CN114159215B

CN114159215B - Production method of intelligent fabric beneficial to wound healing

Info

Publication number: CN114159215B
Application number: CN202111400836.7A
Authority: CN
Inventors: 张如全; 吴英; 陈义忠; 周绚丽
Original assignee: Yantai Mingyuan Creative Life Technology Co ltd; Wuhan Textile University
Current assignee: Yantai Mingyuan Creative Life Technology Co ltd; Wuhan Textile University
Priority date: 2021-11-24
Filing date: 2021-11-24
Publication date: 2023-09-29
Anticipated expiration: 2041-11-24
Also published as: CN114159215A

Abstract

A method for producing intelligent fabric beneficial to wound healing includes preparing multiple trigger balls comprising an upper ball seat, an upper shaft body, a lower cylinder body, a lower ball seat, a left conductive wire and a right conductive wire, embedding a sealing plate in the lower cylinder body near the top end of the lower cylinder body, connecting the sealing plate with the top of a guide table through a spring, connecting the bottom of the guide table with the top of a conductive sheet through an insulating column, enabling vertical projection of the conductive sheet to contact with the tops of the left and right conductive stations, enabling the outer ends of the left and right conductive wires correspondingly connected with the left and right conductive stations to extend to the outside of the lower ball seat after penetrating through the outer wall of the lower ball seat, plugging multiple trigger balls into the inside of a tubular fabric to obtain a ball-carrying tube, weaving by adopting wefts and warps to obtain an initial fabric, and then pulling out a coil to expose the upper ball seat and the lower ball seat, thereby obtaining intelligent fabric beneficial to wound healing. The design is short in acting distance, good in additional function effect, easy to operate and high in production efficiency.

Description

Production method of intelligent fabric beneficial to wound healing

Technical Field

The invention relates to a mattress fabric, belongs to the technical field of textiles, and particularly relates to a production method of an intelligent fabric beneficial to wound healing.

Background

Good sleep is a precondition and guarantee for obtaining a healthy living state, and people can pass through the bed for at least about eight hours each day, so that the mattress directly affects the physical health of the people. Besides the traditional springs, latex and palm fibers, the existing mattress also has a plurality of additional functions, such as a mattress with massage function, temperature adjusting function and magnetic therapy function.

The Chinese patent with the authorized bulletin number of CN209712289U and the authorized bulletin day of 2019, 12 and 3 discloses a magnetic health mattress for magnetic acupoint therapy, which comprises a mattress sleeve and a mattress core, wherein the mattress sleeve is fully and three-dimensionally wrapped with the mattress core; the pad core comprises a pad core body, a plurality of massage protruding balls are arranged on the pad core body, the massage protruding balls are uniformly distributed on the pad core body, a magnetic moxibustion stone is correspondingly installed in each massage protruding ball, on the distribution of the magnets, the arrangement of the magnets is combined with the acupuncture points of a human body, the effective massage can be carried out on the acupuncture points, a plurality of important parts of the human body are provided, four adjacent circular magnets which are different poles or same poles are installed at four corners around the massage protruding balls in the same installation mode, and a three-dimensional magnetic field is formed. Although the design improves the health care effect on the human body by adding the magnet on the cushion core body, the cushion core still has the following defects:

firstly, the magnet in the design is hidden in the massage protruding ball, the massage protruding ball is arranged on the cushion core body, and the buffer layer, the protective layer and the sleeve layer are sequentially arranged above the cushion core body, so that the distance between the magnet and a human body is larger, the action distance is longer, and the additional functional effect is reduced;

secondly, the design has single function, can only play the basic role of the magnet, and cannot introduce other additional functions, so that the additional functions, such as poor magnetic therapy effect, are caused.

The disclosure of this background section is only intended to increase the understanding of the general background of the present patent application and should not be taken as an admission 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 overcome the defects and problems of longer acting distance and poorer additional function effect in the prior art and provides a production method of intelligent fabric which is beneficial to wound healing and has shorter acting distance and better additional function effect.

In order to achieve the above object, the technical solution of the present invention is: a production method of intelligent fabric beneficial to wound healing comprises the following steps:

the first step: preparing a plurality of trigger balls, wherein each trigger ball comprises an upper ball seat, an upper shaft body, a lower cylinder body, a lower ball seat, a left conductive wire and a right conductive wire, the top of the upper ball seat and the bottom of the lower ball seat are both planes, a lower ball cavity is formed in the lower ball seat, the top of the lower ball seat is connected with the bottom end of the lower cylinder body, the top of the lower cylinder body extends to be lower than the bottom of the upper ball seat, a sealing plate is embedded and connected in the part, close to the top end, of the lower cylinder body, a through shaft hole is formed in the middle of the sealing plate, the part, surrounding the through shaft hole, of the sealing plate is connected with the top of a guide table through a spring, the top of the guide table is clamped in the position, inside the spring, of the upper shaft body is connected with the bottom end of the upper shaft body after passing through the through shaft hole, and the top of the sealing plate and the inner wall of the lower cylinder body are clamped into a ring column cavity; the bottom of the conducting strip is connected with the top of the conducting strip through an insulating column, the vertical projection of the conducting strip is contacted with the tops of the left conducting strip and the right conducting strip, the left end of the left conducting strip is connected with the inner end of the left conducting wire, the outer end of the left conducting wire penetrates through the outer wall of the seat of the lower ball seat and then extends to the outside of the lower ball seat, the right end of the right conducting strip is connected with the inner end of the right conducting wire, and the outer end of the right conducting wire penetrates through the outer wall of the seat of the lower ball seat and then extends to the outside of the lower ball seat;

and a second step of: firstly, preparing a tubular fabric, wherein the tubular fabric is formed by spinning yarns, adjacent yarns are mutually connected to form a coil, a tubular cavity is formed in the tubular fabric, a plurality of trigger balls are plugged into the tubular cavity to obtain a ball-carrying tube, after the ball-carrying tube is plugged into the tubular cavity, the trigger balls are in embedded fit with the tubular cavity, the top of an upper ball seat and the bottom of a lower ball seat are both contacted with the cavity wall of the tubular cavity, the central axes of all the trigger balls are mutually perpendicular to the central axes of the tubular fabric, the adjacent trigger balls are mutually separated, the adjacent trigger balls are connected in a one-to-one correspondence manner through left conductive wires and right conductive wires, and all the left conductive wires and the right conductive wires are positioned in the ball-carrying tube; in the single bulb tube, only one left conductive wire and one right conductive wire are in a free state respectively;

and a third step of: firstly, weaving by adopting weft yarns and warp yarns to obtain an initial fabric, wherein at least one weft yarn is a ball-carrying pipe, and the number of the ball-carrying pipes is at least one;

fourth step: firstly, finding the position of the trigger ball on the initial fabric, outwards pulling warp threads positioned at the top and the bottom of the trigger ball to leak the tubular fabric, then selecting coils respectively adjacent to the top and the bottom of the trigger ball on the side wall of the tubular fabric, outwards pulling the coils through external force to obtain an expanded ring, then sliding the expanded ring positioned above the upper ball seat downwards along the side wall of the upper ball seat, sliding the expanded ring positioned below the lower ball seat upwards along the side wall of the lower ball seat until both expanded rings slide onto the side wall of the lower cylinder, and cancelling the external force, wherein the upper ball seat and the lower ball seat are respectively exposed above and below the initial fabric, thereby obtaining the intelligent fabric beneficial to wound healing.

After the upper ball seat and the lower ball seat are respectively exposed above and below the initial fabric, the left conductive wire and the right conductive wire which are in a free state in each bulb tube are connected in series into the same circuit loop, and a power supply and a functional element are also connected in series in the circuit loop, so that the intelligent fabric beneficial to wound healing is obtained.

The functional element is arranged near the trigger ball, and is at least one of a heating element and a luminous element.

The number of the ball-carrying pipes is multiple;

in the second step, after the bulb tubes are obtained, grouping a plurality of bulb tubes, wherein each group comprises at least two bulb tubes, and wrapping the outside of each group of bulb tubes with water-soluble films to obtain sealed tubes, and the number of the sealed tubes is at least two; the ball-bearing pipes in the single sealing pipe are sequentially arranged along the axial direction, and adjacent ball-bearing pipes are mutually separated; the water-soluble film is made of water-soluble fiber;

in the third step, at least one weft is a sealing tube, and the number of the sealing tubes is at least one;

in the fourth step, the initial fabric is washed to remove the water-soluble film, and then the position of the trigger ball is found on the initial fabric for subsequent operation.

The water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

In the second step, before a plurality of trigger balls are plugged into the tubular cavity, the side wall of the upper shaft body of the trigger ball and the outer part of the upper ball seat are wrapped with water-soluble films together until the water-soluble films are plugged into the annular column cavity to obtain a sealing ball, and then the sealing ball is plugged into the tubular cavity to obtain the ball-carrying pipe.

The yarn used on the tubular fabric at the position close to the trigger ball is high-elastic yarn.

The upper opening ring and the lower opening ring are respectively arranged on the side wall of the tubular fabric and are opposite to the top of the upper ball seat and the bottom of the lower ball seat, and belong to the components of the side wall of the tubular fabric;

the method for selecting the coils respectively adjacent to the top and the bottom of the trigger ball on the side wall of the tubular fabric, and outwards pulling the coils out through external force to obtain the expanded coils is as follows: the upper opening ring and the lower opening ring are firstly used as adjacent coils, and then the upper opening ring and the lower opening ring are outwards pulled out by external force to obtain an enlarged ring.

The ball seat is characterized in that a ball outlet is formed in the bottom of the ball outlet, a ball lower plate is connected in the ball outlet in an embedded mode, a left clamping groove and a right clamping groove are formed in the top surface of the ball lower plate, the left clamping groove is matched with the bottom of the left conductive station in a clamping mode, and the right clamping groove is matched with the bottom of the right conductive station in a clamping mode.

An upper ball opening is formed in the top of the upper ball seat, and an upper ball plate is embedded and connected in the upper ball opening; the ball feeding seat is characterized in that an upper ball cavity is formed in the upper ball seat, an upper shaft cavity is formed in the upper shaft body, and the upper ball port is contacted with the top of the guide table after passing through the upper ball cavity and the upper shaft cavity in sequence.

Compared with the prior art, the invention has the beneficial effects that:

1. in the method for producing the intelligent fabric beneficial to wound healing, in the finally produced intelligent fabric, the upper ball seat and the lower ball seat are respectively exposed above and below the initial fabric, when the intelligent fabric is applied, once a human body presses the upper ball seat, the upper ball seat drives the upper shaft body to move downwards together, the upper shaft body drives the guide table to move downwards along the inner wall of the lower cylinder, the guide table drives the conductive sheet to move downwards, so that the bottom of the conductive sheet is attached to the tops of the left guide table and the right guide table, a circuit loop where the left conductive wire and the right conductive wire are positioned is conducted, the heating element emits heat or the luminous element emits light, such as ultraviolet light, and the emitted heat can improve the magnetic therapy effect of the upper ball seat and the lower ball seat (magnetic substances are arranged in the upper ball seat and the lower ball seat in advance, such as filling, plating, implantation and the like, or the upper ball seat and the lower ball seat are directly made of the magnetic substances), so that the intelligent fabric is beneficial to wound healing, and the ultraviolet light is beneficial to wound healing, in addition, the upper ball seat is directly contacted with the human body, the working distance is shortened, the magnetic therapy effect is further improved, and the additional function is further improved. Therefore, the invention has short acting distance and better additional function effect.

2. The invention relates to a method for producing intelligent fabric beneficial to wound healing, which comprises the steps of firstly embedding a plurality of trigger balls into a tubular fabric to obtain a ball-carrying tube, then weaving the ball-carrying tube as weft and warp to obtain an initial fabric, and then stripping an upper ball seat and a lower ball seat so that the upper ball seat and the lower ball seat are respectively exposed above and below the initial fabric, thereby obtaining the intelligent fabric beneficial to wound healing, and the design has the advantages that: firstly, a fabric which is in direct contact with a human body to shorten the acting distance can be manufactured; secondly, a single trigger ball is clamped on the initial fabric through two coils, so that the fabric has stronger firmness, is not easy to fall off in use, avoids damaging the fabric, is clamped on the outer wall of the lower cylinder body, and does not prevent the subsequent relative movement of the upper shaft body and the lower cylinder body; and the trigger ball is embedded in the ball-carrying pipe, the positions are relatively fixed, and the trigger ball cannot be changed in the subsequent spinning process, so that the trigger ball can be reserved in advance through the manufacture of the ball-carrying pipe, the limitation of the relative positions between the trigger ball and the ball-carrying pipe and the selection of the position of the ball-carrying pipe as a weft, and further the trigger ball is manufactured according to the set exposed positions of the upper ball seat and the lower ball seat, the pertinence is improved, and the use effect is enhanced. Therefore, the invention not only can manufacture the additional functional fabric with shorter action distance, but also can ensure the safety and cooperation of all parts in production, is easy to operate and is beneficial to improving the production efficiency.

3. According to the production method of the intelligent fabric beneficial to wound healing, yarns used by the tubular fabric are preferably high-elastic yarns, and further, the yarns used by the tubular fabric at the position close to the trigger ball are preferably high-elastic yarns. Thus, the present invention is easy to operate.

4. In the production method of the intelligent fabric beneficial to wound healing, when the number of the strip bulbs is multiple, the strip bulbs are preferably grouped after being obtained, each group comprises at least two strip bulbs (the number of trigger balls in each strip bulb is three to five), the water-soluble film is wrapped outside each group of strip bulbs to obtain the sealing tube, and then the sealing tube is used as weft yarn for spinning to obtain the initial fabric. Therefore, the invention is not only convenient to manufacture, but also has better additional function effect.

Drawings

Fig. 1 is a flow chart of the operation of the present invention.

Fig. 2 is a schematic perspective view of a trigger ball according to the present invention.

Fig. 3 is a cross-sectional view of a trigger ball in accordance with the present invention.

Fig. 4 is a schematic perspective view of a sealing ball according to the present invention.

Fig. 5 is a schematic perspective view of a tubular fabric according to the present invention.

Fig. 6 is a schematic perspective view of the bulb with tube according to the present invention.

Fig. 7 is a schematic view of the tubular fabric of fig. 6 after being cut away.

Fig. 8 is a top view of a bulb with an upper split ring and a lower split ring in the present invention.

Fig. 9 is a schematic view of the structure of the sealing tube in the present invention.

Fig. 10 is a schematic view showing the operation of the coil sliding onto the lower cylinder side wall in the present invention.

FIG. 11 is a schematic representation of the relative positioning of the initial fabric and trigger ball in the present invention.

In the figure: the initial fabric 1, tubular fabric 2, yarn 21, stitch 22, tubular cavity 23, enlarged loop 24, upper split 26, lower split 27, trigger ball 3, water-soluble film 30, sealing ball 301, upper ball seat 31, upper ball cavity 311, upper ball port 312, upper ball plate 313, lower ball seat 32, lower ball cavity 321, lower ball port 322, lower ball plate 323, left clamping groove 324, right clamping groove 325, seat outer wall 326, upper shaft body 33, upper shaft cavity 331, lower cylinder 34, sealing plate 341, spring 342, through shaft hole 343, guide table 35, insulating column 351, conductive sheet 352, loop column cavity 36, left conductive wire 37, left conductive table 371, right conductive wire 38, right conductive table 381, strip ball 4, sealing tube 41, power supply 42, functional element 43, weft 5, warp 6.

Detailed Description

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

Referring to fig. 1-11, a method for producing an intelligent fabric beneficial to wound healing comprises the following steps:

the first step: preparing a plurality of trigger balls 3, wherein the trigger balls 3 comprise an upper ball seat 31, an upper shaft body 33, a lower cylinder 34, a lower ball seat 32, a left conducting wire 37 and a right conducting wire 38, the top of the upper ball seat 31 and the bottom of the lower ball seat 32 are both planes, a lower ball cavity 321 is formed in the lower ball seat 32, the top of the lower ball seat 32 is connected with the bottom end of the lower cylinder 34, the top end of the lower cylinder 34 extends to be lower than the bottom of the upper ball seat 31, a sealing plate 341 is embedded in a part, close to the top end, of the lower cylinder 34, a through shaft hole 343 is formed in the middle of the sealing plate 341, the part, surrounding the through shaft hole 343, of the sealing plate 341 is connected with the top of a guide table 35 through a spring 342, the top of the guide table 35 is clamped in the inner part of the spring 342 and is connected with the bottom end of the upper cylinder 33, the top end of the upper cylinder 33 passes through the through shaft hole 343 and then is connected with the bottom of the upper ball seat 31, and the side walls of the upper cylinder 33, the top of the sealing plate 341 and the inner wall of the lower cylinder 34 are clamped together to form a circular column cavity 36; the bottom of the conducting strip 35 is connected with the top of the conducting strip 352 through an insulating column 351, the vertical projection of the conducting strip 352 is contacted with the tops of the left conducting strip 371 and the right conducting strip 381, the left end of the left conducting strip 371 is connected with the inner end of the left conducting wire 37, the outer end of the left conducting wire 37 passes through the outer seat wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32, the right end of the right conducting strip 381 is connected with the inner end of the right conducting wire 38, and the outer end of the right conducting wire 38 passes through the outer seat wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32;

and a second step of: firstly, preparing a tubular fabric 2, wherein the tubular fabric 2 is woven by yarns 21, adjacent yarns 21 are mutually connected to form a coil 22, a tubular cavity 23 is arranged in the tubular fabric 2, a plurality of trigger balls 3 are plugged into the tubular cavity 23 to obtain a ball-carrying tube 4, after the trigger balls 3 are plugged into the tubular cavity 23, the trigger balls 3 are in embedded fit with the tubular cavity 23, the top of an upper ball seat 31 and the bottom of a lower ball seat 32 are contacted with the cavity wall of the tubular cavity 23, the central axes of all the trigger balls 3 are mutually perpendicular to the central axes of the tubular fabric 2, adjacent trigger balls 3 are mutually separated, the adjacent trigger balls 3 are in one-to-one correspondence through left conductive wires 37 and right conductive wires 38, and all the left conductive wires 37 and the right conductive wires 38 are positioned in the ball-carrying tube 4; in the single bulb tube 4, only one left conductive wire 37 and one right conductive wire 38 are respectively in a free state;

and a third step of: firstly, weaving by adopting weft yarns 5 and warp yarns 6 to obtain an initial fabric 1, wherein at least one weft yarn 5 is provided with a bulb tube 4, and the number of the bulb tubes 4 is at least one;

fourth step: firstly, finding the position of the trigger ball 3 on the initial fabric 1, then outwards pulling warp threads 6 positioned at the top and the bottom of the trigger ball 3 to leak the tubular fabric 2, then selecting coils 22 respectively adjacent to the top and the bottom of the trigger ball 3 on the side wall of the tubular fabric 2, outwards pulling the coils 22 by external force to obtain an expansion ring 24, then sliding the expansion ring 24 positioned above the upper ball seat 31 downwards along the side wall of the upper ball seat 31, sliding the expansion ring 24 positioned below the lower ball seat 32 upwards along the side wall of the lower ball seat 32 until both expansion rings 24 slide onto the side wall of the lower cylinder 34, and cancelling the external force, wherein the upper ball seat 31 and the lower ball seat 32 are respectively exposed above and below the initial fabric 1, so that the intelligent fabric beneficial to wound healing is obtained.

After the upper ball seat 31 and the lower ball seat 32 are respectively exposed above and below the initial fabric 1, the left conductive wire 37 and the right conductive wire 38 which are in a free state in each bulb tube 4 are connected in series into the same circuit loop, and the power supply 42 and the functional element 43 are also connected in series in the circuit loop, so that the intelligent fabric beneficial to wound healing is obtained.

The functional element 43 is disposed near the trigger ball 3, and the functional element 43 is at least one of a heating element and a light emitting element.

The number of the ball-carrying tubes 4 is multiple;

in the second step, after the bulb tubes 4 are obtained, grouping a plurality of bulb tubes 4, wherein each group comprises at least two bulb tubes 4, and wrapping the water-soluble film 30 outside each group of bulb tubes 4 to obtain sealing tubes 41, and the number of the sealing tubes 41 is at least two; the ball-bearing pipes 4 in the single sealing pipe 41 are sequentially arranged along the axial direction, and the adjacent ball-bearing pipes 4 are mutually separated; the water-soluble film 30 is made of water-soluble fiber;

in the third step, at least one weft yarn 5 is a sealing tube 41, and the number of the sealing tubes 41 is at least one;

in the fourth step, the initial fabric 1 is washed to remove the water-soluble film 30, and then the position of the trigger ball 3 is found on the initial fabric 1 for subsequent operation.

In the second step, before the multiple trigger balls 3 are plugged into the tubular cavity 23, the water-soluble film 30 is wrapped on the side wall of the upper shaft body 33 and the outer part of the upper ball seat 31 in the trigger balls 3 until the water-soluble film 30 fills the annular column cavity 36 to obtain the sealing ball 301, and then the sealing ball 301 is plugged into the tubular cavity 23 to obtain the ball-carrying tube 4.

The yarn 21 used on the tubular fabric 2 in the vicinity of the trigger ball 3 is a high-elastic yarn.

The parts on the side wall of the tubular fabric 2, which are opposite to the top of the upper ball seat 31 and the bottom of the lower ball seat 32, are respectively provided with an upper opening ring 26 and a lower opening ring 27, and the upper opening ring 26 and the lower opening ring 27 belong to the components of the side wall of the tubular fabric 2;

the selecting the coil 22 adjacent to the top and the bottom of the trigger ball 3 on the side wall of the tubular fabric 2, and then outwards pulling the coil 22 to obtain the expanded coil 24 by external force means: the upper opening ring 26 and the lower opening ring 27 are firstly used as adjacent coils 22, and then the upper opening ring 26 and the lower opening ring 27 are outwards pulled out by external force to obtain the enlarged ring 24.

The bottom of the lower ball seat 32 is provided with a lower ball opening 322, a lower ball plate 323 is embedded and connected in the lower ball opening 322, a left clamping groove 324 and a right clamping groove 325 are arranged on the top surface of the lower ball plate 323, the left clamping groove 324 is matched with the bottom of the left guide station 371 in a clamping way, and the right clamping groove 325 is matched with the bottom of the right guide station 381 in a clamping way.

An upper ball opening 312 is formed at the top of the upper ball seat 31, and an upper ball plate 313 is embedded and connected in the upper ball opening 312; the ball feeding cavity 311 is formed in the ball feeding seat 31, the upper shaft cavity 331 is formed in the upper shaft body 33, and the ball feeding port 312 is contacted with the top of the guide table 35 after passing through the ball feeding cavity 311 and the upper shaft cavity 331 in sequence.

The principle of the invention is explained as follows:

in the invention, the side wall of the upper shaft body 33 in the trigger ball 3 and the outer part of the upper ball seat 31 are wrapped with the water-soluble film 30 together until the water-soluble film 30 fills the annular column cavity 36, so as to obtain the sealing ball 301 means that: the upper ball seat 31 and the upper shaft body 33 are considered as a whole, and the water-soluble film 30 is wrapped outside the whole, wherein the water-soluble film 30 wrapped on the side periphery of the upper shaft body 33 needs to have a certain wrapping thickness, namely, the annular column cavity 36 is filled, at this time, the water-soluble film 30 in the annular column cavity 36 is in a tendency of expanding outwards, so that the upper shaft body 33 and the lower cylinder 34 are connected into a whole.

The left and right conductive wires 37 and 38 in the present invention are preferably conductive fibers or various existing linear conductive materials such as wires, and in addition, the left and right conductive wires 37 and 38 are coated with insulating materials, which have better effects.

The adjacent trigger balls 3 are connected in a one-to-one correspondence manner through the left conductive wire 37 and the right conductive wire 38, which means that: in the adjacent trigger ball 3, the right conductive wire 38 on the trigger ball 3 positioned on the left is correspondingly connected with the left conductive wire 37 on the trigger ball 3 positioned on the right.

In the single bulb tube 4 of the invention, only one of the left conductive wire 37 and the right conductive wire 38 in a free state refers to: only one left and right conductive wires 37, 38 are in a free state, and are not connected, and the rest left and right conductive wires 37, 38 are connected in one-to-one correspondence.

Example 1:

Example 2:

the basic content is the same as in example 1, except that:

after the upper ball seat 31 and the lower ball seat 32 are respectively exposed above and below the initial fabric 1, the left conductive wire 37 and the right conductive wire 38 which are in a free state in each bulb tube 4 are connected in series into the same circuit loop, and the power supply 42 and the functional element 43 are also connected in series in the circuit loop, so that the intelligent fabric beneficial to wound healing is obtained. Preferably, the functional element 43 is disposed near the trigger ball 3, and the functional element 43 is at least one of a heating element and a light emitting element.

Example 3:

the basic content is the same as in example 1, except that:

in the second step, after the bulb tubes 4 are obtained, and the number of the bulb tubes 4 is multiple, firstly grouping the multiple bulb tubes 4, wherein each group comprises at least two bulb tubes 4, and then wrapping the water-soluble film 30 outside each group of bulb tubes 4 to obtain sealing tubes 41, and the number of the sealing tubes 41 is at least two; the ball-bearing pipes 4 in the single sealing pipe 41 are sequentially arranged along the axial direction, and the adjacent ball-bearing pipes 4 are mutually separated; the water-soluble film 30 is made of water-soluble fiber;

Example 4:

the basic content is the same as in example 3, except that:

Preferably, the water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

The above description is merely of preferred embodiments of the present invention, and the scope of the present invention is not limited to the above embodiments, but all equivalent modifications or variations according to the present disclosure will be within the scope of the claims.

Claims

1. A production method of intelligent fabric beneficial to wound healing is characterized by comprising the following steps: the production method comprises the following steps:

the first step: preparing a plurality of trigger balls (3), wherein each trigger ball (3) comprises an upper ball seat (31), an upper shaft body (33), a lower barrel (34), a lower ball seat (32), a left conducting wire (37) and a right conducting wire (38), the top of the upper ball seat (31) and the bottom of the lower ball seat (32) are both planes, a lower ball cavity (321) is formed in the lower ball seat (32), the top of the lower ball seat (32) is connected with the bottom end of the lower barrel (34), the top of the lower barrel (34) extends to be lower than the bottom of the upper ball seat (31), a sealing plate (341) is embedded in the part, close to the top end of the lower barrel (34), of the sealing plate (341) is provided with a through shaft hole (343), the part, surrounding the through shaft hole (343), of the sealing plate (341) is connected with the top of a guide table (35) through a spring (342), the top of the guide table (35) is clamped in the position inside the spring (342), is connected with the bottom end of the upper shaft body (33), the top of the upper shaft body (33) penetrates through the upper barrel (31) and then is connected with the top of the upper barrel (33) through the upper shaft body (33) through the through shaft hole (343), and the top of the sealing plate (33) is connected with the side wall (33) through the side wall; the bottom of the guide table (35) is connected with the top of a conductive sheet (352) through an insulating column (351), the vertical projection of the conductive sheet (352) is contacted with the tops of a left conductive table (371) and a right conductive table (381), the left end of the left conductive table (371) is connected with the inner end of a left conductive wire (37), the outer end of the left conductive wire (37) penetrates through the outer wall (326) of a lower ball seat (32) and then extends to the outside of the lower ball seat (32), the right end of the right conductive table (381) is connected with the inner end of a right conductive wire (38), and the outer end of the right conductive wire (38) penetrates through the outer wall (326) of the lower ball seat (32) and then extends to the outside of the lower ball seat (32);

and a second step of: firstly, preparing a tubular fabric (2), weaving the tubular fabric (2) by yarns (21), mutually connecting adjacent yarns (21) to form a coil (22), arranging a tubular cavity (23) in the tubular fabric (2), then plugging a plurality of trigger balls (3) into the tubular cavity (23) to obtain a ball-carrying tube (4), after plugging, embedding and matching the trigger balls (3) with the tubular cavity (23), wherein the top of an upper ball seat (31) and the bottom of a lower ball seat (32) are in contact with the cavity wall of the tubular cavity (23), the central axes of all the trigger balls (3) are mutually perpendicular to the central axes of the tubular fabric (2), mutually separating adjacent trigger balls (3), and connecting the adjacent trigger balls (3) in a one-to-one mode through left conductive wires (37) and right conductive wires (38), wherein all the left conductive wires (37) and the right conductive wires (38) are positioned in the ball-carrying tube (4); in the single bulb tube (4), only one left conductive wire (37) and one right conductive wire (38) are arranged in a free state respectively;

and a third step of: firstly, weaving by adopting wefts (5) and warps (6) to obtain an initial fabric (1), wherein at least one weft (5) is provided with a bulb tube (4), and the number of the bulb tubes (4) is at least one;

fourth step: firstly, finding the position of a trigger ball (3) on an initial fabric (1), outwards pushing warp threads (6) positioned at the top and the bottom of the trigger ball (3) to leak a tubular fabric (2), then selecting coils (22) respectively adjacent to the top and the bottom of the trigger ball (3) on the side wall of the tubular fabric (2), outwards pushing the coils (22) by external force to obtain an enlarged ring (24), then downwards sliding the enlarged ring (24) positioned above an upper ball seat (31) along the side wall of the upper ball seat (31), upwards sliding the enlarged ring (24) positioned below a lower ball seat (32) along the side wall of the lower ball seat (32), until the two enlarged rings (24) are both slid onto the side wall of a lower cylinder (34), and canceling the external force, wherein the upper ball seat (31) and the lower ball seat (32) are respectively exposed above and below the initial fabric (1), so that the intelligent fabric beneficial to wound healing is obtained.

2. The method for producing the intelligent fabric beneficial to wound healing according to claim 1, which is characterized in that: after the upper ball seat (31) and the lower ball seat (32) are respectively exposed above and below the initial fabric (1), the left conductive wire (37) and the right conductive wire (38) which are in a free state in each bulb tube (4) are connected in series into the same circuit loop, and a power supply (42) and a functional element (43) are also connected in series in the circuit loop, so that the intelligent fabric beneficial to wound healing is obtained.

3. The method for producing the intelligent fabric beneficial to wound healing according to claim 2, which is characterized in that: the functional element (43) is arranged near the trigger ball (3), and the functional element (43) is at least one of a heating element and a luminous element.

4. A method for producing an intelligent fabric for facilitating wound healing according to claim 1, 2 or 3, wherein: the number of the ball-carrying pipes (4) is multiple;

in the second step, after the bulb tubes (4) are obtained, grouping a plurality of bulb tubes (4), wherein each group comprises at least two bulb tubes (4), and wrapping the water-soluble film (30) outside each group of bulb tubes (4) to obtain sealing tubes (41), and the number of the sealing tubes (41) is at least two; the bulb-carrying tubes (4) in the single sealing tube (41) are sequentially arranged along the axial direction, and the adjacent bulb-carrying tubes (4) are mutually separated; the water-soluble film (30) is made of water-soluble fiber;

in the third step, at least one weft (5) is a sealing tube (41), and the number of the sealing tubes (41) is at least one;

in the fourth step, the initial fabric (1) is washed to remove the water-soluble film (30), and then the position of the trigger ball (3) is found on the initial fabric (1) for subsequent operation.

5. The method for producing intelligent fabric beneficial to wound healing according to claim 4, which is characterized in that: the water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

6. The method for producing intelligent fabric beneficial to wound healing according to claim 4, which is characterized in that: in the second step, before a plurality of trigger balls (3) are plugged into the tubular cavity (23), the side wall of an upper shaft body (33) in the trigger balls (3) and the outer part of an upper ball seat (31) are wrapped with a water-soluble film (30) together until the water-soluble film (30) is plugged into a ring column cavity (36) to obtain a sealing ball (301), and then the sealing ball (301) is plugged into the tubular cavity (23) to obtain the ball-carrying pipe (4).

7. A method for producing an intelligent fabric for facilitating wound healing according to claim 1, 2 or 3, wherein: the yarn (21) used on the tubular fabric (2) at the position close to the trigger ball (3) is a high-elastic yarn.

8. A method for producing an intelligent fabric for facilitating wound healing according to claim 1, 2 or 3, wherein: an upper opening ring (26) and a lower opening ring (27) are respectively arranged on the side wall of the tubular fabric (2) and opposite to the top of the upper ball seat (31) and the bottom of the lower ball seat (32), and the upper opening ring (26) and the lower opening ring (27) belong to the components of the side wall of the tubular fabric (2);

the method is characterized in that a coil (22) respectively adjacent to the top and the bottom of the trigger ball (3) is selected on the side wall of the tubular fabric (2), and then the coil (22) is outwards pulled out by external force to obtain an expanded coil (24), which means that: the upper opening ring (26) and the lower opening ring (27) are firstly used as adjacent coils (22), and then the upper opening ring (26) and the lower opening ring (27) are outwards pulled open by external force to obtain an enlarged ring (24).

9. A method for producing an intelligent fabric for facilitating wound healing according to claim 1, 2 or 3, wherein: the ball seat is characterized in that a lower ball opening (322) is formed in the bottom of the lower ball seat (32), a lower ball plate (323) is embedded and connected in the lower ball opening (322), a left clamping groove (324) and a right clamping groove (325) are formed in the top surface of the lower ball plate (323), the left clamping groove (324) is matched with the bottom of the left conductive table (371) in a clamping manner, and the right clamping groove (325) is matched with the bottom of the right conductive table (381) in a clamping manner.

10. A method for producing an intelligent fabric for facilitating wound healing according to claim 1, 2 or 3, wherein: an upper ball opening (312) is formed in the top of the upper ball seat (31), and an upper ball plate (313) is embedded and connected in the upper ball opening (312); the ball feeding device is characterized in that an upper ball cavity (311) is formed in the upper ball seat (31), an upper shaft cavity (331) is formed in the upper shaft body (33), and the upper ball port (312) is contacted with the top of the guide table (35) after passing through the upper ball cavity (311) and the upper shaft cavity 331 in sequence.