CN114908459B

CN114908459B - Antibacterial flame-retardant garment fabric and processing method thereof

Info

Publication number: CN114908459B
Application number: CN202210664188.4A
Authority: CN
Inventors: 赵国江
Original assignee: Suzhou Xitieniu E Commerce Co ltd
Current assignee: Suzhou Xitieniu E Commerce Co ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2024-04-16
Anticipated expiration: 2042-06-13
Also published as: CN114908459A

Abstract

The invention relates to the technical field of fabrics, in particular to an antibacterial flame-retardant garment fabric and a processing method thereof. According to the invention, before the elastic fabric is dip-dyed in the antibacterial flame retardant, the fabric is sufficiently cleaned, so that the cleanliness of the fabric during dip-dyeing is ensured. The processing method of the antibacterial flame-retardant garment fabric comprises the following steps of: s1: selecting raw materials of an antibacterial flame-retardant elastic fabric, adding flame-retardant acrylic fibers and flame-retardant viscose into the raw materials of the fabric, carding to prepare raw strips, and spinning into warp yarns through roving and spinning procedures; s2: weaving the warp yarn in the step S1 into elastic fabric through a weaving machine; s3: placing the elastic fabric formed by spinning into an auxiliary cleaning device for fully stretching, and cleaning the fabric; s4: dip-dyeing the cleaned and dried fabric into an antibacterial flame retardant, and drying and collecting the dip-dyed fabric to obtain the antibacterial flame retardant fabric; an antibacterial flame-retardant garment fabric, which can be sufficiently stretched when immersed in an antibacterial flame retardant.

Description

Antibacterial flame-retardant garment fabric and processing method thereof

Technical Field

The invention relates to the technical field of fabrics, in particular to an antibacterial flame-retardant garment fabric and a processing method thereof.

Background

The antibacterial flame-retardant fabric has excellent effect, can eliminate peculiar smell generated by bacteria while being flame-retardant, keeps the fabric clean, can inhibit the propagation of bacteria, and plays a great role in the field of protective clothing; the existing antibacterial flame-retardant fabric is sprayed with an antibacterial flame retardant after the fabric is cleaned, so that the fabric has antibacterial flame-retardant performance, but when the fabric is in a contracted state in the face of the fabric with elasticity, dust can be hidden in the fabric due to the fact that the fabric is normally contracted, the phenomenon of incomplete cleaning occurs, and the antibacterial flame-retardant effect of the fabric can be gradually reduced in the subsequent long-term use and cleaning processes.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the antibacterial flame-retardant garment fabric and the processing method thereof, and the beneficial effects are that the fabric is fully cleaned before the elastic fabric is impregnated with the antibacterial flame retardant, so that the cleanliness of the fabric during the dip-dyeing is ensured, and the dip-dyeing effect of the fabric is improved.

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

The processing method of the antibacterial flame-retardant garment fabric comprises the following steps of:

S1: selecting raw materials of an antibacterial flame-retardant elastic fabric, adding flame-retardant acrylic fibers and flame-retardant viscose into the raw materials of the fabric, carding to prepare raw strips, and spinning into warp yarns through roving and spinning procedures;

s2: weaving the warp yarn in the step S1 into elastic fabric through a weaving machine;

S3: placing the elastic fabric formed by spinning into an auxiliary cleaning device for fully stretching, and cleaning the fabric;

s4: dip-dyeing the cleaned and dried fabric into an antibacterial flame retardant, and drying and collecting the dip-dyed fabric to obtain the antibacterial flame retardant fabric;

An antibacterial flame-retardant garment fabric, which can be sufficiently stretched when immersed in an antibacterial flame retardant.

According to the parts by weight, the raw materials for preparing the antibacterial flame retardant are put into a stirrer to be stirred for 18-28min at the stirring speed of 280-340rpm, so as to prepare the antibacterial flame retardant.

The drying temperature is controlled at 45-50 ℃ and the drying time is 1-2h.

The auxiliary cleaning device comprises a box body and a driving frame, wherein the driving frame is connected to the box body in a sliding manner, and clamping pieces for fixing fabrics are respectively arranged at four corners of the driving frame; the roll shaft can slide in the box body to jack up the fabric, and two notches are symmetrically arranged on the roll shaft;

the clamping piece comprises a supporting plate arranged on the driving frame and a roller wheel connected with the supporting plate in a matched mode.

Drawings

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

FIG. 1 is a flow chart of a method of processing an antimicrobial flame retardant garment material;

FIG. 2 is a schematic diagram of the mating structure of the drive rack and the clamping member;

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

FIG. 4 is a schematic view of a structure of a clamping member;

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

FIG. 6 is a schematic diagram of the configuration of the engagement of the axle bracket and the roller axle;

FIG. 7 is a schematic view of a structure of a roll shaft;

FIG. 8 is a schematic diagram of a gas delivery tube;

FIG. 9 is a schematic cross-sectional view of FIG. 6;

Fig. 10 is a schematic structural view of the auxiliary cleaning device.

Detailed Description

The flame-retardant acrylic fiber and the flame-retardant viscose are added into the raw materials of the fabric, so that the prepared and molded fabric has good flame-retardant performance.

The auxiliary cleaning device comprises a box body 102 and a driving frame 101, wherein the driving frame 101 is vertically and slidably connected to the box body 102, an electric push rod I is fixedly connected between the driving frame 101 and the box body 102, and clamping pieces for fixing fabrics are respectively arranged at four corners of the driving frame 101; and a roll shaft 302 capable of sliding in the box 102 to jack up the fabric, wherein two notches are symmetrically arranged on the roll shaft 302.

As shown in fig. 2 to 4:

Injecting water for cleaning the fabric into the box 102, respectively clamping and fixing four corners of the elastic fabric on four clamping pieces, starting an electric push rod I, driving the elastic fabric to be immersed into the water in the box 102 through the driving frame 101 and the four clamping pieces, controlling the four clamping pieces to stretch the fabric simultaneously, so that the fabric is stretched from the center to the four corners of the fabric, and fully stretching the center part of the fabric with elasticity, after the elastic fabric is fully stretched, the distance between fibers and threads between the fabrics is increased, the fabric is promoted to be fully contacted with an aqueous solution, dust which is hidden between the threads and is not easy to be cleaned can be dissolved in the water due to the elasticity of the fabric, and further the fabric can be fully cleaned;

the elastic fabric stretched in the middle of the water is positioned at the upper end of the roller shaft 302, when the roller shaft 302 moves upwards, the roller shaft 302 pushes up the stretched elastic fabric again from the lower end, so that the middle of the fabric is pushed up again under the pushing pressure of the roller shaft 302, the distance between the silk threads of the elastic fabric is further increased, and the fabric cleaning effect is further improved;

The clamping piece comprises a supporting plate 202 arranged on the driving frame 101 and rollers 207 connected with the supporting plate 202 in a matched manner, the fabric is placed on the four supporting plates 202, the rollers 207 are pressed on the fabric, the fabric is clamped between the rollers 207 and the supporting plates 202, and the rollers 207 move in a direction away from the fabric, so that the fabric is stretched;

further, before the fabric is dip-dyed with the antibacterial flame retardant, the fabric is cleaned, so that the cleanliness of the fabric during dip-dyeing is ensured, and the dip-dyeing effect of the fabric is improved.

As shown in fig. 4 to 5:

an inserting frame 203 is fixedly connected to the supporting plate 202 through a screw, a sliding seat 205 is transversely connected to the inserting frame 203 in a sliding manner, an electric push rod II is fixedly connected between the sliding seat 205 and the inserting frame 203, a sliding rod 206 is vertically and slidingly connected in the sliding seat 205, the upper end and the lower end of the sliding rod 206 are respectively fixedly connected with a post rod 208 and a roller 207, the post rod 208 is slidingly connected in an inclined guide frame 204, a hot air screw of the guide frame 204 is fixedly connected to the inserting frame 203, and the height of the guide frame 204 is gradually reduced from one end close to the fabric to one end far from the fabric;

The electric push rod II is started to drive the roller 207 to move on the inserting frame 203 in a direction away from the fabric through the sliding seat 205 and the sliding rod 206, and the sliding rod 206 can vertically slide on the sliding seat 205, so that the roller 207 moving in the direction away from the fabric can move obliquely downwards along the track of the guide frame 204 under the guide effect of the guide frame 204 on the post rod 208, namely, the distance between the roller 207 and the supporting plate 202 is gradually reduced in the process of moving the roller 207 outwards; the outer end of the roller 207 is adhered with a thick rubber layer, when the roller 207 moves obliquely downwards and contacts with the fabric, the fabric is clamped between the supporting plate 202 and the roller 207, the roller 207 extrudes the fabric to the outer end along with the continuous obliquely downwards movement of the roller 207, so that the fabric is stretched to the outer end, the stretching of the fabric is realized, meanwhile, the distance between the roller 207 and the supporting plate 202 is reduced, the rubber layer on the roller 207 is continuously extruded, the fabric is stretched, and simultaneously, a larger clamping force is generated on the fabric, the fabric is prevented from being separated from the gap between the roller 207 and the supporting plate 202 due to the reaction force generated by stretching of the fabric, and the fabric is prevented from being separated from the clamping when being sufficiently stretched.

As shown in fig. 4:

The roller 207 is arranged on the supporting plate 202 and can be embedded into the groove, when the roller 207 moves towards the direction close to the supporting plate 202, the fabric is pressed into the supporting plate 202, then the roller 207 is also embedded into the groove on the supporting plate 202, and under the mutual matching of the roller 207 and the groove on the supporting plate 202, the fabric is further prevented from being separated from the groove between the roller 207 and the supporting plate 202 when being stretched, so that the clamping and stretching processes are more stable.

As shown in fig. 5:

the surface equipartition of gyro wheel 207 encircles the bonding and connects a plurality of rubber bead, and the rubber bead has increased the frictional force between gyro wheel 207 and the surface fabric, has improved the centre gripping effect to the surface fabric.

As shown in fig. 4:

the bottom surface of recess is equipped with a plurality of arris grooves with bead complex, and when gyro wheel 207 suppression surface fabric embedded into the recess on the layer board 202, the rubber bead on the gyro wheel 207 can suppress the surface fabric and imbed the arris inslot on the layer board 202 to further improved the centre gripping effect to the surface fabric, avoided the surface fabric to be stretched the back, when roller 302 upwards pushes up tight surface fabric, the surface fabric breaks away from.

As shown in fig. 4:

The clamping piece further comprises a sliding frame 201, a supporting plate 202 is welded at the lower end of the sliding frame 201, the upper end of the sliding frame 201 is inserted on the driving frame 101, and an electric push rod III is arranged between the sliding frame 201 and the driving frame 101;

the electric push rod III starts to drive the sliding frame 201 to slide on the driving frame 101, and then the four supporting plates 202 are close to or far away from each other to slide, so that the distance between the four supporting plates 202 is changed, the electric push rod III is suitable for clamping and stretching fabrics with different sizes, and after the fabrics are clamped and stretched, the sliding frame 201 can slide towards the outer end on the driving frame 101 through control, further stretching of the fabrics is achieved, and the electric push rod III is suitable for using the fabrics with larger elasticity.

As shown in fig. 6 to 7:

The two ends of the roller shaft 302 are rotationally connected to the shaft bracket 301 through the bearings with the seats, two notches are symmetrically arranged on the roller shaft 302, the middle of the fabric is propped up tightly at the two ends of the roller shaft 302, the notch at the upper end is positioned below the propped up fabric, the gas pipe 303 is fixedly inserted on the shaft bracket 301 in an interference manner, the gas pipe 303 is positioned in the roller shaft 302, the gas pipe 303 is fixedly connected and communicated with a plurality of air nozzles, one end of the gas pipe 303 is provided with a gas inlet pipe, external gas is connected to the gas inlet pipe through a gas pump, the gas enters the gas pipe 303 and is ejected from the air nozzles, and the gas passes through the notch at the upper end and acts on the fabric propped up tightly at the two ends of the roller shaft 302.

As shown in fig. 6 to 9:

Two inclined plates 304 are symmetrically welded and connected to the lower end of the roller shaft 302 on the shaft bracket 301, the inclined plates 304 correspond to the notches at the lower end, and irregular convex surfaces are arranged on the upper end faces of the two inclined plates 304;

The gas sprayed from the gas pipe 303 passes through the notch at the lower end and is sprayed on the two inclined plates 304, and as the surfaces of the two inclined plates 304 are irregular convex surfaces, the gas is refracted, so that the gas is refracted to different directions and then sprayed into the aqueous solution, the stirring of water is realized, the fluidity of the water is improved, the water flow with fluidity can flush out dust in the fabric;

one end of the roller shaft 302 is connected with a gear ring 307 through a key limit, the gear ring 307 is in meshed transmission connection with a gear, the gear is connected to an output shaft of a gear motor through a key limit, the gear motor is fixedly connected to the shaft bracket 301, a plurality of clockwise-distributed rib plates I305 and a plurality of anticlockwise-distributed rib plates II 306 are welded on the circumferential surface of the roller shaft 302, and the rib plates I305 and the rib plates II 306 are arranged in a staggered mode at intervals;

The gear motor is started to be meshed with the gear ring 307 to drive the roller shaft 302 to rotate, the rotating roller shaft 302 enables the notch and the end face of the roller shaft 302 provided with the rib plates I305 and the rib plates II 306 to be in intermittent contact with the fabric, so that gas also intermittently acts on the fabric, when the gas is not in contact with the fabric, the rib plates I305 and the rib plates II 306 on the roller shaft 302 are in contact with the fabric, the rib plates I305 and the rib plates II 306 can scrape down fluff on the fluff-property fabric, so that dust of the fabric in the fluff and the fabric in the fluff are promoted to be fully contacted with an aqueous solution after the fluff-property fabric is pulled, and the fluff-property fabric can be thoroughly cleaned after being pulled;

The inclination directions of the adjacent rib plates I305 and II 306 are opposite, so when the roller shaft 302 drives the rib plates I305 and II 306 to reciprocally rotate, the rib plates I305 and II 306 continuously stir the fluff on the fabric, when the roller shaft 302 rotates clockwise, the rib plates I305 stir the fluff to the right side, when the roller shaft 302 rotates anticlockwise, the rib plates II 306 stir the fluff to the left side, the fluff is stirred in different directions, and dust hidden in the fluff is promoted to shake out.

Claims

1. A processing method of an antibacterial flame-retardant garment fabric is characterized by comprising the following steps of: the method comprises the following steps:

The auxiliary cleaning device comprises a box body (102) and a driving frame (101), wherein the driving frame (101) is connected to the box body (102) in a sliding manner, and clamping pieces for fixing fabrics are respectively arranged at four corners of the driving frame (101); the roll shaft (302) can slide in the box body (102) to jack up the fabric, and two notches are symmetrically arranged on the roll shaft (302);

the clamping piece comprises a supporting plate (202) arranged on the driving frame (101) and a roller (207) in matched connection with the supporting plate (202);

The support plate (202) is fixedly connected with an inserting frame (203), the inserting frame (203) is connected with a sliding seat (205) in a sliding mode, the sliding seat (205) is connected with a sliding rod (206) in a sliding mode, two ends of the sliding rod (206) are fixedly connected with a roller (207) and a post rod (208) respectively, the post rod (208) is connected in a guide frame (204) in a sliding mode, and the guide frame (204) is fixedly connected on the inserting frame (203).

2. The method for processing the antibacterial flame-retardant garment fabric according to claim 1, which is characterized in that: according to the parts by weight, the raw materials for preparing the antibacterial flame retardant are put into a stirrer to be stirred for 18-28min at the stirring speed of 280-340rpm, so as to prepare the antibacterial flame retardant.

3. The method for processing the antibacterial flame-retardant garment fabric according to claim 1, which is characterized in that: the drying temperature is controlled at 45-50 ℃ and the drying time is 1-2h.

4. The method for processing the antibacterial flame-retardant garment fabric according to claim 1, which is characterized in that: the supporting plate (202) is provided with a groove in which the roller (207) can be embedded.

5. The method for processing the antibacterial flame-retardant garment fabric according to claim 4, which is characterized in that: a plurality of ribs are uniformly distributed on the surface of the roller (207).

6. The method for processing the antibacterial flame-retardant garment fabric according to claim 5, which is characterized in that: the bottom surface of the groove is provided with a plurality of prismatic grooves matched with the protruding ribs.

7. The method for processing the antibacterial flame-retardant garment fabric according to claim 1, which is characterized in that: the roller shaft (302) is rotatably connected to the shaft bracket (301), a gas pipe (303) is fixed to the shaft bracket (301), and the gas pipe (303) is located in the roller shaft (302).

8. The fabric processed by the processing method of the antibacterial flame-retardant garment fabric, which is characterized in that: the elastic fabric can be fully stretched when immersed in the antibacterial flame retardant.