CN112075695A - Anti-puncture and anti-cutting white gown and manufacturing method thereof - Google Patents

Anti-puncture and anti-cutting white gown and manufacturing method thereof Download PDF

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Publication number
CN112075695A
CN112075695A CN202010975132.1A CN202010975132A CN112075695A CN 112075695 A CN112075695 A CN 112075695A CN 202010975132 A CN202010975132 A CN 202010975132A CN 112075695 A CN112075695 A CN 112075695A
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China
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fabric
layer
resistant
stab
cutting
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朱鹤飞
马飞飞
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Shanghai Gujia New Material Technology Co ltd
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Shanghai Gujia New Material Technology Co ltd
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    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D13/00Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
    • A41D13/12Surgeons' or patients' gowns or dresses
    • A41D13/1209Surgeons' gowns or dresses
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D27/00Details of garments or of their making
    • A41D27/24Hems; Seams
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D31/00Materials specially adapted for outerwear
    • A41D31/04Materials specially adapted for outerwear characterised by special function or use
    • A41D31/14Air permeable, i.e. capable of being penetrated by gases
    • A41D31/145Air permeable, i.e. capable of being penetrated by gases using layered materials
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D31/00Materials specially adapted for outerwear
    • A41D31/04Materials specially adapted for outerwear characterised by special function or use
    • A41D31/24Resistant to mechanical stress, e.g. pierce-proof
    • A41D31/245Resistant to mechanical stress, e.g. pierce-proof using layered materials

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)

Abstract

The invention discloses a stab-resistant and cut-resistant white coat and a manufacturing method thereof, wherein the stab-resistant and cut-resistant white coat comprises a first layer of surface fabric and a second layer of stab-resistant fabric which are integrally connected in a sewing mode, the first layer of surface fabric is completely sewn together, gaps of 1-20mm exist between shoulder seams and muffs of the second layer of stab-resistant fabric, and the second layer of stab-resistant fabric is woven by adopting one or more of aramid fiber, high-strength high-modulus polyethylene fiber, high-strength polyester fiber, high-strength nylon fiber, glass fiber, basalt fiber, metal fiber and spandex in a knitting or weaving mode. The white gown not only has the cutting and puncture resistance, but also has large protection area, is comfortable and soft to wear, and is flexible and breathable.

Description

Anti-puncture and anti-cutting white gown and manufacturing method thereof
Technical Field
The invention relates to the technical field of functional safety protection products, in particular to a puncture-resistant and cutting-resistant white gown and a manufacturing method thereof.
Background
In recent years, medical injuries occur, and the requirements of patients for doctors are increased to new heights, so that not only treatment is required, but also the doctors are required to have good medical care for the patients. Overexcited individuals are often life threatening if there is any dissatisfaction, which greatly increases the unsafe factors for the healthcare worker's work environment. Some patients or family members with excessive excitation have the phenomenon of carrying a knife to murder the doctor, so that some light doctors are injured and some serious doctors lose lives. Therefore, the life health safety of medical care personnel is guaranteed by legislation for the majority of people in the country, the safety and sanitation level of hospitals is comprehensively improved, and the occupational health safety of the majority of medical care personnel is guaranteed.
Conventional hard stab-resistant clothes are often made of metal sheets, metal plates or metal fibers, and the hard stab-resistant clothes are bulky, heavy and inflexible to wear; the soft stab-resistant clothing is generally made of PE non-woven fabric, gum-dipped non-woven fabric or woven fabric, and the like, so that the softness is improved, but the soft stab-resistant clothing is thick and heavy in weight. These stab-resistant suits are generally equipped with police officers, frontier guards, etc. However, simply taking these anti-puncture garments to apply to doctors wearing anti-puncture white gowns is not suitable because doctors need to have both high protection effect and excellent wearing comfort, and is flexible and breathable, and does not affect various daily works. Therefore, the development of a puncture-proof white gown with good cutting and puncture-proof performance, comfort and ventilation and beautiful style is a problem to be solved by the technical personnel in the field. Chinese patent publication No. CN209807194U discloses a cut-resistant fiber material-based medical gown, which comprises a liner and a sheath, and further comprises a garment, wherein the liner is fixed on the inner side of the garment, and the sheath is fixedly connected with the cuff of the garment through a fixing buckle belt. This patent is equivalent to "hanging" the inner liner on the outer garment, and has only certain local protection, and the connection part is fixed by the fixing fastener belt, which causes local swelling, hurts the skin, is uncomfortable to wear, and has short service life. Chinese patent publication No. CN211021084U discloses a medical stab-resistant garment, which comprises a plain woven fabric made of ultra-high molecular weight polyethylene fibers, and a right front of the stab-resistant garment is overlapped on or under a left front of the garment and connected by a movable connecting piece. The medical stab-resistant garment has certain protection, but is a plain weave fabric woven by single-layer polyethylene fibers, and the material has no elasticity and is poor in wearing comfort; and the anti-stab clothes are connected through the movable connecting pieces, and the connecting parts also influence the comfort degree of the common clothes. The Chinese patent with the application number of 201911145943.2 discloses a soft stab-resistant garment and a manufacturing method thereof, the disclosed stab-resistant garment comprises an outer jacket and stab-resistant materials arranged in the outer jacket, and the stab-resistant materials are formed by overlapping a plurality of layers of stab-resistant cloth prepared by compounding high-performance fibers and adhesives. The stab-resistant clothes have a good stab-resistant effect, but the moisture permeability and the air permeability are poor after the stab-resistant clothes are compounded by the adhesive, and the thickness is thick after tens of layers of stab-resistant cloth are laminated, so that the wearing experience is influenced.
Disclosure of Invention
The invention provides the anti-puncturing anti-cutting white coat and the manufacturing method thereof for solving the problems in the prior art, the anti-puncturing anti-cutting white coat not only has anti-cutting and anti-puncturing performance, but also has large protection area, the connection part of the clothes is designed by sewing and serging, and the integral sewing design of the surface layer fabric and the anti-puncturing fabric improves the comfortable and soft wearing performance and the flexible air permeability of the clothes.
In order to achieve the purpose, the invention adopts the following technical scheme:
the invention provides a stab-resistant and cut-resistant white coat, which comprises a first layer of surface fabric and a second layer of cut-resistant fabric which are integrally connected by sewing, wherein the first layer of surface fabric is completely sewn together, a gap of 1-20mm exists between a shoulder seam and an armhole part of the second layer of cut-resistant fabric, and the second layer of cut-resistant fabric is woven by one or more of aramid fiber, high-strength high-modulus polyethylene fiber, high-strength polyester fiber, high-strength nylon fiber, glass fiber, basalt fiber, metal fiber and spandex in a knitting or weaving mode.
Preferably, the fabric further comprises a third layer of inner layer fabric, and the first layer of surface layer fabric, the second layer of anti-cutting and anti-puncturing fabric and the third layer of inner layer fabric are sequentially and integrally sewn and connected.
Preferably, the first surface layer fabric is formed by weaving one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fiber, modal, bamboo fiber and conductive yarn in a compounding manner.
Preferably, the gram weight of the second layer of anti-cutting and anti-puncturing fabric is 120-2The thickness is 0.3-4 mm; the second layer of anti-cutting and anti-puncturing fabric at least adopts aramid fibers and high-strength high-modulus polyethylene fibers, wherein the aramid fibers and the high-strength high-modulus polyethylene fibersThe ratio of the sum of the fiber mass to the total mass of the second layer of the anti-cutting and anti-puncturing fabric is 70-100%, the strength of the aramid fiber and the high-strength and high-modulus polyethylene fiber is at least 28CN/dex, and the modulus is at least 1000 CN/dtex.
Preferably, the third layer of lining fabric is formed by compositely weaving one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fibers, modal, bamboo fibers and conductive wires; the gram weights of the first layer surface fabric and the third layer lining fabric are both 100-280g/m2The thickness is 0.2-1.5mm, and the weaving mode is knitting or weaving.
Preferably, the white gown is provided with pockets at two sides of the front chest and the waist.
Preferably, the white gown is provided with a button at the cuff, and the button is an elastic button or a button.
Preferably, the sleeves of the white gown are long sleeves or short sleeves.
Preferably, the white gown is provided with embroidery or printing in front of the chest; the whole white gown is a slimming style or a loose edition, and the weight of the white gown is 0.3-2 kg.
The second aspect of the invention provides a manufacturing method of the anti-puncturing and anti-cutting white gown, which comprises the following steps:
s1, sewing the first layer of surface fabric and the second layer of anti-cutting and anti-puncturing fabric at the side seams of the white gown and the shoulder seams on the chest side, and seaming; then, independently overlocking the second layer of anti-cutting and anti-puncturing fabric on one side of the back; finally, sewing and pressing the two layers of the fabrics sewn together on the two layers of the back fabric;
s2, sewing and serging the first layer of surface fabric and the second layer of anti-cutting and anti-puncturing fabric on the chest part at the position of the white jacket sleeve cage; then, independently overlocking the second layer of anti-cutting and anti-puncturing fabric on the back, sewing and pressing the second layer of anti-cutting and anti-puncturing fabric on the first layer of surface fabric, sewing and overlocking the first layer of surface fabric and the second layer of anti-cutting and anti-puncturing fabric on the white jacket sleeve part, sewing the chest part, the back part and the first layer of surface fabric of the sleeve part together at the sleeve cage, and keeping a gap of 1-20mm between the two layers of fabric at the sleeve part of the sleeve cage and the second layer of anti-cutting and anti-puncturing fabric in the front of the chest part and the second layer of anti-cutting and anti-puncturing fabric on the back part; the anti-stab white jacket also can be formed by integrally sewing a first layer of surface fabric, a second layer of anti-cut and stab fabric and a third layer of lining fabric, the chest, the back, the sleeves, the second layer of anti-cut and stab fabric and the third layer of lining fabric are integrally sewn and overlocked to form a whole, and then the whole is sewn with the first layer of surface fabric, the first layer of surface fabric in the armhole position is sewn together to connect the chest, the back and the sleeves, the second layer of anti-cut and stab fabric and the third layer of lining fabric do not need to connect the chest, the back and the sleeves, and a gap of 1-20mm exists between the sleeves and the chest and the back at the armhole part;
s3, integrally sewing the first layer of surface fabric and the second layer of anti-cutting thorn fabric of the neck stand-up collar part and the front chest small collar part of the white Chinese gown;
s4, integrally sewing the first layer of surface fabric and the second layer of anti-cutting and anti-pricking fabric at the most edge of the white jacket fly.
By adopting the technical scheme, compared with the prior art, the invention has the following technical effects:
1. the anti-stabbing white gown has the effects of preventing stabbing, poking, cutting and scratching, and is light in weight, and the weight of a finished product is within the range of 0.3-2kg, so that the anti-stabbing white gown is much lighter than that of common metal anti-stabbing gowns and soft anti-stabbing gowns; meanwhile, the protection area is large, the whole upper half body is protected, and the multifunctional electric blanket has the advantages of comfort, softness, flexibility, ventilation, easiness in stretching, no influence on various actions and the like.
2. The anti-puncturing white jacket shoulder seam, the muff and the side edge seam adopt the unique sewing and edge locking design, have good stretching elasticity, do not press against the skin, and improve the comfort of the connecting part of the anti-puncturing jacket.
3. The anti-stabbing white gown adopts a body shaping design, is fashionable in style, and meets aesthetic wearing requirements of medical and health personnel; can be worn on duty alone or in combination with other conventional clothes.
4. The manufacturing method of the anti-puncturing white gown can also be applied to the aspects of anti-puncturing long sleeves, short sleeves, anti-puncturing jackets and coats.
Drawings
FIG. 1 is a schematic cross-sectional view of a stab and cut resistant white gown in accordance with the present invention;
FIG. 2 is a schematic front view of a stab and cut resistant white gown in accordance with the present invention;
FIG. 3 is a schematic view of the back of the stab and cut resistant white gown of the present invention;
wherein the various reference numbers are:
1-a first layer of surface fabric; 2-a second layer of anti-cutting and anti-puncturing fabric; 3-third layer of lining fabric; 4-pocket; 5-clasp.
Detailed Description
The present invention will be described in detail and specifically with reference to the following examples and drawings so as to provide a better understanding of the invention, but the following examples do not limit the scope of the invention.
Example 1
As shown in fig. 1 and 2, the invention provides a puncture-proof and cut-proof white coat, which comprises a first layer of surface fabric 1 and a second layer of puncture-proof fabric 2 which are integrally sewn and connected.
As a preferred embodiment, the first surface fabric 1 is made of one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fiber, modal, bamboo fiber and conductive yarn through composite weaving, preferably 32 combed polyester cotton woven fabric is selected, and the fabric is bleached white fabric with a gram weight of 160g/m2The thickness is 0.2 mm.
As a preferred embodiment, the second layer of anti-cutting and anti-stab fabric 2 is made of one or more of aramid fiber, high-strength high-modulus polyethylene fiber, high-strength polyester fiber, high-strength nylon fiber, glass fiber, basalt fiber and metal fiber through composite weaving, preferably, the high-strength high-modulus polyethylene fiber blended spandex fabric is adopted, the mass percentage of the high-strength high-modulus polyethylene fiber in the second layer of anti-cutting and anti-stab fabric 2 is 95%, the high-strength high-modulus polyethylene has the strength of 32CN/dex, and the modulus is 1100 CN/dtex. The second layer of anti-cutting and anti-puncturing fabric 2 is of a knitted structure and has the gram weight of 550g/m2The thickness is 2 mm.
As a preferred embodiment, the third inner layer fabric 3 is made of one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fibers, modal, bamboo fibers and conductive filaments through composite weaving.
In a preferred embodiment, the white gown is provided with pockets 4 on both the chest and waist.
As a preferred embodiment, the white gown is provided with an elastic or button, preferably a button cuff, at the cuff.
As a preferred embodiment, the sleeves of the white gown are long-sleeved or short-sleeved, preferably a long-sleeve design.
As a preferred embodiment, the white gown is provided with embroidery or printing in the front of the chest.
As a preferred embodiment, the white gown is entirely in a form of a build-up style or a loose edition, preferably a build-up design; and the weight of the white gown is 0.3-2 kg.
The processed and woven white gown is classic and fashionable in style, comfortable and soft to wear, flexible and breathable, has a high puncture-proof and cutting-proof effect, and plays a good protection role; meanwhile, the protection level of the white gown can be correspondingly improved through the thickness of the anti-cutting material.
The manufacturing method of the stab-resistant and cut-resistant white gown comprises the following steps:
s1, sewing and seaming a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 at the side seams and shoulder seams of the white jacket; then the second layer of the anti-cutting and anti-puncturing fabric 2 on one side of the back is independently overlooked; and finally, sewing and pressing the two layers of the fabrics sewn together on the two layers of the back fabrics. The reason for adopting this kind of mode of sewing up is that second layer prevents that the stab surface fabric 2 has certain thickness, adopts the mode of 4 layers of chest and back sewed up together, and the position of sewing up is too thick, and machine sewing equipment is difficult to make up. Adopt the piece lap structure, can solve the piece and sew up the travelling comfort problem of department, the lap position can be protected by second floor anti-cutting thorn surface fabric 2 again simultaneously, has freely to extend, nimble convenient characteristics. The mode that two layers of fabrics on the chest side and two layers of fabrics on the back side are sewn together can also be adopted, the sewing mode is high in efficiency, but the sewing position is obviously bulged, and the wearing comfort is poor;
s2, sewing the first layer of the surface fabric 1 and the second layer of the anti-cutting and anti-puncturing fabric 2 together at the sleeve cage of the white jacket, and then sewing the back anti-cutting and anti-puncturing fabric separately; the sleeve parts of the white jacket are also integrally sewn together by a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 and are lockstitched; then the chest part, the back part and the sleeve part of the armhole are sewed together by the first layer of surface fabric 1, and a gap of 1-20mm is formed between the two layers of fabric at the sleeve part of the armhole and the second layer of anti-cutting and anti-puncturing fabric 2 at the chest part and the second layer of anti-cutting and anti-puncturing fabric 2 at the back part without sewing. The reason for adopting this kind of mode of sewing up is that the armpit department moves conveniently, and tensile elasticity activity space is big. The two layers of fabrics of the sleeves, the chest and the back can be integrally sewn together by the first layer of surface fabric 1 and the second layer of anti-cutting and anti-puncturing fabric 2, so that armpits are slightly bulged, and the wearing comfort is slightly poor;
s3, the neck stand collar part and the front chest small collar part of the white gown are also integrally sewn by the first layer of surface layer fabric 1 and the second layer of anti-cutting thorn fabric 2. The neck standing collar part can be put down at ordinary times, and can stand up at dangerous moments to protect the neck from being cut and stabbed by a cutter;
s4, the most edge of the white jacket fly also comprises a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 which are integrally sewn.
Example 2
This embodiment is different from embodiment 1 in that: the fabric comprises a first surface layer fabric 1, a second anti-cutting and anti-pricking fabric 2 and a third inner layer fabric 3, and is characterized by further comprising the third inner layer fabric 3, wherein the first surface layer fabric 1, the second anti-cutting and anti-pricking fabric 2 and the third inner layer fabric 3 are sequentially and integrally sewn and connected.
The manufacturing method of the stab-resistant and cut-resistant white gown comprises the following steps:
s1, sewing the front part and the back part of the white jacket, the second layer of anti-cutting and anti-puncturing fabric 2 of the sleeves and the third layer of lining fabric 3 into a whole after being sewn and overlooked, and sewing and pressing the whole on the first layer of surface fabric 1. The reason for adopting this kind of mode of sewing up is that second layer prevents that the stab surface fabric 2 has certain thickness, adopts the mode of 6 layers of chest and back sewed up together, and the position of sewing up is too thick, and machine sewing equipment is difficult to make up. Adopt the piece lap structure, can solve the piece and sew up the travelling comfort problem of department, the lap position can be protected by second layer anti-cutting thorn surface fabric 2 again simultaneously, has freely to extend, nimble soft characteristics. The mode that three layers of fabrics on the chest side and three layers of fabrics on the back side are sewn together can also be adopted, the sewing mode is high in efficiency, but the sewing position is obviously bulged, and the wearing comfort is poor;
s2, the sleeve is sewn with the front chest, the back and the sleeves at the sleeve positions, the first surface layer fabric 1 is sewn with the front chest, the back and the sleeves, the second layer of anti-cutting and anti-puncturing fabric 2 and the third layer of lining fabric 3 are not needed to connect the front chest, the back and the sleeves, and gaps of 1-20mm exist between the second layer of sleeves and the chest and the back at the sleeve positions. The reason for adopting this kind of mode of sewing up is that the armpit department is moved conveniently, and the action is nimble. The three layers of fabrics of the sleeves, the chest and the back can be integrally sewn together by the first layer of surface fabric 1, the second layer of anti-cutting and anti-puncturing fabric 2 and the third layer of inner fabric 3, so that armpits are a little protruded, and the comfort is slightly poor;
s3, sewing the second layer of anti-cutting thorn fabric 2 and the third layer of inner layer fabric 3, and sewing and pressing the materials on the first layer of surface fabric 1. The neck standing collar part can be put down at ordinary times, and can stand up at dangerous moments to protect the neck from being cut and stabbed by a cutter;
s4, sewing and overlocking the second layer anti-cutting and anti-puncturing fabric 2 and the third layer inner layer fabric 3 at the outermost edge of the white jacket fly, and then sewing and pressing the fabric on the first layer surface layer fabric 1.
Example 3
As shown in fig. 1 and 2, the invention provides a puncture-proof and cut-proof white coat, which comprises a first layer of surface fabric 1 and a second layer of puncture-proof fabric 2 which are integrally sewn and connected.
As a preferred embodiment, the first surface fabric 1 is made of one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fiber, modal, bamboo fiber and conductive yarn through composite weaving, and preferably 72-count double-strand combed pure cotton woven fabricAnd is a bleached white fabric with the gram weight of 175g/m2And the thickness is 0.25 mm.
As a preferred embodiment, the second layer of anti-cutting and anti-stab fabric 2 is made of one or more of aramid fiber, high-strength high-modulus polyethylene fiber, high-strength polyester fiber, high-strength nylon fiber, glass fiber, basalt fiber and metal fiber through composite weaving, preferably high-strength high-modulus polyethylene fiber blended aramid fiber and high-strength polyester fabric, wherein the mass percentage of the high-strength high-modulus polyethylene fiber and the aramid fiber in the second layer of anti-cutting and anti-stab fabric 2 is 86%, the strength of the high-strength high-modulus polyethylene is 32CN/dex, and the modulus is 1100 CN/dtex. The second layer of anti-cutting and anti-puncturing fabric 2 is of a knitted structure and has the gram weight of 580g/m2The thickness is 1.6 mm.
As a preferred embodiment, the third inner layer fabric 3 is made of one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fibers, modal, bamboo fibers and conductive filaments through composite weaving.
In a preferred embodiment, the white gown is provided with pockets 4 on both the chest and waist.
As a preferred embodiment, the white gown is provided with an elastic or button, preferably a button cuff, at the cuff.
As a preferred embodiment, the sleeves of the white gown are long-sleeved or short-sleeved, preferably a long-sleeve design.
As a preferred embodiment, the white gown is provided with embroidery or printing in the front of the chest.
As a preferred embodiment, the white gown is entirely in a form of a build-up style or a loose edition, preferably a build-up design; and the weight of the white gown is 0.3-2 kg.
The processed and woven white gown is classic and fashionable in style, comfortable and soft to wear, flexible and breathable, has a high puncture-proof and cutting-proof effect, and plays a good protection role; meanwhile, the protection level of the white gown can be correspondingly improved through the thickness of the anti-cutting material.
The manufacturing method of the stab-resistant and cut-resistant white gown comprises the following steps:
s1, sewing and seaming a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 at the side seams and shoulder seams of the white jacket; then the second layer of the anti-cutting and anti-puncturing fabric 2 on one side of the back is independently overlooked; and finally, sewing and pressing the two layers of the fabrics sewn together on the two layers of the back fabrics. The reason of adopting this kind of mode of sewing up can be solved and piece together the department travelling comfort problem of sewing up, and the lap position can be protected by second floor anti-cutting thorn surface fabric 2 again simultaneously, has strengthened seam crossing protective strength, has freely to extend simultaneously, nimble soft characteristics.
S2, sewing the first layer of the surface fabric 1 and the second layer of the anti-cutting and anti-puncturing fabric 2 together at the sleeve cage of the white jacket, and then sewing the back anti-cutting and anti-puncturing fabric separately; the sleeve parts of the white jacket are also integrally sewn together by a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 and are lockstitched; then the chest part, the back part and the sleeve part of the armhole are sewed together by the first layer of surface fabric 1, and a gap of 1-20mm is formed between the two layers of fabric at the sleeve part of the armhole and the second layer of anti-cutting and anti-puncturing fabric 2 at the chest part and the second layer of anti-cutting and anti-puncturing fabric 2 at the back part without sewing. The reason for adopting this kind of mode of sewing up is that the armpit department moves conveniently, and tensile elasticity activity space is big.
S3, the neck stand collar part and the front chest small collar part of the white gown are also integrally sewn by the first layer of surface layer fabric 1 and the second layer of anti-cutting thorn fabric 2. The neck standing collar part can be put down at ordinary times, and can stand up at dangerous moments to protect the neck from being cut and stabbed by a cutter;
s4, the most edge of the white jacket fly also comprises a first layer of surface fabric 1 and a second layer of anti-cutting and anti-puncturing fabric 2 which are integrally sewn.
The embodiments of the present invention have been described in detail, but the embodiments are merely examples, and the present invention is not limited to the embodiments described above. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, equivalent changes and modifications made without departing from the spirit and scope of the present invention should be covered by the present invention.

Claims (10)

1. The stab-resistant and cut-resistant white gown is characterized by comprising a first layer of surface fabric (1) and a second layer of cut-resistant and stab-resistant fabric (2) which are integrally connected in a sewing mode, wherein the first layer of surface fabric (1) is completely sewn together, gaps of 1-20mm exist in shoulder seams and muffs of the second layer of cut-resistant fabric (2), and the second layer of cut-resistant fabric (2) is woven by one or more of aramid fibers, high-strength high-modulus polyethylene fibers, high-strength polyester fibers, high-strength nylon fibers, glass fibers, spandex fibers, metal fibers and basalt fibers in a knitting or weaving mode.
2. The anti-stab and anti-cutting white gown as claimed in claim 1, further comprising a third inner layer fabric (3), wherein the first layer surface fabric (1), the second layer anti-stab fabric (2) and the third layer inner layer fabric (3) are integrally sewn and connected in sequence.
3. The stab-resistant and cut-resistant white gown as claimed in claim 1, wherein the first layer surface layer fabric (1) is formed by composite weaving of one or more of all cotton, polyester, nylon, spandex, vinylon, wool, animal fibers, modal, bamboo fibers and conductive filaments.
4. A stab-resistant and cut-resistant gown as claimed in claim 1, wherein said second layer of cut-resistant fabric (2) has a grammage of 750g/m and 120-2The thickness is 0.3-4 mm; the second layer of anti-cutting and anti-puncturing fabric (2) at least adopts aramid fibers and high-strength high-modulus polyethylene fibers, wherein the mass ratio of the sum of the aramid fibers and the high-strength high-modulus polyethylene fibers to the total mass of the second layer of anti-cutting and anti-puncturing fabric (2) is 70-100%, the strength of the aramid fibers and the strength of the high-strength high-modulus polyethylene fibers are both at least 28CN/dex, and the modulus of the aramid fibers and the high-strength high-modulus polyethylene fibers is both at least 1000 CN/dtex.
5. A stab and cut resistant white gown as claimed in claim 1, characterised in that said third inner layer fabric (3) is made of all cotton, polyester, nylon, spandex, vinylonOne or more of wool, animal fiber, modal, bamboo fiber and conductive yarn; the gram weights of the first layer surface fabric (1) and the third layer inner layer fabric (3) are both 100-2The thickness is 0.2-1.5mm, and the weaving mode is knitting or weaving.
6. A stab-resistant, cut-resistant gown as claimed in claim 1, characterised in that the gown is provided with pockets (4) on both the chest and waist sides.
7. A stab-resistant cut-resistant white gown as claimed in claim 1, characterised in that said white gown is provided with buttons (5) at the cuffs, said buttons (5) being either loose buttons or buttons.
8. A puncture and cut resistant white gown as claimed in claim 1, in which the sleeves of the white gown are long sleeves or short sleeves.
9. A stab-resistant, cut-resistant gown as claimed in claim 1, in which the gown is provided with embroidery or lettering in the front of the chest; the whole white gown is a slimming style or a loose edition, and the weight of the white gown is 0.3-2 kg.
10. A method of manufacturing a puncture and cut resistant white gown as claimed in any one of claims 1 to 9, characterised by the steps of:
s1, sewing the first layer of surface fabric (1) on the side seam and shoulder seam of the white jacket and the first layer of anti-cutting and anti-puncturing fabric (2) on the chest side and seaming the edges; then, the second layer of the anti-cutting and anti-puncturing fabric (2) on one side of the back is independently overlocked; finally, sewing and pressing the two layers of the fabrics sewn together on the two layers of the back fabric;
s2, sewing the first layer of surface fabric (1) on the chest at the position of the white jacket sleeve cage and the second layer of anti-cutting and anti-puncturing fabric (2) and seaming; then, the second layer of anti-cutting and anti-puncturing fabric (2) on the back is independently overlocked and sewed and pressed on the first layer of surface fabric (1), the sleeve parts of the white jacket are also sewed and overlocked for the first layer of surface fabric (1) and the second layer of anti-cutting and anti-puncturing fabric (2), then the chest part, the back part and the sleeve part of the sleeve cage are sewed together, and a gap of 1-20mm is reserved between the two layers of fabric on the sleeve part of the sleeve cage and the second layer of anti-cutting and anti-puncturing fabric (2) in front of the chest part and the second layer of anti-cutting and anti-puncturing fabric (2) on the back part; the anti-stab white coat can also be formed by integrally sewing a first surface layer fabric (1), a second anti-cut and stab fabric (2) and a third lining layer fabric (3), the chest, the back, the sleeves, the second anti-cut and stab fabric (2) and the third lining layer fabric (3) are integrally sewn and locked to form a whole, and then the whole is sewn with the first surface layer fabric (1), the chest, the back and the sleeves are connected by sewing the first surface layer fabric (1) at the position of the muffs, the chest, the back and the sleeves are not required to be connected by sewing the second anti-cut and stab fabric (2) and the third lining layer fabric (3), and a gap of 1-20mm exists between the part of the muffs and the chest and the back;
s3, integrally sewing the first layer of surface fabric (1) and the second layer of anti-cutting thorn fabric (2) of the white Chinese gown neck stand collar part and the front chest small collar part;
s4, integrally sewing the first layer of surface fabric (1) at the most edge of the white jacket fly and the second layer of anti-cutting and anti-puncturing fabric (2).
CN202010975132.1A 2020-09-16 2020-09-16 Anti-puncture and anti-cutting white gown and manufacturing method thereof Pending CN112075695A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115125652A (en) * 2022-08-29 2022-09-30 常熟市宝沣特种纤维有限公司 Flame-retardant anti-cutting fluorescent yellow fabric and application thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115125652A (en) * 2022-08-29 2022-09-30 常熟市宝沣特种纤维有限公司 Flame-retardant anti-cutting fluorescent yellow fabric and application thereof

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