CN102953184B - Heterochromatic compound anti-cutting wrap yarn device and preparation method thereof - Google Patents
Heterochromatic compound anti-cutting wrap yarn device and preparation method thereof Download PDFInfo
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- CN102953184B CN102953184B CN201210368147.7A CN201210368147A CN102953184B CN 102953184 B CN102953184 B CN 102953184B CN 201210368147 A CN201210368147 A CN 201210368147A CN 102953184 B CN102953184 B CN 102953184B
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Abstract
The invention provides a wrap yarn device and particularly relates to a heterochromatic compound anti-cutting wrap yarn device and a preparation method of the wrap yarn device. The heterochromatic compound anti-cutting wrap yarn device comprises a middle-layer yarn system, an outer-layer yarn system and a combined wrap yarn system. The preparation method comprises the following process steps of: manufacturing a glass fiber middle layer yarn, manufacturing a stranded outer layer yarn and manufacturing a heterochromatic compound anti-cutting wrap yarn. The heterochromatic compound anti-cutting wrap yarn device and the preparation method of the heterochromatic compound anti-cutting wrap yarn device disclosed by the invention have the advantages of compact structure, improvement of anti-cutting grade, diversified functions and high comfort level.
Description
Technical field
The present invention is a kind of wrap yarn device, particularly the how different compound of one anti-cutting wrap yarn device and preparation method thereof.
Background technology
The existing anti-cutting wrap yarn technology of existing market, general employing two or three raw material, use one-step method wrap yarn technology, although technique is simple, handling ease, but the fabric anti-cutting grade that this kind of anti-cutting wrap yarn is made is low, can only reach the anti-cutting secondary of European Union EN388 or grade III Standard, and cannot meet the requirement of differentiation feel; The fabric adopting the anti-cutting wrap yarn of how different compound to make, can reach European Union EN388 anti-cutting Pyatyi standard, and good hand feeling, softness, flexible, has extraordinary comfortableness.
Chinese patent CN2898068, announce a kind of sweat-absorbing spandex-coated yarn, inner core is spandex fibre, at the coated moisture absorbing and sweat releasing yarn in this spandex fibre periphery, containing hygroscopic fibre in this moisture absorbing and sweat releasing yarn, the surface of this hygroscopic fibre is longitudinally provided with four grooves in order to perspire along it, and this groove is distributed in the both sides of moisture absorbing and sweat releasing between two symmetrically.Function is relatively single, this yarn can not be used for anti-cutting articles for use, and the comfortableness of this yarn is not good yet.
Summary of the invention
The present invention mainly solves the deficiencies in the prior art, compact conformation, adopt superhigh molecular weight polyethylene fibers, polyster fibre, nylon fibre, five kinds of fibers such as glass fibre and spandex as raw material, the how different compound anti-cutting wrap yarn device that how different compound anti-cutting wrap yarn requires and preparation method thereof that utilizes the performance of different fiber to reach.
Above-mentioned technical problem of the present invention is mainly solved by following technical proposals:
The how different compound of one anti-cutting wrap yarn device, comprise middle level yarn system, outer layer yarn system and combination wrap yarn system, described middle level yarn system comprises middle level yarn drawing roller and magnetic tension yarn feeding device, glass fibre spindle is provided with in described magnetic tension yarn feeding device, glass fibre in described glass fibre spindle is drawn through middle level yarn drawing roller, described glass fibre enters in No. I middle level polyster fibre spindle along No. I middle level spindle axle, No. I described middle level spindle axle drives No. I middle level polyster fibre spindle High Rotation Speed, No. I middle level polyster fibre in No. I described middle level polyster fibre spindle is coated to the surface of glass fibre, described glass fibre enters in No. II middle level polyster fibre spindle along No. II middle level spindle axle again, No. II described middle level spindle axle drives No. II middle level polyster fibre spindle High Rotation Speed, the surface that No. II middle level polyster fibre in No. II described middle level polyster fibre spindle is coated to glass fibre forms glass fibre middle level yarn, glass fibre middle level yarn forms middle level spindle through middle level yarn drawing roller along stretching, described middle level spindle is located in combination wrap yarn system,
Described outer layer yarn system comprises superhigh molecular weight polyethylene fibers yarn volume, nylon fibre yarn is rolled up, feed and twist with the fingers roller and ring rail, described superhigh molecular weight polyethylene fibers yarn volume and nylon fibre yarn volume form plying outer layer yarn through feeding sth. made by twisting roller, ring rail traveller sliding mutually is with it provided with in described ring rail, the outer spindle of plying is provided with in described ring rail traveller, the outer spindle of described plying is by the outer spindle axle phase High Rotation Speed of plying, described plying outer layer yarn is added through ring rail traveller twists with the fingers rolling with the outer spindle of plying, described ring rail is in pumping, described ring rail traveller circles with plying outer layer yarn, the outer spindle of described plying is located in combination wrap yarn system,
Described combination wrap yarn system comprises combination drawing roller, combination feeding roller and spandex yarn volume, spandex in described spandex yarn volume is through the feeding of combination feeding roller, described spandex enters in the spindle of middle level along combination No. I spindle axle, combine No. I spindle axle and drive middle level spindle High Rotation Speed, glass fibre middle level yarn in described middle level spindle is coated to the surface of spandex, described spandex enters in the outer spindle of plying along combination No. II spindle axle again, described combination No. II spindle axle drives the outer spindle High Rotation Speed of plying, the surface that plying outer layer yarn in the outer spindle of described plying is coated to glass fibre middle level yarn forms the anti-cutting wrap yarn of how different compound, described how different compound anti-cutting wrap yarn is wound into the coated spindle of the anti-cutting of how different compound through combination drawing roller.
As preferably, be provided with buffering wheel between No. I described middle level spindle axle and magnetic tension yarn feeding device, the top of described middle level yarn drawing roller is provided with middle laminating roll; The described top of twisting with the fingers roller of feeding is provided with outer laminating roll; The top of described combination feeding roller is provided with combination feeding pressure roller, and the top of described combination drawing roller is provided with combination drawing-off pressure roller.
The how different compound of one anti-cutting wrap yarn preparation method, carries out according to the following steps:
(1), glass fibre middle level yarn is made:
Glass fibre is drawn from glass fibre spindle by middle level yarn drawing roller, the hauling speed of middle level yarn drawing roller is 16 ~ 25 ms/min, glass fibre is first through buffering wheel, enter the central through hole of No. I middle level spindle axle again, No. I middle level spindle axle run up drives No. I middle level polyster fibre spindle, the rotating speed of No. I middle level spindle axle is 10000 revs/min ~ 12000 revs/min, polyster fibre is twisted with the fingers to being evenly coated to fiberglass skin with S, the twist of polyster fibre is 480 twists/m ~ 700 twists/m, then the central through hole of No. II middle level spindle axle is entered, No. II middle level spindle axle run up drives No. II middle level polyster fibre spindle, the speed of No. II middle level spindle axle is 10000 revs/min ~ 12000 revs/min, polyster fibre is twisted with the fingers to being again evenly coated to fiberglass skin with Z, the twist of polyster fibre is 480 twists/m ~ 700 twists/m, formed by the glass fibre middle level yarn of Double-layer polyester fibre-coated, finally take in middle level spindle for subsequent use, the reluctance force of magnetic tension yarn feeding device is about 50 grams, and the feeding tension force of glass fibre is 20 grams,
(2) plying outer layer yarn, is made:
Superhigh molecular weight polyethylene fibers and nylon fibre are fed to twist with the fingers after roller is drawn delivers to ring rail traveller, and the feeding speed of superhigh molecular weight polyethylene fibers and nylon fibre is 100 ~ 150 ms/min, is then wound up into the outer spindle of plying; The outer spindle axle of the plying run up drives the outer spindle of plying to rotate, and the rotating speed of outer spindle axle of pooling capital is 7000 revs/min, is carried out twisting rear rolling by plying outer layer yarn; Ring rail traveller can be followed plying outer layer yarn and be circled, the speed of ring rail traveller is 6800 revs/min, and ring rail pumps, and the frequency that ring rail pumps is 30 beats/min, guide the even rolling of plying outer layer yarn, finally the outer spindle of income plying is for subsequent use;
(3), the anti-cutting wrap yarn of how different compound is made:
Spandex be combined feeding roller from spandex yarn volume draw, the feeding speed of combination feeding roller is 45 ms/min, spandex passes after sending into the central through hole of combination No. I spindle axle, the combination run up No. I spindle axle drives the middle level spindle in step (1) to rotate, the rotating speed of combination No. I spindle axle is 4800 revs/min, glass fibre middle level yarn in the spindle of middle level is twisted with the fingers to the top layer being evenly coated to spandex with S, the twist of glass fibre middle level yarn is 100 twists/m, pass after being entered again the central through hole of combination No. II spindle axle by the spandex that glass fibre middle level yarn is coated, the combination run up No. II spindle axle drives the outer spindle of the plying in step (2) to rotate, again the plying outer layer yarn in the outer spindle of plying is twisted with the fingers the skin being coated to spandex to second time with Z, the twist of plying outer layer yarn is 200 twists/m, complete coated how different compound anti-cutting wrap yarn to be sent in the coated spindle of the anti-cutting of how different compound and to carry out rolling under the traction of combination drawing roller, combination drawing roller is 2.5 ~ 3.0 times with the speed multiplying power of combination feeding roller.
Wherein superhigh molecular weight polyethylene fibers and fiberglass combination use the anti-cutting performance that significantly can improve wrap yarn; Spandex can make wrap yarn have certain elasticity; Nylon fibre can make wrap yarn good hand feeling and softness, and polyster fibre is used to glass fibre protective layer, the sense of discomfort effectively preventing from glass fibre from exposing causing.
Through repeatedly manufacturing experimently and testing, determining the wrap yarn combining structure of three-decker, is namely heart yarn with spandex, with by the coated glass fibre of polyster fibre for middle level yarn, with superhigh molecular weight polyethylene fibers and nylon fibre and the combination yarn the twisted with the fingers structure that is outer layer yarn.
Therefore, the how different compound of one provided by the invention anti-cutting wrap yarn device and preparation method thereof, compact conformation, promote anti-cutting grade, function is many, and comfortableness is high.
Accompanying drawing explanation
Fig. 1 is the structural representation making glass fibre middle level yarn in the present invention;
Fig. 2 is the structural representation making plying outer layer yarn in the present invention;
Fig. 3 is the structural representation making the anti-cutting wrap yarn of how different compound in the present invention.
Detailed description of the invention
Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.
Embodiment 1: as shown in Figure 1, Figure 2 and Figure 3, the how different compound of one anti-cutting wrap yarn device, comprises middle level yarn system, outer layer yarn system and combination wrap yarn system,
Described middle level yarn system comprises middle level yarn drawing roller 1 and magnetic tension yarn feeding device 2, glass fibre spindle 3 is provided with in described magnetic tension yarn feeding device 2, glass fibre 4 in described glass fibre spindle 3 is drawn through middle level yarn drawing roller 1, described glass fibre 4 enters in No. I middle level polyster fibre spindle 6 along No. I middle level spindle axle 5, No. I described middle level spindle axle 5 drives No. I middle level polyster fibre spindle 6 High Rotation Speed, No. I middle level polyster fibre 7 in No. I described middle level polyster fibre spindle 6 is coated to the surface of glass fibre 4, described glass fibre 4 enters in No. II middle level polyster fibre spindle 9 along No. II middle level spindle axle 8 again, No. II described middle level spindle axle 8 drives No. II middle level polyster fibre spindle 9 High Rotation Speed, the surface that No. II middle level polyster fibre 10 in No. II described middle level polyster fibre spindle 9 is coated to glass fibre 4 forms glass fibre middle level yarn 11, glass fibre middle level yarn 11 forms middle level spindle 12 through middle level yarn drawing roller 1 along stretching, described middle level spindle 12 is located in combination wrap yarn system,
Described outer layer yarn system comprises superhigh molecular weight polyethylene fibers yarn volume 13, nylon fibre yarn volume 14, feed and twist with the fingers roller 15 and ring rail 16, described superhigh molecular weight polyethylene fibers yarn volume 13 and nylon fibre yarn volume 14 form plying outer layer yarn 17 through feeding sth. made by twisting roller 15, ring rail traveller 18 sliding mutually is with it provided with in described ring rail 16, the outer spindle 19 of plying is provided with in described ring rail traveller 18, the outer spindle 19 of described plying is by the outer spindle axle 20 phase High Rotation Speed of plying, described plying outer layer yarn 17 twists rolling through ring rail traveller 18 and outer spindle 19 phase of plying, described ring rail 16 is in pumping, described ring rail traveller 18 circles with plying outer layer yarn 17, the outer spindle 19 of described plying is located in combination wrap yarn system,
Described combination wrap yarn system comprises combination drawing roller 21, combination feeding roller 22 and spandex yarn volume 23, spandex 24 in described spandex yarn volume 23 feeds through combination feeding roller 22, described spandex 24 enters in middle level spindle 12 along combination No. I spindle axle 25, combine No. I spindle axle 25 and drive middle level spindle 12 High Rotation Speed, glass fibre middle level yarn 11 in described middle level spindle 12 is coated to the surface of spandex 24, described spandex 24 enters in the outer spindle 19 of plying along combination No. II spindle axle 26 again, described combination No. II spindle axle 26 drives outer spindle 19 High Rotation Speed of plying, the surface that plying outer layer yarn 17 in the outer spindle 19 of described plying is coated to glass fibre middle level yarn 11 forms the anti-cutting wrap yarn 27 of how different compound, described how different compound anti-cutting wrap yarn 27 is wound into the coated spindle 33 of the anti-cutting of how different compound through combination drawing roller 21.
Be provided with buffering wheel 28 between No. I described middle level spindle axle 5 and magnetic tension yarn feeding device 2, the top of described middle level yarn drawing roller 1 is provided with middle laminating roll 29; The described top of twisting with the fingers roller 15 of feeding is provided with outer laminating roll 30; The top of described combination feeding roller 22 is provided with combination feeding pressure roller 31, and the top of described combination drawing roller 21 is provided with combination drawing-off pressure roller 32.
The how different compound of one anti-cutting wrap yarn preparation method, carries out according to the following steps:
(1), glass fibre middle level yarn is made:
Glass fibre 4 is drawn from glass fibre spindle 3 by middle level yarn drawing roller 1, the hauling speed of middle level yarn drawing roller 1 is 16 ms/min, glass fibre 4 is first through buffering wheel 28, enter the central through hole of No. I middle level spindle axle 5 again, No. I middle level spindle axle 5 run up drives No. I middle level polyster fibre spindle 6, the rotating speed of No. I middle level spindle axle 5 is 10000 revs/min, polyster fibre is twisted with the fingers to being evenly coated to glass fibre 4 top layer with S, the twist of polyster fibre is 480 twists/m, then the central through hole of No. II middle level spindle axle 8 is entered, No. II middle level spindle axle 8 run up drives No. II middle level polyster fibre spindle 9, the speed of No. II middle level spindle axle 8 is 10000 revs/min, polyster fibre is twisted with the fingers to being again evenly coated to glass fibre 4 top layer with Z, the twist of polyster fibre is 480 twists/m, formed by the glass fibre middle level yarn 11 of Double-layer polyester fibre-coated, finally take in middle level spindle 12 for subsequent use, the reluctance force of magnetic tension yarn feeding device 2 is about 50 grams, and the feeding tension force of glass fibre 4 is 20 grams,
(2) plying outer layer yarn, is made:
Superhigh molecular weight polyethylene fibers and nylon fibre are fed to twist with the fingers after roller 15 is drawn delivers to ring rail traveller 18, and the feeding speed of superhigh molecular weight polyethylene fibers and nylon fibre is 100 ms/min, is then wound up into the outer spindle 19 of plying; The outer spindle axle 20 of the plying run up drives the outer spindle 19 of plying to rotate, and the rotating speed of outer spindle axle 20 of pooling capital is 7000 revs/min, is carried out twisting rear rolling by plying outer layer yarn 17; Ring rail traveller 18 can be followed plying outer layer yarn 17 and be circled, the speed of ring rail traveller 18 is 6800 revs/min, and ring rail 16 pumps, the frequency that ring rail 16 pumps is 30 beats/min, guide the evenly rolling of plying outer layer yarn 17, finally the outer spindle 19 of income plying is for subsequent use;
(3), the anti-cutting wrap yarn of how different compound is made:
Spandex 24 be combined feeding roller 22 from spandex yarn volume 23 draw, the feeding speed of combination feeding roller 22 is 45 ms/min, spandex 24 passes after sending into the central through hole of combination No. I spindle axle 25, the combination run up No. I spindle axle 25 drives the middle level spindle 12 in step 1 to rotate, the rotating speed of combination No. I spindle axle 25 is 4800 revs/min, glass fibre middle level yarn 11 in middle level spindle 12 is twisted with the fingers to the top layer being evenly coated to spandex 24 with S, the twist of glass fibre middle level yarn 11 is 100 twists/m, pass after being entered again the central through hole of combination No. II spindle axle 26 by the spandex 24 that glass fibre middle level yarn 11 is coated, the combination run up No. II spindle axle 26 drives the outer spindle 19 of the plying in step (2) to rotate, again the plying outer layer yarn 17 in the outer spindle 19 of plying is twisted with the fingers the skin being coated to spandex 24 to second time with Z, the twist of plying outer layer yarn 17 is 200 twists/m, complete coated how different compound anti-cutting wrap yarn 27 to be sent in the coated spindle 33 of the anti-cutting of how different compound and to carry out rolling under the traction of combination drawing roller 21, combination drawing roller 21 is 2.5 times with the speed multiplying power of combination feeding roller 22.
Embodiment 2:
The how different compound of one anti-cutting wrap yarn preparation method, carries out according to the following steps:
(1), glass fibre middle level yarn is made:
Glass fibre 4 is drawn from glass fibre spindle 3 by middle level yarn drawing roller 1, the hauling speed of middle level yarn drawing roller 1 is 20 ms/min, glass fibre 4 is first through buffering wheel 28, enter the central through hole of No. I middle level spindle axle 5 again, No. I middle level spindle axle 5 run up drives No. I middle level polyster fibre spindle 6, the rotating speed of No. I middle level spindle axle 5 is 11000 revs/min, polyster fibre is twisted with the fingers to being evenly coated to glass fibre 4 top layer with S, the twist of polyster fibre is 600 twists/m, then the central through hole of No. II middle level spindle axle 8 is entered, No. II middle level spindle axle 8 run up drives No. II middle level polyster fibre spindle 9, the speed of No. II middle level spindle axle 8 is 11000 revs/min, polyster fibre is twisted with the fingers to being again evenly coated to glass fibre 4 top layer with Z, the twist of polyster fibre is 550 twists/m, formed by the glass fibre middle level yarn 11 of Double-layer polyester fibre-coated, finally take in middle level spindle 12 for subsequent use, the reluctance force of magnetic tension yarn feeding device 2 is about 50 grams, and the feeding tension force of glass fibre 4 is 20 grams,
(2) plying outer layer yarn, is made:
Superhigh molecular weight polyethylene fibers and nylon fibre are fed to twist with the fingers after roller 15 is drawn delivers to ring rail traveller 18, and the feeding speed of superhigh molecular weight polyethylene fibers and nylon fibre is 120 ms/min, is then wound up into the outer spindle 19 of plying; The outer spindle axle 20 of the plying run up drives the outer spindle 19 of plying to rotate, and the rotating speed of outer spindle axle 20 of pooling capital is 7000 revs/min, is carried out twisting rear rolling by plying outer layer yarn 17; Ring rail traveller 18 can be followed plying outer layer yarn 17 and be circled, the speed of ring rail traveller 18 is 6800 revs/min, and ring rail 16 pumps, the frequency that ring rail 16 pumps is 30 beats/min, guide the evenly rolling of plying outer layer yarn 17, finally the outer spindle 19 of income plying is for subsequent use;
(3), the anti-cutting wrap yarn of how different compound is made:
Spandex 24 be combined feeding roller 22 from spandex yarn volume 23 draw, the feeding speed of combination feeding roller 22 is 45 ms/min, spandex 24 passes after sending into the central through hole of combination No. I spindle axle 25, the combination run up No. I spindle axle 25 drives the middle level spindle 12 in step 1 to rotate, the rotating speed of combination No. I spindle axle 25 is 4800 revs/min, glass fibre middle level yarn 11 in middle level spindle 12 is twisted with the fingers to the top layer being evenly coated to spandex 24 with S, the twist of glass fibre middle level yarn 11 is 100 twists/m, pass after being entered again the central through hole of combination No. II spindle axle 26 by the spandex 24 that glass fibre middle level yarn 11 is coated, the combination run up No. II spindle axle 26 drives the outer spindle 19 of the plying in step (2) to rotate, again the plying outer layer yarn 17 in the outer spindle 19 of plying is twisted with the fingers the skin being coated to spandex 24 to second time with Z, the twist of plying outer layer yarn 17 is 200 twists/m, complete coated how different compound anti-cutting wrap yarn 27 to be sent in the coated spindle 33 of the anti-cutting of how different compound and to carry out rolling under the traction of combination drawing roller 21, combination drawing roller 21 is 2.8 times with the speed multiplying power of combination feeding roller 22.
Embodiment 3:
The how different compound of one anti-cutting wrap yarn preparation method, carries out according to the following steps:
(1), glass fibre middle level yarn is made:
Glass fibre 4 is drawn from glass fibre spindle 3 by middle level yarn drawing roller 1, the hauling speed of middle level yarn drawing roller 1 is 25 ms/min, glass fibre 4 is first through buffering wheel 28, enter the central through hole of No. I middle level spindle axle 5 again, No. I middle level spindle axle 5 run up drives No. I middle level polyster fibre spindle 6, the rotating speed of No. I middle level spindle axle 5 is 12000 revs/min, polyster fibre is twisted with the fingers to being evenly coated to glass fibre 4 top layer with S, the twist of polyster fibre is 700 twists/m, then the central through hole of No. II middle level spindle axle 8 is entered, No. II middle level spindle axle 8 run up drives No. II middle level polyster fibre spindle 9, the speed of No. II middle level spindle axle 8 is 12000 revs/min, polyster fibre is twisted with the fingers to being again evenly coated to glass fibre 4 top layer with Z, the twist of polyster fibre is 700 twists/m, formed by the glass fibre middle level yarn 11 of Double-layer polyester fibre-coated, finally take in middle level spindle 12 for subsequent use, the reluctance force of magnetic tension yarn feeding device 2 is about 50 grams, and the feeding tension force of glass fibre 4 is 20 grams,
(2) plying outer layer yarn, is made:
Superhigh molecular weight polyethylene fibers and nylon fibre are fed to twist with the fingers after roller 15 is drawn delivers to ring rail traveller 18, and the feeding speed of superhigh molecular weight polyethylene fibers and nylon fibre is 150 ms/min, is then wound up into the outer spindle 19 of plying; The outer spindle axle 20 of the plying run up drives the outer spindle 19 of plying to rotate, and the rotating speed of outer spindle axle 20 of pooling capital is 7000 revs/min, is carried out twisting rear rolling by plying outer layer yarn 17; Ring rail traveller 18 can be followed plying outer layer yarn 17 and be circled, the speed of ring rail traveller 18 is 6800 revs/min, and ring rail 16 pumps, the frequency that ring rail 16 pumps is 30 beats/min, guide the evenly rolling of plying outer layer yarn 17, finally the outer spindle 19 of income plying is for subsequent use;
(3), the anti-cutting wrap yarn of how different compound is made:
Spandex 24 be combined feeding roller 22 from spandex yarn volume 23 draw, the feeding speed of combination feeding roller 22 is 45 ms/min, spandex 24 passes after sending into the central through hole of combination No. I spindle axle 25, the combination run up No. I spindle axle 25 drives the middle level spindle 12 in step 1 to rotate, the rotating speed of combination No. I spindle axle 25 is 4800 revs/min, glass fibre middle level yarn 11 in middle level spindle 12 is twisted with the fingers to the top layer being evenly coated to spandex 24 with S, the twist of glass fibre middle level yarn 11 is 100 twists/m, pass after being entered again the central through hole of combination No. II spindle axle 26 by the spandex 24 that glass fibre middle level yarn 11 is coated, the combination run up No. II spindle axle 26 drives the outer spindle 19 of the plying in step (2) to rotate, again the plying outer layer yarn 17 in the outer spindle 19 of plying is twisted with the fingers the skin being coated to spandex 24 to second time with Z, the twist of plying outer layer yarn 17 is 200 twists/m, complete coated how different compound anti-cutting wrap yarn 27 to be sent in the coated spindle 33 of the anti-cutting of how different compound and to carry out rolling under the traction of combination drawing roller 21, combination drawing roller 21 is 3.0 times with the speed multiplying power of combination feeding roller 22.
Claims (1)
1. the anti-cutting wrap yarn of different compound more than kind preparation method, comprise middle level yarn system, outer layer yarn system and combination wrap yarn system, described middle level yarn system comprises middle level yarn drawing roller (1) and magnetic tension yarn feeding device (2), glass fibre spindle (3) is provided with in described magnetic tension yarn feeding device (2), glass fibre (4) in described glass fibre spindle (3) is drawn through middle level yarn drawing roller (1), described glass fibre (4) enters in No. I middle level polyster fibre spindle (6) along No. I middle level spindle axle (5), No. I described middle level spindle axle (5) drives No. I middle level polyster fibre spindle (6) High Rotation Speed, No. I middle level polyster fibre (7) in No. I described middle level polyster fibre spindle (6) is coated to the surface of glass fibre (4), described glass fibre (4) enters in No. II middle level polyster fibre spindle (9) along No. II middle level spindle axle (8) again, No. II described middle level spindle axle (8) drives No. II middle level polyster fibre spindle (9) High Rotation Speed, the surface that No. II middle level polyster fibre (10) in No. II described middle level polyster fibre spindle (9) is coated to glass fibre (4) forms glass fibre middle level yarn (11), glass fibre middle level yarn (11) forms middle level spindle (12) through middle level yarn drawing roller (1) along stretching, described middle level spindle (12) is located in combination wrap yarn system,
Described outer layer yarn system comprises superhigh molecular weight polyethylene fibers yarn volume (13), nylon fibre yarn volume (14), feed and twist with the fingers roller (15) and ring rail (16), described superhigh molecular weight polyethylene fibers yarn volume (13) and nylon fibre yarn volume (14) form plying outer layer yarn (17) through feeding sth. made by twisting roller (15), ring rail traveller (18) sliding mutually is with it provided with in described ring rail (16), the outer spindle of plying (19) is provided with in described ring rail traveller (18), the outer spindle (19) of described plying is by outer spindle axle (20) High Rotation Speed of plying, described plying outer layer yarn (17) twists rolling mutually through ring rail traveller (18) and the outer spindle of plying (19), described ring rail (16) is in pumping, described ring rail traveller (18) circles with plying outer layer yarn (17), the outer spindle (19) of described plying is located in combination wrap yarn system,
Described combination wrap yarn system comprises combination drawing roller (21), combination feeding roller (22) and spandex yarn volume (23), spandex (24) in described spandex yarn volume (23) is through combination feeding roller (22) feeding, described spandex (24) enters in middle level spindle (12) along combination No. I spindle axle (25), combine No. I spindle axle (25) and drive middle level spindle (12) High Rotation Speed, glass fibre middle level yarn (11) in described middle level spindle (12) is coated to the surface of spandex (24), described spandex (24) enters in the outer spindle of plying (19) along combination No. II spindle axle (26) again, described combination No. II spindle axle (26) drives plying outer spindle (19) High Rotation Speed, the surface that plying outer layer yarn (17) in the outer spindle (19) of described plying is coated to glass fibre middle level yarn (11) forms the anti-cutting wrap yarn (27) of how different compound, described how different compound anti-cutting wrap yarn (27) is wound into the coated spindle of the anti-cutting of how different compound (33) through combination drawing roller (21),
Be provided with buffering wheel (28) between No. I described middle level spindle axle (5) and magnetic tension yarn feeding device (2), the top in described middle level yarn drawing roller (1) is provided with middle laminating roll (29); The described top of twisting with the fingers roller (15) of feeding is provided with outer laminating roll (30); The top of described combination feeding roller (22) is provided with combination feeding pressure roller (31), and the top of described combination drawing roller (21) is provided with combination drawing-off pressure roller (32);
It is characterized in that carrying out according to the following steps:
(1), glass fibre middle level yarn is made:
Glass fibre (4) is drawn from glass fibre spindle (3) by middle level yarn drawing roller (1), the hauling speed in middle level yarn drawing roller (1) is 16 ~ 25 ms/min, glass fibre (4) is first through buffering wheel (28), enter the central through hole of No. I middle level spindle axle (5) again, No. I middle level spindle axle (5) run up drives No. I middle level polyster fibre spindle (6), the rotating speed of No. I middle level spindle axle (5) is 10000 revs/min ~ 12000 revs/min, polyster fibre is twisted with the fingers to being evenly coated to glass fibre (4) top layer with S, the twist of polyster fibre is 480 twists/m ~ 700 twists/m, then the central through hole of No. II middle level spindle axle (8) is entered, No. II middle level spindle axle (8) run up drives No. II middle level polyster fibre spindle (9), the speed of No. II middle level spindle axle (8) is 10000 revs/min ~ 12000 revs/min, polyster fibre is twisted with the fingers to being again evenly coated to glass fibre (4) top layer with Z, the twist of polyster fibre is 480 twists/m ~ 700 twists/m, formed by glass fibre middle level yarn (11) of Double-layer polyester fibre-coated, finally take in middle level spindle (12) for subsequent use, the reluctance force of magnetic tension yarn feeding device (2) is 50 grams, and the feeding tension force of glass fibre (4) is 20 grams,
(2) plying outer layer yarn, is made:
Superhigh molecular weight polyethylene fibers and nylon fibre are fed to twist with the fingers after roller (15) is drawn delivers to ring rail traveller (18), the feeding speed of superhigh molecular weight polyethylene fibers and nylon fibre is 100 ~ 150 ms/min, is then wound up into the outer spindle of plying (19); Outer spindle axle (20) of the plying run up drives the outer spindle of plying (19) to rotate, and the rotating speed of outer spindle axle (20) of pooling capital is 7000 revs/min, and outer layer yarn (17) of pooling capital carries out twisting rear rolling; Ring rail traveller (18) can be followed plying outer layer yarn (17) and be circled, the speed of ring rail traveller (18) is 6800 revs/min, and ring rail (16) pumps, the frequency that ring rail (16) pumps is 30 beats/min, guide plying outer layer yarn (17) evenly rolling, finally the income outer spindle of plying (19) is for subsequent use;
(3), the anti-cutting wrap yarn of how different compound is made:
Spandex (24) be combined feeding roller (22) from spandex yarn volume (23) extraction, the feeding speed of combination feeding roller (22) is 45 ms/min, spandex (24) passes after sending into the central through hole of combination No. I spindle axle (25), the combination run up No. I spindle axle (25) drives the middle level spindle (12) in step (1) to rotate, the rotating speed combining No. I spindle axle (25) is 4800 revs/min, glass fibre middle level yarn (11) in middle level spindle (12) is twisted with the fingers to the top layer being evenly coated to spandex (24) with S, the twist in glass fibre middle level yarn (11) is 100 twists/m, pass after being entered again the central through hole of combination No. II spindle axle (26) by the spandex (24) that glass fibre middle level yarn (11) is coated, the combination run up No. II spindle axle (26) drives the outer spindle (19) of the plying in step (2) to rotate, again the plying outer layer yarn (17) of pooling capital in outer spindle (19) is twisted with the fingers the skin being coated to spandex (24) to second time with Z, the twist of plying outer layer yarn (17) is 200 twists/m, complete coated how different compound anti-cutting wrap yarn (27) to be sent in the coated spindle of the anti-cutting of how different compound (33) and to carry out rolling under the traction of combination drawing roller (21), combination drawing roller (21) is 2.5 ~ 3.0 times with the speed multiplying power of combination feeding roller (22).
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN105113082B (en) * | 2015-09-07 | 2018-04-24 | 南通强生安全防护科技股份有限公司 | A kind of anti-cutting coating cotton thread and its preparation method and application |
| CN105155066A (en) * | 2015-09-07 | 2015-12-16 | 南通强生安全防护科技有限公司 | Dacron wrapped yarn, preparing method and application |
| CN106929971A (en) * | 2017-03-20 | 2017-07-07 | 四川润厚特种纤维有限公司 | A kind of preparation technology of wrap yarn |
| CN108914304B (en) * | 2018-07-17 | 2021-08-24 | 张家港市隆利氨纶纱线厂 | Preparation process of low-twist cotton-nylon covered yarn |
| CN113373567B (en) * | 2021-06-21 | 2022-07-15 | 德宏正信实业股份有限公司 | Production method for reeling and producing composite silk based on real silk and artificial silk |
| CN115434050B (en) * | 2022-09-07 | 2024-03-29 | 江苏博越化纤有限公司 | Cutting device for processing regenerated wrapping yarn and using method thereof |
Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5845476A (en) * | 1997-06-04 | 1998-12-08 | Kolmes; Nathaniel H. | Composite yarn with fiberglass core |
| CN1572930A (en) * | 2003-06-06 | 2005-02-02 | Api塞浦拉斯特公司 | Thread having properties of resistance to cutting |
| CN101328637A (en) * | 2008-05-07 | 2008-12-24 | 鲁建国 | Dissimilar materials double-layer superpacket center thread and manufacturing method thereof |
| CN201172710Y (en) * | 2008-03-06 | 2008-12-31 | 邱甫林 | Two-for-one twisting composite twisting machine |
| CN201313967Y (en) * | 2008-11-26 | 2009-09-23 | 杭州翔盛高强纤维材料股份有限公司 | Anti-cutting covered yarn |
| CN101597824A (en) * | 2009-07-02 | 2009-12-09 | 浙江情怡袜业有限公司 | High-strength high-modulus polyethylene fiber/polyurethane covered yarn and adopt the high-performance protective socks of this covering filament |
| CN101718017A (en) * | 2009-11-17 | 2010-06-02 | 宓耀明 | Processing device and processing process of double-wrapping purl |
| CN201905277U (en) * | 2010-12-23 | 2011-07-27 | 陈国平 | High-strength anti-cutting safety gloves |
| CN102227523A (en) * | 2008-12-03 | 2011-10-26 | 株式会社梅信 | Stretch yarn including metal filament and textile product comprising yarn |
| CN202865477U (en) * | 2012-09-27 | 2013-04-10 | 杭州翔盛高强纤维材料股份有限公司 | Multi-difference composite cutting prevention wrapped yarn device |
-
2012
- 2012-09-27 CN CN201210368147.7A patent/CN102953184B/en not_active Expired - Fee Related
Patent Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5845476A (en) * | 1997-06-04 | 1998-12-08 | Kolmes; Nathaniel H. | Composite yarn with fiberglass core |
| CN1572930A (en) * | 2003-06-06 | 2005-02-02 | Api塞浦拉斯特公司 | Thread having properties of resistance to cutting |
| CN201172710Y (en) * | 2008-03-06 | 2008-12-31 | 邱甫林 | Two-for-one twisting composite twisting machine |
| CN101328637A (en) * | 2008-05-07 | 2008-12-24 | 鲁建国 | Dissimilar materials double-layer superpacket center thread and manufacturing method thereof |
| CN201313967Y (en) * | 2008-11-26 | 2009-09-23 | 杭州翔盛高强纤维材料股份有限公司 | Anti-cutting covered yarn |
| CN102227523A (en) * | 2008-12-03 | 2011-10-26 | 株式会社梅信 | Stretch yarn including metal filament and textile product comprising yarn |
| CN101597824A (en) * | 2009-07-02 | 2009-12-09 | 浙江情怡袜业有限公司 | High-strength high-modulus polyethylene fiber/polyurethane covered yarn and adopt the high-performance protective socks of this covering filament |
| CN101718017A (en) * | 2009-11-17 | 2010-06-02 | 宓耀明 | Processing device and processing process of double-wrapping purl |
| CN201905277U (en) * | 2010-12-23 | 2011-07-27 | 陈国平 | High-strength anti-cutting safety gloves |
| CN202865477U (en) * | 2012-09-27 | 2013-04-10 | 杭州翔盛高强纤维材料股份有限公司 | Multi-difference composite cutting prevention wrapped yarn device |
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Effective date of registration: 20181217 Address after: 311245 Shanbei Village, Guali Town, Xiaoshan District, Hangzhou City, Zhejiang Province Patentee after: Hangzhou Xiangsheng New Materials Co., Ltd. Address before: 311245 Shanbei Village, Dangshan Town Industrial Park, Xiaoshan District, Hangzhou City, Zhejiang Province Patentee before: Hangzhou Xiangsheng High Strength Fiber Material Inc. |
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