CN117447931B

CN117447931B - Sweat-absorbing antibacterial sports bandage and preparation method thereof

Info

Publication number: CN117447931B
Application number: CN202311389538.1A
Authority: CN
Inventors: 朱志才
Original assignee: Jiangsu Taide Medical Technology Co ltd
Current assignee: Jiangsu Taide Medical Technology Co ltd
Priority date: 2023-10-25
Filing date: 2023-10-25
Publication date: 2024-04-26
Anticipated expiration: 2043-10-25
Also published as: CN117447931A

Abstract

The invention relates to the technical field of bandages, in particular to a sweat-absorbent antibacterial sports bandage and a preparation method thereof, wherein the sweat-absorbent antibacterial sports bandage comprises a cloth processing device, and a bandage braiding machine and a bandage coating machine are sequentially arranged in front of the cloth processing device; including finished bandages prepared by a bandage braiding machine and a bandage coater. According to the sweat-absorbing antibacterial sports bandage and the preparation method thereof, the buffer solution capable of adjusting the pH value of the cloth is placed in the box body at the rear of the soaking box, and the polyhexamethylene biguanide antibacterial solution capable of rapidly penetrating into the cloth and activating the antibacterial property of the cloth is matched, and meanwhile, the surface of the cloth is stretched by the lower pressing plate under the action of the elastic force of the pressure spring, so that the cloth can obtain a good antibacterial effect in a short time.

Description

Sweat-absorbing antibacterial sports bandage and preparation method thereof

Technical Field

The invention relates to the technical field of bandages, in particular to a sweat-absorbing antibacterial sports bandage and a preparation method thereof.

Background

Sports bandages are a medical device used to secure or protect injured muscles, joints or ligaments. They are typically made of an elastic material that provides lightweight and flexible support. The motion bandages help reduce pain, swelling and joint movement limitation while increasing blood flow to the injured site, promoting the healing process. In addition, it can help athletes prevent re-injury, improve athletic performance and reduce risk of injury. Sports bandages are widely used in a variety of sports and fitness activities, such as football, basketball, running, and the like.

However, when the conventional sports bandage is worn, the sports bandage is loosened due to the intense sports of a sportsman and sweat secreted by the body surface, the two ends of the surface of the sports bandage are easy to deform, and meanwhile, the conventional sports bandage is made of a single material. In the process of manufacturing the sports bandage, in order to meet the antibacterial requirement of the sports bandage, the antibacterial layer of the sports bandage needs to be soaked into the antibacterial liquid for a long time, and then the dried antibacterial layer and the surface are stacked and then sewn and fixed through a braiding machine, so that the process of manufacturing the sports bandage is discontinuous.

In view of this, we propose a sweat-absorbent antibacterial sports bandage and a method for its preparation.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide a sweat-absorbent antibacterial sports bandage and a preparation method thereof, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a method for preparing sweat-absorbent antibacterial sports bandages, which comprises the following steps:

1. preparation stage

S1, firstly, uniformly blending two groups of chlorants and pure cotton to obtain cloth, respectively arranging the cloth outside an upper placing roller and a lower placing roller in a cloth treatment device, and then braiding polyester fibers to obtain the cloth, wherein the cloth treatment device is arranged outside the middle placing roller;

S2, sequentially passing the three groups of cloth through a cloth processing device, a bandage braiding machine and a bandage coating machine through equipment traction, and ensuring that the three groups of cloth can smoothly move after the bandage braiding machine and the bandage coating machine are started;

S3, pouring the buffer solution capable of adjusting the pH value of the three groups of cloth materials into the box body behind the three groups of soaking boxes, pouring the solution mixed by the bamboo leaf extract and the water into the box body in front of the upper and lower groups of soaking boxes, and then pouring the polyhexamethylene biguanide antibacterial solution into the box body in front of the middle group of soaking boxes;

2. cloth treatment stage

S4, starting a bandage braiding machine and a bandage coating machine to drive three groups of cloth to move forwards together, wherein the three groups of cloth are W-shaped in the soaking box;

s5, starting a motor and a dryer in the drying device, wherein the motor drives a main bevel gear to rotate, and a rotating shaft and a wheel disc are driven to rotate together through an auxiliary bevel gear, so that a connecting rod is driven to continuously change the position of the connecting rod, and the glue storage bin body is driven to reciprocate up and down;

S6, along with the up-and-down reciprocating motion of the glue storage bin body, when the glue storage bin body is positioned at the lowest point, the glue dispensing needle penetrates through the extrusion bin body and then penetrates through the three groups of cloth, glue in the glue storage bin body flows out from the glue outlet hole on the glue dispensing needle, and the three groups of cloth are adhered together to complete the preliminary compounding of the three groups of cloth;

3. Cloth knitting stage

S7, knitting equipment in the bandage knitting machine is used for sewing three groups of cloth together through pure cotton threads, and compounding of the three groups of cloth is completed;

4. Cloth coating stage

S8, attaching a layer of adhesion structure to the bottoms of the three groups of cloth by the bandage coating machine, and finishing the manufacture of finished bandages;

5. bandage cutting stage

S9, feeding the finished product bandages into a cutting machine according to the use requirements to finish cutting, and then rolling the finished product bandages into a gauze barrel;

The cloth processing device comprises a fixing device, three groups of soaking boxes which are arranged in the fixing device in a vertically staggered manner, three placing rollers which are arranged in the rear of the fixing device in an up-down parallel manner, and a drying device which is arranged in the front of the fixing device;

the drying device comprises two groups of extrusion bin bodies which are vertically symmetrically arranged, a dispensing part which is arranged at the position, close to the rear, of the inner part of the extrusion bin bodies, bin body protruding blocks which are arranged on the bottom surface of the inner part of the upper extrusion bin body, a dryer which is arranged at the position, close to the front, of the symmetrical surfaces of the two groups of extrusion bin bodies and used for drying the water on the surfaces of three groups of cloth, and a fixing bracket which is arranged on the side wall of one end, far away from the symmetrical surfaces, of the two groups of extrusion bin bodies and is arranged in parallel left and right;

The glue dispensing part comprises rotating shafts with two ends rotatably connected to the inner side walls of the left end and the right end of the extrusion bin body, wheel discs arranged at the left end and the right end of the rotating shafts, connecting rods arranged on the outer side walls of the wheel discs, a glue storage bin body arranged above the rotating shafts and used for storing glue, and a plurality of glue dispensing needles which are linearly distributed on the bottom surface of the glue storage bin body;

the front of the cloth processing device is sequentially provided with a bandage braiding machine and a bandage coating machine.

In the technical scheme of the invention, the fixing device comprises a fixing base, two fixing longitudinal plates welded and fixed at the left side and the right side of the rear end of the top surface of the fixing base, a fixing frame welded and fixed at the front end of the top surface of the fixing base, and two guide rollers which are rotationally connected with the front end of the inner side wall of the fixing frame and are vertically arranged in parallel, wherein the left end and the right end of the placing roller are respectively rotationally connected with the inner side walls of the two fixing longitudinal plates.

In the technical scheme of the invention, the soaking box comprises a box body shell with an inverted E-shaped longitudinal section, three guide shafts with left and right ends clamped and fixed on the inner side wall of the box body shell for ensuring smooth movement of cloth, two box inner connecting plates welded and fixed on the inner side wall of the box body shell, a lower pressing plate arranged in the box inner connecting plates and used for stretching the cloth, and a plurality of pressure springs arranged at the top of the lower pressing plate and in linear distribution.

In the technical scheme of the invention, a plate bottom slot for accommodating a lower pressing plate and a pressure spring is formed in the bottom surface of the in-box connecting plate, the lower pressing plate is connected in the plate bottom slot in a sliding manner, the upper end and the lower end of the pressure spring are respectively welded and fixed on the top surface of the lower pressing plate and the top surface of the slot wall of the plate bottom slot, and when the pressure spring is in a natural state, the top horizontal height of the lower pressing plate is higher than the height of the slot bottom slot of the plate bottom slot.

In the technical scheme of the invention, the inner side walls at the front end and the rear end of the extrusion bin body are fixedly welded with the partition plates, the top surface of the extrusion bin body at the lower position is provided with a plurality of bin top openings which are in linear distribution and are used for accommodating the needle heads of the dispensing needles, and the side walls at the left end and the right end of the extrusion bin body at the upper position are provided with bin wall sliding grooves which are internally and externally communicated.

In the technical scheme of the invention, the wheel disc is fixedly connected to the end part of the rotating shaft through the bayonet lock, the outer side wall of the rotating shaft is fixedly connected with the auxiliary bevel gear through the bayonet lock at the position close to the middle, the separation plate is rotatably connected with the main bevel gear vertically meshed with the auxiliary bevel gear, the wheel body convex shaft of the main bevel gear passes through the separation plate and is coaxially connected with the motor, and the motor is fixedly connected to the side wall of the separation plate through the bolt.

In the technical scheme of the invention, bin body lugs which are connected to the inside of a bin wall chute on the extrusion bin body in a sliding manner are uniformly formed on the side walls of the left end and the right end of the glue storage bin body, the upper end and the lower end of the connecting rod are respectively connected to the outer side wall of the wheel disc and the outer side wall of the bin body lug on the glue storage bin body in a rotating manner through bearings, the glue dispensing needle is fixedly clamped on the bottom surface of the glue storage bin body, a plurality of regularly distributed glue outlet holes are formed in the position, close to the bottom, of the outer side wall of the glue dispensing needle, telescopic rods used for limiting the up-down movement interval of the glue storage bin body are fixedly connected to the four corners of the bottom of the glue storage bin body through screws, and the bottom ends of the telescopic rods are fixedly connected to the inner bottom surface of the extrusion bin body at the upper position through bolts.

In the technical scheme of the invention, the bin body protruding blocks are integrally formed on the inner bottom surface of the extrusion bin body positioned above, a plurality of block through holes which are the same in number and in one-to-one correspondence to the positions and are matched with each other in size are formed in the bin body protruding blocks, the dryer is fixedly connected with the extrusion bin body through screws, the fixing support is in communication connection with the extrusion bin body, and the bottom ends of the fixing supports are welded and fixed on the front side wall of the fixing frame.

The invention also provides a sweat-absorbing antibacterial sport bandage, which comprises a finished bandage prepared by a bandage braiding machine and a bandage coating machine;

The finished bandage comprises two breathable outer layers which are arranged in parallel up and down, wear-resistant edge layers arranged at the left side and the right side of the breathable outer layers, an antibacterial middle layer arranged between the two breathable outer layers, and an adhesive inner layer arranged outside the upper breathable outer layers

In the technical scheme of the invention, the breathable outer surface layer, the wear-resistant edge layer and the antibacterial middle layer are all woven into a whole through pure cotton threads in the bandage braiding machine, the adhesive inner layer is adhered to the outer part of the breathable outer surface layer through a bandage coater, and a plurality of silica gel particles which are distributed in a matrix form and are used for adhering to the skin are integrally formed on the surface of the adhesive inner layer.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. According to the sweat-absorbing antibacterial sports bandage and the preparation method thereof, the buffer solution capable of adjusting the pH value of the cloth is placed in the box body at the rear of the soaking box, and the polyhexamethylene biguanide antibacterial solution capable of rapidly penetrating into the cloth and activating the antibacterial property of the cloth is matched, and meanwhile, the surface of the cloth is stretched by the lower pressing plate under the action of the elastic force of the pressure spring, so that the cloth can obtain a good antibacterial effect in a short time.

2. According to the sweat-absorbing antibacterial sport bandage and the preparation method thereof, the three groups of cloth can be discontinuously and primarily compounded together before entering the bandage braiding machine to complete sewing integration through the glue dispensing part in the drying device, and the three groups of cloth can directly enter the bandage braiding machine to be sewn by matching with the dryer, so that the preparation process of the whole bandage is connected in series.

3. According to the sweat-absorbing antibacterial sports bandage and the preparation method thereof, the breathable outer surface layer is prepared from pure cotton to ensure the overall breathability of the finished bandage, the wear-resistant edge layer is prepared from the polyvinyl chloride, so that the wear resistance of the two ends of the surface of the finished bandage is improved, and the antibacterial middle layer is prepared from the polyester fiber, so that the finished bandage has good wrinkle resistance and rebound resilience, and can be more flat and attached to the skin; after the breathable outer surface layer is soaked in the mixed solution of the bamboo leaf extract and water, the antibacterial property and the oxidation resistance of the breathable outer surface layer are improved, and meanwhile, the natural extract can be better adapted to the skin of different wearers.

Drawings

FIG. 1 is a schematic diagram of a portion of a manufacturing apparatus of the present invention;

FIG. 2 is a schematic view of a cloth treating apparatus according to the present invention;

FIG. 3 is a schematic view of a fixing device according to the present invention;

FIG. 4 is a schematic view of the structure of the soaking tank in the present invention;

FIG. 5 is an enlarged schematic view of section A of the present invention;

fig. 6 is a schematic structural view of a drying apparatus according to the present invention;

FIG. 7 is a schematic sectional view showing a structure of a drying apparatus according to the present invention;

FIG. 8 is a schematic view showing a section of a structure of a portion of a drying apparatus according to the present invention;

FIG. 9 is an enlarged schematic view of section B of the present invention;

Fig. 10 is a schematic view illustrating the structure of a drying apparatus according to the present invention;

FIG. 11 is an enlarged schematic view of section C of the present invention;

FIG. 12 is a schematic view of the structure of the dispensing needle of the present invention;

FIG. 13 is a schematic view of the construction of the finished bandage of the present invention;

Fig. 14 is an enlarged schematic view of the portion D of the present invention.

Reference numerals illustrate:

1. A cloth processing device; 10. a fixing device; 101. a fixed base; 102. fixing the longitudinal plate; 103. a fixed frame; 104. a guide roller;

11. A soaking box; 110. a case housing; 111. a guide shaft; 112. a box inner connecting plate; 1120. grooving the bottom of the plate; 113. a lower pressing plate; 114. a pressure spring;

12. placing a roller;

13. A drying device; 130. extruding the bin body; 1301. a partition plate; 1302. a hole is formed in the top of the bin; 131. dispensing part; 1310. a rotating shaft; 1311. a wheel disc; 1312. a secondary bevel gear; 1313. a main bevel gear; 1314. a motor; 1315. a connecting rod; 1316. a glue storage bin body; 1317. dispensing needle; 1318. a telescopic rod; 132. a bin body lug; 1320. a block through hole; 133. a dryer; 134. a fixed bracket;

2. a bandage braiding machine;

3. A bandage coater;

4. A finished bandage; 40. a breathable outer skin layer; 41. a wear-resistant edge layer; 42. an antimicrobial interlayer; 43. the inner layer is stuck.

Description of the embodiments

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-12, the present invention provides a technical solution:

1. preparation stage

S1, firstly, uniformly blending two groups of chlorlon and pure cotton to obtain cloth, respectively assembling the cloth outside an upper placing roller 12 and a lower placing roller 12 in a cloth processing device 1, and then braiding polyester fibers to obtain the cloth, wherein the cloth is arranged outside the middle placing roller 12 in the cloth processing device 1;

S2, sequentially passing the three groups of cloth through a cloth processing device 1, a bandage braiding machine 2 and a bandage coater 3 through equipment traction, and ensuring that the three groups of cloth can smoothly move after the bandage braiding machine 2 and the bandage coater 3 are started;

S3, pouring the buffer solution capable of adjusting the pH value of the three groups of cloth into the box bodies behind the three groups of soaking boxes 11, pouring the solution mixed by the bamboo leaf extract and the water into the box bodies in front of the upper and lower groups of soaking boxes 11, and then pouring the polyhexamethylene biguanide antibacterial solution into the box bodies in front of the middle group of soaking boxes 11;

2. cloth treatment stage

S4, starting the bandage braiding machine 2 and the bandage coater 3 to drive three groups of cloth to move forwards together, wherein the three groups of cloth are W-shaped in the soaking box 11;

S5, starting a motor 1314 and a dryer 133 in the drying device 13, wherein the motor 1314 drives a main bevel gear 1313 to rotate, and a secondary bevel gear 1312 drives a rotating shaft 1310 and a wheel disc 1311 to rotate together, so as to drive a connecting rod 1315 to continuously change the position of the connecting rod 1315, and further drive a glue storage bin 1316 to reciprocate up and down;

s6, along with the up-and-down reciprocating motion of the glue storage bin body 1316, when the glue storage bin body 1316 is positioned at the lowest point, the glue dispensing needle 1317 penetrates through the three groups of cloth after penetrating out of the extrusion bin body 130, and glue in the glue storage bin body 1316 flows out of the glue outlet holes in the glue dispensing needle 1317, so that the preliminary compounding of the three groups of cloth is completed;

3. Cloth knitting stage

S7, sewing three groups of cloth together by knitting equipment in the bandage knitting machine 2 through pure cotton threads to complete the compounding of the three groups of cloth;

4. Cloth coating stage

S8, attaching a layer of adhesion structure to the bottoms of the three groups of cloth by the bandage coater 3, and finishing the manufacturing of the finished bandage 4;

5. bandage cutting stage

S9, feeding the finished bandage 4 into a cutting machine according to the use requirement to finish cutting, and then rolling the finished bandage 4 into a gauze barrel;

The cloth processing device 1 comprises a fixing device 10, three groups of soaking boxes 11 which are arranged in the fixing device 10 in a vertically staggered way, three placing rollers 12 which are arranged in the rear of the fixing device 10 in a vertically parallel way, and a drying device 13 which is arranged in the front of the fixing device 10;

In the invention, the fixing device 10 comprises a fixing base 101, two fixing vertical plates 102 welded and fixed at the left and right sides of the rear end of the top surface of the fixing base 101, a fixing frame 103 welded and fixed at the front end of the top surface of the fixing base 101, and two guide rollers 104 which are rotatably connected to the front end of the inner side wall of the fixing frame 103 and are arranged in parallel up and down, wherein the left and right ends of a placing roller 12 are respectively rotatably connected to the inner side walls of the two fixing vertical plates 102;

further, the fixing base 101 is used for providing a fixing platform for the fixing vertical plate 102 and the fixing frame 103, the fixing vertical plate 102 is used for providing a rotating platform for the placing roller 12, the fixing frame 103 is used for providing a fixing platform for the soaking box 11 and the drying device 13, and the guiding roller 104 is used for changing the moving direction of the cloth.

In the invention, the soaking box 11 comprises a box shell 110 with an inverted E-shaped longitudinal section, three guide shafts 111 with left and right ends clamped and fixed on the inner side wall of the box shell 110 for ensuring smooth movement of cloth, two box inner connecting plates 112 welded and fixed on the inner side wall of the box shell 110, a lower pressing plate 113 arranged in the box inner connecting plates 112 for stretching the cloth, and a plurality of pressure springs 114 arranged at the top of the lower pressing plate 113 and in linear distribution;

further, a plate bottom slot 1120 for accommodating the lower pressure plate 113 and the pressure spring 114 is formed on the bottom surface of the in-box connection plate 112, the lower pressure plate 113 is slidably connected to the inside of the plate bottom slot 1120, the upper and lower ends of the pressure spring 114 are welded and fixed on the top surface of the lower pressure plate 113 and the top surface of the slot wall of the plate bottom slot 1120 respectively, and when the pressure spring 114 is in a natural state, the top level of the lower pressure plate 113 is higher than the bottom slot height of the plate bottom slot 1120.

Further, the box housing 110 is used for ensuring the stability of the overall structure of the soaking box 11, meanwhile, the box housing 110 with the inverted-E-shaped longitudinal section can be used for placing 2 different solutions, the guide shaft 111 is used for changing the movement direction of the cloth, the plate bottom slot 1120 at the bottom of the plate 112 in the box is used for providing a storage space for the lower pressing plate 113 and the pressure spring 114, the pressure spring 114 provides downward acting force for the lower pressing plate 113 through self elasticity, the lower pressing plate 113 is used for stretching the cloth, and the absorption area of the cloth to the solution is increased.

In this embodiment, as shown in fig. 6-12, the drying device 13 includes two sets of extrusion bins 130 symmetrically arranged up and down, a dispensing part 131 arranged in the extrusion bins 130 near the rear position, bin body protrusions 132 arranged on the bottom surface of the extrusion bins 130 above, a dryer 133 arranged in the symmetry surface near the front position of the two sets of extrusion bins 130 for drying three sets of cloth surface moisture, and a fixing bracket 134 arranged on the side wall of one end of the two sets of extrusion bins 130 far from the symmetry surface in parallel left and right;

Further, the inner side walls of the front end and the rear end of the extrusion bin body 130 are welded and fixed with partition plates 1301, a plurality of bin top open holes 1302 for accommodating the needle heads of the dispensing needles 1317 are linearly distributed at the top surface of the extrusion bin body 130 at the lower position, bin wall sliding grooves which are internally and externally communicated are formed on the side walls of the left end and the right end of the extrusion bin body 130 at the upper position,

Further, the pressing bin 130 is used for ensuring the stability of the whole structure of the drying device 13, and simultaneously pressing three groups of cloth together, and the partition plate 1301 is used for providing a fixed base point for the motor 1314 in the dispensing part 131.

In this embodiment, as shown in fig. 10-12, the dispensing portion 131 includes a rotating shaft 1310 with two ends rotatably connected to inner side walls of the left and right ends of the extrusion bin 130, a wheel disc 1311 disposed at the left and right ends of the rotating shaft 1310, a connecting rod 1315 disposed on the outer side wall of the wheel disc 1311, a glue storage bin 1316 disposed above the rotating shaft 1310 for storing glue, and a plurality of dispensing needles 1317 disposed on the bottom surface of the glue storage bin 1316 in a linear distribution;

Specifically, the wheel disc 1311 is fixedly connected to the end position of the rotating shaft 1310 through a bayonet lock, the outer side wall of the rotating shaft 1310 is fixedly connected with the auxiliary bevel gear 1312 through the bayonet lock near the middle position, the partition plate 1301 is rotatably connected with the main bevel gear 1313 vertically meshed with the auxiliary bevel gear 1312, the wheel body protruding shaft of the main bevel gear 1313 passes through the partition plate 1301 and then is coaxially connected with the motor 1314, and the motor 1314 is fixedly connected to the side wall of the partition plate 1301 through bolts.

Further, the side walls at the left end and the right end of the glue storage bin body 1316 are uniformly formed with bin body projections which are in sliding connection with the inside of a bin wall chute on the extrusion bin body 130, the upper end and the lower end of the connecting rod 1315 are respectively connected to the outer side wall of the wheel disc 1311 and the outer side wall of the bin body projection of the glue storage bin body 1316 through bearings in a rotating manner, the glue dispensing needle 1317 is fixedly clamped on the bottom surface of the glue storage bin body 1316, a plurality of regularly distributed glue outlet holes are formed in the position, close to the bottom, of the outer side wall of the glue dispensing needle 1317, of the bottom four corners of the glue storage bin body 1316, telescopic rods 1318 used for limiting the up-down movement interval of the glue storage bin body 1316 are fixedly connected to the inner bottom surface of the extrusion bin body 130 at the upper position through bolts.

Further, by starting the motor 1314 connected with an external power supply in the glue dispensing part 131, the motor 1314 drives the main bevel gear 1313 to rotate, and drives the rotating shaft 1310 and the wheel disc 1311 to rotate together by vertically engaging the auxiliary bevel gear 1312, so as to drive the connecting rod 1315 to continuously change the position of the connecting rod 1315, thereby driving the glue storage bin 1316 to reciprocate up and down, along with the reciprocating movement of the glue storage bin 1316, when the glue storage bin 1316 is located at the lowest point, the glue dispensing needle 1317 penetrates through the extrusion bin 130 and then passes through three groups of cloth, and glue in the glue storage bin 1316 flows out from the glue outlet on the glue dispensing needle 1317, so that the three groups of cloth are adhered together, and the preliminary compounding of the three groups of cloth is completed.

In the invention, a bin body protruding block 132 is integrally formed on the inner bottom surface of an extrusion bin body 130 positioned at the upper position, a plurality of block through holes 1320 which are the same in number and correspond to each other in position and are matched with each other in size are formed in the bin body protruding block 132, a dryer 133 is fixedly connected with the extrusion bin body 130 through screws, a fixed bracket 134 is connected with the extrusion bin body 130, and the bottom end of the fixed bracket 134 is welded and fixed on the front side wall of a fixed frame 103;

further, the block through holes 1320 on the bin body protrusions 132 are used for placing glue in the glue dispensing portion 131 to flow out from the glue outlet holes on the glue dispensing needle 1317, the dryer 133 is used for rapidly drying moisture on the cloth, and the fixing bracket 134 is used for ensuring the stability of fixing the drying device 13 on the fixing frame 103.

In the invention, a bandage braiding machine 2 and a bandage coating machine 3 are arranged in front of a cloth processing device 1 in sequence;

Further, the bandage braiding machine 2 is used for sewing three groups of cloth together through pure cotton threads, and the bandage coater 3 is used for attaching a layer of adhesion structure to the bottom of the three groups of cloth to finish the manufacturing of the finished bandage 4.

Referring to fig. 13-14, another technical solution is provided in the present invention:

A sweat-absorbing antibacterial sport bandage, which comprises a finished bandage 4 prepared by a bandage braiding machine 2 and a bandage coater 3;

the finished bandage 4 comprises two breathable outer surface layers 40 which are arranged in parallel up and down, wear-resistant edge layers 41 arranged at the left side and the right side of the breathable outer surface layers 40, an antibacterial middle layer 42 arranged between the two breathable outer surface layers 40 and an adhesive inner layer 43 arranged outside the upper breathable outer surface layers 40.

In the invention, the breathable outer surface layer 40, the wear-resistant edge layer 41 and the antibacterial middle layer 42 are all woven into a whole through pure cotton threads in the bandage braiding machine 2, the adhesive inner layer 43 is adhered to the outer part of the breathable outer surface layer 40 through the bandage coater 3, and a plurality of silica gel particles which are distributed in a matrix form and are used for adhering to the skin are integrally formed on the surface of the adhesive inner layer 43;

Further, the breathable outer surface layer 40 is made of pure cotton to ensure the overall breathability of the finished bandage, the wear-resistant edge layer 41 is made of polyethylene, so that the wear resistance of the two ends of the surface of the finished bandage is improved, and the antibacterial middle layer 42 is made of polyester fibers, so that the finished bandage has good wrinkle resistance and rebound resilience, and can be made to be smoother and fit with the skin.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A method for preparing sweat-absorbent antibacterial sports bandages, which is characterized by comprising the following steps: the method comprises the following steps:

1. preparation stage

S1, firstly, uniformly blending two groups of chlorants and pure cotton to obtain cloth, respectively arranging the cloth outside an upper placing roller (12) and a lower placing roller (12) in a cloth treatment device (1), and then braiding polyester fibers to obtain the cloth, wherein the cloth treatment device (1) is arranged outside the middle placing roller (12);

s2, sequentially passing the three groups of cloth through a cloth processing device (1), a bandage braiding machine (2) and a bandage coating machine (3) through equipment traction, and ensuring that the three groups of cloth can smoothly move after the bandage braiding machine (2) and the bandage coating machine (3) are started;

S3, pouring buffer solution capable of adjusting the pH value of three groups of cloth into the box bodies behind the three groups of soaking boxes (11), pouring solution mixed by bamboo leaf extracts and water into the box bodies in front of the upper soaking box (11) and the lower soaking box (11), and then pouring polyhexamethylene biguanide antibacterial solution into the box bodies in front of the middle soaking box (11);

2. cloth treatment stage

S4, starting a bandage braiding machine (2) and a bandage coater (3) to drive three groups of cloth to move forwards together, wherein the three groups of cloth are W-shaped in a soaking box (11);

s5, starting a motor (1314) and a dryer (133) in the drying device (13), wherein the motor (1314) drives a main bevel gear (1313) to rotate, and a secondary bevel gear (1312) drives a rotating shaft (1310) and a wheel disc (1311) to rotate together, so that a connecting rod (1315) is driven to continuously change the position of the connecting rod, and a glue storage bin (1316) is driven to reciprocate up and down;

S6, along with the up-and-down reciprocating motion of the glue storage bin body (1316), when the glue storage bin body (1316) is positioned at the lowest point, the glue dispensing needle (1317) penetrates through the three groups of cloth after penetrating out of the extrusion bin body (130), glue in the glue storage bin body (1316) flows out of the glue outlet holes on the glue dispensing needle (1317), and the three groups of cloth are adhered together to complete the primary compounding of the three groups of cloth;

3. Cloth knitting stage

S7, knitting equipment in the bandage knitting machine (2) is used for sewing three groups of cloth together through pure cotton threads, and compounding of the three groups of cloth is completed;

4. Cloth coating stage

S8, attaching a layer of adhesion structure to the bottoms of the three groups of cloth by the bandage coating machine (3) to finish the manufacturing of a finished bandage (4);

5. bandage cutting stage

S9, feeding the finished bandage (4) into a cutting machine according to the use requirement to finish cutting, and then rolling the finished bandage (4) into a gauze barrel;

the cloth processing device (1) comprises a fixing device (10), three groups of soaking boxes (11) which are arranged in the fixing device (10) in a vertically staggered mode, three placing rollers (12) which are arranged in the rear of the fixing device (10) in an up-down parallel mode, and a drying device (13) which is arranged at the front position of the fixing device (10);

The drying device (13) comprises two groups of extrusion bin bodies (130) which are vertically and symmetrically arranged, a dispensing part (131) which is arranged in the extrusion bin bodies (130) and is close to the rear position, bin body lugs (132) which are arranged on the bottom surface of the inside of the upper extrusion bin body (130), a dryer (133) which is arranged in the position, close to the front position, of the symmetry surface of the two groups of extrusion bin bodies (130) and is used for drying three groups of cloth surface moisture, and a fixed bracket (134) which is arranged on the side wall of one end, far away from the symmetry surface, of the two groups of extrusion bin bodies (130) and is parallel left and right;

The glue dispensing part (131) comprises a rotating shaft (1310) with two ends rotatably connected to the inner side walls of the left end and the right end of the extrusion bin body (130), a wheel disc (1311) arranged at the left end and the right end of the rotating shaft (1310), a connecting rod (1315) arranged on the outer side wall of the wheel disc (1311), a glue storage bin body (1316) arranged above the rotating shaft (1310) and used for storing glue, and a plurality of glue dispensing needles (1317) which are linearly distributed on the bottom surface of the glue storage bin body (1316);

The front of the cloth processing device (1) is sequentially provided with a bandage braiding machine (2) and a bandage coating machine (3).

2. The method for preparing a sweat-absorbent antibacterial sports bandage according to claim 1, wherein: the fixing device (10) comprises a fixing base (101), two fixing vertical plates (102) fixed at the left side and the right side of the rear end of the top surface of the fixing base (101) in a welding mode, a fixing frame (103) fixed at the front end of the top surface of the fixing base (101) in a welding mode and two guide rollers (104) which are connected to the front end of the inner side wall of the fixing frame (103) in a vertical parallel mode in a rotating mode, and the left end and the right end of the placing roller (12) are connected to the inner side walls of the two fixing vertical plates (102) in a rotating mode respectively.

3. The method for preparing a sweat-absorbent antibacterial sports bandage according to claim 1, wherein: the soaking box (11) comprises a box body shell (110) with an inverted E-shaped longitudinal section, three guide shafts (111) with left and right ends clamped and fixed on the inner side walls of the box body shell (110) and used for ensuring smooth movement of cloth, two box inner connecting plates (112) welded and fixed on the inner side walls of the box body shell (110), a lower pressing plate (113) arranged inside the box inner connecting plates (112) and used for stretching the cloth, and a plurality of pressure springs (114) arranged at the tops of the lower pressing plates (113) and in linear distribution.

4. A method of making a sweat-absorbent antibacterial athletic bandage according to claim 3, wherein: the bottom surface of intra-tank connection board (112) has offered board end fluting (1120) that are used for holding down board (113) and pressure spring (114), holding down board (113) sliding connection in the inside of board end fluting (1120), the upper and lower both ends of pressure spring (114) weld respectively and are fixed in the top surface of holding down board (113) with on the cell wall top surface of board end fluting (1120), when pressure spring (114) are in under the natural state, the top level of holding down board (113) is higher than the height of board end fluting (1120) bottom notch.

5. The method for preparing a sweat-absorbent antibacterial sports bandage according to claim 1, wherein: the inner side walls at the front end and the rear end of the extrusion bin body (130) are fixedly welded with partition plates (1301), a plurality of bin top openings (1302) for containing needle heads of the dispensing needles (1317) are linearly distributed on the top surface of the extrusion bin body (130) at the lower position, and bin wall sliding grooves which are internally and externally communicated are formed in the side walls at the left end and the right end of the extrusion bin body (130) at the upper position.

6. The method for producing a sweat-absorbent antibacterial sports bandage according to claim 5, characterized in that: the rotary table is characterized in that the wheel disc (1311) is fixedly connected to the end position of the rotary shaft (1310) through a bayonet lock, a secondary bevel gear (1312) is fixedly connected to the outer side wall of the rotary shaft (1310) close to the middle position through the bayonet lock, a main bevel gear (1313) which is vertically meshed with the secondary bevel gear (1312) is rotatably connected to the partition plate (1301), a motor (1314) is coaxially connected to the convex shaft of the wheel body of the main bevel gear (1313) after penetrating through the partition plate (1301), and the motor (1314) is fixedly connected to the side wall of the partition plate (1301) through bolts.

7. The method for preparing a sweat-absorbent antibacterial sports bandage according to claim 1, wherein: the glue storage bin comprises a glue storage bin body (1316), wherein bin body protruding blocks which are connected to the inside of a bin wall sliding groove on the extrusion bin body (130) are formed on the left end side wall and the right end side wall of the glue storage bin body (1316) in a uniform mode, the upper end and the lower end of a connecting rod (1315) are respectively connected to the outer side wall of a wheel disc (1311) and the outer side wall of the bin body protruding block of the glue storage bin body (1316) in a rotating mode through bearings, glue dispensing needles (1317) are fixedly clamped on the bottom surface of the glue storage bin body (1316), glue outlet holes which are distributed regularly are formed in the positions, close to the bottom, of the outer side wall of each glue dispensing needle (1317) are fixedly connected with telescopic rods (1318) used for limiting the up-down moving section of the glue storage bin body (1316) through screws, and the bottom ends of the telescopic rods (1318) are fixedly connected to the inner bottom surface of the extrusion bin body (130) located above positions.

8. The method for preparing the sweat-absorbent antibacterial sports bandage according to claim 2, wherein: the utility model discloses a plastic extruding machine, including extrusion storehouse body (130), fixed bolster (134), drying machine (133), extrusion storehouse body (130) are located on the inside bottom surface of extrusion storehouse body (130), and a plurality of in the inside of storehouse body lug (132) is offered in the same, the block through-hole (1320) of position one-to-one and size looks adaptation of some gum needles (1317), drying machine (133) with extrusion storehouse body (130) pass through screw fixed connection, fixed bolster (134) with extrusion storehouse body (130) are connected, and the bottom welding of fixed bolster (134) is fixed in on the preceding lateral wall of fixed frame (103).

9. A sweat-absorbent antibacterial sports bandage comprising the method for preparing a sweat-absorbent antibacterial sports bandage according to any one of claims 1 to 8, characterized in that: comprises a finished bandage (4) prepared by a bandage braiding machine (2) and a bandage coater (3);

the finished bandage (4) comprises two breathable outer layers (40) which are arranged in parallel up and down, wear-resistant edge layers (41) arranged at the left side and the right side of the breathable outer layers (40), an antibacterial middle layer (42) arranged between the two breathable outer layers (40) and an adhesive inner layer (43) arranged outside the breathable outer layers (40) above.

10. The sweat-absorbent antibacterial athletic bandage of claim 9, wherein: the breathable outer surface layer (40), the wear-resistant edge layer (41) and the antibacterial middle layer (42) are all woven into a whole through pure cotton threads in the bandage braiding machine (2), the adhesive inner layer (43) is adhered to the outer part of the breathable outer surface layer (40) through a bandage coater (3), and a plurality of silica gel particles which are distributed in a matrix mode and are used for attaching skin are integrally formed on the surface of the adhesive inner layer (43).