CN114990822B

CN114990822B - Antistatic fabric and preparation method and preparation system thereof

Info

Publication number: CN114990822B
Application number: CN202210626829.7A
Authority: CN
Inventors: 赵海强
Original assignee: Shantou Binshiwang Textile Technology Co ltd
Current assignee: Shantou Binshiwang Textile Technology Co ltd
Priority date: 2022-06-05
Filing date: 2022-06-05
Publication date: 2023-11-24
Anticipated expiration: 2042-06-05
Also published as: CN114990822A

Abstract

The invention belongs to the technical field of fabrics, and in particular relates to an antistatic fabric, a preparation method and a preparation system thereof. The invention can avoid the cloth from taking out the adhesive impurities and slurry from the antibacterial liquid. A method for preparing a fabric by an antistatic fabric preparation system, the method comprising the following steps: a: clamping and fixing the fabric; b: immersing the fabric into the antibacterial and antistatic dispersion liquid for soaking treatment, and rolling the hollow roll shaft on the fabric to promote the absorption of the antibacterial and antistatic dispersion liquid by the fabric; c: scraping impurities and slurry floating on the liquid surface from the liquid surface by the filter plate, and taking out the fabric to obtain a primary antistatic fabric; d: and (3) placing the obtained primary antistatic fabric into a cleaning tank, and cleaning and drying to obtain the antistatic fabric. An antistatic fabric preparation system comprises a box body and scraping and filtering pieces symmetrically arranged at two ends of the box body; the scraping and filtering piece comprises a door-shaped frame and a filter plate fixedly connected to the inner end of the door-shaped frame.

Description

Antistatic fabric and preparation method and preparation system thereof

Technical Field

The invention relates to the technical field of fabrics, in particular to an antistatic fabric, a preparation method and a preparation system thereof.

Background

Because of the existence of static electricity, some hazards such as fire accidents caused by static discharge are often brought, and when the fabric is taken out of antibacterial liquid in the preparation process of the existing antistatic fabric, the adhesion of natural impurities and slurry on the fabric is difficult to be avoided, so that the subsequent processing and the product quality are influenced; in view of the above problems, the solution is now provided.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the antistatic fabric, and the preparation method and the preparation system thereof.

The technical scheme adopted for solving the technical problems is as follows:

an antistatic fabric preparation system which is characterized in that: comprises a box body and scraping and filtering pieces symmetrically arranged at two ends of the box body; the scraping and filtering piece comprises a door-shaped frame and a filter plate fixedly connected to the inner end of the door-shaped frame.

The two ends of the box body are provided with inclined parts extending upwards.

The end of the box body, which is positioned at the inclined part, is provided with a concave part.

A method for preparing a fabric by an antistatic fabric preparation system, the method comprising the following steps:

a: placing the fabric with a plurality of threads or fluff between two clamping pieces for clamping and fixing, injecting antibacterial and antistatic dispersion liquid into the box body, and inserting two filter plates onto the liquid level;

b: immersing the fabric into the antibacterial and antistatic dispersion liquid for soaking treatment, controlling the rolling of the two hollow roll shafts on the fabric, and promoting the absorption of the fabric to the antibacterial and antistatic dispersion liquid;

c: pulling the two filter plates outwards to scrape impurities and slurry floating on the liquid surface generated by soaking from the liquid surface, and then taking out the fabric to obtain the primary antistatic fabric;

d: and (3) putting the obtained primary antistatic fabric into a cleaning tank, pouring warm water with the temperature of 60 ℃ into the cleaning tank, controlling the heat preservation water washing time to be 30 minutes, and taking out and drying the fabric to obtain the antistatic fabric.

A method for preparing a fabric by an antistatic fabric preparation system comprises the steps of drying at 36-45 ℃ for 30-40min.

Drawings

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

Fig. 1 and 2 are schematic structural diagrams of an antistatic fabric preparation system;

FIG. 3 is a schematic view of the structure of the case;

FIG. 4 is a schematic cross-sectional view of the cartridge;

FIG. 5 is a schematic view of the structure of a door frame;

FIG. 6 is a schematic view of the split structure of FIG. 5;

FIG. 7 is a schematic view of the hollow roller shaft fit;

FIG. 8 is a schematic view of a skateboard;

fig. 9 to 11 are schematic views of a portion of the structure of fig. 7;

fig. 12 is a schematic structural view of the hollow roller shaft.

Detailed Description

As shown in fig. 1 to 6:

the two gate-shaped frames 201 are controlled to be positioned at two ends of the box body 101, after the upper end of the box body 101 is yielded, the antibacterial antistatic dispersion liquid is injected into the box body 101, then the fabric with a plurality of threads or fluff on the surface is put into the box body 101, the two gate-shaped frames 201 are controlled to slide in opposite directions, the two gate-shaped frames 201 are positioned above the liquid level, the two filter plates 202 which are mutually attached are inserted into the liquid level, the fabric is immersed into the antibacterial antistatic dispersion liquid for soaking treatment, impurities and slurry generated by soaking float on the liquid level, after soaking, before the fabric is taken out, the two gate-shaped frames 201 are pulled outwards to drive the two filter plates 202 to deviate from sliding, and simultaneously the two filter plates 202 scrape the impurities and slurry floating on the liquid level to the two ends of the box body 101, so that the impurities above the liquid level are removed, and the impurities or the impurities are not easy to be removed from the fluff or the fluff after the garbage adhered to the liquid level at the moment, so that the liquid level after the impurities are removed is in a clean state, and the impurities on the liquid level are not easy to be adhered to the threads or the fluff, and the impurities are not adhered on the fabric when the impurities on the liquid level are taken out;

since the filter plate 202 is a filter plate, the liquid will be filtered out and only impurities and slurry will be removed.

As shown in fig. 3 to 4:

the liquid level is level with the lower ends of the inclined parts 102, so that the fabric in the box body 101 cannot overflow from the two inclined parts 102 under the condition that the liquid level is stirred when being rubbed; next, the outer end of the gate frame 201 is also inclined along the extending direction of the inclined portion 102.

The two gate-shaped frames 201 drive the two filter plates 202 to deviate from sliding, when the garbage is scraped outwards, the garbage moves along the inclined part 102 after being scraped from the liquid level, and finally is pushed into the two concave parts 103 to be collected, so that the garbage and the slurry are convenient to be intensively treated.

As shown in fig. 5 to 6:

the inner end of the gate-shaped frame 201 is positioned above the filter plate 202, a buckle plate with two closed ends is arranged at the inner end of the gate-shaped frame, the buckle plate with two closed ends is convenient for collecting impurities on the liquid surface, and the impurities scraped by the filter plate 202 are prevented from flowing into the liquid surface beyond the gate-shaped frame 201.

As shown in fig. 5 to 6:

one end of each of the two door-shaped frames 201 is fixedly connected with a post 203, the outer end of the box body 101 is symmetrically and slidingly connected with two L-shaped frames 204, and the two L-shaped frames 204 are respectively attached to the inner side surfaces of the two posts 203; when two L-shaped frames 204 are pulled outwards, the two L-shaped frames 204 respectively drive the two posts 203 to deviate from and slide, and then the door-shaped frames 201 on the two filter plates 202 are driven to deviate from and slide upwards, and as the outer ends of the door-shaped frames 201 incline upwards along the extending direction of the inclined parts 102, when the L-shaped frames 204 are loosened, the two filter plates 202 can automatically slide downwards to close under the action of gravity, and the filter plates 202 attached to each other can scrape the garbage of the whole liquid level completely when deviating from and sliding.

As shown in fig. 6:

two L-shaped frames 204 are respectively hinged with one hinge arm 205, the two hinge arms 205 are both hinged with a hinge block 206, the hinge block 206 is slidably connected with a trapezoid rib 207, and the trapezoid rib 207 is fixedly connected with the box body 101; when one L-shaped frame 204 is pulled outwards, the other L-shaped frame 204 is driven to slide outwards by the cooperation of the hinge arms 205 and the two hinge blocks 206, so that the two filter plates 202 are controlled to synchronously move;

the box 101 is connected with a locking screw in a threaded manner and tightly abuts against the L-shaped frame 204, so that the position of the filter plate 202 is fixed.

As shown in fig. 3 and 7 to 8:

two inner sliding grooves 104 are symmetrically formed in the inner wall of the box body 101, sliding plates 301 are slidably connected in the two inner sliding grooves 104, clamping pieces are arranged at the lower ends of the two sliding plates 301, and two hollow roll shafts 401 are arranged at the upper ends of the clamping pieces between the two sliding plates 301;

when the two filter plates 202 are opened, cloth is clamped between the two clamping pieces, then the two sliding plates 301 are controlled to slide downwards to drive the cloth to be immersed into antibacterial and antistatic dispersion liquid for immersion treatment, and then the two filter plates 202 are controlled to be attached; the two hollow roll shafts 401 can rotate to roll the cloth, so that the absorption of the cloth in the antibacterial and antistatic dispersion liquid is promoted.

As shown in fig. 7 to 9:

the two sliding plates 301 are both in sliding connection with the T-shaped core plates 304, the lower ends of the two T-shaped core plates 304 are fixedly connected with the guide rods 305, two ends of the two hollow roller shafts 401 are respectively in rotary connection with one hollow block 402, four hollow blocks 402 are respectively in sliding connection with two ends of the two guide rods 305, an air pump 306 is fixedly connected on one guide rod 305, the air pump 306 is communicated with the two hollow blocks 402 positioned on one side through a hose, the air pump 306 is fixedly connected and communicated with the water pipe 307, the water pipe 307 is inserted into the T-shaped core plates 304, the lower end of the water pipe 307 penetrates out of the T-shaped core plates 304 and is communicated with the air pump 306, and the upper end of the water pipe 307 penetrates out of the upper end of the T-shaped core plates 304; a plurality of air nozzles are respectively communicated with the two hollow roll shafts 401;

when the fabric is taken out, fine impurities or fluff are present on the liquid surface or in the liquid, and when the fabric is taken out, the T-shaped core plate 304 is connected with external gas, the gas flows through two hoses through the T-shaped core plate 304 and enters the two hollow blocks 402 under the action of the air pump 306, then the gas is sprayed out from the air nozzles on the two hollow roller shafts 401, when the two sliding plates 301 are pulled upwards to drive the fabric to move upwards, the gas sprayed out from the hollow roller shafts 401 can blow the fine impurities or fluff on the liquid surface, so that the fine impurities or fluff can not adhere to the fabric when the fabric is taken out;

meanwhile, the hollow roller shaft 401 can rotate, and when blown-out air acts on the soaked fabric, fluff or silk threads on the fabric can be blown, so that the fluff and silk threads on the fabric can be stirred, and the fabric can be fully contacted with antibacterial liquid.

As shown in fig. 8:

the clamping piece comprises a clamping plate 302 and clamping arms 303, the lower end of the sliding plate 301 is welded with the clamping plate 302, and two ends of the clamping plate 302 are respectively hinged with one clamping arm 303; magnets are respectively adhered to the two clamping arms 303 and the two ends of the clamping plate 302;

after the clamping arm 303 is opened, the cloth is clamped between the clamping plate 302 and the clamping arm 303, and the clamping arm 303 can be adsorbed on the clamping plate 302 by the magnet, so that the cloth is fixed.

As shown in fig. 10:

the antistatic fabric preparation system further comprises a trapezoid rod 308 and a hinging rod 309, wherein the trapezoid rod 308 is inserted into the other T-shaped core plate 304, the lower end of the trapezoid rod 308 is hinged with the two hinging rods 309, and the two hinging rods 309 are hinged with the other two hollow blocks 402; an electric push rod is provided between the trapezoidal bar 308 and the corresponding T-shaped core plate 304.

The electric putter starts to drive and drives two articulated bars 309 through trapezoidal pole 308 and remove, and two articulated bars 309 drive two hollow roller shafts 401 through two hollow blocks 402 and face to face or deviate from the slip, drive two hollow roller shafts 401 and reciprocate on the surface fabric, carries out the roller to the surface fabric and grinds, promotes the absorption to antibacterial liquid.

As shown in fig. 10 to 12:

the antistatic fabric preparation system further comprises a rubber rib bar 403, a gear 404 and a rack 405, wherein the two hollow roll shafts 401 are respectively connected with the gear 404 in a key way, the two gears 404 are in meshed transmission connection with the rack 405, and the rack 405 is welded on a guide rod 305;

when the hollow roll shafts 401 move, the two hollow roll shafts 401 are driven to rotate through the meshing transmission of the gears 404 and the racks 405, so that the sprayed gas is driven to act on the fabric from multiple directions to stir the fabric;

a plurality of rubber rib rods 403 are respectively and adhesively connected to the two hollow roll shafts 401; and the poking of silk threads and fluff is promoted.

a: placing the fabric with a plurality of threads or fluff between two clamping pieces for clamping and fixing, injecting antibacterial and antistatic dispersion liquid into the box body 101, and inserting two filter plates 202 onto the liquid surface;

b: immersing the fabric into the antibacterial and antistatic dispersion liquid for soaking treatment, controlling the two hollow roll shafts 401 to roll on the fabric, and promoting the absorption of the fabric to the antibacterial and antistatic dispersion liquid;

c: pulling the two filter plates 202 outwards to scrape the impurities and slurry floating on the liquid surface generated by soaking from the liquid surface, and then taking out the fabric to obtain the primary antistatic fabric;

Claims

1. An antistatic fabric preparation system which is characterized in that: comprises a box body (101) and scraping and filtering pieces symmetrically arranged at two ends of the box body (101); the scraping and filtering piece comprises a door-shaped frame (201) and a filter plate (202) fixedly connected to the inner end of the door-shaped frame (201);

one end of each of the two door-shaped frames (201) is fixedly connected with a post (203), the outer end of the box body (101) is symmetrically and slidingly connected with two L-shaped frames (204), and the two L-shaped frames (204) are respectively attached to the inner side surfaces of the two posts (203);

two L-shaped frames (204) are respectively hinged with one hinge arm (205), the two hinge arms (205) are both hinged with a hinge block (206), the hinge block (206) is connected with a trapezoid edge (207) in a sliding manner, and the trapezoid edge (207) is fixedly connected with the box body (101);

two inner sliding grooves (104) are symmetrically formed in the inner wall of the box body (101), sliding plates (301) are connected in the two inner sliding grooves (104) in a sliding mode, clamping pieces are arranged at the lower ends of the two sliding plates (301), and two hollow roll shafts (401) are arranged at the upper ends of the clamping pieces between the two sliding plates (301);

the two sliding plates (301) are internally and slidably connected with the T-shaped core plates (304), the lower ends of the two T-shaped core plates (304) are fixedly connected with guide rods (305), two ends of the two hollow roller shafts (401) are respectively and rotatably connected with one hollow block (402), four hollow blocks (402) are respectively and slidably connected with two ends of the two guide rods (305), an air pump (306) is fixedly connected to one guide rod (305), the air pump (306) is communicated with the two hollow blocks (402) positioned on one side through a hose, the air pump (306) is fixedly connected and communicated with a water pipe (307), the water pipe (307) is inserted into the T-shaped core plates (304), the lower end of the water pipe (307) penetrates out of the T-shaped core plates (304) and is communicated with the air pump (306), and the upper end of the water pipe (307) penetrates out of the upper end of the T-shaped core plates (304). The two hollow roll shafts (401) are respectively communicated with a plurality of air nozzles.

2. The antistatic fabric preparation system according to claim 1, wherein: two ends of the box body (101) are provided with inclined parts (102) extending upwards.

3. The antistatic fabric preparation system according to claim 2, wherein: the box body (101) is provided with a concave part (103) at the tail end of the inclined part (102).

4. The antistatic fabric preparation system according to claim 1, wherein: the inner end of the door-shaped frame (201) is positioned above the filter plate (202) and is provided with a buckle plate with two closed ends.

5. A method for preparing a fabric using an antistatic fabric preparation system according to claim 1, characterized in that: the method comprises the following steps:

a: placing the fabric with a plurality of threads or fluff between two clamping pieces for clamping and fixing, injecting antibacterial and antistatic dispersion liquid into the box body (101), and inserting two filter plates (202) onto the liquid surface;

b: immersing the fabric into the antibacterial and antistatic dispersion liquid for soaking treatment, controlling two hollow roll shafts (401) to roll on the fabric, and promoting the absorption of the fabric to the antibacterial and antistatic dispersion liquid;

c: pulling the two filter plates (202) outwards, scraping impurities and slurry which float on the liquid surface and are generated by soaking from the liquid surface, and taking out the fabric to obtain the primary antistatic fabric;

6. A method for preparing a fabric by using the antistatic fabric preparation system as claimed in claim 5, which is characterized in that: the drying temperature is 36-45deg.C, and the drying time is 30-40min.