CN112189929B - Double-layer clothing composite process - Google Patents

Abstract

The invention relates to a double-layer clothing compounding process, which comprises the steps of at least partially compounding a fabric and a lining; the device comprises a lining feeding part and a lining ironing part which are connected in procedure, a fabric feeding part and a fabric ironing part, a procedure conveyor belt, a precoating glue machine, a decoration mounting device, a decoration bonding/welding machine, a sewing machine or welding machine, an integral ironing machine, a detection camera and a dryer; a lining feeding part for horizontally outputting the pre-cut lining; a lining ironing part for carrying out thermoprinting on the horizontally output lining; the fabric feeding part has the same structure as the lining feeding part and is positioned above the lining feeding part and used for horizontally outputting the pre-cut fabric; the invention has reasonable design, compact structure and convenient use.

Description

Double-layer clothing composite process

Technical Field

The invention relates to a double-layer clothes compounding process.

Background

Corresponding to double-layer clothes, the double-layer clothes are generally provided with lining and fabric, the lining and the fabric are sewn into a whole, different parts of the clothes are manufactured by the combined clothes, and then the double-layer clothes are sealed into a whole. The composite layer may be filled with down or cotton. Along with the improvement of the living standard of people, the appearance and the comfort level of the clothes are higher and higher, and the flatness of the clothes in the use process is an important index corresponding to autumn clothes or winter clothes. In order to avoid the agglomeration of the down in the use process, the prior clothing uses viscose to bond two layers of fabrics so as to form a plurality of subareas, and the down or cotton is refilled in each subarea so as to achieve the aim of dividing the down and the cotton into small areas, thereby reducing the phenomenon of the agglomeration of the down and the cotton in a large area. However, because the hot melt adhesive layer is directly used for bonding two layers of fabrics or a plurality of small lattices are manufactured by directly jointing the two layers, and then the down or cotton is stuffed in, the preparation method can lead to no down or cotton at the positions of the two sides of the sewing line or the hot melt adhesive layer, thereby leading to poor heat preservation performance and influencing the use effect. At the same time, industry is also constantly looking for a method that can simply and quickly prepare laundry.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a double-layer clothes compounding process in general.

In order to solve the problems, the invention adopts the following technical scheme:

an automatic double-layer clothing compounding device is used for compounding at least part of fabric and lining; the device comprises a lining feeding part and a lining ironing part which are connected in procedure, a fabric feeding part and a fabric ironing part, a procedure conveyor belt, a precoating glue machine, a decoration mounting device, a decoration bonding/welding machine, a sewing machine or welding machine, an integral ironing machine, a detection camera and a dryer;

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

a lining ironing part for carrying out thermoprinting on the horizontally output lining;

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

the fabric ironing part has the same structure as the lining ironing part and is positioned above the lining ironing part, and the horizontally output fabric is subjected to hot stamping;

a process conveyor belt for receiving the fabric of the fabric ironing part and the lining output by the lining 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 to be glued with the lower surface of the fabric and/or dispensing the upper surface of the fabric to be glued with the lower surface of the ornament;

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

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

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

ironing the sewn fabric by an integral ironing machine;

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

and a dryer for drying the whole cloth.

As a further improvement of the above technical scheme:

the device also comprises a separation device for procedure connection, an output pair roller assembly, a transfer manipulator, a storage device and a storage carrier;

a separating device for cutting the whole clothing material at least longitudinally and outputting the cut clothing material separately;

the output pair roller assembly outputs the prefabricated integral clothing;

the transfer manipulator outputs the prefabricated integral clothing 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 loading station and a full load station;

prefabricating a storage carrier at an idle station;

the transfer manipulator places the whole clothing into the storage carrier at the loading station;

and placing a storage carrier full of the whole clothing at the full-load station.

The lining feeding part comprises a plurality of lining transmission pair rollers and lining guide pair rollers; the upper roller of the lining transmission pair roller and the lining guiding pair roller are lifted and slid on the frame through the lining balancing weight; the lining advances in the gap between the lining transmission pair roller and the lining guide pair roller;

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

a lining thermoprinting head is arranged above or below the lining thermoprinting press roller, lining output sliding seats which are lifted on a lining bonding/welding frame are arranged at two ends of an upper roller of a lining output counter roller, and lining output travel bolts are arranged on the lining bonding/welding frame; the lower end of the lining output stroke bolt is used for being abutted against the upper end of the lining output sliding seat; the lining passes through a lining thermoprinting press roller and a lining thermoprinting head;

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

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

the precoating glue machine is provided with a glue spreading machine head and a glue scraping plate;

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

and ornaments are stored at the input ends of the transverse slide rails of the ornaments.

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

the output pair roller assembly comprises a plurality of turning horizontal output rollers for outputting the cut integral clothing;

the storage carrier comprises a plurality of storage trays;

the storage device comprises a storage conveyor belt which is transversely arranged; the empty 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 loading 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, a storage longitudinal guide wheel and a clamping device, wherein one end of the storage limiting swing arm is hinged with the upper end of the storage upper ejector rod, and a middle supporting point of the storage limiting swing arm is arranged on the frame.

A double-layer clothing compounding process, which is used for compounding at least part of fabric and lining; by means of a double-layer garment automatic compounding device; the compounding process comprises

S1, horizontally outputting pre-cut lining through a lining transmission pair roller and a lining guiding pair roller of a lining feeding part, and adjusting the tensioning force of the lining through a lining balancing weight;

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

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

s4, firstly, carrying out hot stamping on the horizontal output fabric through a fabric ironing part; then, driving the pair of rollers to convey the fabric onto a process conveyor belt; dispensing the upper surface of the fabric by a pre-gumming machine to be adhered with the lower surface of the ornament;

s5, after the lining and the fabric completely reach the process conveyor belt, the process conveyor belt conveys the whole material and the fabric; firstly, the ornament feeding mechanical arm sends the ornament to the upper surface glue dispensing position of the fabric for pre-bonding; then, the ornament bonding/welding machine bonds the ornament on the fabric; secondly, combining the fabric and the lining into an integral clothing according to the drawing by a sewing machine or a welding piece; thirdly, ironing the sewn fabric by the whole ironing machine; then, the detecting camera shoots and detects the flatness of the upper surface of the fabric; and then, the dryer dries the whole cloth.

As a further improvement of the above technical scheme:

s6, a separating device is used for cutting the whole clothing material at least longitudinally and outputting the cut clothing material separately; firstly, a damping roller carries out deceleration driving tensioning on the whole cloth; then, the integral guide inclined plane elastically tightens the integral clothing through the spring rod; secondly, the whole cloth is cut at least longitudinally by the middle rotary cutter; thirdly, the cut integral clothing is automatically separated to two sides through the separating side guide surface; then, outputting the cut integral clothing by a turning horizontal output roller;

s7, outputting the prefabricated whole clothing from the procedure conveyor belt by the transfer manipulator;

s8, firstly, prefabricating a storage carrier at an idle station; then, at the feeding station, the transfer manipulator places the whole clothing into a storage carrier; and secondly, at the full-load station, placing a storage carrier full of the whole clothing.

In S8, for the storage carrier moving forward, the storage upper ejector rod drives one end of the storage upper ejector rod to lift, so that the storage limiting swing arm swings, and the storage carrier is blocked or released;

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

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

Drawings

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

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

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

Fig. 4 is a schematic structural diagram of a storage carrier 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. a pre-gumming machine; 7. a decoration mounting device; 8. a trim piece bonding/welding machine; 9. a sewing machine; 10. an integral ironing machine; 11. detecting a camera; 12. a dryer; 13. a separating device; 14. outputting a pair roller assembly; 15. a transfer manipulator; 16. a storage device; 17. storing the carrier; 18. lining transmission pair rollers; 19. lining guiding pair rollers; 20. lining balancing weight; 21. a lining bonding/welding frame; 22. a lining thermoprinting head; 23. a lining hot stamping press roller; 24. the lining is hot stamped with the bulges; 25. a lining output pair roller; 26. a lining output sliding seat; 27. a lining output stroke bolt; 28. a gumming machine head; 29. a decorative piece transverse sliding rail; 30. a decoration part feeding manipulator; 31. damping roller; 32. an integral guiding inclined plane; 33. a middle rotary cutter; 34. a split side guide surface; 35. a direction-changing horizontal output roller; 36. a storage conveyor belt; 37. a storage tray; 38. storing an upper ejector rod; 39. a storage limit swing arm; 40. storing the longitudinal guide wheels; 41. storing an upper ejector rod; 42. storing the photodetector; 43. and storing the transverse output wheel sets.

Detailed Description

As shown in fig. 1 to 4, the automatic double-layer clothing combining device of the embodiment is used for combining the fabric and the lining at least partially; the fabric ironing and pressing device comprises a lining feeding part 1 and a lining ironing part 2, a fabric feeding part 3 and a fabric ironing part 4, a process conveying belt 5, a precoating glue machine 6, a decoration mounting device 7, a decoration bonding/welding machine 8, a sewing machine 9 or a welding machine, an integral ironing machine 10, a detection camera 11 and a dryer 12, wherein the lining feeding part and the lining ironing part are connected in a process;

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

a lining ironing part 2 for carrying out thermoprinting on the horizontally output lining;

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

the fabric ironing part 4 has the same structure as the lining ironing part 2 and is positioned above the lining ironing part 2 to carry 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 output by the lining ironing part 2; the fabric is positioned on the lining;

a pre-gluing machine 6, which is used for gluing at least part of the upper surface of the lining to be adhered to the lower surface of the fabric and/or is used for dispensing glue on the upper surface of the fabric to be adhered to the lower surface of the ornament;

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

a trim piece bonding/welding machine 8 for bonding the trim piece to the fabric;

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

an integral ironing machine 10 for ironing the sewn 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.

The device also comprises a separation device 13, an output pair roller assembly 14, a transfer manipulator 15, a storage device 16 and a storage carrier 17 which are connected with each other in sequence;

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

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

a transfer manipulator 15 for outputting the prefabricated whole clothing from the process conveyor 5;

a storage device 16 in the form of a conveyor belt; the storage device 16 is provided with an idle station, a loading station and a full loading station;

at the idle station, the storage carriers 17 are prefabricated;

at the loading station, the transfer manipulator 15 places the whole clothing into the storage carrier 17;

at the full load station, a storage carrier 17 full of the whole dress material is placed.

The lining feeding part 1 comprises a plurality of lining transmission pair rollers 18 and lining guide pair rollers 19; the upper roller of the lining transmission pair roller 18 and the lining guiding pair roller 19 is lifted and slid on the frame through the lining balancing weight 20; the lining advances in the gap between the lining driving pair roller 18 and the lining guiding pair roller 19;

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

a lining thermoprinting head 22 is arranged above or below the lining thermoprinting press roller 23, lining output sliding seats 26 which are lifted on the lining bonding/welding frame 21 are arranged at two ends of an upper roller of a lining output counter roller 25, and lining output travel bolts 27 are arranged on the lining bonding/welding frame 21; the lower end of the lining output travel bolt 27 is used for abutting against the upper end of the lining output sliding seat 26; the lining passes through a lining thermoprinting press roller 23 and between lining thermoprinting heads 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 installation 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;

an ornament is stored at the input end of the ornament horizontal sliding 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 split side guide surfaces 34 are arranged at two sides of the middle rotary cutter 33; a rotating roller is matched above the integral guide inclined surface 32 and the separation side guide surface 34 to assist driving;

the output pair roller assembly 14 includes a plurality of direction-changing horizontal output rollers 35 to output the cut integral cloth;

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

the storage device 16 includes a storage conveyor 36 disposed transversely; the empty load station and the full load station are provided with a storage photoelectric detector 42 and a storage upper ejector rod 41; 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 loading 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, one end of which is hinged with the upper end of the storage upper ejector rod 38, and a middle pivot is arranged on the frame, and a storage longitudinal guide wheel 40 is arranged at the other end of the storage limiting swing arm 39.

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

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

s2, firstly, carrying out hot stamping on the horizontally output lining through a lining ironing part 2; then, driving the pair of rollers to send the lining material to the process conveyor belt 5; secondly, gluing the upper surface of the lining;

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

s4, firstly, carrying out hot stamping on the horizontal output fabric through the fabric ironing part 4; then, driving the pair of rollers to send the fabric to the process conveyor belt 5; dispensing the upper surface of the fabric by a pre-gumming machine 6 to be adhered with the lower surface of the ornament;

s5, after the lining and the fabric completely reach the process conveyor belt 5, the process conveyor belt 5 conveys the whole material and the fabric; firstly, the ornament feeding manipulator 30 sends ornaments to the glue dispensing position on the upper surface of the fabric for pre-bonding; then, the ornament bonding/welding machine 8 bonds the ornament onto the fabric; secondly, the sewing machine 9 or the welding piece combines the fabric and the lining into an integral clothing according to the drawing; thirdly, ironing the sewn fabric by the whole ironing machine 10; then, the detecting camera 11 shoots and detects the flatness of the upper surface of the fabric; thereafter, the dryer 12 dries the whole cloth.

S6, a separating device 13 is used for cutting the whole clothing material at least longitudinally and outputting the cut clothing material separately; firstly, the damping roller 31 carries out deceleration driving tensioning on the whole cloth; then, the integral guide inclined surface 32 elastically tightens the integral clothing material through the spring rod; next, the central rotary cutter 33 cuts the whole cloth at least longitudinally; again, the cut integral cloth is automatically separated to both sides by the separating side guide surface 34; thereafter, the cut integral cloth is output by the direction-changing horizontal output roller 35;

s7, outputting the prefabricated whole clothing from the process conveyor belt 5 by the transfer manipulator 15;

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

In S8, for the storage carrier 17 moving forward, the storage upper ejector rod 38 drives one end of the storage upper ejector rod 38 to lift, so that the storage limiting swing arm 39 swings to block or release the storage carrier 17;

in S8, at the full load station, first, the storage photodetector 42 detects that the storage carrier 17 is in place; then, the storage upper ejector pins 41 drive the storage lateral output wheel groups 43 to ascend so as to separate the storage carriers 17 from the storage conveyor belt 36; next, the storage lateral output wheel group 43 laterally outputs the storage carriers 17.

The invention realizes the procedures of automatic feeding, automatic conveying and the like by a lining feeding part 1, a lining ironing part 2, a lining feeding part 3, a lining ironing part 4, a procedure conveying belt 5, a precoating glue machine 6, a decoration mounting device 7, a decoration bonding/welding machine 8, a sewing machine 9, an integral ironing machine 10, a detection camera 11, a dryer 12, a separating device 13, an output pair roller assembly 14, a transfer manipulator 15, a storage device 16 and a storage carrier 17. The cost is reduced by outsourcing matched equipment. The lining transmission pair roller 18, lining guide pair roller 19 realizes conveying, lining balancing weight 20 realizes automatic adjustment tensioning, lining bonding/welding frame 21 realizes supporting, corresponding different schemes can be adopted for different fabrics and the like, lining thermoprinting head 22, lining thermoprinting compression roller 23 realizes preprocessing, stress release, lining thermoprinting bulge 24 is preferable, separation is convenient, lining output pair roller 25 is assisted, lining output sliding seat 26 realizes through lining output stroke bolt 27, gluing machine head 28 realizes gap adjustment, decorative part transverse sliding rail 29, decorative part feeding manipulator 30 realizes installation of ornaments, damping roller 31, integral guide inclined plane 32 facilitates middle rotary cutter 33 to open the materials, separation side guide surface 34 realizes automatic separation, diversion horizontal output roller 35 horizontally outputs, storage conveyor belt 36 realizes process connection, storage tray 37 realizes conveying clothing to next process, storage upper ejector rod 38, storage limit swing arm 39, storage longitudinal guide wheel 40 realizes control on carrier forward motion, through guide wheel reducing friction force, storage upper ejector rod 41, storage detector 42, storage transverse output 43 realizes one process with lower process.

The present invention is fully described for more clarity of disclosure and is not set forth in the prior art.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the 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 scheme described in the foregoing embodiments can be modified or some of the technical features thereof can be replaced by equivalents; it is obvious to a person skilled in the art to combine several embodiments of the invention. Such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (3)

1. A double-layer clothes compounding process is characterized in that: for at least partially compositing the facing material with the backing material; by means of a double-layer garment automatic compounding device; the compounding process comprises

S1, horizontally outputting pre-cut lining through a lining transmission pair roller (18) and a lining guide pair roller (19) of a lining feeding part (1), and adjusting the tensioning force of the lining through a lining balancing weight (20);

s2, firstly, carrying out hot stamping on the horizontally output lining through a lining ironing part (2); then, driving the pair of rollers to send the lining material to a process conveyor belt (5); secondly, gluing the upper surface of the lining;

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

s4, firstly, carrying out hot stamping on the horizontal output fabric through a fabric ironing part (4); then, driving the pair of rollers to send the fabric to a process conveyor belt (5); dispensing the upper surface of the fabric by a pre-glue applicator (6) to be adhered to the lower surface of the ornament;

s5, after the lining and the fabric completely reach the process conveyor belt (5), the process conveyor belt (5) conveys the whole material; firstly, a decoration feeding mechanical arm (30) sends decoration to a glue dispensing position on the upper surface of a 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 piece combines the fabric and the lining into an integral clothing according to the drawing; thirdly, ironing the sewn fabric by the whole ironing machine (10); then, the detecting camera (11) shoots and detects the flatness of the upper surface of the fabric; then, the dryer (12) dries the whole cloth.

2. The double-layer laundry composite process according to claim 1, characterized in that: s6, a separating device (13) is used for cutting the whole clothing material at least longitudinally and outputting the cut clothing material separately; firstly, a damping roller (31) carries out deceleration driving tensioning on the whole cloth; then, the integral guide inclined plane (32) elastically tightens the integral clothing through a spring rod; secondly, the whole cloth is cut at least longitudinally by a middle rotary cutter (33); thirdly, the cut integral clothing material is automatically separated to two sides through a separating side guide surface (34); then, outputting the cut integral clothing by a turning horizontal output roller (35);

s7, outputting the prefabricated whole clothing from the procedure conveyor belt (5) by the transfer manipulator (15);

s8, firstly, prefabricating a storage carrier (17) at an idle station; then, at the feeding station, the transfer manipulator (15) places the whole clothing into the storage carrier (17); next, a storage carrier (17) for fully loading the whole clothing is placed at the full loading station.

3. The double-layer laundry composite process according to claim 2, characterized in that: in S8, for the storage carrier (17) which moves forward, the first storage upper ejector rod (38) drives one end of the first storage upper ejector rod (38) to lift, so that the storage limiting swing arm (39) swings to block or release the storage carrier (17);

in S8, at the full load station, first, the storage photodetector (42) detects that the storage carrier (17) is in place; then, the second storage upper ejector rod (41) drives the storage transverse output wheel set (43) to ascend so as to separate the storage carrier (17) from the storage conveyor belt (36); next, the storage lateral output wheel group (43) laterally outputs the storage carrier (17).