CN103956224A - Reversely-twisted cable winding device - Google Patents
Reversely-twisted cable winding device Download PDFInfo
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- CN103956224A CN103956224A CN201410152116.7A CN201410152116A CN103956224A CN 103956224 A CN103956224 A CN 103956224A CN 201410152116 A CN201410152116 A CN 201410152116A CN 103956224 A CN103956224 A CN 103956224A
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Abstract
The invention discloses a reversely-twisted cable winding device. The reversely-twisted cable winding device comprises a cable scattering frame and a plurality of cable winding frames. The cable scattering frame comprises a frame body and a plurality of cable scattering plates which are sequentially arranged on the frame body at intervals. Each cable scattering plate is provided with a framework penetrating hole and a plurality of cable penetrating holes evenly formed around the framework penetrating hole. In the cable winding direction, the areas of the framework penetrating holes in the cable scattering plates and the areas of the cable penetrating holes in the cable scattering plates gradually increase. The center points of the framework penetrating holes in all the cable scattering plates are located on the same axis, and the distances between the center points of the cable penetrating holes in the adjacent cable scattering plates in the cable winding direction and the distances between the center points of the framework penetrating holes in the adjacent cable scattering plates in the cable winding direction gradually increase. The outer side of the cable scattering plate at the foremost end is provided with a sensor for detecting the pitch positions of twisted cables. The reversely-twisted cables are gradually in a scattered state before entering the cable scattering frame, then can be well scattered by the cable scattering frame and enter the respective cable winding frames to be wound.
Description
Technical field
The present invention relates to twisted pair wire technical field, relate in particular to a kind of anti-strand twisted pair wire take-up.
Background technology
Twisted pair wire is a kind of transmission medium the most frequently used in generic cabling engineering.Twisted pair wire is twisted together mutually according to certain density by the copper conductor of two eradication edge conventionally, the degree of disturbing for reducing signal.One or more pairs of strands each other copper conductor has together formed pair twist cable.
Twisted pair wire is in preparation process now, conventionally adopt pairing device to complete automated production process, the Chinese patent " control device of wireless in a kind of pairing device and method " that for example publication number is CN103000307A, and the publication number Chinese patent " a kind of pairing device " that is CN102412030A.But after twisted pair wire has been produced, if when the performance of detection twisted pair wire is undesirable, whole dish twisted pair wire all can only be discarded.
Existing pairing device possesses positive and negative strand function, but how smoothly the sub-thread cable after anti-strand is back to former draw drum and becomes problem demanding prompt solution in former road.
Summary of the invention
Technical problem to be solved by this invention is, for the above-mentioned deficiency of prior art, proposes a kind of anti-strand twisted pair wire take-up that the twisted pair wire after instead twisting can be recycled to smoothly to take-up reel.
The present invention solves the technical scheme that its technical problem adopts, and proposes a kind of anti-strand twisted pair wire take-up, and it comprises dividing wire frame and multiple take-up stand; Described dividing wire frame comprises support body and is arranged at intervals at successively the multiple distributor plates on support body, the multiple cable perforation that are provided with skeleton perforation on each distributor plate and evenly arrange around skeleton perforation; Along take-up direction, the skeleton perforation on distributor plate and the area of cable perforation increase gradually; The central spot of the skeleton perforation on all distributor plates increases gradually on same axis and along cable perforation on the adjacent distributor plate of take-up direction and the central point distance of skeleton perforation; Distributor plate arranged outside is useful on the transducer that detects twisted pair wire pitch location foremost.
Further, on described dividing wire frame, be arranged at intervals with successively the first distributor plate and the second distributor plate, on described the first distributor plate, run through and be provided with junction pole, on described junction pole, be formed through cruciform skeleton perforation and be uniformly distributed in multiple first circular cable perforation of cross through hole surrounding; On described the second distributor plate, be formed with circular framework perforation and be uniformly distributed in multiple second circular cable perforation of circular framework perforation surrounding.
Further, the circle center line connecting of described multiple the first circular cable perforation forms the first square centered by cruciform skeleton perforation central point, described multiple the second circular cable perforation line forms the second square centered by the circular framework perforation center of circle, and the described second square length of side is greater than the first square length of side.
Further, described dividing wire frame also comprises branching wheel assembly, and described branching wheel assembly comprises a point thread fixing plate, is arranged at point cable branching wheel and the skeleton branching wheel in thread fixing plate outside; On described point of thread fixing plate, be formed with threading via hole, described cable branching wheel is arranged at the relative both sides of threading via hole, and described skeleton branching wheel is away from point thread fixing plate setting and skeleton branching wheel central axis and a threading via hole central axes.
Further, described take-up stand quantity is corresponding with number of cables and skeleton quantity sum after the anti-strand of twisted pair wire.
Further, described take-up stand comprises take-up fixed head, is arranged at the first threading wheel on take-up fixed head, is obliquely installed in the second threading wheel of the first threading wheel lower left, is arranged at the first threading and takes turns the 3rd right-hand threading wheel; Also comprise take-up reel, motor, drive, deflecting roller, driving wheel, transverse axis and transverse-moving mechanism; Described motor output shaft drives drive to rotate and drives take-up reel to rotate, and described deflecting roller diameter is less than drive diameter and is coaxially fixedly connected with drive; Described driving wheel is arranged at deflecting roller top and is diverted wheel and drives rotation; Described transverse axis be connected with driving wheel and along with driving wheel rotate and rotate; Described transverse-moving mechanism be arranged on transverse axis and along with transverse axis rotate and on transverse axis transverse shifting.
Further, on described take-up fixed head, be also provided with stabilizer and balancing pole, described balancing pole first end is arranged between stabilizer and take-up fixed head, and the second end is rotationally connected by bearing and take-up fixed head; On described balancing pole the second end, be also provided with balance weight, described balance weight comprises body and circular arc end, and described circular arc end diameter is greater than body width and described circular arc end and protrudes the length that the length of body uper side surface is less than described circular arc end and protrudes body downside surface; Described stabilizer comprises at least two balance wheels, and described the first threading wheel comprises at least two the first threading wheels.
Further, described the second threading wheel is fixed on take-up fixed head by hold-down support, described hold-down support comprises the first sub-portion being attached on take-up fixed head, by tilt upwardly extending the second sub-portion and be arranged at the second sub-portion end and the support column perpendicular to the second sub-portion of the first sub-portion.
Further, described transverse-moving mechanism comprise gear box, by gear box end face to the horizontally extending transition arm of take-up reel direction, the support arm by transition arm end tilts to downward-extension; On described support arm, be provided with at least two guide shafts, described at least two guide shafts are from top to bottom staggered.
Further, described transverse-moving mechanism also comprises by the outward extending fixed arm of support arm end horizontal, on described fixed arm, is fixed with guide shaft.
Further, described guide shaft comprises back shaft, ball and sleeve, and described sleeve is fixed on back shaft by ball is rotating.
The present invention is by arranging dividing wire frame and transducer being set on dividing wire frame, position by sensor sensing cable and then judge the pitch location of the cable of the anti-strand of pairing device, according to the speed of the anti-strand of pitch location control pairing device, thereby the cable that makes anti-strand can be good at being disperseed by dividing wire frame and the take-up stand that enters is separately collected in the state disperseing gradually before entering on dividing wire frame.
Brief description of the drawings
Fig. 1 is the anti-perspective view of twisting dividing wire frame in twisted pair wire take-up of the present invention;
Fig. 2 is the perspective view at another visual angle of Fig. 1 dividing wire frame;
Fig. 3 is the perspective view of junction pole in Fig. 1;
Fig. 4 is the anti-perspective view of twisting take-up stand in twisted pair wire take-up of the present invention;
Fig. 5 is the perspective view of transverse-moving mechanism in Fig. 4;
Fig. 6 is the perspective view at another visual angle in Fig. 5.
Embodiment
Be below specific embodiments of the invention by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.
In one embodiment of the invention, anti-strand twisted pair wire take-up comprises dividing wire frame and multiple take-up stand, dividing wire frame is for being separated into gradually sub-thread cable by the twisted pair wire of the anti-strand of pairing device, multiple take-up stands are corresponding to the sub-thread cable separating, for the sub-thread cable after separating is reclaimed and is wound to take-up reel.
Due to twisted pair wire strand to time, right according to certain pitch strand, also be the pair twist structure that twisted pair wire in fact exists multiple cycles, the speed that the pair twist structure that the anti-speed of twisting of pairing device can affect this cycle is untied, twist twisted pair wire if counter when by dividing wire frame the first distributor plate, pair twist structure is not yet untied, and the separated time hole that this pair twist structure can directly be blocked on the first distributor plate makes whole twisted pair wire separated time failure.
For addressing the above problem, in one embodiment of the invention, dividing wire frame comprises support body and is set in turn in the multiple distributor plates on support body, the multiple cable perforation that are provided with skeleton perforation on each distributor plate and evenly arrange around skeleton perforation; Along take-up direction, the skeleton perforation on distributor plate and the area of cable perforation increase gradually; The central spot of the skeleton perforation on all distributor plates increases gradually on same axis and along cable perforation on the adjacent distributor plate of take-up direction and the central point distance of skeleton perforation; Distributor plate outside is also provided with the transducer 1000 for detection of twisted pair wire pitch location foremost.
Skeleton refer to twisted pair wire strand to process in for stranded cable is separated in case the structure that stop signal is crosstalked, skeleton perforation is for by this skeleton.
Multiple distributor plates on dividing wire frame make each cable and the skeleton of the twisted pair wire of anti-strand be radial separated opening on the whole.
In addition, in order to make the anti-twisted pair wire that twists can pass through smoothly first distributor plate, i.e. distributor plate foremost, also keeps at a certain distance away and is provided with the transducer that detects twisted pair wire pitch location for detection of twisted pair wire in distributor plate outside foremost.When detecting that pitch location is forward or controlling that pairing device is accelerated or the anti-strand speed that slows down can be bored a hole skeleton and each sub-thread cable after anti-strand smoothly by skeleton perforation and cable on the first distributor plate when rear.
In order to detect more accurately the position of cable, also can on other distributor plates, also increase corresponding transducer.
Please refer to Fig. 1 to Fig. 3, on described dividing wire frame 100, be arranged at intervals with successively the first distributor plate 110 and the second distributor plate 120, on described the first distributor plate 110, run through and be provided with junction pole 111, on described junction pole 111, be formed through cruciform skeleton perforation 112 and be uniformly distributed in multiple first circular cable perforation 113 of cross through hole 112 surroundings; On described the second distributor plate 120, be formed with circular framework perforation 121 and be uniformly distributed in bore a hole multiple second circular cables perforation 122 of 121 surroundings of circular framework.
Due to the first distributor plate 110, for anti-strand twisted pair wire, whether accurately separated time is most important, in the present embodiment, on the first distributor plate 110, junction pole 111 is set, but not as the second distributor plate sample directly on the first distributor plate perforate form each perforation.
Junction pole 111 runs through the first distributor plate 110, and is formed through cruciform skeleton perforation 112 and is uniformly distributed in multiple first circular cable perforation 113 of cross through hole 112 surroundings; The shape of cruciform skeleton perforation 112 and the form fit of skeleton, disperse the shape of the sub-thread cable forming to match after the anti-strand of the shape of circular cable perforation 113 and twisted pair wire.Junction pole 111 not only plays separated time effect, also plays guide effect.
The second distributor plate 120 mainly plays separated time effect, for saving material, directly on the second distributor plate 120, offers each perforation.
Preferably, for making score line more even, the circle center line connecting of multiple the first circular cable perforation 113 forms the first square centered by cruciform skeleton is bored a hole 112 central points, described multiple the second circular cable 122 lines of boring a hole form the second square centered by circular framework is bored a hole 121 centers of circle, and the described second square length of side is greater than the first square length of side.
Dividing wire frame 100 also comprises branching wheel assembly, and branching wheel assembly comprises point thread fixing plate 130, is arranged at cable branching wheel 131 and the skeleton branching wheel 132 in point thread fixing plate 130 outsides; On described point of thread fixing plate, be formed with threading via hole 133, described cable branching wheel 131 is arranged at the relative both sides of threading via hole 133, and described skeleton branching wheel 132 arranges and skeleton branching wheel 132 central axis and threading via hole 133 central axes away from a point thread fixing plate 130.
The concrete structure of take-up stand is described in detail in detail below.
Please refer to Fig. 4-Fig. 6, in one embodiment of the invention, take-up stand 200 comprises take-up fixed head 210, be arranged at the first threading wheel 220 on take-up fixed head 210, be obliquely installed the second threading wheel 230 of taking turns 220 lower lefts in the first threading, be arranged at the first threading and take turns 220 the 3rd right-hand threading wheels 240; Also comprise take-up reel 250, motor 260, drive 270, deflecting roller 280, driving wheel 290, transverse axis 300 and transverse-moving mechanism 310.
Described motor output shaft drives drive 270 rotate and drive take-up reel 250 to rotate, and described deflecting roller 280 diameters are less than drive 270 diameters and are coaxially fixedly connected with drive 270; Described driving wheel 290 is arranged at deflecting roller 280 tops and is diverted wheel 280 and drives rotation; Described transverse axis 300 be connected with driving wheel 290 and along with driving wheel rotate and rotate; Described transverse-moving mechanism 310 be arranged on transverse axis 300 and along with transverse axis rotate and on transverse axis transverse shifting.
Sub-thread cable after separated time or skeleton are wound to take-up reel 250 successively after the second threading wheel 230, the first threading wheel 220, the 3rd threading wheel 240 and transverse-moving mechanism 310.Motor 260 drive take-up reel 250 drive while rotating simultaneously transverse-moving mechanism 310 on transverse axis 300 mobile make sub-thread cable or skeleton can uniform winding on the surface of take-up reel 250.
In order to make take-up more smooth, reduce knotting phenomenon, on take-up fixed head 210, be also provided with stabilizer 400 and balancing pole 410, described balancing pole 410 first ends are arranged between stabilizer 400 and take-up fixed head 210, and the second end is rotationally connected by bearing and take-up fixed head 210; On described balancing pole the second end, be also provided with balance weight 420, described balance weight 420 comprises body 421 and circular arc end 422, and described circular arc end diameter is greater than body width and described circular arc end and protrudes the length that the length of body uper side surface is less than described circular arc end and protrudes body downside surface; Described stabilizer 400 comprises at least two balance wheels 401, and described the first threading wheel 220 comprises at least two the first threading wheels 221.
Be provided with after stabilizer and balancing pole, sub-thread cable after separated time or skeleton are first by the second threading wheel 230, then by a wherein balance wheel 401 of stabilizer 400, then take turns 221 through wherein one first threading of the first threading wheel 220, then again take turns through another balance of stabilizer 400, then again take turns 221 through another the first threading of the first threading wheel 220, then again through being wound to take-up reel 250 after the 3rd threading wheel 240 and transverse-moving mechanism 310.
Stabilizer and balancing pole make cable in take-up process, have good tensile force, and once the anti-strand velocity variations of pairing device, thereby stabilizer can move up and down and makes the tensile force of cable adjusted, and cable knotting probability reduces greatly, and take-up is more smooth.
The second threading wheel 230 is fixed on take-up fixed head 210 by hold-down support 231, described hold-down support 231 comprises the first sub-portion 2311 being attached on take-up fixed head, by tilt upwardly extending the second sub-portion 2312 and be arranged at the second sub-portion end 2312 and the support column 2313 perpendicular to the second sub-portion 2312 of the first sub-portion 2311.
Transverse-moving mechanism 310 comprises gear box 311, by gear box 311 end faces to the horizontally extending transition arm 312 of take-up reel direction, the support arm 313 by transition arm 312 end tilts to downward-extension; On described support arm 313, be provided with at least two guide shafts 314, described at least two guide shafts 314 are from top to bottom staggered.
Further, described transverse-moving mechanism 310 also comprises by the outward extending fixed arm 315 of support arm 313 end horizontal, on described fixed arm 315, is fixed with guide shaft 314.
Guide shaft 314 comprises back shaft 3141, ball 3142 and sleeve 3143, and sleeve is fixed on back shaft by ball is rotating.
Sub-thread cable after separated time or skeleton are wound to successively take-up reel when through transverse-moving mechanism 310 after the guide shaft of cross arrangement again.The guide shaft of cross arrangement reduces the probability of cable knotting again, though transverse-moving mechanism when traversing, cable also can not be tied a knot.
Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendments or supplement or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.
Claims (10)
1. an anti-strand twisted pair wire take-up, is characterized in that: comprise dividing wire frame and multiple take-up stand; Described dividing wire frame comprises support body and is arranged at intervals at successively the multiple distributor plates on support body, the multiple cable perforation that are provided with skeleton perforation on each distributor plate and evenly arrange around skeleton perforation; Along take-up direction, the skeleton perforation on distributor plate and the area of cable perforation increase gradually; The central spot of the skeleton perforation on all distributor plates increases gradually on same axis and along cable perforation on the adjacent distributor plate of take-up direction and the central point distance of skeleton perforation; Distributor plate arranged outside is useful on the transducer that detects twisted pair wire pitch location foremost.
2. anti-strand twisted pair wire take-up according to claim 1, it is characterized in that: on described dividing wire frame, be arranged at intervals with successively the first distributor plate and the second distributor plate, on described the first distributor plate, run through and be provided with junction pole, on described junction pole, be formed through cruciform skeleton perforation and be uniformly distributed in multiple first circular cable perforation of cross through hole surrounding; On described the second distributor plate, be formed with circular framework perforation and be uniformly distributed in multiple second circular cable perforation of circular framework perforation surrounding.
3. anti-strand twisted pair wire take-up according to claim 2, it is characterized in that: the circle center line connecting of described multiple the first circular cable perforation forms the first square centered by cruciform skeleton perforation central point, described multiple the second circular cable perforation line forms the second square centered by the circular framework perforation center of circle, and the described second square length of side is greater than the first square length of side.
4. anti-strand twisted pair wire take-up according to claim 2, is characterized in that: described dividing wire frame also comprises branching wheel assembly, and described branching wheel assembly comprises a point thread fixing plate, is arranged at point cable branching wheel and the skeleton branching wheel in thread fixing plate outside; On described point of thread fixing plate, be formed with threading via hole, described cable branching wheel is arranged at the relative both sides of threading via hole, and described skeleton branching wheel is away from point thread fixing plate setting and skeleton branching wheel central axis and a threading via hole central axes.
5. anti-strand twisted pair wire take-up according to claim 1, is characterized in that: described take-up stand quantity is corresponding with number of cables and skeleton quantity sum after the anti-strand of twisted pair wire.
6. anti-strand twisted pair wire take-up according to claim 5, it is characterized in that: described take-up stand comprises take-up fixed head, be arranged at the first threading wheel on take-up fixed head, be obliquely installed in the second threading wheel of the first threading wheel lower left, be arranged at the first threading and take turns the 3rd right-hand threading wheel; Also comprise take-up reel, motor, drive, deflecting roller, driving wheel, transverse axis and transverse-moving mechanism; Described motor output shaft drives drive to rotate and drives take-up reel to rotate, and described deflecting roller diameter is less than drive diameter and is coaxially fixedly connected with drive; Described driving wheel is arranged at deflecting roller top and is diverted wheel and drives rotation; Described transverse axis be connected with driving wheel and along with driving wheel rotate and rotate; Described transverse-moving mechanism be arranged on transverse axis and along with transverse axis rotate and on transverse axis transverse shifting.
7. anti-strand twisted pair wire take-up according to claim 6, it is characterized in that: on described take-up fixed head, be also provided with stabilizer and balancing pole, described balancing pole first end is arranged between stabilizer and take-up fixed head, and the second end is rotationally connected by bearing and take-up fixed head; On described balancing pole the second end, be also provided with balance weight, described balance weight comprises body and circular arc end, and described circular arc end diameter is greater than body width and described circular arc end and protrudes the length that the length of body uper side surface is less than described circular arc end and protrudes body downside surface; Described stabilizer comprises at least two balance wheels, and described the first threading wheel comprises at least two the first threading wheels.
8. anti-strand twisted pair wire take-up according to claim 7, it is characterized in that: described the second threading wheel is fixed on take-up fixed head by hold-down support, described hold-down support comprises the first sub-portion being attached on take-up fixed head, by tilt upwardly extending the second sub-portion and be arranged at the second sub-portion end and the support column perpendicular to the second sub-portion of the first sub-portion.
9. anti-strand twisted pair wire take-up according to claim 6, is characterized in that: described transverse-moving mechanism comprises gear box, by gear box end face to the horizontally extending transition arm of take-up reel direction, the support arm by transition arm end tilts to downward-extension; On described support arm, be provided with at least two guide shafts, described at least two guide shafts are from top to bottom staggered.
10. anti-strand twisted pair wire take-up according to claim 9, is characterized in that: described transverse-moving mechanism also comprises by the outward extending fixed arm of support arm end horizontal, on described fixed arm, is fixed with guide shaft.
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CN201410152116.7A CN103956224B (en) | 2014-04-15 | 2014-04-15 | A kind of anti-strand twisted pair wire take-up |
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CN201410152116.7A CN103956224B (en) | 2014-04-15 | 2014-04-15 | A kind of anti-strand twisted pair wire take-up |
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CN103956224B CN103956224B (en) | 2016-06-29 |
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Cited By (2)
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CN105253707A (en) * | 2015-09-29 | 2016-01-20 | 浙江一舟电子科技股份有限公司 | Cable tightening device |
CN109319591A (en) * | 2018-10-07 | 2019-02-12 | 筑梦高科建筑有限公司 | A kind of prestress wire separation equipment |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI629230B (en) * | 2016-08-03 | 2018-07-11 | 冲壓精密工業股份有限公司 | Reel device |
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CN203826133U (en) * | 2014-04-15 | 2014-09-10 | 浙江一舟电子科技股份有限公司 | Reversed-twisted twisted-pair take-up device |
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Address after: 315191, No. 6, high voltage Road, Jiangshan Town, Ningbo, Zhejiang, Yinzhou District Patentee after: ZHEJIANG SHIP ELECTRONIC TECHNOLOGY Co.,Ltd. Address before: 315100, No. 31, North Road, Jiangshan Town, Yinzhou District, Zhejiang, Ningbo Patentee before: ZHEJIANG SHIP ELECTRONIC TECHNOLOGY Co.,Ltd. |