sewn above the first air permeable part.

10. The process for manufacturing a sports garment according to claim 9, wherein: the second stitching piece is provided with a first side edge, a second side edge, a third side edge and a fourth side edge which are sequentially and adjacently arranged; the second side edge is sewn to the garment body on one side of the first breathable portion and the fourth side edge is sewn to the garment body on the other side of the first breathable portion.

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