CN113718458A - Preparation process of antibacterial conductive aerospace integrated socks - Google Patents

Abstract

The invention discloses a preparation process of an antibacterial conductive aerospace integrated sock, which comprises the following steps: weaving yarns, producing sock bodies, inspecting the socks after the socks are taken off the machine, sewing the ends, comprehensively inspecting, shaping, finishing the socks, packaging and warehousing. The invention has the beneficial effects that: the sock drying and shaping process has the advantages that the process continuity is good, the production efficiency is high, the manual work and the equipment are cooperatively used, the operation difficulty is low, the steps are simple, the step of off-machine inspection is timely carried out after the sock body is produced, the step of comprehensive inspection is introduced before the shaping treatment, the finished product quality of the socks is guaranteed, the defective rate is effectively reduced, the one-time drying and shaping of the socks can be realized, the shaping efficiency of the socks is effectively improved, the consumed time is short, and the requirements of batch production are met.

Description

Preparation process of antibacterial conductive aerospace integrated socks

Technical Field

The invention relates to the technical field of sock production, in particular to a preparation process of an antibacterial conductive aerospace integrated sock.

Background

The socks are clothing articles worn on feet, are necessities in daily life of people, and play roles in protecting and beautifying the feet. Although the socks are small, the socks contain rich contents, and the quality of the performance of the socks is directly related to the comfortable feeling of feet and even influences the health of human bodies.

Traditional socks are the simple structure of upper and lower straight section of thick bamboo usually, the function is comparatively single, produce static easily after the friction, not only can adsorb trousers on socks easily and influence the aesthetic property after producing static, adsorb the dust more easily, make socks easily dirty, and the electric energy of static deposit can't obtain releasing, produce the electric shock of little electric quantity easily during the touching, thereby influence the travelling comfort of socks, and socks contact with the foot for a long time, breed the bacterium very easily after perspiring, and the life is shorter, therefore there is antibiotic electrically conductive socks among the prior art, both have better antibiotic antibacterial effect, better antistatic effect has again, can eliminate the static puzzlement when socks are worn, wear comparatively comfortablely in cold and low autumn and winter season of relative humidity.

At present, when the existing antibacterial conductive socks are prepared, a plurality of processes are needed from raw material entering to finished sock product leaving from factory, the quality inspection process is less, the product quality cannot be guaranteed, the defective rate is higher, the efficiency of the socks in the shaping process is lower, the consumed time is longer, the whole preparation process is dragged slowly, and the requirements of batch production are not met.

Therefore, a new solution is needed to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems, provides the preparation process of the antibacterial conductive aerospace integrated sock, ensures the finished product quality of the sock, effectively reduces the defective rate, has high shaping efficiency, and meets the requirement of batch production.

The invention realizes the aim through the following technical scheme, and the preparation process of the antibacterial conductive aerospace integrated sock comprises the following steps:

1) weaving yarns: carding and removing impurities from raw material fiber monofilaments, and then mixing and processing the raw material fiber monofilaments by a ring spinning frame, a friction spinning frame and a twisting machine in sequence to obtain yarns;

2) and (3) sock body production: weaving the yarns obtained through the treatment in the step 1) into weft knitting knitted fabric through a weft circular knitting machine, then placing the weft knitting knitted fabric on a single-needle-cylinder hosiery machine for weaving, weaving a welt through a rib knitting machine, then transferring the welt onto a needle cylinder of the hosiery machine through an embroidering disc, and weaving to form a sock cylinder, a heel, a foot and a toe so as to obtain a sock blank with an open toe;

3) and (4) checking by a machine: performing quality inspection on the sock blanks obtained by the treatment of the step 2), distinguishing qualified products from non-qualified products, and placing the qualified products on a production line of the next procedure;

4) and (3) sewing head treatment: placing the qualified sock blanks obtained by the step 3) according to two pairs of groups, knitting the welts of the two pairs of sock blanks together, and sewing the sock heads by a disc machine to form semi-finished socks;

5) and (3) comprehensive inspection: comprehensively inspecting the semi-finished socks obtained by the treatment in the step 4), picking out defective products, and storing the semi-finished socks with qualified quality independently;

6) shaping treatment: placing the semi-finished socks qualified in the step 5) in a shaping device for primary drying and shaping to obtain finished socks, wherein the treatment duration is 2-5 min;

7) sock arrangement: placing the finished socks processed in the step 6) in a shade place for naturally airing for 48h, entering a sock checking and pairing process, and respectively boxing the paired socks according to the goods number and sending the socks into a semi-finished product warehouse;

8) packaging and warehousing: and (4) carrying out a packaging process on the finished socks placed in the semi-finished product warehouse, classifying the finished socks into boxes, and uniformly sending the boxes into the finished product warehouse for storage.

Through adopting above-mentioned technical scheme, through the cooperative use of manual work and equipment, the operation degree of difficulty is low, the step is simple, because the step of coming off the quick-witted inspection in time is carried out after socks body production finishes, qualified product and non-qualified product can be effectively distinguished, ensure the quality of socks base, and introduce the step of comprehensive inspection earlier before the design processing, can carry out comprehensive inspection to semi-manufactured goods socks, thereby can pick out defective products, guarantee the finished product quality of socks, the defective percentage has effectively been reduced, and through the primary drying and design of setting device in the design processing procedure, the design efficiency of socks has effectively been promoted, it is consuming time shorter, thereby preparation efficiency has effectively been promoted, accord with batch production's needs.

As a further arrangement of the invention, the shaping device in the step 6) comprises a furnace body and a furnace cover hinged on the furnace body, a carrying mechanism is arranged in the furnace body, the carrying mechanism comprises a sliding chassis and a carrying support arranged on the sliding chassis, the carrying support comprises an upper returning pipe and a lower returning pipe which are parallel to each other, a plurality of conveying pipes are connected between the upper returning pipe and the lower returning pipe, two ends of each conveying pipe are respectively communicated with the upper returning pipe and the lower returning pipe, a plurality of supporting transverse pipes are connected to the upper returning pipe, the supporting transverse pipes are communicated with the upper returning pipe, a plurality of hollow shaping socks are arranged on the supporting transverse pipes, the shaping socks are communicated with the supporting transverse pipes, a guide pipe is connected to the lower returning pipe, and a heating medium inlet pipe communicated with the guide pipe is arranged on the outer wall of the furnace body.

Through adopting above-mentioned technical scheme, owing to be provided with carrying mechanism inside the furnace body, can loop through heating medium with hot steam and advance the pipe, the pipe pours into down the time shape intraduct into to through the conveyer pipe input inside the time shape intraduct, then violently manage through the support and continuously input design socks board inside, thereby can be with the heat by the inside outside infiltration of socks, the heating is more even, and drying speed is faster, can realize the primary drying and design of socks, has effectively promoted the design efficiency of socks.

As a further arrangement of the invention, the surface of the sizing socks is provided with a plurality of air exhaust through grooves communicated with the inside.

Through adopting above-mentioned technical scheme, owing to set up a plurality of exhaust logical grooves with inside intercommunication on design socks board surface, then get into design socks board inside back at hot steam, can conduct the heat sooner for the speed of socks stoving design is faster, has further promoted the design efficiency of socks.

As a further arrangement of the invention, the shaping stocking plate is detachably mounted on the horizontal support tube.

Through adopting above-mentioned technical scheme, because the design socks board is installed on the support is violently managed for detachably, then after the design socks board is used for a long time, can violently manage from the support with the design socks board and pull down and in time maintain cleanly to the life of design socks board has been prolonged greatly.

As a further arrangement of the invention, a plurality of first threaded pipe orifices are connected to the horizontal supporting pipe, and first threaded pipe sleeves matched with the first threaded pipe orifices are arranged at the tops of the shaping socks.

Through adopting above-mentioned technical scheme, owing to be connected with a plurality of first threaded pipe mouths on the horizontal pipe is violently managed in the support, and all be provided with the first threaded pipe box that matches with the first threaded pipe mouth at design socks board top, then when violently managing the support with the installation of design socks board, can realize the firm installation of design socks board, convenient operation is simple with the first threaded pipe mouth of first threaded pipe box screw in inside.

As a further arrangement of the invention, the bottom of the first threaded pipe sleeve is provided with a limiting groove, and the top of the shaping sock plate is provided with a rotary embedded ring which is rotatably connected inside the limiting groove.

Through adopting above-mentioned technical scheme, owing to seted up spacing recess bottom first screw thread pipe box, and be provided with at design socks board top and rotate the rotation becket that connects inside at spacing recess, then spacing through spacing recess to rotating the becket, can make first screw thread pipe box rotate to connect on design socks board, then will design socks board install support violently when managing, only need revolve twist first screw thread sleeve pipe can, the operation is more convenient.

As a further arrangement of the invention, a second threaded pipe orifice is connected to the guide pipe, and a second threaded pipe sleeve matched with the second threaded pipe orifice is connected to one end of the heating medium inlet pipe, which is positioned in the furnace body.

Through adopting above-mentioned technical scheme, owing to be connected with the second screw thread mouth of pipe on the pipe, and advance the pipe to be located the inside one end of furnace body and be connected with the second screw thread pipe box that matches with the second screw thread mouth of pipe at heating medium, then when finalizing the design processing to socks, through being in the same place second screw thread pipe box and second screw thread mouth of pipe threaded connection, can realize that pipe and heating medium advance the firm connection of pipe, and after handling the completion, only need separate second screw thread pipe box and second screw thread mouth of pipe, can remove pipe and heating medium and advance the connection of pipe, thereby conveniently release carrying mechanism, and convenient operation.

As a further arrangement of the invention, the shaping sock plate is made of copper-aluminum alloy.

Through adopting above-mentioned technical scheme, because the design socks board adopts the copper aluminum alloy to make, copper aluminum alloy has good heat conductivity to change the heat conduction, make the stoving to socks more even, and copper aluminum alloy's intensity is higher, thereby makes the design socks board have better durability, and life is longer.

In conclusion, the invention has the following beneficial effects:

1. the sock body production process has the advantages that the process continuity is good, the production efficiency is high, the manual work and the equipment are cooperatively used, the operation difficulty is low, the steps are simple, the step of off-machine inspection is timely carried out after the sock body production is finished, and the step of comprehensive inspection is introduced before the shaping treatment, so that the finished product quality of the socks is ensured, and the defective rate is effectively reduced;

2. according to the invention, the socks are shaped by the shaping device, heat can permeate from the inside to the outside of the socks, the heating is more uniform, the drying speed is higher, the one-time drying and shaping of the socks can be realized, the shaping efficiency of the socks is effectively improved, the time consumption is shorter, and the requirements of batch production are met.

Drawings

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic structural view of a setting device according to the present invention;

FIG. 3 is a schematic view of the carrying mechanism of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is an enlarged view of the structure at B in FIG. 3;

FIG. 6 is a sectional view showing a coupling structure of the sizing socks and the first threaded socket in accordance with the present invention;

fig. 7 is a schematic structural view of the sizing device of the present invention after the carrying mechanism is removed.

Reference numerals: 1. a furnace body; 2. a furnace cover; 3. a sliding chassis; 4. an upper returning pipe; 5. a lower return pipe; 6. a delivery pipe; 7. supporting the transverse pipe; 8. shaping the sock plate; 9. a conduit; 10. a heating medium inlet pipe; 11. an exhaust through groove; 12. a first threaded pipe orifice; 13. a first threaded socket; 14. a limiting groove; 15. rotating the embedded ring; 16. a second threaded pipe orifice; 17. a second threaded socket.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a manufacturing process of an antibacterial conductive aerospace integrated sock includes the following steps:

1) weaving yarns: the raw material fiber monofilaments including conductive fibers, hemp fibers and cotton fibers are carded, impurity-removed, and then sequentially mixed and processed by a ring spinning frame, a friction spinning frame and a twisting machine to obtain yarns;

2) and (3) sock body production: weaving the yarns obtained through the treatment in the step 1) into weft knitting knitted fabric through a weft circular knitting machine, then placing the weft knitting knitted fabric on a single-needle-cylinder hosiery machine for weaving, weaving a welt through a rib knitting machine, then transferring the welt onto a needle cylinder of the hosiery machine through an embroidering disc, and weaving to form a sock cylinder, a heel, a foot and a toe so as to obtain a sock blank with an open toe;

3) and (4) checking by a machine: performing quality inspection on the sock blanks obtained by the treatment of the step 2), distinguishing qualified products from non-qualified products, and placing the qualified products on a production line of the next procedure;

4) and (3) sewing head treatment: placing the qualified sock blanks obtained by the step 3) according to two pairs of groups, knitting the welts of the two pairs of sock blanks together, and sewing the sock heads by a disc machine to form semi-finished socks;

5) and (3) comprehensive inspection: comprehensively inspecting the semi-finished socks obtained by the treatment in the step 4), picking out defective products, and storing the semi-finished socks with qualified quality independently;

6) shaping treatment: placing the semi-finished socks qualified in the step 5) in a shaping device for primary drying and shaping to obtain finished socks, wherein the treatment duration is 2-5 min;

7) sock arrangement: placing the finished socks processed in the step 6) in a shade place, naturally airing for 48h, entering a sock checking and pairing process, numbering at the same time, and respectively boxing the paired socks according to the goods number and sending the paired socks into a semi-finished product warehouse;

8) packaging and warehousing: and (4) carrying out a packaging process on the finished socks placed in the semi-finished product warehouse, classifying the finished socks into boxes, and uniformly sending the boxes into the finished product warehouse for storage.

By adopting the process of the invention, the preparation process flow of yarn weaving, sock body production, off-machine inspection, sewing treatment, comprehensive inspection, sizing treatment, sock arrangement and packaging and warehousing is adopted, the continuity between the steps is good, the production efficiency is high, the operation difficulty is low and the steps are simple through the cooperative use of manpower and equipment, the steps of off-machine inspection are timely carried out after the sock body production is finished, the qualified products and the unqualified products can be effectively distinguished, the quality of the sock blanks is ensured, the steps of comprehensive inspection are introduced before the sizing treatment, the comprehensive inspection can be carried out on the semi-finished socks, so that the defective products can be picked out, the finished product quality of the socks is ensured, the defective rate is effectively reduced, and the sizing efficiency of the socks is effectively improved by drying and sizing at one time through the sizing device in the sizing treatment process, the time consumption is short, thereby the preparation efficiency is effectively improved, meets the requirement of mass production.

Referring to fig. 2, 3, 5, 7, the shaping device in step 6) includes a furnace body 1 and a furnace cover 2 hinged on the furnace body 1, a carrying mechanism is disposed inside the furnace body 1, the carrying mechanism includes a sliding chassis 3 and a carrying support disposed on the sliding chassis 3, the carrying support includes an upper pipe 4 and a lower pipe 5 parallel to each other, a plurality of conveying pipes 6 are connected between the upper pipe 4 and the lower pipe 5, two ends of the conveying pipes 6 are respectively communicated with the upper pipe 4 and the lower pipe 5, a plurality of horizontal supporting pipes 7 are connected to the upper pipe 4, the horizontal supporting pipes 7 are communicated with the upper pipe 4, a plurality of hollow shaping socks 8 are disposed on the horizontal supporting pipes 7, the shaping socks 8 are made of copper-aluminum alloy, a plurality of through grooves 11 communicated with the inside are disposed on the surface of the shaping socks 8, and the horizontal supporting pipes 8 are communicated with each other, the lower return pipe 5 is connected with a guide pipe 9, the outer wall of the furnace body 1 is provided with a heating medium inlet pipe 10 communicated with the guide pipe 9, the guide pipe 9 is connected with a second threaded pipe orifice 16, and one end of the heating medium inlet pipe 10, which is positioned inside the furnace body 1, is connected with a second threaded pipe sleeve 17 matched with the second threaded pipe orifice 16.

Referring to fig. 3, 4 and 6, the shaping socks 8 are detachably mounted on the horizontal support tube 7, a plurality of first threaded pipe orifices 12 are connected to the horizontal support tube 7, and first threaded pipe sleeves 13 matched with the first threaded pipe orifices 12 are disposed on the top of the shaping socks 8, wherein a limiting groove 14 is disposed on the bottom of each first threaded pipe sleeve 13, and a rotating insert ring 15 rotatably connected inside the limiting groove 14 is disposed on the top of each shaping socks 8.

Because the carrying mechanism is arranged in the furnace body 1, and the carrying mechanism comprises a carrying support, when semi-finished socks are shaped, the carrying mechanism can be firstly pushed out from the furnace body 1, then the semi-finished socks are sleeved on the shaping socks 8, then the carrying mechanism is pushed to reset, hot steam is sequentially fed into the heating medium inlet pipe 10, the guide pipe 9 is injected into the lower clip pipe 5, the upper clip pipe 4 is input through the conveying pipe 6, then the horizontal pipe 7 is continuously input into the shaping socks 8 through the support, heat can be permeated from the inside to the outside of the socks, the socks are tightly attached to the shaping socks 8, so that the socks are heated more uniformly, the drying speed is higher, one-time drying and shaping of the socks can be realized, and the shaping efficiency of the socks is effectively improved.

Owing to set up a plurality of exhaust logical grooves 11 with inside intercommunication on design socks board 8 surface, then get into design socks board 8 inside back at hot steam, can directly blow to socks inside through exhaust logical groove 11 to can conduct the heat faster, make the speed of socks stoving design faster, further promoted the design efficiency of socks.

Because the shaping socks 8 are detachably mounted on the horizontal support tube 7, the shaping socks 8 can be detached from the horizontal support tube 7 and maintained and cleaned in time after the shaping socks 8 are used for a long time, thereby greatly prolonging the service life of the shaping socks 8, wherein, because a plurality of first threaded pipe orifices 12 are connected on the horizontal support tube 7, and the top of the shaping socks 8 is provided with a first threaded pipe sleeve 13 matched with the first threaded pipe orifices 12, when the shaping socks 8 are mounted on the horizontal support tube 7, the first threaded pipe sleeve 13 can be screwed into the first threaded pipe orifices 12, the first threaded pipe orifices 12 are connected with the first threaded pipe sleeve 13 by screw threads, thereby realizing the firm mounting of the shaping socks 8, the operation is convenient and simple, because the bottom of the first threaded pipe sleeve 13 is provided with a limit groove 14, and the top of the shaping socks 8 is provided with a rotating embedded ring 15 which is rotatably connected inside the limit groove 14, then through spacing recess 14 to the spacing of rotating the thimble 15, can make first screw thread pipe box 13 rotate to be connected on design socks 8, then when will design socks 8 and install on the horizontal pipe 7 of support, need not rotatory whole design socks 8, only need twist soon first screw thread pipe box can, the operation is more convenient.

Because the second threaded pipe orifice 16 is connected to the conduit 9, and the end of the heating medium inlet pipe 10 inside the furnace body 1 is connected with the second threaded pipe sleeve 17 matched with the second threaded pipe orifice 16, when the sock is shaped, the conduit 9 and the heating medium inlet pipe 10 can be firmly connected by connecting the second threaded pipe sleeve 17 with the second threaded pipe orifice 16 in a threaded manner, and after the sock is shaped, the connection between the conduit 9 and the heating medium inlet pipe 10 can be released only by separating the second threaded pipe sleeve 17 from the second threaded pipe orifice 16, so that the carrying mechanism can be conveniently pushed out, and the operation is convenient.

Because design socks board 8 adopts the copper aluminum alloy to make, copper aluminum alloy has good heat conductivity to heat conduction is changeed, makes the stoving to socks more even, and copper aluminum alloy's intensity is higher, thereby makes design socks board 8 have better durability, and life is longer.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. A preparation technology of antibacterial conductive aerospace integrated socks is characterized by comprising the following steps: the method comprises the following steps:

1) weaving yarns: carding and removing impurities from raw material fiber monofilaments, and then mixing and processing the raw material fiber monofilaments by a ring spinning frame, a friction spinning frame and a twisting machine in sequence to obtain yarns;

2) and (3) sock body production: weaving the yarns obtained through the treatment in the step 1) into weft knitting knitted fabric through a weft circular knitting machine, then placing the weft knitting knitted fabric on a single-needle-cylinder hosiery machine for weaving, weaving a welt through a rib knitting machine, then transferring the welt onto a needle cylinder of the hosiery machine through an embroidering disc, and weaving to form a sock cylinder, a heel, a foot and a toe so as to obtain a sock blank with an open toe;

3) and (4) checking by a machine: performing quality inspection on the sock blanks obtained by the treatment of the step 2), distinguishing qualified products from non-qualified products, and placing the qualified products on a production line of the next procedure;

4) and (3) sewing head treatment: placing the qualified sock blanks obtained by the step 3) according to two pairs of groups, knitting the welts of the two pairs of sock blanks together, and sewing the sock heads by a disc machine to form semi-finished socks;

5) and (3) comprehensive inspection: comprehensively inspecting the semi-finished socks obtained by the treatment in the step 4), picking out defective products, and storing the semi-finished socks with qualified quality independently;

6) shaping treatment: placing the semi-finished socks qualified in the step 5) in a shaping device for primary drying and shaping to obtain finished socks, wherein the treatment duration is 2-5 min;

7) sock arrangement: placing the finished socks processed in the step 6) in a shade place for naturally airing for 48h, entering a sock checking and pairing process, and respectively boxing the paired socks according to the goods number and sending the socks into a semi-finished product warehouse;

8) packaging and warehousing: and (4) carrying out a packaging process on the finished socks placed in the semi-finished product warehouse, classifying the finished socks into boxes, and uniformly sending the boxes into the finished product warehouse for storage.

2. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 1, wherein the preparation process comprises the following steps: the shaping device in the step 6) comprises a furnace body (1) and a furnace cover (2) hinged on the furnace body (1), a carrying mechanism is arranged in the furnace body (1) and comprises a sliding chassis (3) and a carrying support arranged on the sliding chassis (3), the carrying support comprises an upper return pipe (4) and a lower return pipe (5) which are parallel to each other, a plurality of conveying pipes (6) are connected between the upper return pipe (4) and the lower return pipe (5), two ends of each conveying pipe (6) are respectively communicated with the upper return pipe (4) and the lower return pipe (5), a plurality of supporting transverse pipes (7) are connected onto the upper return pipe (4), the supporting transverse pipes (7) are communicated with the upper return pipe (4), a plurality of hollow shaping socks (8) inside are arranged on the supporting transverse pipes (7), and the shaping socks (8) are communicated with the supporting transverse pipes (7), the lower return pipe (5) is connected with a guide pipe (9), and the outer wall of the furnace body (1) is provided with a heating medium inlet pipe (10) communicated with the guide pipe (9).

3. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 2, wherein the preparation process comprises the following steps: the surface of the shaping sock plate (8) is provided with a plurality of exhaust through grooves (11) communicated with the inside.

4. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 2, wherein the preparation process comprises the following steps: the shaping socks (8) are detachably arranged on the horizontal supporting tube (7).

5. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 4, wherein the preparation process comprises the following steps: the supporting transverse pipe (7) is connected with a plurality of first threaded pipe openings (12), and first threaded pipe sleeves (13) matched with the first threaded pipe openings (12) are arranged at the top of the shaping sock plate (8).

6. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 5, wherein the preparation process comprises the following steps: the bottom of the first threaded pipe sleeve (13) is provided with a limiting groove (14), and the top of the shaping sock plate (8) is provided with a rotating embedded ring (15) rotatably connected inside the limiting groove (14).

7. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 2, wherein the preparation process comprises the following steps: the guide pipe (9) is connected with a second threaded pipe orifice (16), and one end of the heating medium inlet pipe (10) located inside the furnace body (1) is connected with a second threaded pipe sleeve (17) matched with the second threaded pipe orifice (16).

8. The preparation process of the antibacterial conductive aerospace integrated sock according to claim 2, wherein the preparation process comprises the following steps: the shaping sock plate (8) is made of copper-aluminum alloy.

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