Digital printing fabric with antibacterial function
Technical Field
The utility model relates to the technical field of digital printing fabrics, in particular to a digital printing fabric with an antibacterial function.
Background
With the development of the times and the continuous improvement of the living conditions of the materials, people pay more attention to the decoration of fabrics such as clothes, and therefore, along with the development of computer technology, various patterns and patterns are printed on the fabrics through digital printing technology, the material life is greatly enriched, and with the development of the society, a plurality of novel digital printing fabrics are continuously put into the market, however, the prior digital printing fabric technology still has the following problems:
1. the existing digital printing fabric has no antibacterial function in use, when the fabric is made into clothes for use, the fabric is used for being worn by a user for a long time, a large amount of sweat can be generated, and if the sweat is not adsorbed, the fabric can be eroded along with the increase of time, so that the fabric becomes moist and bacteria are continuously bred, and the use experience of the user is influenced;
2. current digital printing surface fabric in use is not convenient for water proof and moisture proof, when the surface fabric makes the clothing use, because various moist environment or human factor lead to the surface fabric to meet water the time, water stain can lead to water stain infiltration to go out the surface fabric through inside it for influence in the user use and dress experience.
Aiming at the problems, innovative design is urgently needed on the basis of the original digital printing fabric with an antibacterial function.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a digital printing fabric with an antibacterial function, and aims to solve the problems that the existing digital printing fabric with the antibacterial function does not have the antibacterial function and is inconvenient to water and damp proof in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a digital printing fabric that civilian utensil has antibacterial function, includes device main part and antibiotic layer, the top fixedly connected with water barrier of device main part, and the water barrier seted up the guiding gutter on the surface, antibiotic layer fixed connection is in the inboard of device main part, and the internally mounted that one side on antibiotic layer is located the device main part has the toughness layer to the place ahead on toughness layer is connected with first thing chamber of putting, the first inside packing of putting the thing chamber has dry cotton, and the first place ahead of putting the thing chamber is connected with first air guide port, and the first one side of putting the thing chamber of keeping away from of first air guide port is connected with the second and puts the thing chamber, the inside packing that the thing chamber was put to the second has the moisture absorption cotton, and the second puts thing chamber dead ahead fixedly connected with second air guide port, the place ahead of second air guide port is located the inside of device main part and runs through there is the flexible layer.
Preferably, the water-resisting layer is arranged by adopting a silicon dioxide-based coating, and the water-resisting layer and the flexible layer are arranged in the same straight line.
Preferably, the antibacterial layer comprises a flexible plate, an introduction port, an adsorption layer and a sponge layer, the flexible plate is fixedly connected with the front of the antibacterial layer and positioned inside the device body, the introduction port penetrates through the inner wall of the flexible plate, the adsorption layer is connected with the front of the introduction port, and the sponge layer is arranged in front of the adsorption layer.
Preferably, the flexible board and the antibacterial layer are arranged in the same straight line, and the flexible board is fixed on the inner wall of the device main body through glue.
Preferably, the introducing ports are distributed on the inner wall of the flexible plate at equal intervals, and the introducing ports, the adsorption layer and the sponge layer are arranged in a parallel structure.
Preferably, the first thing chamber of putting is in same straight line setting between the thing chamber with the second, and the first thing chamber of putting adopts vertical structure to connect between the first air guide mouth.
Preferably, the second air guide ports are distributed in the flexible layer at equal intervals, and the second air guide ports are connected with the device main body by adopting a vertical structure.
Compared with the prior art, the utility model has the beneficial effects that: the digital printing fabric with the antibacterial function has the antibacterial function and is convenient for water and moisture proofing;
1. when the device is used, the digital printing fabric with the antibacterial function is provided with the antibacterial layer, when the fabric is worn on a user for a long time, the antibacterial layer is arranged on the inner side of the device main body, bacteria can be effectively prevented from breeding on the fabric, a large amount of generated sweat is guided into the adsorption layer through the introduction port formed in the inner wall of the flexible plate, the sweat is adsorbed, and then secondary adsorption is carried out through the sponge layer in front, so that bacteria breeding caused by the sweat is effectively prevented for the second time;
2. when using the device, this digital printing surface fabric that just has antibiotic function is provided with antibiotic layer and is provided with the water barrier, because the water barrier adopts silica base coating to set up, the silica base belongs to super hydrophobic material, make when the surface fabric openly contacts water stain, water stain can not permeate the surface fabric, but become the drop of water on the surface fabric surface, the guiding gutter outflow surface fabric of seting up through the water barrier surface, and when the surface fabric is in humid environment, humid air passes through the water barrier and gets into in the flexible layer, get into the second through the second air guide mouth of seting up in the flexible layer and put the thing chamber, it adsorbs to put the absorbent cotton of thing intracavity through the second, air after adsorbing gets into first through first air guide mouth and puts the thing chamber after then, carry out secondary drying adsorption through dry cotton, thereby carry out water proof moisture proof and handle.
Drawings
FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;
FIG. 2 is a schematic view of the overall external structure of the present invention;
FIG. 3 is an enlarged view of the structure at A in FIG. 1 according to the present invention.
In the figure: 1. a device main body; 2. a water barrier layer; 3. a diversion trench; 4. an antimicrobial layer; 401. a flexible board; 402. an inlet port; 403. an adsorption layer; 404. a sponge layer; 5. a ductile layer; 6. a first object placing cavity; 7. drying the cotton; 8. a first air guide port; 9. a second storage cavity; 10. moisture absorption cotton; 11. a second air guide port; 12. a flexible layer.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: a digital printing fabric with an antibacterial function comprises a device body 1, a water-resisting layer 2, a diversion trench 3, an antibacterial layer 4, a flexible plate 401, an introducing port 402, an adsorption layer 403, a sponge layer 404, a flexible layer 5, a first article placing cavity 6, dry cotton 7, a first air guide port 8, a second article placing cavity 9, moisture absorption cotton 10, a second air guide port 11 and a flexible layer 12, wherein the water-resisting layer 2 is fixedly connected above the device body 1, the diversion trench 3 is arranged on the surface of the water-resisting layer 2, the antibacterial layer 4 is fixedly connected to the inner side of the device body 1, the flexible layer 5 is arranged inside the device body 1 on one side of the antibacterial layer 4, the first article placing cavity 6 is connected in front of the flexible layer 5, the dry cotton 7 is filled inside the first article placing cavity 6, the first air guide port 8 is connected in front of the first article placing cavity 6, the second article placing cavity 9 is connected on one side of the first air guide port 8 far away from the first article placing cavity 6, the inside of the second storage cavity 9 is filled with absorbent cotton 10, a second air guide port 11 is fixedly connected right in front of the second storage cavity 9, and a flexible layer 12 penetrates through the inside of the device main body 1 in front of the second air guide port 11;
furthermore, the water-resisting layer 2 is arranged by adopting a silicon dioxide-based coating, the water-resisting layer 2 and the flexible layer 12 are arranged in the same straight line, and the water-resisting layer 2 is arranged by adopting the silicon dioxide-based coating, so that when the front surface of the fabric is contacted with water stains, the water stains cannot permeate into the fabric, but become water drops on the surface of the fabric, and the fabric flows out through the diversion trenches 3 formed in the surface of the water-resisting layer 2;
further, the antibacterial layer 4 comprises a flexible plate 401, an introduction port 402, an adsorption layer 403 and a sponge layer 404, the flexible plate 401 is fixedly connected to the front of the antibacterial layer 4 and located inside the device body 1, the introduction port 402 penetrates through the inner wall of the flexible plate 401, the adsorption layer 403 is connected to the front of the introduction port 402, and the sponge layer 404 is arranged in front of the adsorption layer 403, so that the antibacterial layer 4 can inhibit the growth of bacteria caused by sweat;
further, the flexible board 401 and the antibacterial layer 4 are arranged in the same straight line, and the flexible board 401 is fixed on the inner wall of the device main body 1 through glue, so that sweat can conveniently enter the flexible board 401 through the antibacterial layer 4 for further treatment;
furthermore, the introducing ports 402 are distributed on the inner wall of the flexible board 401 at equal intervals, and the introducing ports 402, the adsorption layer 403 and the sponge layer 404 are arranged in a parallel structure, so that sweat is introduced into the adsorption layer 403 through the introducing ports 402 formed in the inner wall of the flexible board 401 to be adsorbed, and then secondary adsorption is performed through the sponge layer 404 in front, so that bacteria breeding caused by sweat stains is effectively prevented secondarily;
furthermore, the first object placing cavity 6 and the second object placing cavity 9 are arranged in the same straight line, and the first object placing cavity 6 is connected with the first air guide port 8 by adopting a vertical structure, so that when moist air enters the device, drying treatment is carried out through the dry cotton 7 in the first object placing cavity 6 and the moisture absorption cotton 10 in the second object placing cavity 9;
further, the second air guide ports 11 are distributed in the flexible layer 12 at equal intervals, and the second air guide ports 11 and the device body 1 are connected in a vertical structure, so that the moist air can be guided into the device through the plurality of second air guide ports 11 to be dried.
The working principle is as follows: when the antibacterial digital printing fabric is used, the antibacterial layer 4 is provided with the water-resisting layer 2, the water-resisting layer 2 is provided with the silica-based coating, and the silica-based coating is a super-hydrophobic material, so that when the front surface of the fabric is contacted with water stains, the water stains can not permeate into the fabric, but become water drops on the surface of the fabric, the water drops flow out of the fabric through the diversion trench 3 formed in the surface of the water-resisting layer 2, and when the fabric is in a humid environment, humid air enters the flexible layer 12 through the water-resisting layer 2, enters the second storage cavity 9 through the second air guide port 11 formed in the flexible layer 12, is adsorbed through the hygroscopic cotton 10 in the second storage cavity 9, then the adsorbed air enters the first storage cavity 6 through the first air guide port 8, and is subjected to secondary drying and adsorption treatment through the dry cotton 7, so that the waterproof and damp-proof treatment is performed, and this digital printing surface fabric that just has antibiotic function is provided with antibiotic layer 4, when the surface fabric was dressed on one's body for a long time at the user, device main part 1 inboard was provided with antibiotic layer 4, can effectually prevent that the bacterium from breeding on the surface fabric, and the leading-in entering adsorbed layer 403 of introducing inlet 402 that a large amount of sweat that produces was seted up through flexbile 401 inner wall adsorbs the sweat, carry out the secondary through sponge layer 404 in the place ahead after that and adsorb to effectual secondary prevents to lead to the bacterium to breed because of sweat stain.
Finally, it should be noted that the above-mentioned contents are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, and that the simple modifications or equivalent substitutions of the technical solutions of the present invention by those of ordinary skill in the art can be made without departing from the spirit and scope of the technical solutions of the present invention.