CN114953656A

CN114953656A - Preparation method of breathable warm-keeping outdoor jacket

Info

Publication number: CN114953656A
Application number: CN202210508473.7A
Authority: CN
Inventors: 金丽君; 叶海斌
Original assignee: Zhejiang Lantu Outdoor Products Co ltd
Current assignee: Zhejiang Lantu Outdoor Products Co ltd
Priority date: 2022-05-10
Filing date: 2022-05-10
Publication date: 2022-08-30

Abstract

The invention discloses a preparation method of a breathable warm-keeping outdoor jacket, which comprises the following steps: (1) preparing the fabric: the fabric comprises a surface layer fabric, an inner layer fabric and an inner layer fabric: the inner layer fabric is prepared by laminating the waterproof breathable film and the breathable warm-keeping fabric in a roller hot-pressing mode, wherein the waterproof breathable film of the inner layer fabric is arranged inside the breathable warm-keeping fabric; (2) designing a clothing sample plate; (3) cutting: respectively cutting the surface fabric, the inner fabric and the inner fabric according to the clothing sample plate; (4) and (3) sewing: sewing the surface layer fabric, the inner layer fabric and the inner layer fabric; (5) and (3) glue pressing treatment: and (3) performing adhesive pressing treatment on the joint splicing parts of the surface fabric, the inner fabric and the inner fabric to obtain the outdoor jacket. According to the invention, the breathable warm-keeping fabric is additionally provided with the layer of breathable warm-keeping fabric, and the waterproof breathable film is compounded into the breathable warm-keeping fabric, so that the breathable performance of the jacket is not influenced while the warm-keeping effect of the jacket is improved.

Description

Preparation method of breathable warm-keeping outdoor jacket

Technical Field

The invention belongs to the field of outdoor jacket clothes, and particularly relates to a preparation method of breathable warm outdoor jacket

Background

Outdoor sports equipment, also known as jackets, is one of the essential equipment for outdoor sports. The jacket, which can be the preferred outer coat for all outdoor enthusiasts, is determined by all-weather functionality, including wind resistance, breathability and water resistance:

the waterproof function ensures that a user can effectively block the invasion of rainwater and frost and snow no matter sitting in a humid place or walking in an environment with intermitted wind and rain, so that water cannot permeate into clothes and feel moist and cold;

ventilative function for the user carries out the outdoor exercises of the amount of exercise that the health is naturally sweaty, and a large amount of moisture of skin exhalation can discharge outside rapidly, avoids sweat to be stranded between health and clothes, makes the people wet thoroughly and produces uncomfortable sense.

The wind-proof function means that the wind-cooling effect is completely prevented. In a variable natural environment, when cold air penetrates through clothes of people, a layer of warm air near the skin of the people is blown away, the layer of warm air is about one centimeter thick, the temperature is 34-35 ℃, and the humidity is 40-60%. Even a slight change in this layer of warm air can cause cooling and discomfort. When cold air blows into the clothes, the warm air is damaged, heat is rapidly lost, and the body temperature is reduced. The wind-proof function prevents the air cooling effect, keeps warm air in the body and maintains the body temperature.

The existing outdoor jacket realizes basic warm keeping through a windproof function, has a very common warm keeping performance effect, is difficult to form warm air rapidly after warm air is lost or partially lost, and particularly has a warm keeping effect which is difficult to meet the requirements of users in a cold environment; therefore, the heat-insulating layer can be added to the jacket to improve the heat-insulating effect of the jacket, but the ventilation effect of the jacket fabric can be influenced by adding the heat-insulating layer and then the sweat absorption effect is reduced.

Disclosure of Invention

The invention aims to provide a preparation method of a breathable warm-keeping jacket, which is characterized in that a layer of breathable warm-keeping fabric is added, and a waterproof breathable film is compounded into the breathable warm-keeping fabric, so that the breathable performance of the jacket is not affected while the warm-keeping effect of the jacket is improved.

In order to solve the technical problems, the following technical scheme is adopted:

a preparation method of a breathable warm-keeping outdoor jacket is characterized by comprising the following steps:

(1) preparing the fabric: the fabric comprises a surface layer fabric, an inner layer fabric and an inner layer fabric:

surface layer fabric: preparing surface fabric by taking polyester fiber as a raw material;

lining fabric: the waterproof breathable film is attached to the breathable warm-keeping fabric in a roller hot-pressing mode to obtain an inner layer fabric, the waterproof breathable film of the inner layer fabric is arranged inside the breathable warm-keeping fabric, and the breathable warm-keeping fabric is arranged outside the breathable warm-keeping fabric;

inner layer fabric: preparing a mesh-shaped inner-layer fabric by using ultrathin polyurethane fibers as a raw material;

(2) designing a clothing sample plate;

(3) cutting: respectively cutting the surface fabric, the inner fabric and the inner fabric according to the clothing sample plate;

(4) and (3) sewing: sewing the surface layer fabric, the inner layer fabric and the inner layer fabric;

(5) and (3) glue pressing treatment: and (3) performing adhesive pressing treatment on the joint splicing parts of the surface fabric, the inner fabric and the inner fabric to obtain the outdoor jacket.

Preferably, warp yarns of the breathable warm-keeping fabric are yarn I obtained by blending EKS fibers and acrylic fibers, weft yarns of the breathable warm-keeping fabric are yarn II obtained by blending modified viscose wool protein fibers, acrylic fibers and viscose fibers, and the breathable warm-keeping fabric is obtained by weaving the yarn I and the yarn II. The EKS fiber has the functions of absorbing moisture and generating heat, and can generate heat by absorbing sweat and moisture emitted by a human body, so that the inside of the clothes is kept in a warm and comfortable state; compared with other formed air layers, the acrylic fiber has more air layers, larger volume of the air layers and better heat preservation effect. The viscose modified wool fiber is rich in amino acid and protein, grooves and gaps are formed in the surface of the fiber, the fiber is soft, the hygroscopicity is good, the wearing comfort is improved while the warm-keeping function is improved, and the characteristics of lightness, thinness, air permeability and warm keeping are given to the fabric based on the compounding of the fabric.

After the breathable warm-keeping fabric is prepared, warm-keeping after-finishing is carried out on the breathable warm-keeping fabric:

step one, preparing finishing liquid: firstly, mixing 85-90 parts of water and 20-30 parts of far infrared finishing agent, uniformly stirring, adding 12-18 parts of softening agent, and uniformly stirring to obtain finishing liquid;

and step two, soaking the breathable warm-keeping fabric into finishing liquid for padding, drying at 100 ℃ after padding, and performing heat setting at 150 ℃ for 1-2min after drying.

According to the invention, the breathable warm-keeping fabric is subjected to warm-keeping finishing by the far infrared finishing agent, so that the far infrared emissivity and the far infrared radiation temperature rise of the fabric are both obviously improved, and the warm-keeping effect of the fabric is further improved.

After optimization, after the prepared breathable warm-keeping fabric is subjected to breathable coating finishing:

step one, preparing coating slurry: weighing nano silicon dioxide particles, adding the nano silicon dioxide particles into PEBAX-n-butyl alcohol solution for ultrasonic dispersion; after being dispersed uniformly, adding the water-based polyacrylate coating agent, and stirring at a high speed until the mixture is uniform to prepare coating slurry;

step two, finishing coating slurry: coating the breathable warm-keeping fabric on the breathable warm-keeping fabric by a scraper coater in a dry coating mode; and then the waterproof breathable film is attached to the breathable warm-keeping fabric in a roller hot-pressing mode, and drying treatment is carried out after the waterproof breathable film is attached to the breathable warm-keeping fabric.

The spherical nano silicon dioxide particles can penetrate into the vicinity of unsaturated bonds of a high polymer chain by virtue of ultrafine particle size and huge specific surface area, so that pores are formed between the particles and a high polymer, thereby increasing the porosity of the coating and improving the air permeability of the coating; the spherical particles are distributed in the network structure of the high polymer, which can play a role of supporting points, prevent the mutual adhesion of high polymer chain segments and is also beneficial to improving the porosity of the coating; meanwhile, gaps also exist among the nano silicon dioxide particles forming the particles, so that the porosity and the air permeability of the coating can be further improved, the nano silicon dioxide particles have good hydrophobicity, high fluidity and small size effect, the water resistance, the breaking strength and the breaking elongation of the coating can be further improved, and the coating can be endowed with anti-aging and antibacterial functions and the like.

The water-based polyacrylate coating agent can be used as a pressure-sensitive adhesive and a heat-sensitive adhesive, and is added into the coating slurry to endow the coating with certain viscosity, so that the bonding fastness of the waterproof breathable film and the breathable warm-keeping fabric is improved.

Preferably, the waterproof breathable film and the breathable warm-keeping fabric are bonded by hot pressing through a roller, the bonding temperature is 120-150 ℃, the bonding pressure is 4-6kPa, and the bonding speed is 10-15 m/min.

Preferably, in the step (3), before cutting, each layer of fabric is cut into fabric sections with fixed length L, and the fabric sections are mutually overlapped; the fabric is continuously cut and overlapped through a cutting machine, and the method comprises the following steps:

firstly, putting the rolled fabric on a fabric placing mechanism, pulling the fabric out to a cutting station by a worker, and placing the fabric flatly; after the cloth is placed, the fabric is clamped by the cloth clamping mechanism and pulled out by L length, the fabric is cut by the cutting head, and after the fabric is cut, the fabric is released by the cloth clamping mechanism to finish one-time cutting;

after the first cutting, the fabric clamping mechanism moves to a cutting station again, the fabric is clamped, the length L is pulled out, the fabric is cut by the cutting head, and after the second cutting, the fabric is released by the fabric clamping mechanism to finish the second cutting;

and step three, repeating the step two, continuously cutting the fabric, and finally obtaining the superposed fabric pile.

The cutting process is carried out in a continuous mechanical and automatic mode and comprises three steps of manual cloth laying, automatic cloth stretching and automatic cutting, the automatic cutting of the fabric is realized through the automatic cloth stretching and the automatic cutting which are circularly reciprocated, workers are liberated, time and labor are saved, the cutting efficiency is improved, the same amount of fabric is cut, compared with the prior art, the time of 1/3-1/2 is saved, and the length of each cut fabric is accurate.

Further, the cutting machine comprises a cutting machine table, a cloth placing mechanism, a cutting mechanism and a cloth clamping mechanism, wherein the cloth placing mechanism, the cutting mechanism and the cloth clamping mechanism are sequentially arranged on the cutting machine table from back to front; a cutting opening is formed in a cutting station of the cutting machine, the fabric is cut at the cutting opening, a superposition groove is formed in a superposition station of the cutting machine, and the cut fabric is superposed in the superposition groove; the cloth releasing mechanism is used for releasing the fabric and comprises a cloth releasing roller and tension rollers, the rolled fabric is inserted into the cloth releasing roller, pulled out by workers and sequentially passes through each tension roller, and finally laid on a cutting station; the cutting mechanism is used for cutting the fabric; and the cloth clamping mechanism is used for clamping and pulling out the fabric with the length of L for the cutting mechanism to cut. The cloth placing mechanism places the rolled fabric through the cloth placing roller, and the tension roller gives a certain tension to the fabric, so that the fabric can be flatly paved on the cutting machine platform; the cutting machine is provided with a cutting opening and is matched with the cutting mechanism, so that the fabric is cut at the cutting opening, the cutting process is smooth, the problem of shell clamping is avoided, and the cutting machine cannot be cut; the surface height of the superposition groove arranged on the cutting machine table is lower than the height of the cloth placing position, so that the fabric can be stacked, and the cutting cannot be influenced even if the fabric is stacked for a certain height. The cloth clamping mechanism is used for sequentially pulling out the fixed-length fabric, so that the cutting length is accurately controlled, and the accuracy of a subsequent cutting process is improved. This guillootine realizes that continuous machinery is automatic cuts, is showing to promote and cuts efficiency.

Further, the mechanism cuts including cutting the frame, slip aircraft nose and slip table module, cuts the frame and erects on cutting the board, cuts the upper end installation slip table module of frame, installs the slip aircraft nose on the slip table module, and the elevating screw module is installed to the slip aircraft nose, and the elevating screw module is installed and is cut the head, cuts the head including the motor that links to each other and cuts the blade, cuts the blade and installs in the blade frame, cuts the blade and cuts mouthful alignment, cuts the surface fabric through cutting the blade. The automatic cutting machine realizes automatic cutting through the cutting mechanism, and has the working principle that: before cutting, the cutting head is in a high position and is separated from a cutting opening, after the cloth clamping mechanism finishes the current cloth pulling, the lifting screw rod module drives the cutting head to move downwards to a cutting opening position, after the cloth clamping mechanism moves downwards to the right position, the sliding table module starts the sliding machine head to drive the cutting head to move transversely, the cutting head cuts the fabric at a constant speed in the transverse moving process, the fabric is cut for 1-2 times back and forth, after the cutting is finished, the cutting head rises to the high position, and the sliding machine head moves transversely to an initial position. This cut mechanism realizes automizing through above-mentioned working procedure and cuts the surface fabric, and structural design is ingenious, and cutting speed is fast and accurate, for realizing cutting in succession and providing the basis.

The lower end opening of the blade frame, the cutting blade only exposes in the opening position, on one hand protects the cutting blade from being damaged by external impact, on the other hand prevents the cutting blade from contacting workers and causing injury to the workers. The both sides of blade frame are equipped with the extension board, and the both sides of cutting out the incision are equipped with metal bracket, and this extension board and metal bracket match each other, and during the sideslip cutting, the extension board moves about on metal bracket, plays the direction guard action.

Further, press from both sides cloth mechanism and locate the both sides that cut the board, including pressing from both sides the cloth frame, indulge and move lead screw module and clamping bar subassembly, the clamping bar subassembly includes fixed clamping bar seat and movable clamping bar seat, it is equipped with the sideslip sliding port to press from both sides the cloth frame, indulge and move the lead screw module and install in pressing from both sides the cloth frame, fixed clamping bar seat and movable clamping bar seat are all installed in the sideslip sliding port, the fixed clamping bar seat is connected and is indulged and move the lead screw module, be equipped with the clamping bar cylinder on the fixed clamping bar seat, the movable clamping bar seat is connected to the piston rod of clamping bar cylinder, it is closed and open to drive movable clamping bar seat clamp to fixed clamping bar seat, be connected with fixed clamping bar between the fixed clamping bar seat, be connected with movable clamping bar between the movable clamping bar seat, movable clamping bar and cut a mouthful phase-match. The invention realizes automatic cloth clamping and cloth pulling through the cloth clamping mechanism, and the working principle is as follows: before clamping the cloth, the clamping rod assembly is positioned at a cloth clamping station and aligned with the cutting opening; after the cloth clamping is started, the clamping rod cylinder is started to enable the movable clamping rod seat to move downwards, and the movable clamping rod moves to the bottom of the cutting opening; then the clamping rod cylinder returns to enable the movable clamping rod to move upwards and clamp the fabric onto the fixed clamping rod, and the fabric clamping is completed; then longitudinally moving a lead screw module to drive a clamping rod assembly to longitudinally move, pulling the fabric out by L length, and waiting for cutting after the fabric is pulled out in place; after cutting, move the lead screw module from north to south and drive the clamping bar subassembly and advance a segment forward once more for the surface fabric accuracy falls into the laminating groove, then opens movable clamping bar and transfers the surface fabric, accomplishes the current clamp cloth process, and the movable clamping bar of reclosing simultaneously, and resets the clamping bar subassembly to the double-layered cloth station, waits for the next clamp cloth.

In order to ensure that the movable clamping rod can accurately clamp the fabric to the fixed clamping rod, firstly, the distance between the fixed clamping rod and the cutting notch is controlled, namely, the distance between the fixed clamping rod and the fabric is controlled; and secondly, the cutting blade cuts at the front position in the cutting opening, and after cutting, a certain allowance is left in the cutting opening so that the movable clamping rod can clamp the fabric with the allowance to the fixed clamping rod.

The cutting machine further comprises a cloth pressing mechanism, the cloth pressing mechanism comprises a cloth pressing rack, a cloth pressing cylinder and a cloth pressing plate, the cloth pressing rack is erected on the cutting machine table and is provided with the cloth pressing cylinder, the cloth pressing cylinder is connected with the cloth pressing plate, the cloth pressing plate is further connected with a guide rod, and the guide rod penetrates through the cloth pressing rack; after the cloth clamping mechanism pulls cloth at every time and before the cutting mechanism cuts the fabric at every time, the cloth pressing cylinder is started, the cloth pressing plate presses down the fixed fabric, and after cutting, the cloth pressing cylinder and the cloth pressing plate reset. According to the invention, the fabric is regularly pressed by the fabric clamping mechanism and is matched with the fabric clamping mechanism, so that the front end and the rear end of the fabric are synchronously fixed, the fabric is tensioned during cutting, and the cutting precision and the cutting smoothness of the fabric are favorably improved.

Due to the adoption of the technical scheme, the method has the following beneficial effects:

the invention relates to a preparation method of a breathable warm-keeping jacket, which is characterized in that a layer of breathable warm-keeping fabric is added, and a waterproof breathable film is compounded into the breathable warm-keeping fabric, so that the breathable performance of the jacket is not affected while the warm-keeping effect of the jacket is improved.

The EKS fiber has the functions of moisture absorption and heating, and can absorb sweat and moisture emitted by a human body to heat so as to keep the warm and comfortable state in the clothes; compared with other formed air layers, the acrylic fiber has more air layers, larger volume of the air layers and better heat preservation effect. The viscose modified wool fiber is rich in amino acid and protein, grooves and gaps are formed in the surface of the fiber, the fiber is soft, the hygroscopicity is good, the wearing comfort is improved while the warm-keeping function is improved, and the characteristics of lightness, thinness, air permeability and warm keeping are given to the fabric based on the compounding of the fabric.

The water-based polyacrylate coating agent can be used as a pressure-sensitive adhesive and a heat-sensitive adhesive, and is added into coating slurry to endow a coating with certain viscosity, so that the bonding fastness of the waterproof breathable film and the breathable warm-keeping fabric is improved.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a structural view of the fabric of a jacket according to the present invention;

FIG. 2 is a schematic view of a cutting machine;

FIG. 3 is a schematic view of a cutting machine;

FIG. 4 is a schematic view of a cut-out;

FIG. 5 is a schematic structural view of a cloth placing mechanism;

FIG. 6 is a schematic structural view of the cutting mechanism;

fig. 7 is a schematic structural view of the cutting head;

FIG. 8 is a schematic structural view of the cloth clamping mechanism;

FIG. 9 is a schematic view of the clamping bar assembly;

fig. 10 is a schematic structural view of the cloth pressing mechanism.

Wherein the reference numbers are: surface fabric-11, breathable and warm-keeping fabric-12, waterproof breathable film-13, inner fabric-14, cutting machine table-2, cutting opening-21, laminating groove-22, metal bracket-23, cloth placing mechanism-3, cloth placing roller-31, tension roller-32, cloth pressing mechanism-4, cloth pressing frame-41, cloth pressing cylinder-42, cloth pressing plate-43, guide rod-44, cutting mechanism-5, cutting frame-51, sliding table module-52, sliding head-53, lifting screw module-54, cutting head-55, cutting motor-551, blade holder-552, support plate-553, cutting blade-554, cloth clamping mechanism-6, cloth clamping frame-61, transverse sliding opening-62, clamping rod module-63, fixed clamp rod seat-631, movable clamp rod seat-632, clamp rod cylinder-633, fixed clamp rod-634 and movable clamp rod-635.

Detailed Description

The invention aims to provide a preparation method of a breathable warm-keeping jacket, which is characterized in that a layer of breathable warm-keeping fabric is added, and a waterproof breathable film is compounded into the breathable warm-keeping fabric, so that the breathable performance of the jacket is not affected while the warm-keeping effect of the jacket is improved. The preparation method comprises the following steps:

(1) preparing the fabric: the fabric comprises a surface layer fabric 11, an inner layer fabric and an inner layer fabric:

surface fabric 11: preparing a surface fabric 11 by using polyester fibers as a raw material; spinning, weaving and finishing to obtain the surface polyester fiber surface fabric 11.

Lining fabric: the waterproof breathable film 13 is attached to the breathable warm-keeping fabric 12 in a roller hot-pressing mode to obtain an inner layer fabric, the waterproof breathable film 13 of the inner layer fabric is arranged inside, and the breathable warm-keeping fabric 12 is arranged outside; wherein, the roller is used for hot-pressing and jointing the waterproof breathable film 13 and the breathable warm-keeping fabric 12, the jointing temperature is 120-150 ℃, the jointing pressure is 4-6kPa, and the jointing speed is 10-15 m/min.

The warp yarn of the breathable warm-keeping fabric 12 is yarn I obtained by blending EKS fibers and acrylic fibers, the weft yarn is yarn II obtained by blending modified viscose wool protein fibers, acrylic fibers and viscose fibers, and the breathable warm-keeping fabric 12 is obtained by weaving the yarn I and the yarn II. The EKS fiber has the functions of absorbing moisture and generating heat, and can generate heat by absorbing sweat and moisture emitted by a human body, so that the inside of the clothes is kept in a warm and comfortable state; compared with other formed air layers, the acrylic fiber has more air layers, larger volume of the air layers and better heat preservation effect. The viscose modified wool fiber is rich in amino acid and protein, grooves and gaps are formed in the surface of the fiber, the fiber is soft, the hygroscopicity is good, the wearing comfort is improved while the warm-keeping function is improved, and the characteristics of lightness, thinness, air permeability and warm keeping are given to the fabric based on the compounding of the fabric.

After the breathable warm-keeping fabric 12 is manufactured, firstly, warm-keeping after-finishing is performed on the fabric:

and step two, soaking the breathable warm-keeping fabric 12 in finishing liquid for padding, drying at 100 ℃ after padding, and performing heat setting at 150 ℃ for 1-2min after drying.

The breathable warm-keeping fabric 12 is subjected to warm-keeping finishing by the far infrared finishing agent, so that the far infrared emissivity and the far infrared radiation temperature rise of the fabric are both remarkably improved, and the warm-keeping effect of the fabric is further improved.

And (3) performing breathable coating finishing on the fabric:

step two, finishing coating slurry: coating the breathable warm-keeping fabric 12 by a dry coating method by using a scraper coater; and then the waterproof breathable film 13 is attached to the breathable warm-keeping fabric 12 in a roller hot-pressing mode, and drying treatment is carried out after the attachment.

The spherical nano silicon dioxide particles can penetrate into the vicinity of unsaturated bonds of a high polymer chain by virtue of ultrafine particle size and huge specific surface area, so that pores are formed between the particles and a high polymer, thereby increasing the porosity of the coating and improving the air permeability of the coating; the spherical polymer is distributed in a network structure of a high polymer, can play a role of a supporting point, prevents the high polymer chain segments from being adhered to each other, and is also favorable for improving the porosity of the coating; meanwhile, gaps also exist among the nano silicon dioxide particles forming the particles, so that the porosity and the air permeability of the coating can be further improved, the nano silicon dioxide particles have good hydrophobicity, high fluidity and small size effect, the water resistance, the breaking strength and the breaking elongation of the coating can be further improved, and the coating can be endowed with anti-aging and antibacterial functions and the like.

The water-based polyacrylate coating agent can be used as a pressure-sensitive adhesive and a heat-sensitive adhesive, and is added into the coating slurry to endow the coating with certain viscosity, so that the bonding fastness of the waterproof breathable film 13 and the breathable warm-keeping fabric 12 is improved.

Inner layer fabric 14: preparing a mesh-shaped inner layer fabric 14 by using ultrathin polyurethane fibers as a raw material; spinning, weaving and finishing to obtain the surface ultrathin polyurethane inner layer fabric 14.

(2) Designing a clothing sample plate to obtain a paper pattern;

(3) cutting: respectively cutting the surface fabric 11, the inner fabric and the inner fabric 14 according to the clothing sample plate;

(4) and (3) sewing: sewing the surface fabric 11, the inner fabric and the inner fabric 14;

(5) and (3) glue pressing treatment: and (4) performing adhesive pressing treatment on the seam splicing parts of the surface layer fabric 11, the inner layer fabric and the inner layer fabric 14 to obtain the outdoor jacket.

Before cutting, cutting each layer of fabric into fabric sections with fixed length L, and mutually overlapping the fabric sections; the fabric is continuously cut and overlapped through a cutting machine, and the method comprises the following steps:

firstly, putting the rolled fabric on a fabric placing mechanism 3, pulling the fabric out to a cutting station by a worker, and placing the fabric flatly; after the cloth is placed, the fabric is clamped by the cloth clamping mechanism 6 and pulled out by L length, the fabric is cut by the cutting head 55, and after the fabric is cut, the fabric is released by the cloth clamping mechanism 6 to finish one-time cutting;

after the first cutting, the cloth clamping mechanism 6 moves to the cutting station again to clamp the fabric and pull out the length L, the fabric is cut by the cutting head 55, and after the second cutting, the fabric is released by the cloth clamping mechanism 6 to finish the second cutting;

As shown in fig. 2-10, the cutting machine includes a cutting machine platform 2, a cloth placing mechanism 3, a cutting mechanism 5 and a cloth clamping mechanism 6, wherein the cloth placing mechanism 3, the cutting mechanism 5 and the cloth clamping mechanism 6 are sequentially installed on the cutting machine platform 2 from back to front; a cutting opening 21 is formed in a cutting station of the cutting machine table 2, the fabric is cut at the cutting opening 21, a superposition groove 22 is formed in a superposition station of the cutting machine table 2, and the cut fabric is superposed in the superposition groove 22; the cloth releasing mechanism 3 is used for releasing the fabric and comprises a cloth releasing roller 31 and tension rollers 32, the rolled fabric is inserted into the cloth releasing roller 31, pulled out by workers and sequentially passes through each tension roller 32, and finally laid on a cutting station; the cutting mechanism 5 is used for cutting the fabric; and the cloth clamping mechanism 6 is used for clamping and pulling out the fabric with the length of L for the cutting mechanism 5 to cut. The cloth placing mechanism 3 places the rolled fabric through a cloth placing roller 31, and a tension roller 32 gives a certain tension to the fabric, so that the fabric can be flatly laid on the cutting machine table 2; the cutting machine table 2 is provided with a cutting opening 21 and is matched with the cutting mechanism 5, so that the fabric is cut at the position of the cutting opening 21, the cutting process is smooth, the problem of shell clamping is avoided, and the cutting machine table 2 cannot be cut; the surface height of the superposition groove 22 arranged on the cutting machine table 2 is lower than the cloth placing position, and the superposition groove is used for superposing the fabrics, so that the cutting cannot be influenced even if the fabrics are superposed for a certain height. The cloth clamping mechanism 6 is used for sequentially pulling out the fixed-length fabric, so that the cutting length is accurately controlled, and the accuracy of the subsequent cutting process is improved. This guillootine realizes that continuous machinery is automatic cuts, is showing to promote and cuts efficiency.

The cutting mechanism 5 comprises a cutting frame 51, a sliding machine head 53 and a sliding table module 52, the cutting frame 51 is arranged on the cutting machine table 2, the sliding table module 52 is arranged at the upper end of the cutting frame 51, the sliding machine head 53 is arranged on the sliding table module 52, a lifting lead screw module 54 is arranged on the sliding machine head 53, the lifting lead screw module 54 is provided with a cutting head 55, the cutting head 55 comprises a cutting motor 551 and a cutting blade 554 which are connected, the cutting blade 554 is arranged in a blade frame 552, the cutting blade 554 is aligned with a cutting notch 21, and fabrics are cut by the cutting blade 554. The automatic cutting machine realizes automatic cutting through the cutting mechanism 5, and has the working principle that: before cutting, the cutting head 55 is in a high position and is separated from the cutting notch 21, after the cloth clamping mechanism 6 finishes the previous cloth drawing, the lifting screw module 54 drives the cutting head 55 to move downwards to the position of the cutting notch 21, after the cloth clamping mechanism moves downwards to the position, the sliding table module 52 starts the sliding head 53 to drive the cutting head 55 to move transversely, the cutting head 55 cuts the fabric at a constant speed in the transverse moving process, the fabric is cut back and forth for 1-2 times, after the cutting is finished, the cutting head 55 is lifted to the high position, and the sliding head 53 moves transversely to an initial position. This cut mechanism 5 realizes automizing through above-mentioned working procedure and cuts the surface fabric, and structural design is ingenious, and cutting speed is fast and accurate, for realizing cutting in succession and providing the basis.

The blade holder 552 is open at the lower end, and the cutting blade 554 is exposed only at the open position, so that the cutting blade 554 is protected from being damaged by external impact on the one hand, and the cutting blade 554 is prevented from contacting workers to cause injury to the workers on the other hand. Support plates 553 are arranged on two sides of the blade frame 552, metal brackets 23 are arranged on two sides of the cutting notch 21, the support plates 553 are matched with the metal brackets 23, and when the blade frame is transversely moved and cut, the support plates 553 move on the metal brackets 23 to play a role in guiding and protecting.

Press from both sides cloth mechanism 6 and locate the both sides that cut board 2, including pressing from both sides cloth frame 61, indulge and move lead screw module and clamping bar subassembly 63, clamping bar subassembly 63 includes fixed clamping bar seat 631 and activity clamping bar seat 632, it is equipped with sideslip sliding port 62 to press from both sides cloth frame 61, indulge and move the lead screw module and install in pressing from both sides cloth frame 61, fixed clamping bar seat 631 all installs in sideslip sliding port 62 with activity clamping bar seat 632, fixed clamping bar seat 631 is connected and is indulged and move the lead screw module, be equipped with clamping bar cylinder 633 on the fixed clamping bar seat 631, movable clamping bar seat 632 is connected to the piston rod of clamping bar cylinder 633, it presss from both sides tightly closed and opens to fixed clamping bar seat 631 to drive activity clamping bar seat 632, be connected with fixed clamping bar 634 between the fixed clamping bar seat 631, be connected with movable clamping bar 635 between the activity clamping bar seat 632, activity clamping bar 635 and the matching of cutting out 21. The invention realizes automatic cloth clamping and cloth pulling through the cloth clamping mechanism 6, and the working principle is as follows: before clamping the cloth, the clamping rod assembly 63 is positioned at a cloth clamping station and aligned with the cutting notch 21; after the cloth clamping is started, the clamping rod cylinder 633 is started to enable the movable clamping rod seat 632 to move downwards, and the movable clamping rod 635 moves to the bottom of the cutting opening 21; then the clamping bar cylinder 633 is restored, so that the movable clamping bar 635 moves upwards and clamps the fabric to the fixed clamping bar 634, and the fabric clamping is completed; then, the longitudinal movement screw rod module drives the clamping rod assembly 63 to move longitudinally, the fabric is pulled out by L length, and after the fabric is pulled out in place, cutting is waited; after cutting, the longitudinal-moving lead screw module drives the clamping rod assembly 63 to move forwards for a small section again, so that the fabric accurately falls into the overlapping groove 22, the movable clamping rod 635 is opened to lower the fabric, the current fabric clamping process is completed, the movable clamping rod 635 is closed again, the clamping rod assembly 63 is reset to the fabric clamping station, and the next fabric clamping is waited.

In order to enable the movable clamping bar 635 to accurately clamp the fabric to the fixed clamping bar 634, the distance between the fixed clamping bar 634 and the cutting notch 21, i.e. the distance between the fixed clamping bar 634 and the fabric, is controlled; next, the cutting blade 554 cuts at a front position inside the cutting opening 21, and the cut cloth leaves a certain margin in the cutting opening 21 so that the movable clamp bar 635 clamps the margin of the cloth to the fixed clamp bar 634.

To increase the force of the clamping cloth, a sponge or rubber layer may be placed on the movable clamping bar 635.

The cutting machine further comprises a cloth pressing mechanism 4, the cloth pressing mechanism 4 comprises a cloth pressing rack 41, a cloth pressing cylinder 42 and a cloth pressing plate 43, the cloth pressing rack 41 is erected on the cutting machine 2, the cloth pressing rack 41 is provided with the cloth pressing cylinder 42, the cloth pressing cylinder 42 is connected with the cloth pressing plate 43, the cloth pressing plate 43 is further connected with a guide rod 44, and the guide rod 44 penetrates through the cloth pressing rack 41; after the cloth clamping mechanism 6 performs cloth pulling each time and before the cutting mechanism 5 cuts the fabric each time, the cloth pressing cylinder 42 is started, the cloth pressing plate 43 presses down the fixed fabric, and after cutting, the cloth pressing cylinder 42 and the cloth pressing plate 43 reset. According to the invention, the fabric is regularly pressed by the fabric clamping mechanism 6 and is matched with the fabric clamping mechanism 6, so that the front end and the rear end of the fabric are synchronously fixed, the fabric is tensioned during cutting, and the cutting precision and the cutting smoothness of the fabric are favorably improved.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered in the protection scope of the present invention.

Claims

1. A preparation method of a breathable warm-keeping outdoor jacket is characterized by comprising the following steps:

surface layer fabric: preparing a surface fabric by taking polyester fiber as a raw material;

(2) designing a clothing sample plate;

2. The method for preparing the breathable warm-keeping outdoor jacket according to claim 1, is characterized in that: the warp of the breathable warm-keeping fabric is yarn I obtained by blending EKS fibers and acrylic fibers, the weft of the breathable warm-keeping fabric is yarn II obtained by blending modified viscose wool protein fibers, acrylic fibers and viscose fibers, and the yarn I and the yarn II are woven to obtain the breathable warm-keeping fabric.

3. The method for preparing the breathable warm-keeping outdoor jacket according to claim 2, characterized in that: after the breathable warm-keeping fabric is prepared, performing warm-keeping after-finishing on the fabric:

and step two, immersing the breathable warm-keeping fabric into finishing liquid for padding, drying at 100 ℃ after padding, and performing heat setting at 150 ℃ for 1-2min after drying.

4. The preparation method of the breathable warm-keeping outdoor jacket according to claim 2, characterized in that: after the breathable warm-keeping fabric is prepared, the breathable warm-keeping fabric is subjected to breathable coating finishing:

step two, finishing coating slurry: coating the breathable warm-keeping fabric on the breathable warm-keeping fabric by a scraper coater in a dry coating mode; and then the waterproof breathable film is attached to the breathable warm-keeping fabric in a roller hot-pressing mode, and drying treatment is carried out after the waterproof breathable film is attached.

5. The method for preparing the breathable warm-keeping outdoor jacket according to claim 1, is characterized in that: the roller is used for hot-pressing and attaching the waterproof breathable film and the breathable warm-keeping fabric, the attaching temperature is 120-150 ℃, the attaching pressure is 4-6kPa, and the attaching speed is 10-15 m/min.

6. The method for preparing the breathable warm-keeping outdoor jacket according to claim 1, is characterized in that: in the step (3), before cutting, each layer of fabric is cut into fabric sections with fixed length L, and the fabric sections are mutually overlapped; the fabric is continuously cut and overlapped through a cutting machine, and the method comprises the following steps:

firstly, putting the rolled fabric on a fabric placing mechanism, pulling the fabric out to a cutting station by a worker, and placing the fabric flatly; after the cloth is placed, the cloth clamping mechanism is used for clamping the fabric and pulling the fabric out by the length of L, then the fabric is cut by the cutting head, and after the fabric is cut, the cloth clamping mechanism releases the fabric to finish one-time cutting;

7. The method for preparing the breathable warm-keeping outdoor jacket according to claim 6, wherein the method comprises the following steps: the cutting machine comprises a cutting machine table, a cloth placing mechanism, a cutting mechanism and a cloth clamping mechanism, wherein the cloth placing mechanism, the cutting mechanism and the cloth clamping mechanism are sequentially installed on the cutting machine table from back to front; a cutting opening is formed in a cutting station of the cutting machine, the fabric is cut at the cutting opening, a superposition groove is formed in a superposition station of the cutting machine, and the cut fabric is superposed in the superposition groove; the cloth releasing mechanism is used for releasing fabric and comprises a cloth releasing roller and tension rollers, the rolled fabric is inserted into the cloth releasing roller, pulled out by workers and sequentially passes through each tension roller, and finally is flatly laid on a cutting station; the cutting mechanism is used for cutting the fabric; the cloth clamping mechanism is used for clamping and pulling out the fabric with the length of L for the cutting mechanism to cut.

8. The method for preparing the breathable warm-keeping outdoor jacket according to claim 7, is characterized in that: the cutting mechanism comprises a cutting rack, a sliding machine head and a sliding table module, the cutting rack is erected on the cutting machine table, the sliding table module is installed at the upper end of the cutting rack, the sliding machine head is installed on the sliding table module, a lifting screw module is installed on the sliding machine head, the lifting screw module is installed on the cutting head, the cutting head comprises a cutting motor and a cutting blade which are connected, the cutting blade is installed in a blade frame, the cutting blade is aligned with a cutting opening, and the cutting blade cuts fabric.

9. The method for preparing the breathable warm-keeping outdoor jacket according to claim 8, wherein the method comprises the following steps: the cloth clamping mechanism is arranged on two sides of the cutting machine table and comprises a cloth clamping frame, a longitudinal moving lead screw module and a clamping rod assembly, the clamping rod assembly comprises a fixed clamping rod seat and a movable clamping rod seat, the cloth clamping frame is provided with a transverse moving sliding port, the longitudinal moving lead screw module is installed in the cloth clamping frame, the fixed clamping rod seat and the movable clamping rod seat are installed in the transverse moving sliding port, the fixed clamping rod seat is connected with the longitudinal moving lead screw module, a clamping rod cylinder is arranged on the fixed clamping rod seat, a piston rod of the clamping rod cylinder is connected with the movable clamping rod seat, the movable clamping seat is driven to be tightly closed and opened towards the fixed clamping rod seat, a fixed clamping rod is connected between the fixed clamping rod seats, a movable clamping rod is connected between the movable clamping rod seats, and the movable clamping rod is matched with the cutting port.

10. The method for preparing the breathable warm-keeping outdoor jacket according to claim 7, is characterized in that: the cutting machine also comprises a cloth pressing mechanism, wherein the cloth pressing mechanism comprises a cloth pressing rack, a cloth pressing cylinder and a cloth pressing plate, the cloth pressing rack is erected on the cutting machine table, the cloth pressing rack is provided with the cloth pressing cylinder, the cloth pressing cylinder is connected with the cloth pressing plate, the cloth pressing plate is also connected with a guide rod, and the guide rod penetrates through the cloth pressing rack; after the cloth clamping mechanism pulls cloth every time and before the cutting mechanism cuts the fabric every time, the cloth pressing cylinder is started, the cloth pressing plate presses down the fixed fabric, and after the cutting, the cloth pressing cylinder and the cloth pressing plate reset.