CN112056669B

CN112056669B - Intelligent manufacturing process of clothing

Info

Publication number: CN112056669B
Application number: CN202010798102.8A
Authority: CN
Inventors: 叶超莹
Original assignee: Zhejiang Yihe Clothing Co ltd
Current assignee: Zhejiang Yihe Clothing Co ltd
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2023-04-25
Anticipated expiration: 2040-08-10
Also published as: CN112056669A

Abstract

The invention relates to the textile field, and discloses an intelligent manufacturing process of clothing, which comprises the following steps: manufacturing a clothing outer cover layer; turning out the inner side surface of the clothing outer cover layer to the outer side, and sleeving the clothing outer cover layer turned out reversely on the man-shaped mold (2); blowing an air bag (21) on the outer wall of the man-shaped mold (2) and supporting the outer cover layer of the garment; preparing water-absorbing fibers and spraying the water-absorbing fibers on the garment outer cover layer supported by the mannequin die (2) through a spray gun (3); still include base (1), human type mould (2) are installed on base (1), and the edge of base (1) is equipped with annular slide rail (11), installs support (4) on annular slide rail (11), and spray gun (3) are adorned on support (4) and are rotated along annular slide rail (11) admittedly. The intelligent custom-made manufacturing is realized through the coordination of the controller, the mould, the spray gun and the like, and the water-absorbing sweat-absorbing clothing aiming at different crowd requirements can be produced.

Description

Intelligent manufacturing process of clothing

Technical Field

The invention relates to the textile field, in particular to an intelligent manufacturing process of clothing.

Background

Along with the progress of technology and the improvement of life quality of people, the consumption concept of people on wearing clothes is changed into health and comfort, so that the water absorption and air permeability of the fabric serve as one of the performances of ideal clothing fabric, and the fabric becomes a focus of common attention of consumers and manufacturers. The garment with water absorption and air permeability should absorb moisture and sweat emitted from human body to the maximum extent, and transfer and diffuse the moisture and sweat rapidly, so that skin is kept clean and dry, and wearing comfort of the garment is improved. Particularly, under the climatic conditions of high temperature and high humidity in summer, a great amount of sweat can be generated when people exercise vigorously, so that sweat on the surface of the skin is difficult to discharge, and a sultry feeling is caused; when the human body stops sweating, the fabric is slowly wetted, and the moisture in the fabric squeezes away the air in the fabric, so that the heat preservation of the fabric is reduced, and the wet and cold feeling on the surface of the skin is further caused, and the wearing comfort of the fabric is greatly reduced. The price of the water-absorbing material is higher than that of the common fabric, so that a clothing manufacturing process capable of intelligently customizing different requirements is required to be designed, and the aim of saving resources is fulfilled.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an intelligent manufacturing process of clothing.

In order to solve the technical problems, the invention is solved by the following technical scheme:

an intelligent manufacturing process of clothing, comprising the following steps:

1) Manufacturing a clothing outer cover layer;

2) Turning out the inner side surface of the outer cover layer of the garment to the outer side, and sleeving the reversely turned-out outer cover layer of the garment on the man-shaped mold;

3) Blowing air bags on the outer wall of the human-shaped mold and supporting the garment outer cover layer;

4) The water-absorbing fibers were prepared and sprayed by a spray gun onto the garment shell layer supported by a human-type mold.

Preferably, the automatic spraying device further comprises a base, wherein the human-shaped die is arranged on the base, an annular sliding rail is arranged at the edge of the base, a support is arranged on the annular sliding rail, and the spray gun is fixedly arranged on the support and rotates along the annular sliding rail.

Preferably, the annular sliding rail is internally provided with a rotating disc coaxially arranged with the annular sliding rail, and the annular sliding rail further comprises a motor, the motor drives the rotating disc to rotate, and the bracket is welded on the rotating disc.

Preferably, the spray gun also comprises a lifting device arranged on the bracket, and the spray gun is fixedly arranged on the moving end of the lifting device and driven to move up and down by the lifting device.

Preferably, the lifting device further comprises a controller, wherein the controller controls the motor and the lifting device, and the lifting device is a hydraulic lifting rod.

Preferably, the controller controls the spray gun to spray on the turned inner side surface of the outer cover layer of the garment and form the interconnected water-absorbent fiber blocks and water-absorbent fiber strips; the side edges of two adjacent water-absorbing fiber blocks are connected through water-absorbing fiber strips, the water-absorbing fiber blocks are of a trilateral structure, six water-absorbing fiber blocks form a water-absorbing fiber group, and the water-absorbing fiber blocks in each water-absorbing fiber group are circumferentially distributed and the side edges of the water-absorbing fiber blocks correspond to each other to form a hexagonal structure.

Preferably, the air bag is arranged on the human-shaped die, and the air pump is connected with the air bag, and the controller is connected with the air pump and controls the air pump to work.

Preferably, the surface of the air bag is provided with a pressure sensor, the pressure sensor is connected with the controller and sends a pressure signal to the controller, and the controller controls the operation of the air pump according to the received pressure signal.

Preferably, in step 4), one or more of unsaturated monomers containing cyano groups, amide groups, ester groups, carboxylic acid groups, sodium sulfonate groups and other ethylene groups are used as a copolymerization unit, and the copolymerization unit is dissolved in an organic solvent to prepare a uniform dispersion solution, and the dispersion solution is spun by a dry method or a wet method to prepare the super absorbent fibers.

Preferably, the organic solvent includes sodium thiocyanate aqueous solution, dimethylformamide, acetone, and the like.

The invention has the remarkable technical effects due to the adoption of the technical scheme: the intelligent customization manufacturing is realized through the cooperation of the controller, the mould, the spray gun and the like, and the water-absorbing and sweat-absorbing clothes aiming at different crowd requirements can be produced.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of a water-absorbent fibrous block and a water-absorbent fibrous strip.

The names of the parts indicated by the numerical references in the drawings are as follows: 1-base, 2-human-shaped mould, 3-spray gun, 4-support, 5-motor, 6-elevating gear, 7-controller, 8-fibre piece that absorbs water, 9-fibre strip that absorbs water, 11-annular slide rail, 12-rolling disc, 21-gasbag, 22-air pump, 23-pressure sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

1) Manufacturing a clothing outer cover layer;

2) Turning out the inner side surface of the clothing outer cover layer to the outer side, and sleeving the clothing outer cover layer turned out reversely on the mannequin mold 2;

3) Blowing air bags 21 on the outer wall of the mannequin die 2 and supporting the garment outer cover layer;

4) Absorbent fibers are prepared and sprayed by means of a spray gun 3 onto the garment shell layer supported by the mannequin mold 2.

As shown in the figure, the device further comprises a base 1, the human-shaped die 2 is arranged on the base 1, an annular sliding rail 11 is arranged at the edge of the base 1, a support 4 is arranged on the annular sliding rail 11, and the spray gun 3 is fixedly arranged on the support 4 and rotates along the annular sliding rail 11.

The annular slide rail 11 is internally provided with a rotating disc 12 which is coaxially arranged with the annular slide rail 11, and the annular slide rail also comprises a motor 5, the motor 5 drives the rotating disc 12 to rotate, and the bracket 4 is welded on the rotating disc 12.

The spray gun 3 is fixedly arranged on the moving end of the lifting device 6 and is driven to move up and down by the lifting device 6.

The lifting device further comprises a controller 7, the controller 7 controls the motor 5 and the lifting device 6, and the lifting device 6 is a hydraulic lifting rod.

The controller 7 controls the spray gun 3 to spray on the inner side surface turned out towards the outer cover layer of the garment and form a water-absorbing fiber block 8 and a water-absorbing fiber strip 9 which are connected with each other; the sides of two adjacent water-absorbing fiber blocks 8 are connected through water-absorbing fiber strips 9, the water-absorbing fiber blocks 8 are of a trilateral structure, six water-absorbing fiber blocks 8 form a water-absorbing fiber group, the water-absorbing fiber blocks 8 in each water-absorbing fiber group are circumferentially distributed and the sides correspondingly encircle to form a hexagonal structure, the water-absorbing fiber strips 9 connected with the water-absorbing fiber blocks 8 in the same water-absorbing fiber group are defined as inner fiber strips, the water-absorbing fiber strips 9 connected with the water-absorbing fiber blocks 8 in different water-absorbing fiber groups are positioned as outer fiber strips, after the water-absorbing fiber blocks 8 absorb water, the length of the inner fiber strips is 2-3.5 times of the gap between the two connected water-absorbing fiber blocks 8, and the length of the outer fiber strips is 1-1.5 times of the gap between the two connected water-absorbing fiber blocks 8. Through the design of the water absorption fiber block 8 and the water absorption fiber strip 9, not only is ventilation space reserved, but also sweat of the skin of a user can be effectively absorbed, and dryness of clothes is guaranteed.

The air bag 21 is arranged on the human-shaped die 2, and the human-shaped die further comprises an air pump 22 connected with the air bag 21, and the controller 7 is connected with the air pump 22 and controls the air pump 22 to work.

The surface of the air bag 21 is provided with a pressure sensor 23, the pressure sensor 23 is connected with the controller 7 and sends a pressure signal to the controller 7, and the controller 7 controls the operation of the air pump 22 according to the received pressure signal.

The controller 7 detects the pressure between the air bag 21 and the clothing jacket layer through the pressure sensor 23, when the air bag 21 props up the clothing jacket layer and generates larger pressure, the air pump 22 stops working, the controller 7 controls the motor 5, the lifting device 6 and the spray gun 3 to work, the spray gun 3 realizes 360-degree spraying water absorption fibers, the controller 7 can control the spraying position and the spraying size of the water absorption fibers, different water absorption requirements of different users are conveniently realized through the controller 7, and the intelligent customization effect is realized.

In the step 4), one or more of unsaturated monomers containing cyano, amide groups, ester groups, carboxylic acid groups, sodium sulfonate groups and other ethylene groups are taken as a copolymerization unit body, the copolymerization unit body is dissolved in an organic solvent to prepare a uniform dispersion solution, and the dispersion solution is spun by a dry method or a wet method to prepare the super absorbent fibers.

The organic solvent includes sodium thiocyanate aqueous solution, dimethyl amine formate, acetone, etc.

In summary, the foregoing description is only of the preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the invention.

Claims

1. An intelligent manufacturing process of clothing is characterized in that: the method comprises the following steps:

1) Manufacturing a clothing outer cover layer;

2) Turning out the inner side surface of the clothing outer cover layer to the outer side, and sleeving the clothing outer cover layer turned out reversely on the man-shaped mold (2);

3) Blowing an air bag (21) on the outer wall of the man-shaped mold (2) and supporting the outer cover layer of the garment;

4) Preparing water-absorbing fibers and spraying the water-absorbing fibers on the garment outer cover layer supported by the mannequin die (2) through a spray gun (3);

the automatic spraying device is characterized by further comprising a base (1), wherein the human-shaped die (2) is arranged on the base (1), an annular sliding rail (11) is arranged at the edge of the base (1), a support (4) is arranged on the annular sliding rail (11), and the spray gun (3) is fixedly arranged on the support (4) and rotates along the annular sliding rail (11);

the annular sliding rail (11) is internally provided with a rotating disc (12) which is coaxially arranged with the annular sliding rail (11), the annular sliding rail also comprises a motor (5), the motor (5) drives the rotating disc (12) to rotate, and the bracket (4) is welded on the rotating disc (12);

the spray gun also comprises a lifting device (6) arranged on the bracket (4), and the spray gun (3) is fixedly arranged on the moving end of the lifting device (6) and is driven to move up and down by the lifting device (6);

the lifting device also comprises a controller (7), wherein the controller (7) controls the motor (5) and the lifting device (6), and the lifting device (6) is a hydraulic lifting rod;

the controller (7) controls the spray gun (3) to spray towards the inner side surface turned out by the outer cover layer of the garment and form a water-absorbing fiber block (8) and a water-absorbing fiber strip (9) which are connected with each other; the side edges of two adjacent water absorption fiber blocks (8) are connected through water absorption fiber strips (9), the water absorption fiber blocks (8) are of a trilateral structure, six water absorption fiber blocks (8) form a water absorption fiber group, and the water absorption fiber blocks (8) in each water absorption fiber group are circumferentially distributed and the side edges correspond to each other to form a hexagonal structure.

2. The intelligent manufacturing process of the garment according to claim 1, wherein: the upper part of the human-shaped mold (2) is provided with an air bag (21), and the human-shaped mold also comprises an air pump (22) connected with the air bag (21), and the controller (7) is connected with the air pump (22) and controls the work of the air pump (22).

3. The intelligent manufacturing process of the garment according to claim 2, wherein: the surface of the air bag (21) is provided with a pressure sensor (23), the pressure sensor (23) is connected with the controller (7) and sends a pressure signal to the controller (7), and the controller (7) controls the operation of the air pump (22) according to the received pressure signal.

4. The intelligent manufacturing process of the garment according to claim 1, wherein: in the step 4), one or more of unsaturated monomers containing cyano, amide groups, ester groups, carboxylic acid groups and sodium sulfonate groups are taken as a copolymerization unit body, the copolymerization unit body is dissolved in an organic solvent to prepare a uniform dispersion solution, and the dispersion solution is spun by a dry method or a wet method to prepare the super absorbent fiber.

5. The intelligent manufacturing process of the garment according to claim 4, wherein: the organic solvent comprises sodium thiocyanate aqueous solution, dimethyl amine formate and acetone.