CN202394601U

CN202394601U - Three-wire stranding machine

Info

Publication number: CN202394601U
Application number: CN2011204908046U
Authority: CN
Inventors: 李东兴
Original assignee: SUZHOU CHAOLONG MACHINERY CO Ltd
Current assignee: SUZHOU CHAOLONG MACHINERY CO Ltd
Priority date: 2011-12-01
Filing date: 2011-12-01
Publication date: 2012-08-22
Anticipated expiration: 2021-12-01

Abstract

A three-wire stranding machine comprises a machine table, a stranding device, a pay-off device, a stranding eye mould and a driving device, wherein the stranding device, the pay-off device, the stranding eye mould and the driving device are arranged on the machine table, an outer first wire is fed by a first shaft of the stranding device, passes through an arm and a second shaft of the stranding device and penetrates into the stranding eye mould, two wire coils are assembled on the pay-off device in a rotatable mode, a second wire and a third wire on the wire coils respectively pass through two tension detection modules of the pay-off device and another arm and the second shaft of the stranding device and penetrates into the stranding eye mould, the tension detection modules detect the tension of the second wire and the third wire, according to detection results, two reduction modules of the pay-off device respectively control the pay-off speed of the wire coils, the tension of the wires is adjusted within a preset range, and the driving device is used for driving the pay-off device to rotate, so that the first wire, the second wire and the third wire are stranded into a strand of lead in the stranding eye module. The three-wire stranding machine improves lead quality, reduces cost and does not occupy area.

Description

Three-way stranding machine

Technical field

The utility model relates to a kind of stranding machine; Especially refer to a kind of distorting stress that can the tension adjustment of the wire rod before the twisted wire be produced in a scope and can eliminate the twisted wire operation time improving the quality of transmission line, and simple in structure, volume is little and the three-way stranding machine that can significantly reduce cost and not take up space.

Background technology

General traditional twisted wire operation mainly is to utilize at least two paying out machines that are assembled with drum to carry out unwrapping wire; And then the wire rod that those paying out machines are emitted imported carry out twisted wire in the stranding machine and form; And this known stranding machine; Announce shown in No. 269883 patent like TaiWan, China, just it mainly is after twisted wire is carried out in inside, the lead of accomplishing directly to be furled on its inner winding roll.Therefore; Its regular meeting when carrying out the twisted wire operation differs because of the payingoff speed of each paying out machine; And the tension force that causes each wire rod has sizable difference; The uneven situation of this tension force is prone to cause that lay changes greatly, the uneven problem of twisted wire degree of tightness, though this problem for before the wire influence that forms of two-wire material pair twist not quite.But in recent years because the development of computer science and technology; Just often require it need have quick, stable transmission speed and bigger transmission quantity for transmission line; Therefore for high efficiency and high-quality requirement, just need use three even the more leads that wire rod is twisted in response to this transmission line.Come the wire rod more than three is carried out the twisted wire operation by above-mentioned known stranding machine, then during its twisted wire the uneven lay that is produced of the tension force of each wire rod change greatly, the uneven problem of twisted wire degree of tightness, just can badly influence the efficiency of transmission and the quality of transmission line.

And; This known stranding machine is when carrying out the twisted wire operation to most wire rods; Can produce a distorting stress, this distorting stress can be present on the lead that its twisted wire accomplishes and furled on this winding roll, and so can badly influence twisted wire processing quality and this winding roll furl effect.Especially, when needing the lead severing this winding roll outside with rewinding when this winding roll is rolled up, this distorting stress can make the wire rod of this wire termination produce the situation of turn-back separation especially.

In addition, this known stranding machine needs cooperate most portions paying out machine to supply its wire rod in addition in the outside, just need cooperate the paying out machine more than three ones so then relatively when desire is carried out the twisted wire operation to the wire rod more than three.Therefore, not only equipment cost is very high for it, and this so many paying out machine taking up room very especially, and is not inconsistent economic benefit.

Summary of the invention

The utility model main purpose is to provide a kind of three-way stranding machine with effects such as improving wire quality, reduce cost and do not take up room.

Particularly, the said three-way stranding machine of the utility model comprises:

One board, inside have a room;

One stranded wire apparatus; Comprise one first, one second and two bow arms; This first and second rotatable respectively and be located in coaxially on the two side of this room, this first outer face has a line-entering hole and communicates with this room and supply one first wire rod of outside to wear, this outer face of second has three wire holes that are parallel to each other and communicate with this room; The two ends of this two bows arm are combined in respectively on this first and second axle, and each bow is interval with most wire assemblies on arm;

One actinobacillus device; Comprise a framework, two wire coil shafts, two tension force detecting modules and two slowdown modules; This framework be combined in rotationally this first and second the axle on; This two wire coil shaft is located on this framework rotationally and supplies to clamp two drums respectively; On this two drum respectively coiling have one second wire rod and one the 3rd wire rod, this two tension force detecting module to be located to supply respectively on this framework this second and third wire rod winding through and detect its tension force respectively, this two slowdown module is located at the payingoff speed of this two drum of rotating speed adjustment that sees through this two wire coil shaft of control on this framework;

One twisted wire eye mould is located on this board, and concentric ground is positioned at this outside of second;

One drive unit is located on this board and supplies to drive this first and second rotation, with this two bows arm of interlock in this actinobacillus device inner rotary; And

Wherein, This first wire rod passes wherein most wire assemblies of a bow arm after getting into this room by this line-entering hole; And then pass outside the room by a side wire hole; This second wire rod is through passing most wire assemblies of another bow arm behind the tension force detecting module wherein, and then passed outside the room by the wire hole of opposite side, and the 3rd wire rod is passed outside the room by central wire hole through behind another tension force detecting module; This first, second and third wire rod passes room and wore this twisted wire eye mould after outer, so cooperates this first and second rotation to make this first, second and third wire rod in this twisted wire eye mould, be twisted into one lead.

This actinobacillus device comprises that more two tension controllers are located on this framework; Supply to set respectively the desired tension value of this second and third wire rod; And receive the actual tension value of second and third wire rod that this two tension force detecting module detected, and according to the payingoff speed of this desired tension value and this this two drum of two slowdown modules adjustment of this actual tension value control.

This wire coil shaft comprises and is located at these framework two opposite sides and a coaxial folder axle and a dead axle rotationally that this folder axle has flexible this dead axle of spindle nose cooperation and clamps this drum, and this drum can freely be rotated to carry out the unwrapping wire operation on this framework.

This slowdown module comprises a gear wheel, a pinion and one speed reducer; This gear wheel is combined on this dead axle coaxially; This pinion be located in the rotating shaft of this decelerator and with this gear wheel engagement, this decelerator is located at and utilizes brake modes to see through the payingoff speed of this large and small this drum of gear control on this framework.

This decelerator utilizes the electromagnetic damping mode to reach brake deceleration.

This tension force detecting module comprises a support, a straining pulley, a tension force detector and two fabric wheels; This support is combined on this framework; This straining pulley is located on this tension force detector; This tension force detector is located at the power that presses down that can measure this straining pulley on this support, and this two fabric wheel is located on this support and is positioned at the two opposite sides of this straining pulley, and this wire rod is by the downside winding of the side fabric wheel upside to this straining pulley; And then winding is to the downside of the fabric wheel of opposite side, and this tension force detector detects the tension force of this wire rod by this straining pulley receives the pressing down power of this wire rod.

This tension force detecting module more comprises two guide rollers and two guide rods; This two guide roller is located on this support and lays respectively at the outside of this two fabric wheel; This two guide rod is located on this support and is parallel to each other; Wire rod on this drum is by the upside that extends to a side guide roller between this two guide rod, again around downside to the opposite side fabric wheel, this wire rod by the downside of opposite side fabric wheel around upside to the opposite side guide roller.

This inner face of first has one first axis hole; Has one first through hole that laterally runs through two sides and communicate on this first with this line-entering hole and this first axis hole; Be provided with one first guide wheel and one second guide wheel in this first through hole; On this framework place, the inner that should first is provided with one first wire leading wheel; This first wire rod is worn to this first through hole after by this first guide wheel winding in the wire assembly of this bow arm by this line-entering hole, this second wire rod through this tension force detecting module after pass this first axis hole to this first through hole by the downside of this first wire leading wheel, again by the upside winding of this second guide wheel to the wire assembly of another bow arm;

This inner face of second has one second axis hole; Has one second through hole that laterally runs through two sides and communicate on this second with these three wire holes and this second axis hole; Be provided with one the 3rd guide wheel and a four guide idler in this second through hole; On this framework place, the inner that should second is provided with one second wire leading wheel; This first wire rod is passed outside the room by a side wire hole to the 3rd guide wheel by the wire assembly winding of this bow arm again, and this second wire rod is passed outside the room by the opposite side wire hole to the 3rd guide wheel by the wire assembly winding of this another arm again, and the 3rd wire rod is through the downside of winding to this first wire leading wheel behind this tension force detecting module; Pass this second axis hole then to this second through hole, pass outside the room through the wire hole of central authorities by this second through hole again.

This first has one first shelf, and this second has one second shelf, and the two ends of this two bows arm are combined in respectively on this first and second shelf.

The outside of this board has a propelling sheave and supplies this first line of outside is just imported in this line-entering hole.

So, can be in a preset range, so that its lead that twists out has preferable quality by the cooperation of this two tension force detecting module and two slowdown modules with the tension adjustment of this first, second and third wire rod.And; The structural design of this first, second and third wire rod rotation by this stranded wire apparatus band to cooperate this twisted wire eye mould to carry out the twisted wire operation; Can when carrying out the twisted wire operation, eliminate this first and second, the torsion that produced during two wire rod unwrapping wire; And can eliminate the distorting stress that is produced when this first, second and third wire rod carries out twisted wire in this twisted wire eye mould, and make it can therefore have preferable quality.Particularly; Directly this actinobacillus device is located at and supplies the assembling of two drums in this board on it; Can effectively utilize the space of board especially, and also comparatively simple on the structure, and especially the outside only need cooperate a paying out machine can carry out the twisted wire operation of three wire rods; Therefore equipment cost can be significantly reduced, and also space hold can be reduced.

In the utility model; This actinobacillus device comprises that more two tension controllers are located on this framework; Can supply to set respectively the desired tension value of this second and third wire rod; And can receive the actual tension value of second and third wire rod that this two tension force detecting module detected, and adjust the payingoff speed of two drums according to this desired tension value and this two slowdown module of this actual tension value control.

The annex explanation

Fig. 1 is the front side sketch map of the utility model internal structure.

Fig. 2 is the schematic top plan view of the utility model internal structure.

Three-dimensional enlarged diagram when Fig. 3 is unkitted drum for the utility model actinobacillus device.

Three-dimensional enlarged diagram when Fig. 4 is equipped with drum for the utility model intersection device.

Fig. 5 is the front side enlarged diagram of the utility model actinobacillus device.

Fig. 6 is the enlarged diagram of overlooking of the utility model actinobacillus device.

Fig. 7 is the three-dimensional enlarged diagram of the utility model actinobacillus device opposite side.

Label declaration:

Board 1; Room 10;

Propelling sheave 11; Stranded wire apparatus 2;

First 20; First through hole 200;

Line-entering hole 201; First axis hole 202;

First shelf 203; First guide wheel 204;

Second guide wheel 205; Second 21;

Second through hole 210; Wire hole 211;

Second axis hole 212; Second shelf 213;

The 3rd guide wheel 214; Four guide idler 215;

Bow arm 22; Wire assembly 220;

Actinobacillus device 3; Framework 30;

First wire leading wheel 300; Second wire leading wheel 301;

Wire coil shaft 31; Folder axle 310;

Dead axle 311; Flexible spindle nose 312;

Tension force detecting module 32; Support 320;

Straining pulley 321; Tension force detector 322;

Fabric wheel 323; Guide roller 324;

Guide rod 325; Slowdown module 33;

Gear wheel 330; Pinion 331;

Decelerator 332; Tension controller 34;

Twisted wire eye mould 4; Drive unit 5;

Drum 6; The first wire rod a1;

The second wire rod a2; The 3rd wire rod a3;

Lead a.

Embodiment

See also Fig. 1-shown in Figure 7, the said three-way stranding machine of the utility model comprises a board 1, a stranded wire apparatus 2, an actinobacillus device 3, a twisted wire eye mould 4, a drive unit 5.Wherein:

The inside of this board 1 has a room 10, has a propelling sheave 11 on the lateral wall of left side, can supply among this board 1 of first wire rod a1 importing with an outside paying out machine (not shown).

This stranded wire apparatus 2 comprises:

One first 20; Be located in the left side wall of this room 10 rotationally and extend through the outside of this board 1; This first 20 has one first through hole 200, a line-entering hole 201, one first axis hole 202 and one first shelf 203, and this first through hole 200 laterally runs through this first 20 and be arranged in this room 10, in this first through hole 200, is provided with one first guide wheel 204 and one second guide wheel 205; This line-entering hole 201 penetrates into this first through hole 200 by this left side of first 20; This first axis hole 202 penetrates into this first through hole 200 by this right side of first 20, and this first shelf 203 is arranged in this room 10, and is positioned at the left side of this first through hole 200;

One second 21; Be located in the right side wall of this room 10 rotationally and extend through the outside of this board 1; This second 21 has one second through hole 210, three wire holes 211, one second axis hole 212 and one second shelves 213; This second through hole 210 laterally runs through this second 21 and be arranged in this room 10, in this second through hole 210, is provided with one the 3rd guide wheel 214 and a four guide idler 215, and these three wire holes 211 penetrate into this second through hole 210 by this right side of second 21; And be parallel to each other and be a straight line and arrange; This second axis hole 212 penetrates into this second through hole 210 by this left side of second 21, and this second shelf 213 is arranged in this room 10, and is positioned at the right side of this second through hole 210;

Two bow arms 22 are located among this room 10 with being symmetry status, and the two ends of this two bows arm 22 are combined in respectively on this first and second shelf 203,213, and each bends on arm 22 and is interval with most wire assemblies 220.

This actinobacillus device 3 comprises:

One framework 30, rectangular and short frame bars two opposite sides are combined in this right part of first 20 and this left part of second 21 respectively rotationally, on the medial surface of these two short frame bars, are respectively equipped with one first wire leading wheel 300 and one second wire leading wheel 301;

Two wire coil shafts 31; Can supply to clamp two drums 6 respectively on the parallel two long frame bars that are located at this framework 30; Coil respectively on this two drum 6 one second wire rod a2 and one the 3rd wire rod a3 are arranged; This wire coil shaft 31 comprises a folder axle 310 and one dead axle 311 that is located at coaxial setting on this two long frame bar rotationally, and this folder axle 310 has a flexible spindle nose 312 and can cooperate this dead axle 311 to clamp this drum 6, and this drum 6 can freely be rotated on this framework 30 to carry out the unwrapping wire operation;

Two tension force detecting modules 32; Symmetry be located at supply respectively on the long frame bar of this framework 30 this second wire rod a2 and the 3rd wire rod a3 winding through and can detect its tension force respectively; This tension force detecting module 32 comprises a support 320, a straining pulley 321, a tension force detector 322, two fabric wheels 323, two guide rollers 324 and two guide rods 325; This support 320 is combined on this long frame bar; This straining pulley 321 is located on this tension force detector 322; This tension force detector 322 is located at the power that presses down that can measure this straining pulley 321 on this support 320, and detects corresponding tension force by this presses down power, and this two fabric wheel 323 is located on this support 320 and is positioned at the two opposite sides of this straining pulley 321; This two guide roller 324 is located on this support 320 and lays respectively at the outside of this two fabric wheel 323, and this two guide rod 325 is located on this support 320 and is parallel to each other;

Two slowdown modules 33; Be located at the payingoff speed of this two drum 6 of rotating speed adjustment that can see through this two wire coil shaft 31 of control on this framework 30; This slowdown module 33 comprises a gear wheel 330, a pinion 331 and one speed reducer 332; This gear wheel 330 is combined on this dead axle 311 coaxially; This pinion 331 be located in the rotating shaft of this decelerator 332 and with these gear wheel 330 engagements, this decelerator 332 is located at the brake modes that can utilize electromagnetic damping on the long frame bar of this framework 30 and sees through the payingoff speed that this large and small gear 330,331 and this dead axle 311 are controlled these drums 6;

Two tension controllers 34; Be located on this framework 30; Can supply to set respectively the desired tension value of this second wire rod a2 and this three wire rod a3; And can receive the second wire rod a2 that this two tension force detecting module 32 detected and the actual tension value of the 3rd wire rod a3, and according to the payingoff speed of this desired tension value and these two slowdown modules, 33 these two drums 6 of adjustment of this actual tension value control.

This twisted wire eye mould 4 is located on this board 1, and concentric ground is positioned at this outside of second 21, can supply this first, second and third wire rod a1, a2, a3 to pass.

This drive unit 5 is located on this board 1, can supply to drive this first and

second rotation

20,21, with interlock this two the bow arm 22 in these actinobacillus device 3 inner rotary.

Wherein, This first wire rod a1 is penetrated to this first through hole 200 through this line-entering hole 201 by this propelling sheave 11; Walk around this first guide wheel 204 and pass wherein most wire assemblies 220 of a bow arm 22 again; Walk around the 3rd guide wheel 214 then and pass outside this board 1 by the wire hole 211 of a side again, extend through this twisted wire eye mould 4 afterwards again.Between two guide rods 325 of this second wire rod a2 through the tension force detecting module 32 in left side; Arrive downside via the upside winding of the guide roller 324 above it then near its fabric wheel 323; Again by the upside of this straining pulley 321 of pile warp; Afterwards by the downside of another fabric wheel 323 around upside to another guide roller 324, this first wire leading wheel 300 of pile warp is worn in this first through hole 200 by this first axis hole 202 then, walks around the most wire assemblies 220 that pass another bow arm 22 behind this second guide wheel 205 again; Walk around this four guide idler 215 then and pass outside this board 1 by the wire hole 211 of opposite side again, extend through this twisted wire eye mould 4 afterwards again.Between two guide rods 325 of the 3rd wire rod a3 through right side tension force detecting module 32; Arrive downside via the upside winding of the guide roller 324 above it then near its fabric wheel 323; Again by the upside of this straining pulley 321 of pile warp; Afterwards by the downside of another fabric wheel 323 around upside to another guide roller 324; This second wire leading wheel 301 of pile warp is worn in this second through hole 210 by this second axis hole 212 then, is passed outside this board 1 by central wire hole 211 again, extends through this twisted wire eye mould 4 afterwards again.So, when these drive unit 5 driving this first and second axles 20,21 rotated, this stranded wire apparatus 2 just can cooperate this twisted wire eye mould 4, and this first, second and third wire rod a1, a2, a3 are twisted into one lead a in this twisted wire eye mould 4.

The utility model can by the cooperation of this two tension force detecting module 32 and two slowdown modules 33 with the tension adjustment of this first, second and third wire rod a1, a2, a3 in a preset range, so that its lead a that twists out has preferable quality.For example: when the actual tension value that detects wire rod when this tension force detecting module 32 was lower than preset desired tension value, then this tension controller 34 can see through this slowdown module 33 and transfer the payingoff speed of the drum 6 of this wire rod slowly; Otherwise when the actual tension value that detects wire rod when this tension force detecting module 32 surpassed preset desired tension value, then this tension controller 34 can see through the payingoff speed that this slowdown module 33 is transferred the drum 6 of fast this wire rod.

In addition; The utility model rotates the structural design to cooperate this twisted wire eye mould 4 to carry out the twisted wire operation by this stranded wire apparatus 2 with this first, second and third wire rod a1, a2, a3; Can when carrying out the twisted wire operation, eliminate this first and second, the torsion that produced when two wire rod a1, a2, a3 unwrapping wire; And can eliminate the distorting stress that is produced when this first, second and third wire rod a1, a2, a3 carry out twisted wire in this twisted wire eye mould 4, and make it can therefore have preferable quality.

Particularly; Directly this actinobacillus device 3 is located at and supplies 6 assemblings of two drums in this board 1 on it; Can effectively utilize the space in this board 1 especially, and also comparatively simple on the structure, and especially the outside only need cooperate a paying out machine can carry out the twisted wire operation of three wire rods; Therefore equipment cost can be significantly reduced, and also taking of space can be reduced.

Claims

1. three-way stranding machine is characterized in that comprising:

One board, inside have a room;

2. three-way stranding machine according to claim 1; It is characterized in that; This actinobacillus device comprises that more two tension controllers are located on this framework; Supply to set the desired tension value of this second and third wire rod respectively, and receive the actual tension value of second and third wire rod that this two tension force detecting module detected, and adjust the payingoff speed of this two drum according to this desired tension value and this two slowdown module of this actual tension value control.

3. three-way stranding machine according to claim 2; It is characterized in that; This wire coil shaft comprises and is located at these framework two opposite sides and a coaxial folder axle and a dead axle rotationally; This folder axle has a flexible spindle nose and cooperates this dead axle to clamp this drum, and this drum can freely be rotated on this framework to carry out the unwrapping wire operation.

4. three-way wire twisting machine according to claim 3; It is characterized in that; This slowdown module comprises a gear wheel, a pinion and one speed reducer; This gear wheel is combined on this dead axle coaxially, this pinion be located in the rotating shaft of this decelerator and with this gear wheel engagement, this decelerator is located at and utilizes brake modes to see through the payingoff speed of this large and small this drum of gear control on this framework.

5. three-way wire twisting machine according to claim 4 is characterized in that, this decelerator utilizes the electromagnetic damping mode to reach brake deceleration.

6. three-way stranding machine according to claim 4; It is characterized in that this tension force detecting module comprises a support, a straining pulley, a tension force detector and two fabric wheels, this support is combined on this framework; This straining pulley is located on this tension force detector; This tension force detector is located at the power that presses down that can measure this straining pulley on this support, and this two fabric wheel is located on this support and is positioned at the two opposite sides of this straining pulley, and this wire rod is by the downside winding of the side fabric wheel upside to this straining pulley; And then winding is to the downside of the fabric wheel of opposite side, and this tension force detector detects the tension force of this wire rod by this straining pulley receives the pressing down power of this wire rod.

7. three-way stranding machine according to claim 6; It is characterized in that this tension force detecting module more comprises two guide rollers and two guide rods, this two guide roller is located on this support and lays respectively at the outside of this two fabric wheel; This two guide rod is located on this support and is parallel to each other; Wire rod on this drum is by the upside that extends to a side guide roller between this two guide rod, again around downside to the opposite side fabric wheel, this wire rod by the downside of opposite side fabric wheel around upside to the opposite side guide roller.

8. according to each described three-way stranding machine among the claim 1-7, it is characterized in that,

9. three-way stranding machine according to claim 8 is characterized in that, this first has one first shelf, and this second has one second shelf, and the two ends of this two bows arm are combined in respectively on this first and second shelf.

10. three-way stranding machine according to claim 8 is characterized in that, the outside of this board has a propelling sheave and supplies this first line of outside is just imported in this line-entering hole.