CN219133424U - Antibacterial type spunlaced non-woven fabric - Google Patents

Abstract

The utility model discloses a bacteriostatic spun-laced non-woven fabric, which structurally comprises a protective layer and a skin-friendly layer, wherein the skin-friendly layer is arranged below the protective layer, and a bacteriostatic component is arranged below the protective layer, so that the bacteriostatic spun-laced non-woven fabric is beneficial to bacteriostasis of clothes made of the bacteriostatic spun-laced non-woven fabric, can meet the sanitary requirement of people on daily clothing, and can adsorb and purify harmful substances; the dustproof and antistatic assembly is optimally arranged below the antibacterial assembly, so that clothes can be cleaned, organic dirt can be oxidized and degraded, the self-cleaning capacity of the antibacterial spunlaced non-woven fabric is improved, and dust is prevented from being stained on the surface of the antibacterial spunlaced non-woven fabric; through optimizing and setting up static subassembly at skin-friendly layer top, be favorable to absorbing the static that the clothing friction produced and get rid of, improved antibacterial type water thorn non-woven fabrics antistatic effect, be equipped with antistatic agent and ensured antibacterial type water thorn non-woven fabrics's antistatic performance.

Description

Antibacterial type spunlaced non-woven fabric

Technical Field

The utility model relates to the technical field of non-woven fabrics, in particular to a bacteriostatic spunlaced non-woven fabric.

Background

The spun-laced non-woven fabric is prepared by spraying high-pressure micro water flow onto one or more layers of fiber webs to enable the fibers to be intertwined together, so that the fiber webs are reinforced and have certain strength, and the obtained fabric is the spun-laced non-woven fabric, and has wide sources of fiber raw materials, and can be terylene, chinlon, polypropylene, viscose, chitin, superfine, tencel, silk, bamboo, wood pulp and alginate fibers.

Prior art application number CN202022441279.0 discloses a band-aid is with antibacterial type water thorn compound non-woven fabrics, including the protection fibrous layer, the protection fibrous layer is equipped with two-layer, be equipped with antibacterial layer between the two-layer protection fibrous layer, antibacterial layer is formed by peppermint fiber and chitin mixed preparation, bottom protection fibrous layer below is equipped with tensile layer, make each layer bond each other through high-pressure fine rivers injection between tensile layer, antibacterial layer and the protection fibrous layer.

The material that lacks the antibacterial on the ordinary clothing needs to use antibacterial type water thorn non-woven fabrics, and the user dresses the use to the clothing and is easy to be infected with dust and dirt, and the dirt on the clothing is sometimes difficult to wash, and the clothing produces static easily in the in-process of dressing and leads to frightening to the user and produces danger easily.

Disclosure of Invention

First, the technical problem to be solved

In order to overcome the defects of the prior art, the antibacterial spun-laced non-woven fabric is provided, and the problems that antibacterial spun-laced non-woven fabric is needed to be used for materials which are lack of antibacterial performance on common clothes, dust and dirt are easy to be stained when a user wears the clothes, the dirt on the clothes is difficult to clean sometimes, and danger is easy to occur when the user is frightened due to static electricity generated in the wearing process of the clothes are solved.

(II) technical scheme

The utility model is realized by the following technical scheme: the utility model provides a bacteriostatic spunlaced non-woven fabric which comprises a protective layer and a skin-friendly layer, wherein the skin-friendly layer is arranged below the protective layer, the bacteriostatic component is arranged below the protective layer, the dustproof antistatic component is arranged above the bacteriostatic component, the bacteriostatic component comprises an upper bacteriostatic layer, a separation non-woven layer, a lower bacteriostatic layer, ventilation holes, filling grooves, a bacteriostatic source and an active carbon bacteriostatic layer, the upper bacteriostatic layer is arranged below the protective layer, the separation non-woven layer is adhered to the bottom of the upper bacteriostatic layer, the lower bacteriostatic layer is interwoven at the bottom of the separation non-woven layer, ventilation holes are arranged in the separation non-woven layer, the top of the ventilation holes is spaced from the bottom of the filling grooves in the upper bacteriostatic layer, the filling grooves are internally provided with filling grooves, the bacteriostatic source is filled in the bottom of the filling grooves, and the active carbon bacteriostatic layer is arranged above the upper bacteriostatic layer.

Further, dustproof antistatic subassembly includes clean layer, water absorption layer, flexible layer, bamboo fiber layer, antistatic subassembly, pile layer, release bubble and catalyst, active carbon antibacterial layer top is equipped with the clean layer, clean layer top glues and have the water absorption layer, clean layer bottom glues with flexible layer top and glues and be connected.

Further, a bamboo fiber layer is arranged at the bottom of the flexible layer, the bottom of the bamboo fiber layer is adhered and connected with the active carbon antibacterial layer, and an upper antibacterial layer is adhered and connected to the bottom of the active carbon antibacterial layer.

Furthermore, the bottom of the lower antibacterial layer is adhered with a plush layer, the antistatic component is arranged at the top of the skin-friendly layer, a release bubble is arranged in the cleaning layer, a catalyst is filled in the release bubble, and the bottom of the plush layer is connected with the active carbon antibacterial layer in a weaving mode.

Further, the antistatic component comprises a conductive fiber layer, a charge removing layer, a vent pipe, a resin bubble, an antistatic agent, metal ions and a lead wire, wherein the conductive fiber layer is arranged at the bottom of the active carbon antibacterial layer in an installation and interweaving manner, and the charge removing layer is adhered to the bottom of the conductive fiber layer.

Further, a gas permeability pipe is arranged in the electricity removing layer, evenly dispersed resin bubbles are arranged in the electricity removing layer, and antistatic agents are filled in the resin bubbles.

Furthermore, metal ions which are uniformly dispersed are arranged in the charge removing layer, and the vent pipe is in sticky connection with the left side of the lead wire.

Further, the lower antibacterial layer is provided with a medicine injection hole, and the aperture of the medicine injection hole is smaller than fifty nanometers.

Further, the plush layer is made of cotton cloth.

Furthermore, the material of the electricity removing layer is silica gel.

(III) beneficial effects

Compared with the prior art, the utility model has the following beneficial effects:

1) According to the antibacterial spun-laced non-woven fabric, the antibacterial component is arranged below the protective layer, the activated carbon antibacterial layer is used for adsorbing and purifying some impurities in the air and on the skin, and the antibacterial source releases the nano particles to enable the antibacterial spun-laced non-woven fabric to perform antibacterial, so that the antibacterial spun-laced non-woven fabric is beneficial to using the clothes made of the antibacterial spun-laced non-woven fabric to perform antibacterial, the sanitary requirement of people on daily wearing clothes can be met, the comfort of the user wearing the clothes is improved, and the antibacterial spun-laced non-woven fabric can adsorb and purify some harmful substances and provide protection for the body of the user.

2) According to the antibacterial spunlaced non-woven fabric, the dustproof antistatic component is arranged below the antibacterial component, electrons are released through the reaction of the catalyst and illumination, and the electrons react with oxygen in the air, so that organic dirt is oxidized and degraded, the clothes can be cleaned, the organic dirt can be oxidized and degraded, the self-cleaning capacity of the antibacterial spunlaced non-woven fabric is improved, dust is prevented from being stained on the surface of the antibacterial spunlaced non-woven fabric, and the cleaning difficulty of the antibacterial spunlaced non-woven fabric is reduced.

3) According to the antibacterial spun-laced non-woven fabric, the electrostatic component is arranged on the top of the skin-friendly layer, and static electricity is guided and adsorbed through the conductive fiber layer, the metal ions and the lead wires, so that static electricity generated by friction of clothes is absorbed and removed, the antistatic effect of the antibacterial spun-laced non-woven fabric is improved, and the antistatic performance of the antibacterial spun-laced non-woven fabric is guaranteed by the antistatic agent.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1 according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the present utility model at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1 according to the present utility model;

FIG. 5 is a schematic diagram of the right side view of the inner structure of the charge removing layer of the present utility model;

fig. 6 is a right side view of the cleaning layer of the present utility model.

In the figure: the anti-static protective coating comprises a protective layer-1, a skin-friendly layer-2, an anti-static component-3, a dustproof anti-static component-4, an upper anti-static layer-31, a separation non-woven layer-32, a lower anti-static layer-33, an air hole-34, a filling groove-35, an anti-static source-36, an active carbon anti-static layer-37, a cleaning layer-41, a water absorbing layer-42, a flexible layer-43, a bamboo fiber layer-44, an anti-static component-45, a plush layer-46, a release bubble-47, a catalyst-48, a conductive fiber layer-451, a static removing layer-452, an air permeability pipe-453, a resin bubble-454, an anti-static agent-455, a metal ion-456 and a lead wire-457.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

First embodiment:

referring to fig. 1, the present utility model provides a bacteriostatic spunlaced nonwoven fabric: comprises a protective layer 1 and a skin-friendly layer 2, wherein the skin-friendly layer 2 is arranged below the protective layer 1.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the utility model provides a bacteriostatic spunlaced nonwoven fabric, the bacteriostatic component 3 is arranged below the protective layer 1, the dustproof antistatic component 4 is arranged above the bacteriostatic component 3, the bacteriostatic component 3 comprises an upper bacteriostatic layer 31, a separation nonwoven layer 32, a lower bacteriostatic layer 33, ventilation holes 34, a filling groove 35, a bacteriostatic source 36 and an active carbon bacteriostatic layer 37, the upper bacteriostatic layer 31 is arranged below the protective layer 1, the separation nonwoven layer 32 is adhered to the bottom of the upper bacteriostatic layer 31, the lower bacteriostatic layer 33 is interwoven at the bottom of the separation nonwoven layer 32, ventilation holes 34 are arranged in the separation nonwoven layer 32, so that the ventilation property of the bacteriostatic spunlaced nonwoven fabric is enhanced, the top of the ventilation holes 34 and the bottom of the filling groove 35 in the upper bacteriostatic layer 31 are provided with a space for placing the bacteriostatic source 36, the inner bottom of the filling groove 35 is filled with the bacteriostatic source 36, the active carbon bacteriostatic layer 37 is arranged above the upper bacteriostatic layer 31, the lower bacteriostatic layer 33 is provided with a medicine injection hole, and the aperture of the medicine injection hole is smaller than fifty nanometers, thus the release of the bacteriostatic source 36 is facilitated, and the effective bacteriostatic time of the nonwoven fabric is prolonged.

Referring to fig. 1, 3, 4 and 6, the present utility model provides a bacteriostatic spunlaced nonwoven fabric, the dustproof antistatic component 4 comprises a cleaning layer 41, a water absorbing layer 42, a flexible layer 43, a bamboo fiber layer 44, an antistatic component 45, a plush layer 46, a release bubble 47 and a catalyst 48, the cleaning layer 41 is arranged above the activated carbon bacteriostatic layer 37, the water absorbing layer 42 is adhered to the top of the cleaning layer 41, the bottom of the cleaning layer 41 is adhered to the top of the flexible layer 43, the flexible layer 43 is beneficial to increasing the flexibility of the bacteriostatic spunlaced nonwoven fabric, the bamboo fiber layer 44 is arranged at the bottom of the flexible layer 43, the bottom of the bamboo fiber layer 44 is adhered to the activated carbon bacteriostatic layer 37, the bamboo fiber layer 44 can reduce the generation of static electricity, the upper bacteriostatic layer 31 is adhered to the bottom of the activated carbon bacteriostatic layer 37, the plush layer 46 is adhered to the bottom of the lower bacteriostatic layer 33, the antistatic component 45 is arranged at the top of the skin-friendly layer 2, the release bubble 47 is arranged in the cleaning layer 41 to help to store the catalyst 48, the catalyst 48 is filled in the release bubble, and the bottom of the plush layer 46 is connected with the activated carbon bacteriostatic layer 37.

Referring to fig. 1, 3 and 5, the utility model provides a bacteriostatic spunlaced nonwoven fabric, the antistatic component 45 comprises a conductive fiber layer 451, a charge removing layer 452, a gas permeability tube 453, a resin bubble 454, an antistatic agent 455, metal ions 456 and a lead 457, the conductive fiber layer 451 is arranged at the bottom of the activated carbon antibacterial layer 37, the charge removing layer 452 is adhered to the bottom of the conductive fiber layer 451, the charge removing layer 452 adsorbs and removes static electricity, the gas permeability tube 453 is arranged in the charge removing layer 452, the resin bubble 454 is provided with the uniformly dispersed resin bubble 454, the resin bubble 454 is beneficial to storing the antistatic agent 455, the antistatic agent 455 is filled in the resin bubble 454, the uniformly dispersed metal ions 456 are arranged in the charge removing layer 452, the gas permeability tube 453 is adhered and connected with the left side of the lead 457, and the lead 457 improves the static electricity guiding capability of the antistatic component 45.

Second embodiment:

the utility model provides a bacteriostatic spunlaced non-woven fabric, a plush layer 46 is arranged below a separation non-woven layer 32, the plush layer 46 increases the softness of the bacteriostatic spunlaced non-woven fabric, the comfort of a user is improved, the top of a water-absorbing layer 42 is in sticky connection with the bottom of a protective layer 1, the water-absorbing layer 42 is favorable for absorbing moisture, the drying of clothes is convenient to keep, a cleaning layer 41 is arranged below the protective layer 1, the oxidative degradation of dirt of the clothes is facilitated, the cleaning difficulty of the clothes is reduced, and a conductive fiber layer 451 is arranged above a skin-friendly layer 2.

The utility model provides a bacteriostatic spunlaced non-woven fabric through improvement, and the working principle is as follows;

firstly, when the bacteriostatic spun-laced non-woven fabric is used, some impurities in the air and on the skin can be adsorbed and purified through the active carbon bacteriostatic layer 37 to avoid damaging human bodies, and a bacteriostatic source 36 in a groove 35 is filled on the upper bacteriostatic layer 31;

secondly, the antibacterial source 36 discharges nano particles to the protective layer 1 and the skin-friendly layer 2 through drug injection holes on the lower antibacterial layer 33, so that bacteria are difficult to enter the antibacterial spun-laced non-woven fabric, and the protective layer 1 and the skin-friendly layer 2 achieve antibacterial effect, thus being beneficial to antibacterial effect by using the clothes made of the antibacterial spun-laced non-woven fabric, meeting the sanitary requirement of people on daily clothing, improving the comfort of the clothing worn by a user, adsorbing and purifying some harmful substances, and providing protection for the body of the user;

thirdly, the daily clothing is easy to be stained with dust and dirt, the clothing is difficult to clean after being stained with dirt, at this time, when sunlight irradiates on the bacteriostatic spunlaced non-woven fabric, the cleaning layer 41 on the bacteriostatic spunlaced non-woven fabric is irradiated by sunlight, at this time, the catalyst 48 in the release bubble 47 reacts with the illumination to release electrons and reacts with oxygen in the air, so that the organic dirt on the surface of the bacteriostatic spunlaced non-woven fabric is oxidized and degraded to generate carbon dioxide and water, the water absorbing layer 42 absorbs the generated water and moisture in the air, so that the dust is prevented from being stained on the surface of the bacteriostatic spunlaced non-woven fabric, the self-cleaning capability of the bacteriostatic spunlaced non-woven fabric is improved, the clothing is cleaned, the organic dirt can be oxidized and degraded, the self-cleaning capability of the bacteriostatic spunlaced non-woven fabric is improved, the dust is prevented from being stained on the surface of the bacteriostatic spunlaced non-woven fabric, and the cleaning difficulty of the bacteriostatic spunlaced non-woven fabric is reduced;

fourth, when wearing clothes, static electricity is sometimes generated so that a user is easily frightened to generate danger, at this time, static electricity generated by friction of clothes can be guided through the conductive fiber layer 451 arranged on the antibacterial spun-laced non-woven fabric, then the static electricity is guided into the static electricity removing layer 452 through the conductive wire 457, the static electricity is adsorbed as much as possible through metal ions 456 in the static electricity removing layer 452, then the antistatic agent 455 in the resin foam 454 is slowly released into the static electricity removing layer 452, the antistatic performance of the antibacterial spun-laced non-woven fabric is guaranteed, the static electricity generated by friction of clothes is absorbed and removed, the antistatic effect of the antibacterial spun-laced non-woven fabric is improved, and the antistatic agent 455 is arranged so as to guarantee the antistatic performance of the antibacterial spun-laced non-woven fabric.

According to the antibacterial spun-laced non-woven fabric, the antibacterial component 3 is optimally arranged below the protective layer 1, the activated carbon antibacterial layer 37 is used for adsorbing and purifying some impurities in the air and on the skin, and the antibacterial source 36 releases nano particles to enable the antibacterial spun-laced non-woven fabric to perform antibacterial, so that the antibacterial spun-laced non-woven fabric is beneficial to the use of clothes made of the antibacterial spun-laced non-woven fabric for performing antibacterial, the sanitary requirement of people on daily wearing clothes can be met, the comfort of the user wearing the clothes is improved, and the antibacterial spun-laced non-woven fabric can adsorb and purify some harmful substances and provide protection for the body of the user; the dustproof and antistatic assembly 4 is optimally arranged below the antibacterial assembly 3, electrons are released through the reaction of the catalyst 48 and illumination, and the electrons react with oxygen in the air, so that organic dirt is oxidized and degraded, the clothes can be cleaned, the organic dirt can be oxidized and degraded, the self-cleaning capacity of the antibacterial spun-laced non-woven fabric is improved, dust is prevented from being stained on the surface of the antibacterial spun-laced non-woven fabric, and the cleaning difficulty of the antibacterial spun-laced non-woven fabric is reduced; through optimizing and setting up static subassembly 45 in skin-friendly layer 2 top, guide the absorption through conductive fiber layer 451, metal ion 456 and lead wire 457 to static, be favorable to absorbing the static that the clothing friction produced like this and get rid of, improved antibacterial type water thorn non-woven fabrics antistatic effect, be equipped with antistatic agent 455 and ensured antibacterial type water thorn non-woven fabrics's antistatic performance.

Claims (8)

1. The antibacterial spunlaced non-woven fabric comprises a protective layer (1) and a skin-friendly layer (2), wherein the skin-friendly layer (2) is arranged below the protective layer (1); the method is characterized in that: still include antibacterial subassembly (3) and dustproof antistatic subassembly (4), antibacterial subassembly (3) are located protective layer (1) below, antibacterial subassembly (4) are located antibacterial subassembly (3) top, antibacterial subassembly (3) are including last antibacterial layer (31) and active carbon antibacterial layer (37), protective layer (1) below is equipped with antibacterial layer (31), it separates nonwoven layer (32) to glue in last antibacterial layer (31) bottom, separate nonwoven layer (32) bottom interweaves under antibacterial layer (33), separate nonwoven layer (32) are equipped with bleeder vent (34) in, be equipped with filling groove (35) in last antibacterial layer (31), the inside filling groove (35) bottom of bleeder vent (34) top and last antibacterial layer (31) is equipped with the interval, the bottom is filled with antibacterial source (36) in filling groove (35), it is equipped with active carbon antibacterial layer (37) to go up antibacterial layer (31) top.

2. The bacteriostatic spunlaced nonwoven according to claim 1, characterized in that: the dustproof antistatic component (4) comprises a cleaning layer (41) and a catalyst (48), wherein the cleaning layer (41) is arranged above the activated carbon antibacterial layer (37), a water absorbing layer (42) is adhered to the top of the cleaning layer (41), and the bottom of the cleaning layer (41) is adhered and connected with the top of the flexible layer (43).

3. The bacteriostatic spunlaced nonwoven according to claim 2, characterized in that: the bottom of the flexible layer (43) is provided with a bamboo fiber layer (44), the bottom of the bamboo fiber layer (44) is adhered and connected with the active carbon antibacterial layer (37), and the bottom of the active carbon antibacterial layer (37) is adhered and connected with the upper antibacterial layer (31).

4. A bacteriostatic spunlaced nonwoven according to claim 3, characterized in that: the anti-static component (45) is arranged at the top of the skin-friendly layer (2), a release bubble (47) is arranged in the cleaning layer (41), a catalyst (48) is filled in the release bubble (47), and the bottom of the plush layer (46) is connected with the active carbon antibacterial layer (37) in a weaving mode.

5. The bacteriostatic spunlaced nonwoven according to claim 1, characterized in that: the antistatic assembly (45) comprises a conductive fiber layer (451) and a lead wire (457), the conductive fiber layer (451) is arranged at the bottom of the active carbon antibacterial layer (37), and a static eliminating layer (452) is adhered to the bottom of the conductive fiber layer (451).

6. The bacteriostatic spunlaced nonwoven fabric according to claim 5, wherein: the antistatic agent is characterized in that a gas permeability pipe (453) is arranged in the electricity removing layer (452), evenly dispersed resin bubbles (454) are arranged in the electricity removing layer (452), and antistatic agent (455) is filled in the resin bubbles (454).

7. The bacteriostatic spunlaced nonwoven fabric according to claim 6, wherein: metal ions (456) which are uniformly dispersed are arranged in the electricity removing layer (452), and the gas permeability pipe (453) is in sticky connection with the left side of the lead wire (457).

8. The bacteriostatic spunlaced nonwoven according to claim 1, characterized in that: and the lower antibacterial layer (33) is provided with a medicine injection hole, and the aperture of the medicine injection hole is smaller than fifty nanometers.

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