CN117259483B - Tinned copper wire winding mechanism - Google Patents
Tinned copper wire winding mechanism Download PDFInfo
- Publication number
- CN117259483B CN117259483B CN202311564969.7A CN202311564969A CN117259483B CN 117259483 B CN117259483 B CN 117259483B CN 202311564969 A CN202311564969 A CN 202311564969A CN 117259483 B CN117259483 B CN 117259483B
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- China
- Prior art keywords
- fixedly connected
- copper wire
- gear
- rotating shaft
- sets
- Prior art date
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- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 title claims abstract description 90
- 238000004804 winding Methods 0.000 title claims abstract description 54
- 230000007246 mechanism Effects 0.000 title claims abstract description 21
- 229910052802 copper Inorganic materials 0.000 claims abstract description 39
- 239000010949 copper Substances 0.000 claims abstract description 39
- 238000005520 cutting process Methods 0.000 claims description 12
- 244000309464 bull Species 0.000 claims description 9
- 238000007789 sealing Methods 0.000 claims description 9
- 238000005096 rolling process Methods 0.000 claims description 4
- 125000006850 spacer group Chemical group 0.000 claims description 3
- 239000012634 fragment Substances 0.000 claims 2
- 238000003825 pressing Methods 0.000 description 4
- 238000009434 installation Methods 0.000 description 3
- ATJFFYVFTNAWJD-UHFFFAOYSA-N Tin Chemical compound [Sn] ATJFFYVFTNAWJD-UHFFFAOYSA-N 0.000 description 2
- 241001391944 Commicarpus scandens Species 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 238000000137 annealing Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- KUNSUQLRTQLHQQ-UHFFFAOYSA-N copper tin Chemical compound [Cu].[Sn] KUNSUQLRTQLHQQ-UHFFFAOYSA-N 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000001125 extrusion Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000003647 oxidation Effects 0.000 description 1
- 238000007254 oxidation reaction Methods 0.000 description 1
- 238000005554 pickling Methods 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C47/00—Winding-up, coiling or winding-off metal wire, metal band or other flexible metal material characterised by features relevant to metal processing only
- B21C47/02—Winding-up or coiling
- B21C47/10—Winding-up or coiling by means of a moving guide
- B21C47/12—Winding-up or coiling by means of a moving guide the guide moving parallel to the axis of the coil
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C47/00—Winding-up, coiling or winding-off metal wire, metal band or other flexible metal material characterised by features relevant to metal processing only
- B21C47/26—Special arrangements with regard to simultaneous or subsequent treatment of the material
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Devices For Opening Bottles Or Cans (AREA)
- Wire Processing (AREA)
Abstract
The invention relates to the technical field of winding mechanisms, in particular to a tinned copper wire winding mechanism which comprises a workbench and a winding component arranged at the upper end of the workbench and used for winding copper wires, wherein a positioning component used for assisting copper wire winding is arranged in front of the winding component at the upper end of the workbench, a traction component used for traction of the copper wires is arranged in front of the positioning component at the upper end of the workbench, the winding component comprises a first support column fixed at the upper end of the workbench, one side of the first support column is fixedly connected with an L-shaped mounting rod, the upper end of the first support column is fixedly connected with a bearing, the upper end of the mounting rod is fixedly connected with a first driving motor, the inner side of the bearing is rotatably connected with a first rotating shaft, the output end of the first driving motor is fixedly connected with the first rotating shaft, and one end of the first rotating shaft is provided with a clamping component used for clamping a spool.
Description
Technical Field
The invention relates to the technical field of winding mechanisms, in particular to a tinned copper wire winding mechanism.
Background
Tin copper wire refers to copper wire plated with a thin layer of metallic tin on the surface of the copper wire. The tinned copper wire is soft in material and good in conductive performance, and compared with the bare copper wire, the tinned copper wire is stronger in corrosion resistance and oxidation resistance, the service life of the weak electric cable can be greatly prolonged, and the production process of the hot tinned fine copper wire comprises the following steps: paying off, annealing, pickling, tinning furnace, cooling, traction, adding guide shaft oil (reducing tin ash), and winding and arranging.
The existing tinned copper wire winding has the following defects: 1. the spool during winding needs to be arranged on the winding mechanism, and the spool is troublesome to install, take and place; 2. when the copper wire is wound, the copper wire can deviate on the spool, so that the wound copper wire is easy to stack, and the copper wire is wound in disorder; 3. when the copper wire is wound, pressure is applied to the copper wire only through the spool, so that the pressure of the spool is overlarge, and the copper wire is easy to break when the copper wire is overlong.
Disclosure of Invention
In order to solve the technical problems in the background art, the invention provides a tinned copper wire winding mechanism.
The invention adopts the following technical scheme: the utility model provides a tinned copper wire winding mechanism, includes workstation and the winding subassembly that sets up in the workstation upper end and be used for the winding copper line, the place ahead of the upper end winding subassembly of workstation is provided with and is used for assisting the winding locating component of copper line, the place ahead of the upper end locating component of workstation is provided with the traction component that is used for towing copper line, the winding subassembly is including fixing the first support column in the workstation upper end, one side fixedly connected with L shape of first support column installation pole, the upper end fixedly connected with bearing of first support column, the upper end fixedly connected with first driving motor of installation pole, the inboard rotation of bearing is connected with first pivot, the output and the first pivot fixed connection of first driving motor, the one end of first pivot is provided with the clamping component that is used for the centre gripping spool.
Preferably, the clamping assembly comprises a threaded rod fixedly connected with a first rotating shaft, the outer side of the threaded rod is in threaded connection with a threaded sleeve, the outer side of the threaded sleeve is fixedly connected with a ring sleeve, the outer side of the ring sleeve is rotationally connected with a rotating sleeve, one end of the rotating sleeve is fixedly connected with a connecting cylinder, the outer side of the connecting cylinder is rotationally connected with a rotating rod, the lower end of the rotating rod is fixedly connected with a second connecting block, the outer side of the second connecting block is rotationally connected with a first rotating plate, and the lower end of the first rotating plate is fixedly connected with a pressing plate.
Preferably, the outside fixedly connected with first connecting block of connecting cylinder, the bull stick rotates with first connecting block to be connected, the lower extreme fixedly connected with second of bull stick changes the piece, the lower extreme that the second changes the piece rotates and is connected with the connecting rod, the one end fixedly connected with connector of threaded rod, the connecting rod rotates with the connector to be connected.
Preferably, the locating component comprises a first rack fixed at the upper end of the workbench, the upper end of the first rack is fixedly connected with a first sliding rail, the upper end of the first sliding rail is fixedly connected with a first sliding block, the upper end of the first sliding block is fixedly connected with a first mounting plate, the upper end of the first mounting plate is fixedly connected with a first supporting rod, a rotary groove is formed in the upper end of the first supporting rod, a rotating wheel is connected to the inner side of the rotary groove in a rotating mode, and a cutting component for cutting copper wires is arranged at the front end of the first supporting rod.
Preferably, the lower end of the first mounting piece is provided with a second driving motor, the output end of the second driving motor is fixedly connected with a first gear, and the first gear is meshed with the first rack.
Preferably, the cutting assembly comprises an extension plate fixedly connected to the front end of the first support rod, the front end of the extension plate is fixedly connected with two groups of clamping plates, two groups of clamping plates are fixedly connected with a sliding shell on one side, away from each other, of the clamping plates, sliding rods are slidably connected to the inner sides of the sliding shells, cover plates are fixedly connected to the upper ends of the sliding rods together, clamping plates are fixedly connected to the lower ends of the cover plates, blades are fixedly connected to the front sides of the clamping plates at the lower ends of the cover plates, and V-shaped bayonets are formed in the lower ends of the clamping plates.
Preferably, a supporting plate is slidably connected between the two groups of clamping plates, the lower end of the supporting plate is fixedly connected with a second supporting column, a spring is arranged on the outer side of the second supporting column, and the lower end of the spring is fixedly connected with the extension plate.
Preferably, the traction assembly comprises a second sliding rail fixedly mounted at the upper end of the workbench, the upper end of the second sliding rail is slidably connected with a second sliding block, the upper end of the second sliding block is fixedly connected with a second mounting plate, the upper end of the second mounting plate is fixedly connected with a first connecting shaft, the outer side of the first connecting shaft is rotationally connected with a driving disc, the upper end of the first connecting shaft is fixedly connected with a positioning plate, the upper end of the positioning plate is slidably connected with two groups of clamping blocks, one side of the second sliding block is provided with a driving assembly for assisting the rotation of the driving disc, one end of the second mounting plate is fixedly connected with a third motor, the output end of the third motor is fixedly connected with a second gear, one side of the second sliding rail is fixedly connected with a second rack, and the second gear is meshed with the second rack.
Preferably, two groups of sliding grooves are formed in the upper end of the driving disc, the sliding grooves incline towards the inner side of the driving disc, a limiting groove is formed in the upper end of the positioning sheet, two groups of second connecting shafts are connected to the inner side of the limiting groove in a sliding mode, the upper ends of the two groups of second connecting shafts are respectively connected with the two groups of clamping blocks in a rotating mode, and the lower ends of the two groups of second connecting shafts are respectively extended to the inner sides of the two groups of sliding grooves.
Preferably, the drive assembly includes the seal shell with second slider fixed connection, the inboard rotation of seal shell is connected with the second pivot, the upper end fixedly connected with third gear of second pivot, the outside rotation of first connecting axle is connected with fourth gear, fourth gear and driving disk fixed connection, fourth gear meshes with the third gear mutually, the outside of second pivot is provided with the torsional spring, the torsional spring is located the inboard of seal shell, the seal shell is run through to the second pivot, the lower extreme fixedly connected with plectrum of second pivot, one side fixedly connected with stopper of the upper end second slide rail of workstation, the stopper laminates with the plectrum mutually.
Compared with the prior art, the invention provides a tinned copper wire winding mechanism, which has the following beneficial effects:
1. this tinned wire winding mechanism rotates the thread bush and moves on the threaded rod, can drive the bull stick and open or press from both sides tightly, makes things convenient for getting of spool to put, can be connected bull stick and connector through the connecting rod, prevents that the bull stick from rotating around the threaded rod, and the preforming can paste tight spool, makes the centre gripping of spool more stable, can make things convenient for the connecting cylinder to rotate on the thread bush through ring cover and commentaries on classics cover.
2. This tinned wire winding mechanism can block the copper line through the runner, and do not influence the rolling of copper line, can drive first gear through the second driving motor and remove, can make first gear remove on first rack, make first installation piece drive first slider and remove on first slide rail, make first bracing piece drive the winding that the copper line followed the spool and remove, keep the perpendicular of spool and copper line when making the spool wire winding, prevent the copper line extrusion that leads to because of the deflection of copper line, press the apron can make the copper line card go into in the V font bayonet socket of cardboard lower extreme, continue to press the apron and make second support column and extension board contact, can utilize the blade to cut off the copper line at this moment, can not scatter when guaranteeing the copper line fracture, guarantee the compactness of copper line on the spool, can support the copper line through the backing sheet, stability when further guaranteeing the copper line winding.
3. This tinned wire winding mechanism, when the rolling copper line, the limit piece can extrude the shifting block and drive the second pivot and rotate in second mounting plate round trip movement, makes the second connecting axle drive the clamp splice and slides on the spacer, makes the clamp splice press from both sides tightly or loosen the copper line, reaches the purpose of traction copper line, reduces the pressure of spool winding copper line, prevents the copper line fracture.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present invention;
FIG. 2 is a schematic view of a winding assembly according to the present invention;
FIG. 3 is a cross-sectional view of the winding assembly of the present invention;
FIG. 4 is a schematic view of a portion of the structure of FIG. 3 in accordance with the present invention;
FIG. 5 is a schematic view of a positioning assembly according to the present invention;
FIG. 6 is a cross-sectional view of a positioning assembly of the present invention;
FIG. 7 is a schematic view of a portion of the structure of FIG. 6 in accordance with the present invention;
FIG. 8 is a schematic view of a traction assembly of the present invention;
fig. 9 is a cross-sectional view of a traction assembly of the present invention.
In the figure: 1. a work table; 2. a winding assembly; 21. a first support column; 22. a mounting rod; 23. a first driving motor; 24. a bearing; 25. a first rotating shaft; 26. a clamping assembly; 261. a threaded rod; 262. a thread sleeve; 263. a ring sleeve; 264. a rotating sleeve; 265. a connecting cylinder; 266. a first connection block; 267. a rotating rod; 268. a second connection block; 269. a first rotary piece; 2610. tabletting; 2611. a second rotary piece; 2612. a connecting rod; 2613. a connector; 3. a positioning assembly; 31. a first rack; 32. a first slide rail; 33. a first slider; 34. a first mounting tab; 35. a first support bar; 36. a rotating wheel; 37. cutting off the assembly; 371. an extension plate; 372. a clamping plate; 373. a slide shell; 374. a slide bar; 375. a cover plate; 376. a blade; 377. a clamping plate; 378. a support sheet; 379. a spring; 3710. a second support column; 38. a second driving motor; 39. a first gear; 4. a traction assembly; 41. a second slide rail; 42. a second slider; 43. a second mounting plate; 44. a first connecting shaft; 45. a drive plate; 46. a positioning sheet; 47. clamping blocks; 48. a drive assembly; 481. a sealed housing; 482. a second rotating shaft; 483. a third gear; 484. a fourth gear; 485. a torsion spring; 486. a shifting block; 487. a limiting block; 49. a second rack; 410. a third motor; 411. a second gear; 412. a chute; 413. a limit groove; 414. and a second connecting shaft.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Referring to fig. 1-9, a tinned copper wire winding mechanism comprises a workbench 1 and a winding component 2 arranged at the upper end of the workbench 1 and used for winding copper wires, a positioning component 3 used for assisting copper wire winding is arranged in front of the winding component 2 at the upper end of the workbench 1, a traction component 4 used for traction of the copper wires is arranged in front of the positioning component 3 at the upper end of the workbench 1, the winding component 2 comprises a first support column 21 fixed at the upper end of the workbench 1, one side of the first support column 21 is fixedly connected with an L-shaped mounting rod 22, the upper end of the first support column 21 is fixedly connected with a bearing 24, the upper end of the mounting rod 22 is fixedly connected with a first driving motor 23, the inner side of the bearing 24 is rotatably connected with a first rotating shaft 25, the output end of the first driving motor 23 is fixedly connected with the first rotating shaft 25, and one end of the first rotating shaft 25 is provided with a clamping component 26 used for clamping a spool.
In this embodiment, the clamping assembly 26 includes a threaded rod 261 fixedly connected with the first rotating shaft 25, an outside threaded connection of the threaded rod 261 is provided with a threaded sleeve 262, an outside fixedly connected with annular sleeve 263 of the threaded sleeve 262, an outside rotation of the annular sleeve 263 is connected with a rotating sleeve 264, one end fixedly connected with connecting cylinder 265 of the rotating sleeve 264, a rotating rod 267 is rotatably connected with the outside of the connecting cylinder 265, a lower end of the rotating rod 267 is fixedly connected with a second connecting block 268, an outside rotation of the second connecting block 268 is connected with a first rotating plate 269, and a lower end of the first rotating plate 269 is fixedly connected with a pressing plate 2610.
Specifically, rotating the threaded sleeve 262 can utilize the connecting cylinder 265 to push the rotating rod 267 to drive the pressing sheet 2610 to clamp the spool, so that the spool can be conveniently taken and placed, and the threaded sleeve 262 can be rotated through the annular sleeve 263 and the rotating sleeve 264 without driving the connecting cylinder 265 to rotate.
In this embodiment, the outside fixedly connected with first connecting block 266 of connecting cylinder 265, bull stick 267 and first connecting block 266 rotate to be connected, and the lower extreme fixedly connected with second of bull stick 267 rotates piece 2611, and the lower extreme of second rotates piece 2611 rotates to be connected with connecting rod 2612, and the one end fixedly connected with connector 2613 of threaded rod 261, connecting rod 2612 and connector 2613 rotate to be connected.
Specifically, the connecting rod 2612 can be used for connecting the rotating rod 267 with the connecting head 2613, so that the stability of the rotating rod 267 is ensured.
In this embodiment, the positioning assembly 3 includes a first rack 31 fixed at the upper end of the workbench 1, the upper end of the first rack 31 is fixedly connected with a first slide rail 32, the upper end of the first slide rail 32 is slidably connected with a first slide block 33, the upper end of the first slide block 33 is fixedly connected with a first mounting plate 34, the upper end of the first mounting plate 34 is fixedly connected with a first supporting rod 35, a rotating groove is formed at the upper end of the first supporting rod 35, a rotating wheel 36 is rotatably connected at the inner side of the rotating groove, and a cutting assembly 37 for cutting copper wires is arranged at the front end of the first supporting rod 35.
Specifically, copper wires can be clamped through the rotating wheel 36, copper wire winding is not hindered, the copper wires are supported, and copper wire breakage is prevented.
In this embodiment, the lower end of the first mounting piece 34 is mounted with a second driving motor 38, the output end of the second driving motor 38 is fixedly connected with a first gear 39, and the first gear 39 is meshed with the first rack 31.
Specifically, the second driving motor 38 can drive the first gear 39 to move on the first rack 31, so as to drive the first sliding block 33 to move on the first sliding rail 32, so that the copper wire is perpendicular to the spool, and the spool is wound more neatly.
In this embodiment, the cutting assembly 37 includes an extension board 371 fixedly connected to the front end of the first support rod 35, two groups of clamping boards 372 are fixedly connected to the front end of the extension board 371, one sides of the two groups of clamping boards 372 away from each other are fixedly connected with a sliding shell 373, the inner sides of the sliding shells 373 are slidably connected with sliding rods 374, the upper ends of the two groups of sliding rods 374 are fixedly connected with a cover plate 375 together, the lower end of the cover plate 375 is fixedly connected with a clamping board 377, the front of the clamping board 377 at the lower end of the cover plate 375 is fixedly connected with a blade 376, and the lower end of the clamping board 377 is provided with a V-shaped bayonet.
Specifically, can cut off the copper line through blade 376, conveniently twine good copper line and get and put, can lead to block the copper line through the V font bayonet socket of cardboard 377 lower extreme, prevent that the copper line after cutting off from scattering.
In this embodiment, a supporting plate 378 is slidably connected between the two sets of clamping plates 372, a second supporting column 3710 is fixedly connected to the lower end of the supporting plate 378, a spring 379 is disposed on the outer side of the second supporting column 3710, and the lower end of the spring 379 is fixedly connected to the extension plate 371.
Specifically, can further support the copper line through the backing plate 378, make things convenient for the rolling of copper line, and can make things convenient for the cutting off of copper line.
In this embodiment, the traction assembly 4 includes a second sliding rail 41 fixedly installed at the upper end of the workbench 1, the upper end of the second sliding rail 41 is slidably connected with a second sliding block 42, the upper end of the second sliding block 42 is fixedly connected with a second mounting plate 43, the upper end of the second mounting plate 43 is fixedly connected with a first connecting shaft 44, the outer side of the first connecting shaft 44 is rotatably connected with a driving disc 45, the upper end of the first connecting shaft 44 is fixedly connected with a positioning plate 46, the upper end of the positioning plate 46 is slidably connected with two groups of clamping blocks 47, one side of the second sliding block 42 is provided with a driving assembly 48 assisting the driving disc 45 to rotate, one end of the second mounting plate 43 is fixedly connected with a third motor 410, the output end of the third motor 410 is fixedly connected with a second gear 411, one side of the second sliding rail 41 is fixedly connected with a second rack 49, and the second gear 411 is meshed with the second rack 49.
Specifically, the third motor 410 is started to drive the second gear 411 to move back and forth on the second rack 49, and then the second slider 42 drives the first connecting shaft 44 to move, so that the clamping block 47 pulls the copper wire to move, and the spool is assisted to wind.
In this embodiment, two sets of sliding grooves 412 are formed at the upper end of the driving disc 45, the sliding grooves 412 incline toward the inner side of the driving disc 45, a limiting groove 413 is formed at the upper end of the positioning plate 46, two sets of second connecting shafts 414 are slidably connected to the inner side of the limiting groove 413, the upper ends of the two sets of second connecting shafts 414 are respectively rotatably connected to the two sets of clamping blocks 47, and the lower ends of the two sets of second connecting shafts 414 respectively extend to the inner sides of the two sets of sliding grooves 412.
Specifically, the driving disc 45 rotates to drive the second connecting shaft 414 to slide inside the limiting groove 413 through the sliding groove 412, so as to drive the clamping block 47 to move.
In this embodiment, the driving assembly 48 includes a sealing shell 481 fixedly connected with the second slider 42, a second rotating shaft 482 is rotatably connected to an inner side of the sealing shell 481, a third gear 483 is fixedly connected to an upper end of the second rotating shaft 482, a fourth gear 484 is rotatably connected to an outer side of the first connecting shaft 44, the fourth gear 484 is fixedly connected to the driving disc 45, the fourth gear 484 is meshed with the third gear 483, a torsion spring 485 is disposed on an outer side of the second rotating shaft 482, the torsion spring 485 is located on an inner side of the sealing shell 481, the second rotating shaft 482 penetrates through the sealing shell 481, a shifting block 486 is fixedly connected to a lower end of the second rotating shaft 482, a limiting block 487 is fixedly connected to one side of the second sliding rail 41 at an upper end of the workbench 1, and the limiting block 487 is attached to the shifting block 486.
Specifically, the limiting block 487 can squeeze the pulling block 486 to drive the second rotating shaft 482 to rotate, so that the clamping block 47 clamps or unclamps the copper wire, thereby achieving the purpose of pulling the copper wire, reducing the pressure of winding the copper wire on the spool, and preventing the copper wire from being broken.
When in use, the rotating threaded sleeve 262 moves on the threaded rod 261, the threaded sleeve 262 can drive the connecting cylinder 265 to move, meanwhile, the annular sleeve 263 can rotate on the inner side of the rotating sleeve 264, the connecting cylinder 265 can drive the rotating rod 267 to deflect through the first connecting block 266, the threaded rod 261 at the lower end of the rotating rod 267 is utilized to clamp the spool, the rotating rod 267 can be connected with the connecting head 2613 through the connecting rod 2612, the rotating rod 267 is prevented from rotating around the threaded rod 261, the first driving motor 23 is started to drive the first rotating shaft 25 to rotate so as to drive the clamping assembly 26 to drive the spool to rotate so as to wind the copper wire, the reversely rotating threaded sleeve 262 can drive the rotating rod 267 to open, the spool is convenient to take off, the copper wire is clamped on the rotating wheel 36, the second driving motor 38 is started to drive the first gear 39 to move on the first rack 31, the first mounting plate 34 drives the first sliding block 33 to move on the first sliding rail 32, the first supporting rod 35 is made to drive the copper wire to move along with the winding of the spool, the spool is kept perpendicular to the copper wire during the winding of the spool, the pressing cover plate 375 can drive the sliding rod 374 to slide towards the inner side of the sliding shell 373, the blade 376 can press the supporting plate 378 to move downwards, the spring 379 is contracted, the copper wire can be clamped into the V-shaped bayonet at the lower end of the clamping plate 377, the cover plate 375 is continuously pressed to enable the second supporting column 3710 to be contacted with the extending plate 371, the copper wire can be cut off by the blade 376, when the copper wire is wound, the third motor 410 is started to enable the second gear 411 to move on the second rack 49, the second mounting plate 43 drives the second sliding block 42 to move on the second sliding rail 41, the second mounting plate 43 can drive the sealing shell 481 to move, the poking block 486 can be contacted with the limiting block 487 when the second mounting plate 43 moves backwards, the limiting block 487 can extrude the poking block 486 to drive the second rotating shaft 482 to rotate, at this time, the torsion spring 485 will deflect, the second rotating shaft 482 will drive the third gear 483 to rotate, thereby make the fourth gear 484 drive the driving disc 45 to rotate, the rotation of the driving disc 45 will squeeze the second connecting shaft 414 through the chute 412, make the second connecting shaft 414 drive the clamping block 47 to slide, clamp the copper wire through two groups of clamping blocks 47, drive the copper wire to move backward, when the pulling block 486 passes over the limiting block 487, the torsion spring 485 will drive the second rotating shaft 482 to return to the original position, make the clamping block 47 loosen the copper wire, when the second sliding block 42 moves forward, the limiting block 487 will backward squeeze the pulling block 486 to drive the second rotating shaft 482 to move backward, make the clamping block 47 open outwards, and prevent the clamping block 47 from clamping the copper wire when the second sliding block 42 moves forward.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a tinned copper wire winding mechanism, includes workstation (1) and sets up winding subassembly (2) that are used for the rolling copper line in workstation (1) upper end, the place ahead of upper end winding subassembly (2) of workstation (1) is provided with and is used for assisting copper line winding locating component (3), the place ahead of upper end locating component (3) of workstation (1) is provided with and is used for pulling traction assembly (4) of copper line, its characterized in that: the winding component (2) comprises a first supporting column (21) fixed at the upper end of a workbench (1), one side of the first supporting column (21) is fixedly connected with an L-shaped mounting rod (22), the upper end of the first supporting column (21) is fixedly connected with a bearing (24), the upper end of the mounting rod (22) is fixedly connected with a first driving motor (23), the inner side of the bearing (24) is rotationally connected with a first rotating shaft (25), the output end of the first driving motor (23) is fixedly connected with the first rotating shaft (25), one end of the first rotating shaft (25) is provided with a clamping component (26) for clamping a spool, the clamping component (26) comprises a threaded rod (261) fixedly connected with the first rotating shaft (25), the outer side of the threaded rod (261) is in threaded connection with a threaded sleeve (262), the outer side of the threaded sleeve (262) is fixedly connected with a ring (263), the outer side of the ring (263) is rotationally connected with a rotating sleeve (264), one end of the rotating sleeve (264) is fixedly connected with a connecting cylinder (267), the outer side of the rotating rod (265) is fixedly connected with a second connecting cylinder (269), the lower extreme fixedly connected with preforming (2610) of first revolving flake (269), locating component (3) are including fixing first rack (31) in workstation (1) upper end, the upper end fixedly connected with first slide rail (32) of first rack (31), the upper end sliding connection of first slide rail (32) has first slider (33), the upper end fixedly connected with first mounting flake (34) of first slider (33), the upper end fixedly connected with first bracing piece (35) of first mounting flake (34), the upper end of first bracing piece (35) has seted up the rotary groove, rotary groove inboard rotation is connected with runner (36), the front end of first bracing piece (35) is provided with cutting off subassembly (37) that are used for cutting off the copper line, traction unit (4) are including the second slide rail (41) of fixed mounting in workstation (1) upper end, the upper end sliding connection of second slide rail (41) has second slider (42), the upper end fixedly connected with first mounting flake (43), the upper end fixedly connected with first shaft (44) of second mounting flake (43), the first shaft (44) is connected with first shaft (44), the upper end sliding connection of spacer (46) has two sets of clamp splice (47), one side of second slider (42) is provided with auxiliary drive dish (45) pivoted drive assembly (48), one end fixedly connected with third motor (410) of second mounting piece (43), the output fixedly connected with second gear (411) of third motor (410), one side fixedly connected with second rack (49) of second slide rail (41), second gear (411) meshes with second rack (49).
2. A tinned copper wire winding mechanism as claimed in claim 1, wherein: the outside fixedly connected with first connecting block (266) of connecting cylinder (265), bull stick (267) and first connecting block (266) swivelling joint, the lower extreme fixedly connected with second revolving fragment (2611) of bull stick (267), the lower extreme of second revolving fragment (2611) swivelling joint has connecting rod (2612), the one end fixedly connected with connector (2613) of threaded rod (261), connecting rod (2612) swivelling joint with connector (2613).
3. A tinned copper wire winding mechanism as claimed in claim 1, wherein: the lower extreme of first mounting piece (34) is installed second driving motor (38), the output fixedly connected with first gear (39) of second driving motor (38), first gear (39) meshes with first rack (31).
4. A tinned copper wire winding mechanism as claimed in claim 1, wherein: cutting off subassembly (37) including fixed connection extension board (371) at first bracing piece (35) front end, the front end fixedly connected with of extension board (371) two sets of splint (372), two sets of equal fixedly connected with smooth shell (373) of one side that splint (372) kept away from mutually, the inboard sliding connection of smooth shell (373) has slide bar (374), two sets of the common fixedly connected with apron (375) of upper end of slide bar (374), the lower extreme fixedly connected with cardboard (377) of apron (375), the place ahead fixedly connected with blade (376) of the lower extreme cardboard (377) of apron (375), V font bayonet socket has been seted up to the lower extreme of cardboard (377).
5. A tinned copper wire winding mechanism as claimed in claim 4, wherein: the two groups of clamping plates (372) are connected with supporting plates (378) in a sliding mode, the lower ends of the supporting plates (378) are fixedly connected with second supporting columns (3710), springs (379) are arranged on the outer sides of the second supporting columns (3710), and the lower ends of the springs (379) are fixedly connected with the extending plates (371).
6. A tinned copper wire winding mechanism as claimed in claim 1, wherein: two sets of spouts (412) have been seted up to the upper end of driving disk (45), spout (412) are to the inboard slope of driving disk (45), spacing groove (413) have been seted up to the upper end of spacer (46), the inboard sliding connection of spacing groove (413) has two sets of second connecting axle (414), two sets of the upper end of second connecting axle (414) is connected with two sets of clamp splice (47) rotation respectively, two sets of second connecting axle (414) lower extreme extends to the inboard of two sets of spouts (412) respectively.
7. A tinned copper wire winding mechanism as claimed in claim 6, wherein: the driving assembly (48) comprises a sealing shell (481) fixedly connected with a second sliding block (42), a second rotating shaft (482) is rotatably connected to the inner side of the sealing shell (481), a third gear (483) is fixedly connected to the upper end of the second rotating shaft (482), a fourth gear (484) is rotatably connected to the outer side of the first connecting shaft (44), the fourth gear (484) is fixedly connected with the driving disc (45), the fourth gear (484) is meshed with the third gear (483), a torsion spring (485) is arranged on the outer side of the second rotating shaft (482), the torsion spring (485) is located on the inner side of the sealing shell (481), the second rotating shaft (482) penetrates through the sealing shell (481), a limiting block (487) is fixedly connected to the lower end of the second rotating shaft (482), and one side of a second sliding rail (41) at the upper end of the workbench (1) is fixedly connected with the limiting block (487) and the limiting block (486) are attached to each other.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311564969.7A CN117259483B (en) | 2023-11-22 | 2023-11-22 | Tinned copper wire winding mechanism |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202311564969.7A CN117259483B (en) | 2023-11-22 | 2023-11-22 | Tinned copper wire winding mechanism |
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| CN117259483A CN117259483A (en) | 2023-12-22 |
| CN117259483B true CN117259483B (en) | 2024-01-26 |
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| CN117259483A (en) | 2023-12-22 |
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