CN102385961B - Twisting machine - Google Patents

Twisting machine Download PDF

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Publication number
CN102385961B
CN102385961B CN 201110365137 CN201110365137A CN102385961B CN 102385961 B CN102385961 B CN 102385961B CN 201110365137 CN201110365137 CN 201110365137 CN 201110365137 A CN201110365137 A CN 201110365137A CN 102385961 B CN102385961 B CN 102385961B
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CN
China
Prior art keywords
winding displacement
main shaft
cable
wheel
strand
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CN 201110365137
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Chinese (zh)
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CN102385961A (en
Inventor
白建国
李鹏
陈静
王国强
竺永宏
朱江南
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Zhejiang Yizhou Electronic Technology Co Ltd
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Zhejiang Yizhou Electronic Technology Co Ltd
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Priority to CN 201110365137 priority Critical patent/CN102385961B/en
Publication of CN102385961A publication Critical patent/CN102385961A/en
Application granted granted Critical
Publication of CN102385961B publication Critical patent/CN102385961B/en
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Classifications

    • DTEXTILES; PAPER
    • D07ROPES; CABLES OTHER THAN ELECTRIC
    • D07BROPES OR CABLES IN GENERAL
    • D07B3/00General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material
    • D07B3/08General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material in which the take-up reel rotates about the axis of the rope or cable or in which a guide member rotates about the axis of the rope or cable to guide the rope or cable on the take-up reel in fixed position and the supply reels are fixed in position
    • D07B3/10General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material in which the take-up reel rotates about the axis of the rope or cable or in which a guide member rotates about the axis of the rope or cable to guide the rope or cable on the take-up reel in fixed position and the supply reels are fixed in position with provision for imparting more than one complete twist to the ropes or cables for each revolution of the take-up reel or of the guide member
    • DTEXTILES; PAPER
    • D07ROPES; CABLES OTHER THAN ELECTRIC
    • D07BROPES OR CABLES IN GENERAL
    • D07B2207/00Rope or cable making machines
    • D07B2207/20Type of machine
    • D07B2207/207Sequential double twisting devices

Abstract

The invention belongs to the technical field of machinery and provides a twisting machine. The twisting machine comprises a pay-off mechanism, a take-up mechanism and a traction mechanism, wherein the take-up mechanism also comprises a stander and a machine seat; the stander is arranged on the machine seat; a wire inlet main shaft part and a wire outlet main shaft part are arranged on the left side and the right side of the stander respectively; a second cradle component is arranged between the wire inlet main shaft part and the wire outlet main shaft part; the second cradle component comprises a twisting arch, a wire spool and a wire discharging part; a twisted cable led out by the pay-off mechanism is further twisted into a twisted cable which has a four-time twist pitch through the twisting arch in the second cradle component; and the further twisted cable on the wire arranging part is conveyed and tidily distributed on the wire spool. The twisting machine has the advantages that: the twisted cable can be further twisted into the twisted cable which has the four-time twist pitch, so the processing working efficiency is improved; as the parts are coordinated with one another to drag the cable, so the transmission stability is high; and the cable cannot be damaged during processing, so the quality reliability of a processed product is guaranteed.

Description

A kind of pairing device
Technical field
The invention belongs to field of mechanical technique, relate to the equipment of a kind of processing cable or cable, be specifically related to a kind of pairing device.
Background technology
Power cable and communication cable are the second largest pillar products of China's exported product, big cable by many or many to little cable with certain stranded forming of spiral distance, with the counter-bending ability of improving cable and the antijamming capability that improves electronic signal, just use and give birth in order to stranded machine like this, the shortcoming of existing pairing device maximum twist to the time can only reach three times when maximum and turn round, therefore operating efficiency is relatively low, and tension force is also unstable in the process of processing, poor stability, in the process of processing, cable is caused damage easily, in addition when twisting two kinds of different wire rods, because stressed difference, the cable that processes can not use.
Summary of the invention
Technical problem to be solved by this invention is the present situation at prior art, and provides a kind of Stability Analysis of Structures reliable, the pairing device of high efficiency.
The present invention solves the problems of the technologies described above the technical scheme that adopts: in a kind of pairing device, it is characterized in that, comprise payingoff mechanism, take-up mechanism and haulage gear, the motion of haulage gear tractive cable, described take-up mechanism also comprises frame and support, frame is arranged on the support, the left side of described frame and right side are respectively arranged with lambda line spindle unit and outlet spindle unit, between lambda line spindle unit and outlet spindle unit, be provided with second cradle assemblies, described second cradle assemblies includes the strand bow that is symmetrically distributed between lambda line spindle unit and the outlet spindle unit, wire spool and winding displacement parts, through one-tenth share of cable that payingoff mechanism is drawn through the lambda line spindle unit again the bow of the strand in second cradle assemblies further be twisted into the one-tenth share of cable with four times of twisting distances, carry the one-tenth share of cable that will twist on the winding displacement parts good fitly to be arranged on the wire spool then.
The measure of taking for the optimization such scheme specifically comprises:
In above-mentioned a kind of pairing device, described lambda line spindle unit comprises the lambda line main shaft and goes into wire carrier, describedly go into wire carrier and be arranged between lambda line main shaft and the strand bow, described outlet spindle unit comprises outlet main shaft and outgoing line guide wheel, outgoing line guide wheel is arranged between outlet main shaft and the strand bow, on support, also be provided with synchronizing shaft and driving motor, described driving motor links to each other by band transmission synchronously with the outlet main shaft, the outlet main shaft links to each other by band transmission synchronously with synchronizing shaft, and described lambda line main shaft links to each other with synchronizing shaft by being with synchronously.Equally here, because driving motor is connected with the outlet main shaft with the lambda line main shaft by synchronous band, has so just driven and twisted the bow rotation, thereby cable has been twisted becoming thigh, guaranteed the synchronism of rotation in addition again by synchronizing shaft, be conducive to strand and bend the stable rotation operation.
In above-mentioned a kind of pairing device, described second cradle assemblies also includes coiling installing rack and coiling electric motor, coiling installing rack middle part is provided with rotation axis, wire spool is arranged on the rotation axis, described winding displacement parts are provided with the top of coiling installing rack, be provided with the transition connecting axle at the coiling installing rack, described coiling electric motor is connected with the winding displacement parts by connecting band and drives the transverse movement of winding displacement parts, described coiling electric motor is connected with the transition connecting axle by connecting band, and the transition connecting axle is connected with rotation axis by connecting band.Here drive the winding displacement parts simultaneously by coiling electric motor and carry out horizontal side-to-side movement, drive the wire spool rotation simultaneously, will become share of cable to be arranged on the wire spool equably on the winding displacement parts.
In above-mentioned a kind of pairing device, described winding displacement parts comprise moving member, break-in wheel, cable guide pulley and winding displacement rotation axis, described break-in wheel and cable guide pulley all are fixed on the moving member, moving member is set on the winding displacement rotation axis, coiling electric motor is connected with the winding displacement rotation axis by connecting band and drives the rotation of winding displacement rotation axis, and moving member is done horizontal side-to-side movement along the winding displacement rotation axis.Here break-in wheel mainly is the wire rod coiling direction to be carried out break-in make the cable and the wire spool that come out at last keep vertical direction, the winding operation of conveniently arranging.
In above-mentioned a kind of pairing device, the exit of described outlet main shaft is disposed with directive wheel from bottom to top, tension force control wheel and winding displacement traction wheel, described one-tenth share of cable is incorporated on the winding displacement parts through tension force control wheel and winding displacement traction wheel through directive wheel again, is provided with the middle part traction electric machine between directive wheel, tension force control wheel and winding displacement traction wheel.Here tension force control wheel can be controlled according to the size of tension force, makes cable guarantee certain expanding force, thereby conveniently twists the one-tenth thigh, and directive wheel and winding displacement traction wheel are conducive to guarantee the uniform tension force of cable, prevent from breaking in the course of processing cable.
In above-mentioned a kind of pairing device, be provided with strand to disk between described lambda line main shaft, outlet main shaft and the strand bow, strand is provided with compressing tablet to disk, and the strand bow is fixed on strand on the disk by compressing tablet.Same by twisting disk and compressing tablet installation strand bow, guaranteed the fastness after strand is bent installation.
In above-mentioned a kind of pairing device, also be provided with under the described support for the Lift Part of regulating height.Here can regulate height automatically by the Lift Part of bottom, make payingoff mechanism and take-up mechanism be in same horizontal plane place.
In above-mentioned a kind of pairing device, described payingoff mechanism comprises frame and support, frame is arranged on the support, the left side of described frame and right side are respectively arranged with forward spindle parts and back spindle unit, between forward spindle parts and back spindle unit, be provided with first cradle assemblies, described first cradle assemblies includes strand bow and the draw drum that is symmetrically distributed between forward spindle parts and the back spindle unit, cable is placed in the draw drum, and carry out unwrapping wire by draw drum, strand in first cradle assemblies bow is twisted into the one-tenth share of cable with twice twisting distance again, is transported at last and carries out take-up in the take-up mechanism.
In above-mentioned a kind of pairing device, described forward spindle parts comprise forward spindle and front jocket wheel, described front jocket wheel is arranged between forward spindle and the strand bow, described back spindle unit comprises back main shaft and back guide wheel, back guide wheel is arranged between back main shaft and the strand bow, support is provided with synchronizing shaft and driving motor, described driving motor links to each other by band transmission synchronously with the back main shaft, back main shaft links to each other by band transmission synchronously with synchronizing shaft, and described forward spindle links to each other with synchronizing shaft by being with synchronously.Here because driving motor is connected by synchronous band and forward spindle and back main shaft, so just driven the rotation of strand bow, thus with the cable strand to becoming strand, guaranteed the synchronism of rotation in addition again by synchronizing shaft, be conducive to twist and bend stable rotation and move.
In above-mentioned a kind of pairing device, have the spatial accommodation of placing for cable in the described draw drum, draw drum is provided with lid, and cable is fixed by lid after being placed on spatial accommodation.When carrying out wiring, need only lid is opened, the cable of packing into, fixed cover gets final product then, and is convenient and swift.
In above-mentioned a kind of pairing device, described draw drum comprises first draw drum and second draw drum, be connected with the first unwrapping wire motor that drive first draw drum carries out unwrapping wire at first draw drum, be connected with the second unwrapping wire motor that drive second draw drum carries out unwrapping wire at second draw drum, be provided with the outlet traction wheel of being made up of a plurality of trundles on the afterbody of described first draw drum and second draw drum, second draw drum is provided with directive wheel.Here pass from its afterbody after in draw drum, fixing cable, and through the traction of outlet traction wheel, carry out unwrapping wire by the rotation of unwrapping wire driven by motor draw drum then.
In above-mentioned a kind of pairing device, be provided with strand to disk between described forward spindle, back main shaft and the strand bow, strand is provided with compressing tablet to disk, and the strand bow is fixed on strand on the disk by compressing tablet.Here by strand disk and compressing tablet are installed the strand bow, guaranteed the fastness after the strand bow is installed.
Compared with prior art, the invention has the advantages that and cable can be twisted into the one-tenth share of cable with four times of twisting distances, improved the processing operating efficiency, the traction cable because each parts cooperatively interact, transmission stability is good, can not cause damage to cable in the process of processing, guarantee the reliability of converted products.
Description of drawings
Fig. 1 is the structural representation of payingoff mechanism in this pairing device;
Fig. 2 is the backsight structural representation of Fig. 1;
Fig. 3 is the perspective view of Fig. 1;
Fig. 4 is the structural representation of take-up mechanism in this pairing device;
Fig. 5 is the backsight structural representation of Fig. 4;
Fig. 6 is the perspective view of Fig. 5;
Fig. 7 is the left TV structure schematic diagram of Fig. 4.
Embodiment
Below be specific embodiments of the invention and 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.
Among the figure, payingoff mechanism 1; Take-up mechanism 2; Lift Part 3; Frame 4; Support 5; Forward spindle parts 6; Forward spindle 6a; Front jocket wheel 6b; Back spindle unit 7; Back main shaft 7a; Back guide wheel 7b; First cradle assemblies 8; Strand bow 9; Draw drum 10; The first draw drum 10a; The second draw drum 10b; Synchronizing shaft 11; Driving motor 12; Be with 13 synchronously; Lid 14; The first unwrapping wire motor 15; The second unwrapping wire motor 16; Outlet traction wheel 17; Directive wheel 18; Strand is to disk 19; Compressing tablet 20; Lambda line spindle unit 21; Lambda line main shaft 21a; Go into wire carrier 21b; Outlet spindle unit 22; Outlet main shaft 22a; Outgoing line guide wheel 22b; Second cradle assemblies 23; Wire spool 24; Winding displacement parts 25; Coiling installing rack 26; Coiling electric motor 27; Rotation axis 28; Transition connecting axle 29; Connecting band 30; Moving member 31; Break-in wheel 32; Cable guide pulley 33; Winding displacement rotation axis 34; Tension force control wheel 35; Winding displacement traction wheel 36; Middle part traction electric machine 37.
As shown in Figure 1 and Figure 4, this pairing device mainly comprises payingoff mechanism 1, take-up mechanism 2 and haulage gear 3, the motion of haulage gear 3 tractive cables, and payingoff mechanism 1 carries out unwrapping wire, and take-up mechanism 2 carries out take-up.
As shown in Figures 2 and 3, specifically, payingoff mechanism 1 comprises frame 4 and support 5, frame 4 is arranged on the support 5, the left side of frame 4 and right side are respectively arranged with forward spindle parts 6 and back spindle unit 7, between forward spindle parts 6 and back spindle unit 7, be provided with first cradle assemblies 8, first cradle assemblies 8 includes strand bow 9 and the draw drum 10 that is symmetrically distributed between forward spindle parts 6 and the back spindle unit 7, forward spindle parts 6 comprise forward spindle 6a and front jocket wheel 6b, front jocket wheel 6b is arranged between forward spindle 6a and the strand bow 9, back spindle unit 7 comprises back main shaft 7a and back guide wheel 7b, forward spindle 6a, be provided with strand to disk 19 between back main shaft 7a and the strand bow 9, strand is provided with compressing tablet 20 to disk 19, strand bow 9 is fixed on strand on the disk 19 by compressing tablet 20, here by strand disk 19 and compressing tablet 20 are installed strand bow 9, guaranteed the fastness after strand bow 9 is installed.
Back guide wheel 7b is arranged between back main shaft 7a and the strand bow 9, support 5 is provided with synchronizing shaft 11 and driving motor 12, driving motor 12 links to each other by being with 13 transmissions synchronously with back main shaft 7a, back main shaft 7a links to each other by being with 13 transmissions synchronously with synchronizing shaft 11, forward spindle 6a is by being with 13 to link to each other with synchronizing shaft 11 synchronously, here since driving motor 12 by being with 13 to be connected with back main shaft 7a with forward spindle 6a synchronously, 9 rotations of strand bow have so just been driven, thereby cable is twisted becoming thigh, guarantee the synchronism of rotation in addition again by synchronizing shaft 11, be conducive to the operation of strand bow 9 stable rotation.
Draw drum 10 comprises the first draw drum 10a and the second draw drum 10b, be connected with the first unwrapping wire motor 15 that the drive first draw drum 10a carries out unwrapping wire at the first draw drum 10a, be connected with the second unwrapping wire motor 16 that the drive second draw drum 10b carries out unwrapping wire at the second draw drum 10b, be provided with the outlet traction wheel of being formed by a plurality of trundles 17 on the afterbody of the first draw drum 10a and the second draw drum 10b, the second draw drum 10b is provided with directive wheel 18, here pass from its afterbody after in draw drum 10, fixing cable, and through 17 tractions of outlet traction wheel, carry out unwrapping wire by 10 rotations of unwrapping wire driven by motor draw drum then.
Have the spatial accommodation of placing for cable in the draw drum 10, draw drum 10 is provided with lid 14, as long as lid 14 is opened, the cable of packing into, cable are fixed by lid 14 after being placed on spatial accommodation, and be convenient and swift when carrying out wiring.
As Fig. 4, Fig. 5, Fig. 6 and shown in Figure 7, take-up mechanism 2 also comprises frame 4 and support 5, and frame 4 is arranged on the support 5, and support also is provided with for 5 times for the Lift Part 3 of regulating height.Here can regulate height automatically by the Lift Part 3 of bottom, make payingoff mechanism 1 and take-up mechanism 2 be in same horizontal plane place.
The left side of frame 4 and right side are respectively arranged with lambda line spindle unit 21 and outlet spindle unit 22, between lambda line spindle unit 21 and outlet spindle unit 22, be provided with second cradle assemblies 23, second cradle assemblies 23 includes the strand bow 9 that is symmetrically distributed between lambda line spindle unit 21 and the outlet spindle unit 22, wire spool 24 and winding displacement parts 25, lambda line spindle unit 21 comprises lambda line main shaft 21a and goes into wire carrier 21b, going into wire carrier 21b is arranged between lambda line main shaft 21a and the strand bow 9, outlet spindle unit 22 comprises outlet main shaft 22a and outgoing line guide wheel 22b, lambda line main shaft 21a, be provided with strand to disk 19 between outlet main shaft 22a and the strand bow 9, strand is provided with compressing tablet 20 to disk 19, strand bow 9 is fixed on strand on the disk 19 by compressing tablet 20, same by twisting disk 19 and compressing tablet 20 installation strand bows 9, guaranteed the fastness after strand is bent 9 installations.
Outgoing line guide wheel 22b is arranged between outlet main shaft 22a and the strand bow 9, on support 5, also be provided with synchronizing shaft 11 and driving motor 12, driving motor 12 links to each other by being with 13 transmissions synchronously with outlet main shaft 22a, outlet main shaft 22a links to each other by being with 13 transmissions synchronously with synchronizing shaft 11, lambda line main shaft 21a is by being with 13 to link to each other with synchronizing shaft 11 synchronously, because driving motor 12 is by being with 13 to be connected with outlet main shaft 22a with lambda line main shaft 21a synchronously, 9 rotations of strand bow have so just been driven, thereby cable is twisted becoming thigh, guarantee the synchronism of rotation in addition again by synchronizing shaft 11, be conducive to the operation of strand bow 9 stable rotation.
Second cradle assemblies 23 also includes coiling installing rack 26 and coiling electric motor 27, coiling installing rack 26 middle parts are provided with rotation axis 28, wire spool 24 is arranged on the rotation axis 28, winding displacement parts 25 are provided with the top of coiling installing rack 26, be provided with transition connecting axle 29 at coiling installing rack 26, coiling electric motor 27 is connected with winding displacement parts 25 by connecting band 30 and drives 25 transverse movements of winding displacement parts, coiling electric motor 27 is connected with transition connecting axle 29 by connecting band 30, transition connecting axle 29 is connected with rotation axis 28 by connecting band 30, here drive winding displacement parts 25 simultaneously by coiling electric motor 27 and carry out horizontal side-to-side movement, drive wire spool 24 rotations simultaneously, will become share of cable to be arranged in equably on the wire spool 24 on the winding displacement parts 25.
Winding displacement parts 25 comprise moving member 31, break-in wheel 32, cable guide pulley 33 and winding displacement rotation axis 34, break-in wheel 32 and cable guide pulley 33 all are fixed on the moving member 31, moving member 31 is set on the winding displacement rotation axis 34, coiling electric motor 27 is connected with winding displacement rotation axis 34 by connecting band 30 and drives 34 rotations of winding displacement rotation axis, moving member 31 is done horizontal side-to-side movement along winding displacement rotation axis 34, here break-in wheel 32 mainly is the wire rod coiling direction to be carried out break-in make the cable and the wire spool 24 that come out at last keep vertical direction, the winding operation of conveniently arranging.
The exit of outlet main shaft 22a is disposed with directive wheel 18 from bottom to top, tension force control wheel 35 and winding displacement traction wheel 36, become share of cable to be incorporated on the winding displacement parts 25 through tension force control wheel 35 and winding displacement traction wheel 36 again through directive wheel 18, at directive wheel 18, be provided with middle part traction electric machine 37 between tension force control wheel 35 and the winding displacement traction wheel 36, here tension force control wheel 35 can be controlled according to the size of tension force, make cable guarantee certain expanding force, thereby conveniently twist becoming thigh, and directive wheel 18 and winding displacement traction wheel 36 are conducive to guarantee the uniform tension force of cable, prevent from breaking in the course of processing cable.
During work cable is placed in the draw drum 10, and carry out unwrapping wire by draw drum 10, strand in first cradle assemblies 8 bow 9 is twisted into the one-tenth share of cable with twice twisting distance again, be transported to then and carry out take-up in the take-up mechanism 2, through one-tenth share of cable that payingoff mechanism 1 is drawn through lambda line spindle unit 21 again the bow of the strand in second cradle assemblies 23 9 further be twisted into the one-tenth share of cable with four times of twisting distances, carry then will twist on the winding displacement parts 25 good one-tenth share of cable fitly is arranged on the wire spool 24 and can finish whole steps.
Specific embodiment described herein only is that the present invention's spirit is illustrated.Those skilled in the art can make various modifications or replenish or adopt similar mode to substitute described specific embodiment, but can't depart from the defined scope of spirit of the present invention.

Claims (4)

1. pairing device, it is characterized in that, comprise payingoff mechanism (1), take-up mechanism (2) and haulage gear, the motion of haulage gear tractive cable, described take-up mechanism (2) also comprises frame (4) and support (5), frame (4) is arranged on the support (5), the left side of described frame (4) and right side are respectively arranged with lambda line spindle unit (21) and outlet spindle unit (22), between lambda line spindle unit (21) and outlet spindle unit (22), be provided with second cradle assemblies (23), described second cradle assemblies (23) includes the strand bow (9) that is symmetrically distributed between lambda line spindle unit (21) and the outlet spindle unit (22), wire spool (24) and winding displacement parts (25), through one-tenth share of cable that payingoff mechanism (1) is drawn through lambda line spindle unit (21) again the bow of the strand in second cradle assemblies (23) (9) further be twisted into one-tenth 10 shares of cable with four times of twisting distances, carry then will twist on the winding displacement parts (25) good one-tenth share of cable fitly is arranged on the wire spool (24); Described lambda line spindle unit (21) comprises lambda line main shaft (21a) and goes into wire carrier (21b), describedly go into wire carrier (21b) and be arranged between lambda line main shaft (21a) and the strand bow (9), described outlet spindle unit (22) comprises outlet main shaft (22a) and outgoing line guide wheel (22b), outgoing line guide wheel (22b) is arranged between outlet main shaft (22a) and the strand bow (9), on support (5), also be provided with synchronizing shaft (11) and driving motor (12), described driving motor (12) links to each other by band (13) transmission synchronously with outlet main shaft (22a), outlet main shaft (22a) links to each other by band (13) transmission synchronously with synchronizing shaft (11), and described lambda line main shaft (21a) links to each other with synchronizing shaft (11) by being with (13) synchronously; Described second cradle assemblies (23) also includes coiling installing rack (26) and coiling electric motor (27), coiling installing rack (26) middle part is provided with rotation axis (28), wire spool (24) is arranged on the rotation axis (28), described winding displacement parts (25) are provided with the top of coiling installing rack (26), be provided with transition connecting axle (29) at coiling installing rack (26), described coiling electric motor (27) is connected with winding displacement parts (25) by connecting band (30) and drives winding displacement parts (25) transverse movement, described coiling electric motor (27) is connected with transition connecting axle (29) by connecting band (30), and transition connecting axle (29) is connected with rotation axis (28) by connecting band (30).
2. a kind of pairing device according to claim 1, it is characterized in that, described winding displacement parts (25) comprise moving member (31), break-in wheel (32), cable guide pulley (33) and winding displacement rotation axis (34), described break-in wheel (32) and cable guide pulley (33) all are fixed on the moving member (31), moving member (31) is set on the winding displacement rotation axis (34), coiling electric motor (27) is connected with winding displacement rotation axis (34) by connecting band (30) and drives winding displacement rotation axis (34) rotation, and moving member (31) is done horizontal side-to-side movement along winding displacement rotation axis (34).
3. a kind of pairing device according to claim 2, it is characterized in that, the exit of described outlet main shaft (22a) is disposed with directive wheel (18) from bottom to top, tension force control wheel (35) and winding displacement traction wheel (36), described one-tenth share of cable is incorporated on the winding displacement parts (25) through tension force control wheel (35) and winding displacement traction wheel (36) through directive wheel (18) again, is provided with middle part traction electric machine (37) between directive wheel (18), tension force control wheel (35) and winding displacement traction wheel (36).
4. a kind of pairing device according to claim 3, it is characterized in that, be provided with strand to disk (19) between described lambda line main shaft (21a), outlet main shaft (22a) and the strand bow (9), strand is provided with compressing tablet (20) to disk (19), and strand bow (9) is fixed on strand on the disk (19) by compressing tablet (20); Also be provided with under the described support (5) for the Lift Part (3) of regulating height.
CN 201110365137 2011-11-17 2011-11-17 Twisting machine Active CN102385961B (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
CN 201110365137 CN102385961B (en) 2011-11-17 2011-11-17 Twisting machine

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CN102385961B true CN102385961B (en) 2013-08-21

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Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102646487B (en) * 2012-04-26 2013-07-31 浙江一舟电子科技股份有限公司 Wire rewinding mechanism for sheathed wire
CN103400659B (en) * 2013-07-23 2015-07-22 浙江一舟电子科技股份有限公司 Cabling pay-off machine with lifting structure
CN103366899B (en) * 2013-07-23 2015-10-07 浙江一舟电子科技股份有限公司 A kind of modified node method of pairing device unwrapping wire assembly
CN104658711A (en) * 2014-12-31 2015-05-27 东莞市操胜电线电缆设备有限公司 Novel dual wire twisting machine

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2075816U (en) * 1989-05-10 1991-04-24 徐明沂 Improved automatic wire winder
CN2676364Y (en) * 2004-01-17 2005-02-02 常州市汉鼎电工机械厂 Stranding wire advancing apparatus for stranding mechanism of wire cable stranding machine
CN2837999Y (en) * 2005-11-02 2006-11-15 上海伟业机电设备成套有限公司 Data cable strander
CN201732634U (en) * 2010-06-03 2011-02-02 东莞市精铁机械有限公司 Arched wire stranding and cabling machine with inclined wire threading pipes

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2075816U (en) * 1989-05-10 1991-04-24 徐明沂 Improved automatic wire winder
CN2676364Y (en) * 2004-01-17 2005-02-02 常州市汉鼎电工机械厂 Stranding wire advancing apparatus for stranding mechanism of wire cable stranding machine
CN2837999Y (en) * 2005-11-02 2006-11-15 上海伟业机电设备成套有限公司 Data cable strander
CN201732634U (en) * 2010-06-03 2011-02-02 东莞市精铁机械有限公司 Arched wire stranding and cabling machine with inclined wire threading pipes

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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: 315191, No. 31, North Road, Jiangshan Town, Yinzhou District, Zhejiang, Ningbo

Patentee before: ZHEJIANG SHIP ELECTRONIC TECHNOLOGY Co.,Ltd.