CN117088062A - Intelligent throwing and transferring system and method for clothing production line - Google Patents

Abstract

The invention discloses an intelligent throwing and transferring system and method for a clothing production line, and belongs to the technical field of clothing production lines. An intelligent putting and transferring system of a clothing production line comprises a terminal, a control end, a conveying system and a plurality of processing stations; the conveying system comprises a transferring main rail, a plurality of transferring branch rails and a plurality of hanging brackets; the terminal sends a command to the control end through the calculation of a built-in algorithm on the received processing data, and the control end controls the hanger to distribute corresponding cloth to a processing station for processing along the transfer main rail and the transfer branch rail according to the command; the hanging bracket is provided with the adjusting unit, so that the swing amplitude of the hanging bracket in the assembly line transferring process can be reduced through automatic adjustment, and clothes are prevented from sliding off in the transferring process.

Description

Intelligent throwing and transferring system and method for clothing production line

Technical Field

The invention belongs to the technical field of garment production lines, and particularly relates to an intelligent delivery and transfer system and method of a garment production line.

Background

The clothes hanging system is a device for hanging and hanging clothes, is generally used in the clothes manufacturing production process, and can conveniently and efficiently produce, transfer and store the clothes; the clothes-making hanging system can eliminate or furthest reduce the delay time of labor objects and the processing interruption time of machine tool equipment in the clothes processing process, thereby realizing the improvement of continuity, parallelism, proportionality and rhythmicity of the production process, and having the advantages of improving labor productivity, increasing yield, reducing product cost, improving the automation level of production and the like.

The clothing suspension system is usually that cloth is put into processing station in proper order according to the process sequence through terminal control, but the clothing is in the transfer process, because the assembly line has the fall or bend, consequently the gallows can be influenced by inertia and take place the swing in the transfer process, when the speed variation is great when whereabouts or bending, inertia leads to the gallows to swing also bigger, the clothing on the gallows can probably because the too big landing of swing range, both can lead to the fact surface dirt or damage, influence the product quality of ready-made clothes, again need the staff stop work to pick up and put, production efficiency and the continuity of production have been reduced.

Disclosure of Invention

The invention aims to provide an intelligent throwing transfer system and method for a clothes manufacturing assembly line, which can reduce the swing amplitude of a hanger in the assembly line transfer process through automatic adjustment, so that clothes are prevented from sliding down.

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

the invention relates to an intelligent putting and transferring system of a clothing production line, which comprises a terminal, a control end, a conveying system and a plurality of processing stations; the terminal sends an instruction to the control end through the calculation of a built-in algorithm on the received processing data, and the control end controls the transmission system to distribute corresponding cloth to a processing station according to the instruction so as to be processed by workers; and conveying the clothes processed by workers to a finished product temporary storage area or boxing by a conveying system.

The conveying system comprises a transfer main rail, a plurality of transfer support rails and a plurality of hanging frames, wherein the transfer support rails are distributed on the side edges of the transfer main rail, the hanging frames slide along the transfer main rail or the transfer support rails and are used for transferring hung cloth to corresponding processing stations, workers hang the cloth on the hanging frames after finishing processing according to the flow, and the cloth is transferred to the next processing along the transfer main rail or the transfer support rails.

The processing station is located and shifts the stock rail below, and the gallows backlog can reduce the follow-up quantity of shifting the gallows to this processing station department when processing station position, avoids the gallows to cross the stock too much on shifting the stock rail.

As a further improvement of the invention, the processing station is provided with the operation end display screen connected with the wireless signal of the terminal, the operation display screen can present the type of the cloth on the hanger, the part of the cloth to be processed, the processing time of workers and the follow-up cloth reminding, thereby reducing the delay time of the workers in the working process and improving the working efficiency.

As a further improvement of the invention, a positioning chip is arranged in the hanging bracket and is connected with a terminal through wireless signals, so that the hanging bracket is positioned, and the terminal can monitor the position of the hanging bracket in real time; meanwhile, the distribution data on the hanging frame is input into the terminal, the terminal can plan the movement path of the hanging frame in the transferring main rail or the transferring support rail, the hanging frame can be conveyed to the corresponding processing position as soon as possible, the processing progress can be monitored in real time, and the follow-up distribution work is convenient.

As a further improvement of the invention, the hanging bracket further comprises a sliding wheel, an adjusting motor, a connecting cylinder, a bracket body and an adjusting unit; the sliding wheel is in sliding connection with the transfer main rail or the transfer support rail, one side of the sliding wheel is provided with a cylindrical step, and the sliding wheel is hinged with a cylindrical groove arranged at one end of the connecting cylinder; the adjusting motor is detachably arranged in the connecting cylinder, and the output end of the adjusting motor is detachably connected with the upper part of the frame body; the adjusting unit is positioned on the outer side above the frame body and is detachably connected with the frame body and electrically connected with the adjusting motor; the adjusting unit can control the adjusting motor to drive the frame body to move towards the opposite direction of the swinging direction after detecting the swinging of the frame body, so that the purpose of reducing or counteracting the swinging amplitude of the frame body is achieved.

As a further improvement of the present invention, the adjusting unit includes a rotary wheel, a rotary shaft, an inner ring, an outer ring, a connecting column, a connecting plate, a pair of magnets, and a driving motor; the rotating wheel is fixedly arranged in the middle of the rotating shaft, an upper hole and a lower groove are formed in the inner side surface of the inner ring, and the rotating shaft is positioned in the upper hole and the lower groove and is in rotary connection with the inner ring; the outer side surface of the inner ring is provided with a pair of bulges which are rotationally connected with the inner walls of a pair of grooves arranged on the inner side surface of the outer ring; one end of the outer side of the outer ring is fixedly connected with a connecting column, and the connecting column is rotationally connected with a connecting plate detachably arranged above the frame body; a connecting rod is fixedly arranged on the outer side surface of the inner ring below the rotating shaft, a wire is detachably arranged at the lower part of the connecting rod, and the wire is electrically connected with the adjusting motor; magnets are detachably arranged on two sides of the position, below the connecting plate, close to the lower part of the rotating shaft, and the magnetic poles of one side, close to the connecting rod, of the two magnets are different; the upper part of the rotating shaft is detachably connected with the output end of the driving motor and is used for driving the rotating shaft to rotate, the rotating shaft is constantly vertical to the horizontal plane according to the principle of conservation of angular momentum, and when the hanger swings due to inertia, a wire at the bottom of the adjusting unit cuts a magnetic induction wire to generate current so as to control the adjusting motor to move, thereby achieving the purpose of counteracting or weakening the swing.

As a further improvement of the invention, a plurality of vertical rods and a plurality of cloth hanging rods are arranged below the frame body, and the lower parts of the vertical rods are provided with hinge holes which are hinged with one ends of the cloth hanging rods; the stop block is arranged above the hinged end of the clothes hanging rod and is in abutting connection with the non-hinged end of the adjacent clothes hanging rod, and the stop block tightly abuts against the adjacent clothes hanging rod after being vibrated or impacted, so that the clothes hanging rod cannot bounce, and the clothes hanging rod is prevented from swinging up and down.

An intelligent putting and transferring method for a clothing production line comprises the following steps:

s1, a terminal receives orders and transmits data calculated through an algorithm to a control end, and the control end gives instructions to each conveying system and each processing station;

s2, cutting and sub-packaging the cloth, after sub-packaging, hanging the cloth on a hanging bracket on a transferring main rail, and inputting the model of the cloth to a terminal so as to enable the model of the cloth to correspond to the hanging bracket;

s3, the hanging frame moves to a transfer support rail where a corresponding processing station is located along the transfer main rail, and the processing station processes the corresponding position of the cloth according to the introduction of the display screen at the operation end;

s4, sequentially processing the cloth through corresponding processing stations according to the working procedures, and hanging the cloth on a hanger and conveying the cloth to a transfer main rail along a transfer support rail after processing is finished;

s5, checking the quality of the finished garment through a detection position, temporarily storing and packaging qualified finished products, and conveying defective products serving as waste materials to a waste material temporary storage area.

Compared with the prior art, the invention has the beneficial effects that: the intelligent throwing and transferring system of the clothing production line can reduce the swing amplitude in the clothing conveying process through automatic adjustment, and can dynamically adjust the adjustment force through the swing amplitude, so that the purpose of stable throwing and transferring is achieved; the rotating wheel and the rotating shaft which are controlled by the driving motor to rotate in the inner ring are arranged at the adjusting unit, the rotating shaft is constantly vertical to the horizontal plane according to the principle of conservation of angular momentum, and after the hanging bracket swings due to inertia, a conducting wire at the bottom of the adjusting unit cuts a magnetic induction wire to generate current so as to control the adjusting motor to move, and the hanging bracket is driven to move in the opposite direction, so that the purpose of counteracting or weakening the swing is achieved; through set up the dog and contradict with adjacent string clothing pole and be connected on string clothing pole articulated end top, the dog is tight top adjacent string clothing pole after receiving vibrations or impact for string clothing pole can not bounce, has further avoided the clothes landing.

Drawings

FIG. 1 is a schematic illustration of a pipeline of the present invention;

FIG. 2 is a schematic diagram of a pipeline launch transfer system of the present invention;

FIG. 3 is a schematic view of a hanger in semi-section according to the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of the present invention;

FIG. 5 is a schematic view of the structure of the frame of the present invention;

fig. 6 is a flow chart of the put transfer method of the present invention.

The reference numerals in the figures illustrate:

the device comprises a control end 1, a conveying system 2, a conveying main rail 21, a conveying branch rail 22, a hanging frame 23, a sliding wheel 231, an adjusting motor 232, a 233 connecting cylinder 234, a frame body 234, a vertical rod 2341, a clothes hanging rod 2342, a stop block 2343, a 235 adjusting unit, a 2351 rotating wheel, a 2352 rotating shaft, a 2353 inner ring, a 2354 outer ring, a 2355 connecting column, a 2356 connecting plate, a 2357 magnet, a 2358 driving motor, a 2359 connecting rod, a 2359A connecting column and a 3 processing station.

Detailed Description

First embodiment: referring to fig. 1-5, an intelligent putting and transferring system of a clothing production line comprises a terminal, a control end 1, a conveying system 2 and a plurality of processing stations 3; the terminal sends a command to the control end 1 through the calculation of a built-in algorithm on the received processing data, and the control end 1 controls the transmission system 2 to distribute corresponding cloth to the processing station 3 for workers to process according to the command; the clothes processed by workers are sent to a finished product temporary storage area or a box through a conveying system 2; the terminal can display the data such as the completion rate, the reject ratio, the workload and the like of the clothes in real time, so that the difficulty of statistics of workers is reduced.

The conveying system 2 comprises a transfer main rail 21, a plurality of transfer support rails 22 and a plurality of hanging frames 23, wherein the transfer support rails 22 are distributed on the side edge of the transfer main rail 21 and are movably connected with the transfer main rail 21, so that rail replacement is convenient; the hanger 23 slides along the transferring main rail 21 or the transferring support rail 22, and is used for transferring the hung cloth to the corresponding processing station 3, and after the worker finishes processing according to the flow, the worker hangs the cloth on the hanger 23, and transfers the cloth to the next flow along the transferring main rail 21 or the transferring support rail 22.

The processing station 3 is located below the transfer support rail 22, when the hanging frame 23 is backlogged at the position of the processing station 3, the terminal can carry out negative feedback adjustment on the conveying system 2 at the position, so that the number of the hanging frames 23 transferred to the processing station 3 in the follow-up process is reduced, and excessive backlog of the hanging frames 23 on the transfer support rail 22 is avoided.

Specifically, the processing station 3 is provided with an operation end display screen connected with a terminal through wireless signals, and the operation display screen can present the type of the cloth on the hanger 23, the part of the cloth to be processed, the processing time of a worker and the follow-up cloth reminding, so that the delay time of the worker in the working process is reduced, and the working efficiency is improved; the working time of workers is determined by the needle path and the material of cloth.

Specifically, the intelligent throwing and transferring system of the garment production line further comprises a detection position, and the detection position can detect defects such as knots, uneven stitch or leakage stitch and leakage stitch of the garment according to modes such as naked eye observation or illumination of a light source.

Specifically, a positioning chip is arranged in the hanging frame 23 and is connected with a terminal through a wireless signal, so that the hanging frame 23 is positioned, and the terminal can monitor the position of the hanging frame 23 in real time; meanwhile, the related data of the cloth on the hanging frame 23 is input into the terminal, and the terminal establishes the association between the cloth and the hanging frame 23, so that the movement path of the hanging frame 23 on the transfer main rail 21 or the transfer branch rail 22 is planned according to the process of the required processing of the cloth, the cloth can be conveyed to the corresponding processing position as soon as possible, the processing progress can be monitored in real time, and the subsequent distribution work is facilitated.

Specifically, the hanger 23 further includes a sliding wheel 231, an adjusting motor 232, a connecting cylinder 233, a frame 234, and an adjusting unit 235; the sliding wheel 231 is in sliding connection with the transfer main rail 21 or the transfer support rail 22, one side of the sliding wheel 231 is provided with a cylindrical step, and the sliding wheel 231 is hinged with a cylindrical groove arranged at one end of the connecting cylinder 233; the adjusting motor 232 is detachably arranged in the connecting cylinder 233, and the output end of the adjusting motor 232 is detachably connected with the upper part of the frame 234; the adjusting unit 235 is positioned on the outer side above the frame 234, the connecting plate 2356 at the tail end is detachably connected with the frame 234 in a bolt connection mode, and the lead 2359A at the lower part is electrically connected with the adjusting motor 232; the frame 234 slides from high to low in the transferring process, the accelerating process is relatively stable, no larger swing is generated, the speed is rapidly reduced only when the guide rail is switched or the climbing position is reached, and thus the larger swing is generated due to inertia, and the swing direction is fixed forward at the moment; the wire 2359A at the lower part of the adjusting unit 235 cuts the magnetic induction line between the magnets 2357 at the two sides of the wire 2359A to generate current after the frame 234 swings, and the adjusting motor 232 is controlled to drive the frame 234 to move in the opposite direction of the swinging direction according to the signal generated by the current, so that the swinging of the frame 234 along with inertia is counteracted by the movement generated by the driving of the adjusting motor 232, and the amplitude of the frame 234 along with the inertia is reduced, thereby achieving the purpose of reducing or counteracting the swinging amplitude of the frame 234.

Specifically, the adjusting unit 235 includes a rotating wheel 2351, a rotating shaft 2352, an inner ring 2353, an outer ring 2354, a connecting post 2355, a connecting plate 2356, a pair of magnets 2357, and a driving motor 2358; the rotating wheel 2351 is fixedly arranged in the middle of the rotating shaft 2352, an upper hole and a lower groove are formed in the inner side surface of the inner ring 2353, and the rotating shaft 2352 is positioned in the upper hole and the lower groove and is in rotating connection with the inner ring 2353; the outer side surface of the inner ring 2353 is provided with a pair of protrusions which are rotationally connected with the inner walls of a pair of grooves arranged on the inner side surface of the outer ring 2354; one end of the outer side of the outer ring 2354 is fixedly connected with a connecting column 2355, and the connecting column 2355 is rotatably connected with a connecting plate 2356 which is detachably arranged above the frame 234; a connecting rod 2359 is fixedly arranged on the outer side surface of the inner ring 2353 below the rotating shaft 2352, a lead 2359A is detachably arranged on the lower part of the connecting rod 2359, and the lead 2359A is electrically connected with the adjusting motor 232; magnets 2357 are detachably arranged on two sides of the position, below the connecting plate 2356, close to the lower part of the rotating shaft 2352, and one side, close to the connecting rod 2359, of each magnet 2357 is different in magnetic pole; the upper part of the rotating shaft 2352 is detachably connected with the output end of the driving motor 2358 and is used for driving the rotating shaft 2352 to rotate, so that the rotating wheel 2351 and the rotating shaft 2352 are controlled to rotate in the inner ring 2353, an object rotating at a high speed has a trend of resisting direction change according to the principle of conservation of angular momentum, the rotating shaft 2352 is constantly vertical to the horizontal plane, when the frame 234 swings due to inertia, a lead 2359A at the bottom of the adjusting unit 235 cuts a magnetic induction line to generate current so as to control the adjusting motor 232 to move, and the adjusting motor 232 drives the frame 234 to move in the opposite direction of the inertia swing, so that the aim of counteracting or weakening the swing is fulfilled; since the greater the speed change of hanger 23 or the inertia caused by turning, the greater the swing amplitude of hanger 23, the greater the current generated by cutting the magnetic induction line by wire 2359A, and the greater the corrective force generated by adjusting motor 232 to maintain hanger 23 balanced.

Specifically, a plurality of vertical rods 2341 and a plurality of clothes hanging rods 2342 for hanging cloth are arranged below the frame 234, and a hinge hole is formed in the lower portion of each vertical rod 2341 and hinged with one end of each clothes hanging rod 2342; the stopper 2343 is arranged above the hinged end of the clothes hanging rod 2342 and is in abutting connection with the non-hinged end of the adjacent clothes hanging rod 2342, and the stopper 2343 tightly abuts against the adjacent clothes hanging rod 2342 after being vibrated or impacted, so that the clothes hanging rod 2342 can be blocked by the adjacent clothes hanging rod 2342 when being sprung up, and the clothes hanging rod 2342 playing a blocking role can also be blocked by the adjacent clothes hanging rod 2342, so that the clothes hanging rod 2342 is difficult to spring up, and the upward and downward swinging of the clothes hanging rod 2342 is avoided.

Referring to fig. 6, an intelligent putting and transferring method for a clothing production line includes the following steps:

s1, a terminal receives orders and transmits data calculated through an algorithm to a control end 1, and the control end 1 gives instructions to each conveying system 2 and a processing station 3;

s2, cutting and sub-packaging the cloth, after sub-packaging, hanging the cloth on a hanging bracket 23 on a transfer main rail 21, and inputting the type of the cloth to a terminal so as to correspond to the hanging bracket 23;

s3, the hanging frame 23 moves to a transfer support rail 22 where a corresponding processing station is located along the transfer main rail 21, and the processing station 3 processes the corresponding position of the cloth according to the introduction of an operation end display screen;

s4, sequentially processing the cloth through the corresponding processing stations 3 according to the working procedures, and hanging the cloth on a hanger 23 and conveying the cloth to a transfer main rail 22 along the transfer support rail 22 after processing is finished;

s5, checking the quality of the finished garment through a detection position, temporarily storing and packaging the finished garment, and conveying the defective garment as waste to a waste temporary storage area.

Embodiment two: unlike the first embodiment, the rotating wheel 2351 may be a rotor wound with a conductive circuit, the inner ring 2353 or the outer ring 2354 is a ring magnet, and when the rotor rotates, the conductive circuit cuts the magnetic induction line to form a current, and the generated current can be used by the driving motor 2358, so as to achieve the energy-saving effect.

The foregoing is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims (7)

1. The utility model provides a clothing assembly line intelligence is put in and is shifted system which characterized in that: comprises a terminal, a control end (1), a conveying system (2) and a plurality of processing stations (3); the terminal sends a command to the control end (1) through the calculation of a built-in algorithm on the received processing data, and the control end (1) controls the transmission system (2) to distribute corresponding cloth to the processing station (3) according to the command so as to enable workers to process the cloth; the clothes processed by workers are sent to a finished product temporary storage area or a box through a conveying system (2);

the conveying system (2) comprises a transferring main rail (21), a plurality of transferring support rails (22) and a plurality of hanging frames (23), wherein the transferring support rails (22) are distributed on the side edge of the transferring main rail (21), and the hanging frames (23) slide along the transferring main rail (21) or the transferring support rails (22) and are used for transferring hung cloth to corresponding processing stations (3);

the processing station (3) is located below the transfer support rail (22), and when the hanging frame (23) is backlogged at the position of the processing station (3), the terminal can reduce the quantity of the hanging frame (23) transferred to the processing station (3).

2. The intelligent delivery and transfer system of a garment production line according to claim 1, wherein: the processing station (3) is provided with an operation end display screen connected with a terminal through wireless signals and is used for displaying the processing part of the cloth on the transferred hanging bracket (23).

3. The intelligent delivery and transfer system of a garment production line according to claim 1, wherein: a positioning chip is arranged in the hanging bracket (23) and is connected with a terminal through a wireless signal, and is used for positioning the hanging bracket (23); and the distribution data on the hanging bracket (23) is input into a terminal, and the terminal is used for planning the movement path of the corresponding hanging bracket (23) on the transfer main rail (21) or the transfer support rail (22).

4. The intelligent delivery and transfer system of a garment production line according to claim 1, wherein: the hanging bracket (23) further comprises a sliding wheel (231), an adjusting motor (232), a connecting cylinder (233), a bracket body (234) and an adjusting unit (235); the sliding wheel (231) is in sliding connection with the transferring main rail (21) or the transferring support rail (22), one side of the sliding wheel (231) is provided with a cylindrical step, and the sliding wheel is hinged with a cylindrical groove arranged at one end of the connecting cylinder (233); the adjusting motor (232) is detachably arranged in the connecting cylinder (233), and the output end of the adjusting motor (232) is detachably connected with the upper part of the frame body (234); the adjusting unit (235) is arranged on the outer side above the frame body (234), is detachably connected with the frame body (234), is electrically connected with the adjusting motor (232) and is used for reducing the swing amplitude of the frame body (234).

5. The intelligent delivery and transfer system for a garment production line of claim 4, wherein: the adjusting unit (235) comprises a rotating wheel (2351), a rotating shaft (2352), an inner ring (2353), an outer ring (2354), a connecting column (2355), a connecting plate (2356), a pair of magnets (2357) and a driving motor (2358); the rotating wheel (2351) is fixedly arranged in the middle of the rotating shaft (2352), an upper hole and a lower groove are formed in the inner side surface of the inner ring (2353), and the rotating shaft (2352) is positioned in the upper hole and the lower groove and is in rotary connection with the inner ring (2353); the outer side surface of the inner ring (2353) is provided with a pair of bulges which are rotationally connected with the inner walls of a pair of grooves arranged on the inner side surface of the outer ring (2354); one end of the outer side of the outer ring (2354) is fixedly connected with a connecting column (2355), and the connecting column (2355) is rotatably connected with a connecting plate (2356) which is detachably arranged above the frame body (234); a connecting rod (2359) is fixedly arranged on the outer side surface of the inner ring (2353) below the rotating shaft (2352), and a lead (2359A) is detachably arranged at the lower part of the connecting rod (2359); magnets (2357) are detachably arranged on two sides of the position, below the connecting plate (2356), close to the lower part of the rotating shaft (2352), and the magnetic poles of one side, close to the connecting rod (2359), of the two magnets (2357) are different; the upper part of the rotating shaft (2352) is detachably connected with the output end of the driving motor (2358) and is used for driving the rotating shaft (2352) to rotate; the lead (2359A) is electrically connected with the adjusting motor (232) and is used for conveying current generated by cutting the magnetic induction line between the two magnets (2357) to the adjusting motor (232) and driving the adjusting motor (232) to move after the frame body (234) swings so as to counteract swing.

6. The intelligent delivery and transfer system for a garment production line of claim 4, wherein: a plurality of vertical rods (2341) and a plurality of cloth hanging rods (2342) are arranged below the frame body (234), and the lower parts of the vertical rods (2341) are provided with hinge holes and are hinged with one ends of the cloth hanging rods (2342); a stop block (2343) is arranged above the hinged end of the clothes hanging rod (2342), is in abutting connection with the non-hinged end of the adjacent clothes hanging rod (2342) and is used for preventing the clothes hanging rod (2342) from swinging up and down.

7. An intelligent delivery transfer method for a clothing production line, which is suitable for the intelligent delivery transfer system for the clothing production line according to any one of claims 1-6, and is characterized in that: the method comprises the following steps:

s1, a terminal receives orders and transmits data calculated through an algorithm to a control end (1), and the control end (1) gives instructions to each conveying system (2) and each processing station (3);

s2, cutting and sub-packaging the cloth, after sub-packaging, hanging the cloth on a hanging bracket (23) on a transfer main rail (21), and inputting the model of the cloth to a terminal so that the model corresponds to the hanging bracket (23);

s3, the hanging frame (23) moves to a transfer support rail (22) corresponding to the processing station (3) along the transfer main rail (21), and the processing station (3) processes the corresponding position of the cloth according to the introduction of the display screen of the operation end;

s4, sequentially processing the cloth through corresponding processing stations (3) according to the working procedures, and hanging the cloth on a hanging bracket (23) and conveying the cloth to a transfer main rail (21) along a transfer support rail (22) after the processing is finished;

s5, checking the quality of the finished garment through a detection position, temporarily storing and packaging the finished garment, and conveying the defective garment as waste to a waste temporary storage area.