CN106698074B - A kind of big drawing machine suspension line of fall blocking arm device - Google Patents
A kind of big drawing machine suspension line of fall blocking arm device Download PDFInfo
- Publication number
- CN106698074B CN106698074B CN201611229221.1A CN201611229221A CN106698074B CN 106698074 B CN106698074 B CN 106698074B CN 201611229221 A CN201611229221 A CN 201611229221A CN 106698074 B CN106698074 B CN 106698074B
- Authority
- CN
- China
- Prior art keywords
- blocking arm
- mould group
- motion control
- control mould
- drawing machine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/02—Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
- B65H54/28—Traversing devices; Package-shaping arrangements
- B65H54/2848—Arrangements for aligned winding
- B65H54/2854—Detection or control of aligned winding or reversal
- B65H54/2857—Reversal control
- B65H54/286—Reversal control by detection that the material has reached the flange or the reel end
- B65H54/2863—Reversal control by detection that the material has reached the flange or the reel end the flange acting on the material, e.g. provoking wire climbing or incident angle changing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/30—Handled filamentary material
- B65H2701/34—Handled filamentary material electric cords or electric power cables
Landscapes
- Coiling Of Filamentary Materials In General (AREA)
- Refuge Islands, Traffic Blockers, Or Guard Fence (AREA)
Abstract
The invention discloses a kind of big drawing machines to hang line of fall blocking arm device, at a big drawing machine take-up, it includes blocking arm column, bar and blocking arm motion control mould group that the big drawing machine, which hangs line of fall blocking arm device, bar is connected obliquely in blocking arm column bottom end, blocking arm column is liftably connected in blocking arm motion control mould group, and blocking arm column is located between the inner ring bumping post and outer ring bumping post of a take-up brandreth, blocking arm motion control mould group moves in a circle along a fixed route around the axle center of take-up brandreth, and blocking arm motion control mould group accesses in a PLC control system.Cable coil in whereabouts can be smoothed out with the fingers suitable, the artificial progress take-up housekeeping of substitution, it is ensured that cable coil is in good order, precisely closely stacks by the present invention, the space utilization rate of final drum and the utilization rate of take-up brandreth are improved, and can be liberated artificial, safe operation, work efficiency is high.
Description
Technical field
The present invention relates to the delivery devices in a kind of bicycle storing equipment, more specifically, it relates to a kind of big drawing machine
Hang line of fall blocking arm device.
Background technique
Big drawing machine is one of the main production equipments in cable industry, and big drawing machine can draw larger-diameter metal rod
Thinner cable is drawn by middle machine drawing, small machine drawing at thinner cable, or again, to meet needed for people.Big drawing machine
After wire drawing outlet, annealing device is exported after outgoing line guide wheel is tensioned and is guided and receives coiling with take-up.Cable is being received
Circle circle is coiled on the spool of line apparatus, spool is squeezed spill-over to spool free end automatically around completely rear cable coil, by
Circle from spool free end be detached from and under fall on the chassis of take-up brandreth.But cable coil is in uncontrolled shape in dropping process
State, and cable coil also has compared with strong elasticity and toughness, especially large size copper line product, thus cable coil fall after be difficult
It is in good order, precisely closely stack, often can be there is a situation where misplacing, intersecting between coil, kink, this allows for take-up brandreth
On there are many hollow positions in the drum that is finally collected into, the storage line rate of take-up brandreth is had a greatly reduced quality, and space utilization rate is caused
And the waste of tooling utilization rate.To solve this problem, enterprise generally specially arranges manpower in take-up link, to falling on take-up iron
Cable coil on frame carries out manual sorting, makes the cable for being aligned between the circle circle of cable and fitting closely, but falling from above
Coil has certain speed, if operating personnel is arranging cable coil, a circle circle is just fallen off from above at present, may pound
On hand to operating personnel, pain even more severe trauma is caused, therefore, though the cable coil that manual sorting is collected can be to a certain degree
Ground improves take-up brandreth storage line rate and drum regularity, compactness, but security risk is larger, and the labor intensity of operating personnel
Also larger, working efficiency is also limited, it is therefore desirable to take more rationally safer method, and have no correlation in this field at present
Solution proposes.
Summary of the invention
Lack dedicated wire-management device in existing big drawing machine wire-drawing process, easily causes take-up not close, take-up tooling benefit
It is low with rate, and fallen by manual sorting cable coil when the cable coil that is easily fallen pound in one's hands, operational safety obtains
Less than guarantee, to overcome this defect, the utility model provides a kind of high degree of automation, and cable coil can be followed to fall section
The guidance cable coil line of fall is played, liberation is artificial, and the big drawing machine for improving take-up working efficiency hangs line of fall blocking arm device.
The technical scheme is that a kind of big drawing machine hangs line of fall blocking arm device, it is set at a big drawing machine take-up,
It includes blocking arm column, bar and blocking arm motion control mould group that the big drawing machine, which hangs line of fall blocking arm device, and bar, which is connected obliquely, to be kept off
Arm column bottom end, blocking arm column are liftably connected in blocking arm motion control mould group, and blocking arm column is located at the inner ring of a take-up brandreth
Between bumping post and outer ring bumping post, blocking arm motion control mould group moves in a circle along a fixed route around the axle center of take-up brandreth,
Blocking arm motion control mould group accesses in a PLC control system.Cable coil is pushed out from the spool of take-up when falling,
From coil to coil is surrounded to outside the inner ring bumping post of take-up brandreth in the form of helical lines, in the process, inner ring of the bar in take-up brandreth
An obstacle is formed between bumping post and outer ring bumping post, and the fall trajectory of cable coil before landing is defined and is guided, is prevented
Chatter occurs because of natural resiliency for cable coil causes to be radially offset from, to make every circle cable coil that can fall in consistent position
On.Blocking arm motion control mould group controls blocking arm column between the inner ring bumping post and outer ring bumping post of take-up brandreth with speed appropriate
It moves in a circle, all directions of cable coil is limited, are guided.With the continuous stacking of cable coil, cable coil
Landing position gradually rise, bar position is also required to correspondingly to gradually rise the gear line height changed with appropriate cable coil,
And blocking arm motion control mould group can control blocking arm column with high with cable coil stacks while controlling blocking arm column and moving in a circle
The adaptable speed of speed rises.Blocking arm column, bar done under the control of blocking arm motion control mould group circular rings around with straight line liter
The compound motion of drop can smooth out with the fingers the cable coil in whereabouts suitable, it is ensured that cable coil is in good order, precisely closely stacks, and mentions
The high final space utilization rate of drum and the tooling utilization rate of take-up brandreth.Line of fall blocking arm device is hung using this big drawing machine
Afterwards, artificial progress take-up housekeeping, and the present apparatus automatic running, Ke Yigeng under PLC control system control can be substituted
The work pace for adapting to big drawing machine take-up well is higher than manually-operated working efficiency.
Preferably, blocking arm motion control mould group includes pedestal, lifting motor and thread barrel, lifting motor is fixedly arranged on pedestal
On, thread barrel is rotatably connected on pedestal, and the output end and thread barrel of lifting motor are sequentially connected, and blocking arm column is equipped with outer spiral shell
Line, blocking arm column axially penetrate through thread barrel and are sequentially connected with thread barrel, and pedestal and blocking arm intercolumniation are equipped with anti-rotation structure.Pedestal is to rise
It drops motor and thread barrel provides installation support, lifting motor drives thread barrel rotation, the threaded connection of thread barrel and blocking arm intercolumniation
Structure can go up and down the axial of blocking arm column that be converted to of thread barrel, gear when anti-rotation structure can prevent thread barrel from driving blocking arm column
Arm column rotates.
It is key connection between thread barrel and driven synchronous pulley preferably, being socketed a driven synchronous pulley outside thread barrel,
The output end of lifting motor is keyed an active synchronization belt wheel, driven synchronous pulley and active synchronization belt wheel and is connected by synchronous belt
It connects.When lifting motor drives active synchronization belt wheel rotation, active synchronization belt wheel drives driven synchronous belt to rotate further through synchronous belt
It is dynamic, and then rotate synchronously thread barrel also, realize the transmission connection of thread barrel and lifting motor output end.Such drive mechanism is whole
Body structure is simple, and driving member processing is relatively easy, therefore cost is relatively low, convenient to carry out.
As an alternative, it is socketed a driven gear outside thread barrel, is key connection, lifting motor between thread barrel and driven gear
Output end be keyed a driving gear, driven gear engages with driving gear.By the gear drive in this programme,
The transmission connection of thread barrel and lifting motor output end can be achieved.
Preferably, blocking arm motion control mould group is connected on a spiral arm, spiral arm is connected in a blocking arm circular motion motor
Output end, blocking arm circular motion motor is connected on a Suspending fixation frame.When blocking arm circular motion motor operates, spiral arm is driven
Rotation, the blocking arm motion control mould group being connected on spiral arm just do circumference fortune by axle center of blocking arm circular motion motor output shaft
It is dynamic.
Preferably, being installed with a horizontal filler ring on Suspending fixation frame, blocking arm motion control mould group is slidably connected at support
On ring.Filler ring can to blocking arm motion control mould group provide support, avoid spiral arm, blocking arm motion control mould group weight full by gear
The output shaft of arm circular motion motor is born, to balance the axial load of blocking arm circular motion motor, it is ensured that balance blocking arm circle
The service life of all motion motors.
Preferably, filler ring top surface is equipped with U-lag, blocking arm motion control mould group is equipped with idler wheel, and idler wheel is adaptedly placed in U
In shape slot.By the cooperation of idler wheel and U-lag, support and filler ring pair of the filler ring to blocking arm motion control mould group may be implemented
Being slidably matched between blocking arm motion control mould group and filler ring relatively, can also greatly reduce between blocking arm motion control mould group and filler ring
Friction, mitigate balance blocking arm circular motion motor load.
As an alternative, blocking arm motion control mould group is equipped with bayonet, and the shape and size in the cross section of bayonet and filler ring are suitable
Match, bayonet sliding is connected on filler ring.By the cooperation of bayonet and filler ring, realize filler ring to the branch of blocking arm motion control mould group
Support and filler ring are to being slidably connected between blocking arm motion control mould group and filler ring.
Preferably, the interconnecting piece of blocking arm column and bar is equipped with a terminal pad, blocking arm column and terminal pad are connected, in terminal pad
Equipped with arc groove, the bar being equipped in arc groove through terminal pad connects bolt, and bar connection bolt one end is connect with bar, separately
One end is equipped with nut, hinged with terminal pad at the nearly fixing end of bar.Blocking arm column is connected with bar by terminal pad, and bar can
Using hinge joint as the center of circle, fixing end change in arc groove it is fixed behind position, thus with required inclination angle reliably with blocking arm column
Connection.
The beneficial effects of the present invention are:
Take-up is close, improves take-up tooling utilization rate.The present invention cable coil in whereabouts can be smoothed out with the fingers it is suitable, substitution manually into
Row take-up housekeeping, it is ensured that cable coil is in good order, precisely closely stacks, and improves the space utilization rate of final drum,
And the utilization rate of take-up brandreth.
Work efficiency is high.It the problem of system's automation equipment of the present invention, there is no manual works by physical strength limit restraint, can be with
The work pace for better adapting to big drawing machine take-up is higher than manually-operated working efficiency.
Liberation is artificial, safe operation.The present invention can be automatically performed take-up tooling to the cable coil from take-up
Coiling receives, the security risk faced when saving manually, and can evade manual operation.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of the invention;
Fig. 2 is a kind of structural schematic diagram of blocking arm motion control mould group in the present invention;
Fig. 3 is another structural schematic diagram of blocking arm motion control mould group in the present invention.
In figure, 1- blocking arm column, 2- bar, 3- blocking arm motion control mould group, 4- take-up brandreth, 5- pedestal, 6- lifting motor,
7- thread barrel, 8- spiral arm, 9- blocking arm circular motion motor, 10- Suspending fixation frame, 11- filler ring, the driven synchronous pulley of 12-, 13-
Active synchronization belt wheel, 14- driven gear, 15- driving gear, 16- spool, 17- cable coil, 18- idler wheel, 19- synchronous belt,
20- bayonet.
Specific embodiment
The invention will be further described for specific embodiment with reference to the accompanying drawing.
Embodiment 1:
As shown in Figure 1 and Figure 2, a kind of big drawing machine hangs line of fall blocking arm device, is set at a big drawing machine take-up, this dress
It sets including blocking arm column 1, bar 2 and two blocking arm motion control mould groups 3, bar 2 is connected obliquely in 1 bottom end of blocking arm column, bar 2
135 ° of angles are constituted with blocking arm column 1.Blocking arm column 1 is liftably connected in blocking arm motion control mould group 3, and blocking arm column 1 is located at
Between the inner ring bumping post and outer ring bumping post of one take-up brandreth 4.Blocking arm motion control mould group 3 is connected on a spiral arm 8, and spiral arm 8 is in V
Font, the V-Bottom point of spiral arm 8 are connected in the output end of a blocking arm circular motion motor 9, and V-shaped angle is 60 °, two blocking arms
Motion control mould group 3 is located on two vertex of V-shaped.Spiral arm 8 is composed of two spiral arm laths, spiral arm lath end
Angle adjustment holes and the connecting hole positioned at the enclosed circle center of angle adjustment holes enclose in portion one, and adjacent angular adjustment hole is with respect to connecting hole
Central angle is 10 °, and connecting hole is used to export axis connection with blocking arm circular motion motor 9, by the angle tune on a spiral arm lath
The knothole angle adjustment holes different on another spiral arm lath are aligned and wear the V-shaped that can even carry out spiral arm 8 with positioning pin
The adjusting of angle.Blocking arm circular motion motor 9 is connected on a cylindric and Suspending fixation frame 10 with bottom plate, Suspending fixation
Frame 10 is fixed on the hanging beam of workshop, and the output shaft of blocking arm circular motion motor 9 is straight down, and same with take-up brandreth 4
Axis, so that blocking arm motion control mould group 3 be made to move in a circle along a fixed route around the axle center of take-up brandreth 4.Blocking arm movement
Mould group 3 is controlled to access in a PLC control system.Blocking arm motion control mould group 3 includes pedestal 5, lifting motor 6 and thread barrel 7, is risen
Drop motor 6 is fixedly arranged on pedestal 5 by a Z-shaped bracket, and thread barrel 7 is rotatably connected on pedestal 5 by bearing and shaft block ring
A bearing saddle bore in, the output end of lifting motor 6 and thread barrel 7 are sequentially connected, and blocking arm column 1 is equipped with external screw thread, blocking arm
Column 1 axially penetrates through thread barrel 7 and is sequentially connected with thread barrel 7, and anti-rotation structure, the anti-rotation structure are equipped between pedestal 5 and blocking arm column 1
It opens including the strip being fixedly arranged on pedestal 5 and along axial direction in the upper anti-rotation groove on 1 circumferential surface of blocking arm column, strip is adapted to anti-rotation groove
It is chimeric.It is socketed a driven synchronous pulley 12 outside thread barrel 7, is key connection between thread barrel 7 and driven synchronous pulley 12, lifting electricity
The output end of machine 6 is keyed an active synchronization belt wheel 13, and driven synchronous pulley 12 passes through synchronous belt 19 with active synchronization belt wheel 13
Connection.Level is installed with a circular filler ring 11 on Suspending fixation frame 10, and blocking arm motion control mould group 3 is slidably connected at filler ring 11
On.Filler ring 11 includes inner ring, outer ring and the spoke being connected between inside and outside circle, and inner ring is socketed in the periphery of Suspending fixation frame 10
It is connected on face and by bolt and positioning pin, blocking arm circular motion motor 9 is located in the cavity of Suspending fixation frame 10 and passes through spiral shell
Bolt is fixed in the middle part of the bottom plate of Suspending fixation frame 10, and the output shaft of blocking arm circular motion motor 9 is downward through Suspending fixation frame 10
Bottom plate.Spiral arm 8 is located at the lower section of filler ring 11, and the free end of spiral arm 8 is equipped with bending part vertically upward, and pedestal 5 is located at folding
The least significant end of turn of bilge is simultaneously connect by bolt with spiral arm 8, and the outer ring top surface of filler ring 11 is equipped with U-lag, 5 inside of pedestal, i.e. direction
11 center of circle side of filler ring is equipped with idler wheel 18, and idler wheel 18 is adaptedly placed in U-lag, and thread barrel 7 is located at 5 outside of pedestal, i.e., away from support
11 center of circle side of ring.The interconnecting piece of blocking arm column 1 and bar 2 is equipped with a terminal pad, and blocking arm column 1 and terminal pad are connected, set in terminal pad
There is arc groove, the bar being equipped in arc groove through terminal pad connects bolt, and bar connection bolt one end is connect with bar 2, separately
One end is equipped with wing nut.
The spool 16 of take-up is and same with filler ring 11, take-up brandreth 4 between filler ring 11 and take-up brandreth 4
Axis, cable coil 17 is pushed out from spool 16 when falling, and from coil to coil surrounds the inner ring to take-up brandreth 4 in the form of helical lines
Outside bumping post, in the process, bar 2 forms an obstacle between the inner ring bumping post and outer ring bumping post of take-up brandreth 4, to landing
The fall trajectory of preceding cable coil 17 is defined and guides, and preventing cable coil 17 from chatter occurs because of natural resiliency leads to diameter
To deviation, to make every circle cable coil 17 that can fall on consistent position.Blocking arm motion control mould group 3 controls blocking arm column
1 is moved in a circle between the inner ring bumping post and outer ring bumping post of take-up brandreth 4 with speed appropriate, to each of cable coil 17
Direction is limited, is guided.With the continuous stacking of cable coil 17, the landing position of cable coil 17 is gradually risen, bar 2
Position is also required to correspondingly gradually rise the gear line height changed with appropriate cable coil, and blocking arm motion control mould group is controlling
The speed that can control blocking arm column again to be adapted at high speed with cable coil stacks while blocking arm column moves in a circle rises.Blocking arm
Column 1, bar 2 do circular rings around the compound motion gone up and down with straight line under the control of blocking arm motion control mould group 3, can will be in whereabouts
Cable coil smooth out with the fingers it is suitable, it is ensured that cable coil is in good order, precisely closely stacks, and improves the space utilization rate of final drum,
And the tooling utilization rate of take-up brandreth.Big drawing machine presses 650 ms/min of production frequency run, line of fall frequency be 260 circles/point
Clock, the line of fall per minute stacks 0.33 meter of height, and by this data, the slewing rate of blocking arm circular motion motor 9 is adapted to blocking arm fortune
Dynamic control mould group 3 coiling take-up brandreth 4 per minute turns 2-5 circle clockwise, and the revolving speed of lifting motor 6 is adapted to make blocking arm column
1 rises 0.35 meter per minute.
Embodiment 2:
It is key connection between thread barrel 7 and driven gear 14 as shown in figure 3, being socketed a driven gear 14 outside thread barrel 7,
The output end of lifting motor 6 is keyed a driving gear 15, and driven gear 14 is engaged with driving gear 15.Blocking arm motion control mould
Group 3 is equipped with bayonet 20, the shape and size fit of bayonet 20 and the cross section of filler ring 11, and bayonet 20 is stuck in the outer ring of filler ring 11
On, 20 inner wall of bayonet is embedded with ball.Remaining is the same as embodiment 1.
Claims (9)
1. a kind of big drawing machine hangs line of fall blocking arm device, it is set at a big drawing machine take-up, it is characterized in that including blocking arm column
(1), bar (2) and blocking arm motion control mould group (3), bar (2) are connected obliquely in blocking arm column (1) bottom end, and blocking arm column (1) can
It is connected in blocking arm motion control mould group (3) up and down, and blocking arm column (1) is located at the inner ring bumping post of a take-up brandreth (4) and outer
It encloses between bumping post, blocking arm motion control mould group (3) moves in a circle along a fixed route around the axle center of take-up brandreth (4), keeps off
Arm motion control mould group (3) accesses in a PLC control system.
2. big drawing machine according to claim 1 hangs line of fall blocking arm device, it is characterized in that blocking arm motion control mould group (3) is wrapped
Pedestal (5), lifting motor (6) and thread barrel (7) are included, lifting motor (6) is fixedly arranged on pedestal (5), thread barrel (7) rotation connection
On pedestal (5), the output end of lifting motor (6) and thread barrel (7) are sequentially connected, and blocking arm column (1) is equipped with external screw thread, blocking arm
Column (1) axially penetrates through thread barrel (7) and is sequentially connected with thread barrel (7), and anti-rotation structure is equipped between pedestal (5) and blocking arm column (1).
3. big drawing machine according to claim 2 hangs line of fall blocking arm device, it is characterized in that be socketed one outside driven for thread barrel (7)
Synchronous pulley (12) is key connection between thread barrel (7) and driven synchronous pulley (12), and the output end key of lifting motor (6) connects
It connects an active synchronization belt wheel (13), driven synchronous pulley (12) passes through synchronous band connection with active synchronization belt wheel (13).
4. big drawing machine according to claim 2 hangs line of fall blocking arm device, it is characterized in that be socketed one outside driven for thread barrel (7)
Gear (14) is key connection between thread barrel (7) and driven gear (14), and the output end key connection one of lifting motor (6) is actively
Gear (15), driven gear (14) are engaged with driving gear (15).
5. big drawing machine according to claim 1 hangs line of fall blocking arm device, it is characterized in that blocking arm motion control mould group (3) is solid
It is connected on a spiral arm (8), spiral arm (8) is connected in the output end of a blocking arm circular motion motor (9), blocking arm circular motion motor
(9) it is connected on a Suspending fixation frame (10).
6. big drawing machine according to claim 5 hangs line of fall blocking arm device, it is characterized in that fixed on Suspending fixation frame (10)
There is a horizontal filler ring (11), blocking arm motion control mould group (3) is slidably connected on filler ring (11).
7. big drawing machine according to claim 6 hangs line of fall blocking arm device, it is characterized in that filler ring (11) top surface is equipped with U-shaped
Slot, blocking arm motion control mould group (3) are equipped with idler wheel, and idler wheel is adaptedly placed in U-lag.
8. big drawing machine according to claim 6 hangs line of fall blocking arm device, it is characterized in that in blocking arm motion control mould group (3)
Equipped with bayonet, the shape and size fit in the cross section of bayonet and filler ring (11), bayonet sliding are connected on filler ring (11).
9. big drawing machine according to any one of claim 1 to 8 hangs line of fall blocking arm device, it is characterized in that blocking arm column (1)
It is equipped with a terminal pad with the interconnecting piece of bar (2), blocking arm column (1) and terminal pad are connected, and terminal pad is equipped with arc groove, arc groove
In the bar that is equipped with through terminal pad connect bolt, bar connection bolt one end is connect with bar (2), the other end equipped with nut,
It is hinged with terminal pad at the nearly bar connection bolt of bar (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201611229221.1A CN106698074B (en) | 2016-12-27 | 2016-12-27 | A kind of big drawing machine suspension line of fall blocking arm device |
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CN201611229221.1A CN106698074B (en) | 2016-12-27 | 2016-12-27 | A kind of big drawing machine suspension line of fall blocking arm device |
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CN106698074A CN106698074A (en) | 2017-05-24 |
CN106698074B true CN106698074B (en) | 2019-03-19 |
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CN201611229221.1A Expired - Fee Related CN106698074B (en) | 2016-12-27 | 2016-12-27 | A kind of big drawing machine suspension line of fall blocking arm device |
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CN108046040B (en) * | 2018-01-29 | 2023-09-08 | 江苏法尔胜精工科技有限公司 | Steel wire proportional type wire accumulating device |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS6064722A (en) * | 1983-09-17 | 1985-04-13 | Kiyokuhou Seisen Kk | Wire drawing method |
CN2574799Y (en) * | 2002-06-28 | 2003-09-24 | 李建 | Rolling flanging machine |
CN104338765A (en) * | 2014-10-16 | 2015-02-11 | 无锡市得力手机械有限公司 | Inverted drawing machine |
CN104353681A (en) * | 2014-10-22 | 2015-02-18 | 无锡市得力手机械有限公司 | Steel wire drawing machine |
CN204689246U (en) * | 2015-04-27 | 2015-10-07 | 广西友合铝材有限公司 | A kind of take-up of aluminum alloy big drawing machine |
CN205289315U (en) * | 2016-01-15 | 2016-06-08 | 东阳市弹簧厂 | Last reinforcing bar output frame of spring forming machine |
CN205362274U (en) * | 2016-03-15 | 2016-07-06 | 丽水市海卓科技有限公司 | Wire rewinding machine |
CN206604890U (en) * | 2017-02-21 | 2017-11-03 | 淄博恒富金属制品有限公司 | A kind of heavy coil steel wires NONSTOP COILER |
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