CN112189928A - Automatic composite device for double-layer clothes - Google Patents

Abstract

The invention relates to an automatic double-layer clothes compounding device, which is used for compounding a fabric and a lining at least partially; the production line comprises a lining feeding part and a lining ironing part which are connected in a working procedure, a fabric feeding part and a fabric ironing part, a working procedure conveying belt, a pre-gluing machine, an ornament mounting device, an ornament bonding/welding machine, a sewing machine or a welding machine, an integral ironing machine, a detection camera and a drying machine; the lining feeding part is used for horizontally outputting the pre-cut lining; a lining ironing part for hot stamping the horizontally output lining; the fabric feeding part is the same as the lining feeding part in structure, is positioned above the lining feeding part and is used for horizontally outputting the pre-cut fabric; the invention has reasonable design, compact structure and convenient use.

Description

Automatic composite device for double-layer clothes

Technical Field

The invention relates to an automatic double-layer clothes compositing device.

Background

Corresponding to double-layer clothes, the double-layer clothes generally have lining and fabric, the lining and the fabric are sewn into a whole, then the clothes after being compounded are manufactured into different parts of the clothes, and then the clothes are sealed into a whole. The composite layer may be filled with down or cotton. Along with the improvement of living standard of people, people are higher and higher to the outward appearance and the comfort level of clothes, correspond autumn dress or winter dress, and the roughness in its use is a very important index. In order to avoid the conglomeration of the down feather in the using process, the two layers of fabrics are bonded by using viscose in the existing clothes, so that a plurality of subareas are formed, and the down feather or cotton is filled in each subarea, so that the aim of dividing the down feather and the cotton into small areas is fulfilled, and the conglomeration phenomenon of the down feather and the cotton in a large area can be reduced. However, because the two layers of fabrics are directly bonded by the hot melt adhesive layer or a plurality of small lattices are directly sewn between the two layers of fabrics, and then the down or cotton is filled in, the preparation method can cause that the down or cotton is not arranged at the positions of the sewing threads or the two sides of the hot melt adhesive layer, thereby causing poor heat insulation performance and influencing the use effect. At the same time, industry has also been seeking a method for simply and quickly preparing clothing.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic double-layer clothes compositing device.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

an automatic double-layer clothes compounding device is used for compounding fabric and lining at least partially; the production line comprises a lining feeding part and a lining ironing part which are connected in a working procedure, a fabric feeding part and a fabric ironing part, a working procedure conveying belt, a pre-gluing machine, an ornament mounting device, an ornament bonding/welding machine, a sewing machine or a welding machine, an integral ironing machine, a detection camera and a drying machine;

the lining feeding part is used for horizontally outputting the pre-cut lining;

a lining ironing part for hot stamping the horizontally output lining;

the fabric feeding part is the same as the lining feeding part in structure, is positioned above the lining feeding part and is used for horizontally outputting the pre-cut fabric;

the fabric ironing part is the same as the lining ironing part in structure and is positioned above the lining ironing part, and the fabric ironing part is used for carrying out hot stamping on the horizontally output fabric;

a process conveying belt for receiving the fabric of the fabric ironing part and the lining material output by the lining material ironing part; the fabric is positioned on the lining;

the pre-gluing machine is used for gluing at least part of the upper surface of the lining material to be bonded with the lower surface of the lining material and/or dispensing the upper surface of the lining material to be bonded with the lower surface of the ornament;

the ornament mounting device is used for conveying the ornament to the dispensing position on the upper surface of the fabric;

the ornament bonding/welding machine is used for bonding the ornament on the fabric;

the sewing machine or the welding part is used for combining the fabric and the lining into an integral clothing material according to a drawing;

the integral ironing machine is used for ironing the sewn fabric;

the detection camera is used for photographing to detect the surface evenness of the fabric;

and a dryer for drying the whole cloth.

As a further improvement of the above technical solution:

the device also comprises a separating device, an output pair roller assembly, a transfer manipulator, a storage device and a storage carrier which are connected in the working procedure;

the separating device cuts and cuts off the whole cloth at least longitudinally and outputs the cut cloth separately;

the output pair roller assembly outputs the prefabricated integral clothing material;

the transfer manipulator outputs the prefabricated integral clothing material from the process conveyor belt;

the storage device is of a conveyor belt structure; the storage device is provided with an idle load station, a feeding station and a full load station;

prefabricating a storage carrier at an idle station;

at a feeding station, the transfer manipulator places the whole cloth into a storage carrier;

and placing the storage carrier fully loaded with the whole clothes at the fully loaded station.

The lining feeding part comprises a plurality of lining transmission pair rollers and lining guide pair rollers; the upper rollers of the lining transmission pair rollers and the lining guide pair rollers are lifted and slide on the rack through lining balancing weights; the lining moves forwards through the gaps between the lining transmission pair rollers and the lining guide pair rollers;

the lining ironing part comprises a lining bonding/welding rack; a plurality of lining thermoprinting press rollers and lining output double rollers which are arranged at two sides of the lining thermoprinting press rollers and are provided with lining thermoprinting bulges are arranged on the lining bonding/welding rack;

a lining hot stamping head is arranged above or below the lining hot stamping press roller, lining output sliding seats which are lifted on a lining bonding/welding rack are arranged at two ends of an upper roller of a lining output double roller, and a lining output stroke bolt is arranged on the lining bonding/welding rack; the lower end of the lining output stroke bolt is used for abutting against the upper end of the lining output sliding seat; the lining passes through the space between the lining hot stamping press roller and the lining hot stamping head;

the structure of the fabric feeding part is the same as that of the lining feeding part;

the lining ironing part and the fabric ironing part have the same structure;

the pre-gluing machine is provided with a gluing machine head and a glue scraping plate;

the ornament mounting device comprises an ornament transverse slide rail above the process conveyor belt and an ornament feeding manipulator moving on the ornament transverse slide rail;

ornaments are stored at the input end of the ornament transverse slide rail.

The separating device comprises a damping roller; an integral guide inclined plane which is supported and swung by a spring rod is arranged at the output end of the damping roller, a middle rotary cutter is arranged at the output end of the integral guide inclined plane, and separated side guide surfaces are arranged on two sides of the middle rotary cutter; a rotary roller is matched above the integral guide inclined plane and the separated side guide plane to assist in driving;

the output pair roller assembly comprises a plurality of direction-changing horizontal output rollers for outputting the cut integral clothing material;

the storage carrier comprises a plurality of storage trays;

the storage device comprises a storage conveyor belt which is transversely arranged; the no-load station and the full-load station are provided with a storage photoelectric detector and a storage upper ejector rod; a storage transverse output wheel set is arranged on the storage upper ejector rod and used for conveying the storage carrier;

the output sides of the no-load station, the feeding station and the full-load station are provided with clamping devices; the clamping device comprises a storage upper ejector rod, a storage limiting swing arm and a storage longitudinal guide wheel, wherein one end of the storage upper ejector rod is hinged to the upper end of the storage upper ejector rod, the middle fulcrum of the storage limiting swing arm is arranged on the rack, and the storage longitudinal guide wheel is arranged at the other end of the storage limiting swing arm.

A double-layer clothes compounding process is used for compounding a fabric and a lining at least partially; by means of a double-layer garment automatic compositing device; the composite process comprises

S1, horizontally outputting the pre-cut lining through the lining transmission roller pair and the lining guide roller pair of the lining feeding part, and adjusting the tension of the lining through the lining balancing weight;

s2, firstly, carrying out hot stamping on the horizontally output lining through a lining ironing part; then, driving the pair rollers to send the lining materials to the process conveying belt; secondly, coating glue on the upper surface of the lining;

s3, horizontally outputting the pre-cut fabric through the fabric feeding part;

s4, firstly, hot stamping the horizontal output fabric through a fabric ironing part; then, driving the pair rollers to convey the fabric onto a process conveying belt; dispensing glue on the upper surface of the facing material through a pre-gluing machine to be bonded with the lower surface of the ornament;

s5, when the lining and the fabric completely reach the process conveyor belt, the process conveyor belt conveys the whole fabric; firstly, conveying the ornament to the dispensing position on the upper surface of the fabric for pre-bonding by an ornament feeding manipulator; then, the ornament bonding/welding machine combines the ornament on the fabric; secondly, a sewing machine or a welding part combines the fabric and the lining material into an integral clothing material according to a drawing; thirdly, ironing the sewn fabric by the integral ironing machine; then, detecting the flatness of the upper surface of the fabric by photographing through a camera; and then, the dryer dries the whole clothing material.

As a further improvement of the above technical solution:

s6, a separating device cuts and cuts the whole cloth at least longitudinally and outputs the cut cloth separately; firstly, the damping roller performs deceleration driving tensioning on the tidying cloth; then, the integral guide inclined plane elastically tensions the integral clothing material through the spring rod; secondly, the middle rotary cutter cuts the whole clothing material at least longitudinally; thirdly, the cut integral clothing material is automatically separated to two sides by separating the side guide surfaces; then, outputting the cut integral cloth by a direction-changing horizontal output roller;

s7, the transfer manipulator outputs the prefabricated whole cloth from the process conveyor belt;

s8, firstly, prefabricating a storage carrier at an idle station; then, at a feeding station, the transfer manipulator places the whole cloth into a storage carrier; and secondly, placing the storage carrier fully loaded with the whole clothes at a fully loaded station.

In S8, for the storage carrier in the forward movement, the upper storage ejector rod drives one end of the upper storage ejector rod to lift, so that the storage limiting swing arm swings to block or release the storage carrier;

at S8, at the full load station, first, the storage photodetector detects that the storage vehicle is in place; then, the upper storage ejector rod drives the transverse storage output wheel set to ascend so that the storage carrier is separated from the storage conveyor belt; secondly, the storage transverse output wheel set outputs the storage vehicle transversely.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic diagram of the use structure of the invention.

Fig. 2 is a schematic view of the lining feeding part structure of the present invention.

Fig. 3 is a schematic view of the structure of the damping roller of the present invention.

Fig. 4 is a schematic view of a storage carrier structure according to the present invention.

Wherein: 1. a lining feeding part; 2. a lining ironing part; 3. a fabric feeding part; 4. a fabric ironing part; 5. a process conveyor belt; 6. pre-gluing machine; 7. a garnish mounting device; 8. a decoration bonding/welding machine; 9. a sewing machine; 10. integral ironing machine; 11. detecting a camera; 12. a dryer; 13. a separating device; 14. an output pair roller assembly; 15. a transfer manipulator; 16. a storage device; 17. storing the carrier; 18. lining material transmission pair rollers; 19. the lining material is guided to the double rollers; 20. a lining balancing weight; 21. a lining bonding/welding machine frame; 22. stamping the lining material; 23. hot stamping and pressing a lining; 24. hot stamping a bulge on the lining; 25. a lining material output pair roller; 26. a lining material output sliding seat; 27. a lining output stroke bolt; 28. a gluing machine head; 29. a decoration transverse sliding rail; 30. ornament feeding manipulator; 31. a damping roller; 32. an integral guide slope; 33. a middle rotary cutter; 34. separating the side guide surfaces; 35. a direction-changing horizontal output roller; 36. a storage conveyor; 37. a storage tray; 38. storing the upper ejector rod; 39. a storage limit swing arm; 40. storing the longitudinal guide wheel; 41. storing the upper ejector rod; 42. storing the photodetector; 43. storing the set of lateral output wheels.

Detailed Description

As shown in fig. 1-4, the automatic double-layer clothing compounding device of the present embodiment is used for compounding at least part of the fabric and the lining; the process comprises a lining feeding part 1 and a lining ironing part 2 which are connected in a process, a fabric feeding part 3 and a fabric ironing part 4, a process conveying belt 5, a pre-gluing machine 6, an ornament mounting device 7, an ornament bonding/welding machine 8, a sewing machine 9 or a welding machine, an integral ironing machine 10, a detection camera 11 and a drying machine 12;

a lining feeding part 1 for horizontally outputting pre-cut lining;

a lining ironing part 2 for hot stamping the horizontally output lining;

the fabric feeding part 3 is the same as the lining feeding part 1 in structure, is positioned above the lining feeding part 1 and is used for horizontally outputting the pre-cut fabric;

a fabric ironing part 4 which has the same structure as the lining ironing part 2 and is positioned above the lining ironing part 2 for carrying out hot stamping on the horizontally output fabric;

a process conveyor belt 5 for receiving the fabric of the fabric ironing part 4 and the lining material output by the lining material ironing part 2; the fabric is positioned on the lining;

the pre-gluing machine 6 is used for gluing at least part of the upper surface of the lining material to be bonded with the lower surface of the lining material and/or dispensing glue on the upper surface of the lining material to be bonded with the lower surface of the ornament;

the ornament mounting device 7 is used for conveying the ornament to the dispensing position on the upper surface of the fabric;

an ornament bonding/welding machine 8 for bonding the ornament to the fabric;

the sewing machine 9 or a welding part is used for combining the fabric and the lining into an integral clothing material according to a drawing;

an integral ironing machine 10 for ironing the sewed fabric;

the detection camera 11 is used for photographing and detecting the flatness of the upper surface of the fabric;

and a dryer 12 for drying the entire cloth.

The device also comprises a separating device 13, an output pair roller assembly 14, a transfer manipulator 15, a storage device 16 and a storage carrier 17 which are connected in the process;

a separating device 13 for cutting and separating the whole cloth at least longitudinally and outputting the cut cloth;

an output pair roller assembly 14 for outputting the prefabricated integral cloth;

the transfer manipulator 15 outputs the prefabricated integral cloth from the process conveyor belt 5;

a storage device 16 in the form of a conveyor belt; the storage device 16 has an idle station, a loading station and a full-load station;

at the idle station, prefabricating a storage carrier 17;

at a feeding station, the transfer manipulator 15 places the whole cloth into a storage carrier 17;

at the full load station, the storage carrier 17 is placed full load of the entire garment.

The lining feeding part 1 comprises a plurality of lining transmission double rollers 18 and lining guide double rollers 19; the upper rollers of the lining transmission double roller 18 and the lining guide double roller 19 slide on the frame through the lining balancing weight 20; the lining material advances through the gap between the lining material transmission pair roller 18 and the lining material guide pair roller 19;

the lining material ironing part 2 comprises a lining material bonding/welding rack 21; a plurality of lining thermoprinting press rollers 23 and lining output pair rollers 25 which are arranged at two sides of the lining thermoprinting press rollers 23 and are provided with lining thermoprinting bulges 24 are arranged on the lining bonding/welding rack 21;

a lining hot stamping head 22 is arranged above or below the lining hot stamping press roller 23, lining output sliding seats 26 which are lifted on the lining bonding/welding rack 21 are arranged at two ends of an upper roller of the lining output double roller 25, and lining output stroke bolts 27 are arranged on the lining bonding/welding rack 21; the lower end of the lining output stroke bolt 27 is used for abutting against the upper end of the lining output sliding seat 26; the lining material passes through the space between the lining material hot stamping press roller 23 and the lining material hot stamping head 22;

the fabric feeding part 3 and the lining feeding part 1 have the same structure;

the lining ironing part 2 and the fabric ironing part 4 have the same structure;

the pre-gluing machine 6 is provided with a gluing machine head 28 and a glue scraping plate;

the ornament mounting device 7 includes an ornament lateral slide rail 29 above the process conveyor 5 and an ornament feeding robot 30 moving on the ornament lateral slide rail 29;

ornaments are stored at the input end of the ornament transverse slide rail 29.

The separating device 13 comprises a damping roller 31; an integral guide inclined plane 32 which is supported and swung by a spring rod is arranged at the output end of the damping roller 31, a middle rotary cutter 33 is arranged at the output end of the integral guide inclined plane 32, and separated side guide surfaces 34 are arranged on two sides of the middle rotary cutter 33; a rotary roller is provided above the integrated guide slope 32 and the divided side guide face 34 to assist driving;

the output pair roller assembly 14 comprises a plurality of direction-changing horizontal output rollers 35 for outputting the cut integral clothing material;

the storage carrier 17 includes a number of storage trays 37;

the storage device 16 includes a laterally disposed storage conveyor 36; the storage photoelectric detector 42 and the storage upper ejector rod 41 are arranged at the idle working position and the full working position; a storage transverse output wheel set 43 is arranged on the storage upper ejector rod 41 and is used for conveying the storage carrier 17;

the output sides of the no-load station, the feeding station and the full-load station are provided with clamping devices; the clamping device comprises a storage upper ejector rod 38, a storage limiting swing arm 39 and a storage longitudinal guide wheel 40, wherein one end of the storage limiting swing arm is hinged with the upper end of the storage upper ejector rod 38, the middle fulcrum of the storage limiting swing arm is arranged on the rack, and the storage longitudinal guide wheel 40 is arranged at the other end of the storage limiting swing arm 39.

The double-layer clothes compounding process is used for compounding the fabric and the lining at least partially; by means of a double-layer garment automatic compositing device; the composite process comprises

S1, horizontally outputting the pre-cut lining through the lining transmission roller 18 and the lining guide roller 19 of the lining feeding part 1, and adjusting the tension of the lining through the lining balancing weight 20;

s2, firstly, carrying out hot stamping on the horizontally output lining through the lining ironing part 2; then, the pair rollers are driven to send the lining materials to the process conveying belt 5; secondly, coating glue on the upper surface of the lining;

s3, horizontally outputting the pre-cut fabric through the fabric feeding part 3;

s4, firstly, hot stamping the horizontal output fabric through the fabric ironing part 4; then, the pair rollers are driven to feed the fabric to the process conveying belt 5; dispensing the upper surface of the fabric through a pre-gluing machine 6 to be bonded with the lower surface of the ornament;

s5, when the lining and the face fabric completely reach the process conveyor belt 5, the process conveyor belt 5 conveys the whole body; firstly, the ornament feeding manipulator 30 sends the ornament to the dispensing position on the upper surface of the fabric for pre-bonding; then, the ornament bonding/welding machine 8 bonds the ornament on the fabric; secondly, a sewing machine 9 or a welding part combines the fabric and the lining material into an integral clothing material according to a drawing; thirdly, the integral ironing machine 10 irons the sewed fabric; then, a detection camera 11 shoots to detect the surface evenness of the fabric; then, the dryer 12 dries the entire cloth.

S6, the separating device 13 cuts and cuts the whole cloth at least longitudinally and outputs the cut cloth separately; firstly, the damping roller 31 decelerates and drives the cleaned cloth to be tensioned; then, the integral guide inclined plane 32 elastically tensions the integral clothing material through the spring rod; secondly, the middle rotary cutter 33 cuts the whole clothing material at least longitudinally; thirdly, the cut integral cloth is automatically separated to two sides by the separated side guide surface 34; then, the cut integral cloth is output through a direction-changing horizontal output roller 35;

s7, the transfer manipulator 15 outputs the prefabricated integral cloth from the process conveyor belt 5;

s8, firstly, prefabricating the storage carrier 17 at an idle station; then, at a feeding station, the transfer manipulator 15 places the whole cloth into a storage carrier 17; next, at the full load station, the storage carrier 17 is placed full load of the entire garment.

In S8, for the preceding storage vehicle 17, the storage upper ejector rod 38 drives one end of the storage upper ejector rod 38 to lift, so that the storage limit swing arm 39 swings to block or release the storage vehicle 17;

at S8, at the full load station, first, the storage photodetector 42 detects that the storage carrier 17 is in place; the storage lift pins 41 then drive the storage lateral output wheel set 43 up to disengage the storage carriers 17 from the storage conveyor 36; next, the storage lateral output wheel set 43 outputs the storage vehicle 17 laterally.

According to the invention, the processes of automatic feeding, automatic conveying and the like are realized through a lining feeding part 1, a lining ironing part 2, a lining feeding part 3, a lining ironing part 4, a process conveying belt 5, a pre-gluing machine 6, an ornament mounting device 7, an ornament bonding/welding machine 8, a sewing machine 9, an integral ironing machine 10, a detection camera 11, a drying machine 12, a separating device 13, an output pair roller assembly 14, a transfer manipulator 15, a storage device 16 and a storage carrier 17, so that the automatic compounding of lining and outer materials is realized. The cost is reduced by purchasing matching equipment. The lining material transmission double roller 18, the lining material guide double roller 19 realize transmission, the lining material balancing weight 20 realizes automatic adjustment and tensioning, the lining material bonding/welding rack 21 realizes support, different schemes can be adopted corresponding to different cloth and the like, the lining material stamping head 22, the lining material stamping pressing roller 23 realize preprocessing and release stress, the lining material stamping bulge 24 is optimized and is convenient to separate, the lining material output double roller 25 assists, the lining material output sliding seat 26 realizes realization through a lining material output stroke bolt 27, the gluing machine head 28 realizes gap adjustment, the ornament transverse sliding rail 29, the ornament feeding manipulator 30 realizes the installation of ornaments, the damping roller 31, the integral guide inclined plane 32 facilitates the middle rotary cutter 33 to open the material, the separated side guide surface 34 realizes automatic separation, the diversion horizontal output roller 35 horizontally outputs, the storage conveyor belt 36 realizes process connection, the storage tray 37 realizes the feeding of the clothing material to the next process, the storage upper ejector rod 38, the storage limiting swing arm 39 and the storage longitudinal guide wheel 40 realize the control of the forward movement of the carrier, the friction force is reduced through the guide wheel, the storage upper ejector rod 41, the storage photoelectric detector 42 and the storage transverse output wheel set 43 are connected with the next procedure.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (4)

1. The utility model provides an automatic set composite of double-deck clothing which characterized in that: is used for compounding the fabric and the lining at least partially; the processing technology comprises a lining feeding part (1) and a lining ironing part (2) which are connected in a working procedure, a fabric feeding part (3) and a fabric ironing part (4), a working procedure conveying belt (5), a pre-gluing machine (6), an ornament mounting device (7), an ornament bonding/welding machine (8), a sewing machine (9) or a welding machine, an integral ironing machine (10), a detection camera (11) and a drying machine (12);

the lining feeding part (1) is used for horizontally outputting the pre-cut lining;

a lining ironing part (2) for hot stamping the horizontally output lining;

the fabric feeding part (3) has the same structure as the lining feeding part (1), is positioned above the lining feeding part (1), and is used for horizontally outputting the pre-cut fabric;

the fabric ironing part (4) is the same as the lining ironing part (2) in structure and is positioned above the lining ironing part (2) and used for carrying out hot stamping on the horizontally output fabric;

a process conveying belt (5) for receiving the fabric of the fabric ironing part (4) and the lining material output by the lining material ironing part (2); the fabric is positioned on the lining;

the pre-gluing machine (6) is used for gluing at least part of the upper surface of the lining material to be bonded with the lower surface of the lining material and/or dispensing glue on the upper surface of the lining material to be bonded with the lower surface of the ornament;

the ornament mounting device (7) is used for conveying the ornament to the dispensing position on the upper surface of the fabric;

an ornament bonding/welding machine (8) for bonding the ornament to the fabric;

the sewing machine (9) or a welding part is used for combining the fabric and the lining into an integral clothing material according to a drawing;

an integral ironing machine (10) for ironing the sewed fabric;

the detection camera (11) is used for photographing and detecting the flatness of the upper surface of the fabric;

and a dryer (12) for drying the whole cloth.

2. The double-layer clothing automatic compounding device according to claim 1, wherein: the device also comprises a separating device (13), an output roller pair assembly (14), a transfer manipulator (15), a storage device (16) and a storage carrier (17) which are connected in the process;

a separating device (13) which cuts and cuts the whole cloth at least longitudinally and outputs the cut cloth separately;

an output pair roller assembly (14) for outputting the prefabricated integral clothing material;

the transfer manipulator (15) outputs the prefabricated integral cloth from the process conveyor belt (5);

a storage device (16) in the form of a conveyor belt structure; the storage device (16) is provided with an idle station, a feeding station and a full-load station;

prefabricating a storage carrier (17) at an idle station;

at a feeding station, the transfer manipulator (15) places the whole cloth into a storage carrier (17);

and at the full-load working position, a storage carrier (17) full of the whole clothes is placed.

3. The double-layer clothing automatic compounding device according to claim 2, wherein: the lining feeding part (1) comprises a plurality of lining transmission pair rollers (18) and lining guide pair rollers (19); the upper rollers of the lining transmission pair roller (18) and the lining guide pair roller (19) slide on the frame in a lifting way through the lining balancing weight (20); the lining moves forward in the gap between the lining transmission pair roller (18) and the lining guide pair roller (19);

the lining ironing part (2) comprises a lining bonding/welding rack (21); a plurality of lining thermoprinting press rollers (23) and lining output pair rollers (25) which are arranged at two sides of the lining thermoprinting press rollers (23) and are provided with lining thermoprinting bulges (24) are arranged on the lining bonding/welding rack (21);

a lining hot stamping head (22) is arranged above or below the lining hot stamping press roller (23), lining output sliding seats (26) which are lifted on the lining bonding/welding rack (21) are arranged at two ends of an upper roller of a lining output double roller (25), and lining output stroke bolts (27) are arranged on the lining bonding/welding rack (21); the lower end of the lining output stroke bolt (27) is used for abutting against the upper end of the lining output sliding seat (26); the lining passes through the space between the lining hot stamping press roller (23) and the lining hot stamping head (22);

the fabric feeding part (3) and the lining feeding part (1) have the same structure;

the lining ironing part (2) and the fabric ironing part (4) have the same structure;

the pre-gluing machine (6) is provided with a gluing machine head (28) and a glue scraping plate;

the ornament mounting device (7) comprises an ornament transverse sliding rail (29) above the process conveyor belt (5) and an ornament feeding manipulator (30) moving on the ornament transverse sliding rail (29);

ornaments are stored at the input end of the ornament transverse slide rail (29).

4. The double-layer clothing automatic compounding device according to claim 3, wherein: the separating device (13) comprises a damping roller (31); an integral guide inclined plane (32) which is supported and swung by a spring rod is arranged at the output end of the damping roller (31), a middle rotary cutter (33) is arranged at the output end of the integral guide inclined plane (32), and separated side guide surfaces (34) are arranged on two sides of the middle rotary cutter (33); a rotary roller is matched above the integral guide inclined plane (32) and the separating side guide plane (34) to assist in driving;

the output pair roller assembly (14) comprises a plurality of direction-changing horizontal output rollers (35) for outputting the cut integral clothing material;

the storage carrier (17) comprises a plurality of storage trays (37);

the storage device (16) comprises a transversely arranged storage conveyor belt (36); a storage photoelectric detector (42) and a storage upper ejector rod (41) are arranged at an idle working position and a full working position; a storage transverse output wheel set (43) is arranged on the storage upper ejector rod (41) and is used for conveying the storage carrier (17);

the output sides of the no-load station, the feeding station and the full-load station are provided with clamping devices; the clamping device comprises a storage upper ejector rod (38), a storage limiting swing arm (39) and a storage longitudinal guide wheel (40), wherein one end of the storage limiting swing arm is hinged to the upper end of the storage upper ejector rod (38), the middle fulcrum of the storage limiting swing arm is arranged on the rack, and the storage longitudinal guide wheel (40) is arranged at the other end of the storage limiting swing arm (39).

Images