CN104384393A - Full-automatic winding machine - Google Patents
Full-automatic winding machine Download PDFInfo
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- CN104384393A CN104384393A CN201410520591.5A CN201410520591A CN104384393A CN 104384393 A CN104384393 A CN 104384393A CN 201410520591 A CN201410520591 A CN 201410520591A CN 104384393 A CN104384393 A CN 104384393A
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Abstract
The invention discloses a full-automatic winding machine. The full-automatic winding machine is characterized by comprises a rack, a winding mechanism, a wire feeding mechanism, a transmission mechanism and a wire cutting mechanism, wherein the winding mechanism is arranged on the rack, the wire feeding mechanism is positioned above the winding mechanism, and the wire cutting mechanism is used for cutting a metal wire which is subjected to winding forming through the winding mechanism; the winding mechanism comprises a winding shaft, a pushing pin and an end surface cam, the winding shaft is provided with a prodding arm, a small spring is arranged between one end of the prodding arm and the winding shaft, the other end of the prodding arm is arranged on the end surface cam in a pushing way, the prodding arm can elastically slide on the end surface cam along with the rotating of the winding shaft, and thus the metal wire can be prodded to be arranged on the pushing pin in a winding way; an inserting hole which is used for enabling the pushing pin to be inserted in is formed in the end surface cam, the end surface cam is formed by a concave part and a convex part, a guiding groove which is positioned beside the inserting hole and is used for guiding wire inserting of the metal wire is formed in the convex part, and the guiding groove stretches to the concave part. The full-automatic winding machine disclosed by the invention has the following beneficial effects that the structure is simple, the working efficiency is high, and time and labor are saved.
Description
Technical field
The present invention relates to metal wire rod process equipment, be specifically related to a kind of fully automatic wire winding machine.
Background technology
The iron wire (as shown in figure 12) of middle part around a circle half is often used when building house, current preparation method is, workman's length is as required cut into sectional iron wire, again being wound around a circle half in the middle part of iron wire on axle, iron wire has certain rigidity, waste time and energy, obviously, manually-operated mode not only efficiency is low but also labour intensity is large.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of time saving and energy saving, fully automatic wire winding machine that efficiency is high,
The technical solution realizing the object of the invention is: fully automatic wire winding machine, is characterized in that: comprising frame, the winding mechanism be installed in frame, being positioned at wire agency, transmission mechanism and the thread cutting mechanism for cutting off metal wire after winding mechanism is Wrapping formed above winding mechanism, described winding mechanism comprises roll, push pin and edge cam, described roll is connected with transmission mechanism, and drive it along own axis by transmission mechanism, roll center is provided with axially extending bore, described pushing pin is slidably disposed in axially extending bore, and driven to push pin by transmission mechanism and to slide in described axially extending bore, described roll is provided with its rotation and stirs metal wire and is wrapped in the moving arm on pushing pin, be provided with between described moving arm and roll and make the other end of moving arm away from roll and the little spring of edge cam Elastic Contact, described edge cam is located in frame, edge cam is provided with for the jack inserted of pushing pin, described edge cam is made up of recess and protuberance, seamlessly transit between described recess and protuberance, described protuberance is provided with and is positioned at jack side and the gathering sill rolled off the production line for guide wire, described gathering sill extends to recess, bottom and the recess of gathering sill are in the same plane, the gathering sill side of gathering sill the same side is positioned at higher than another side of gathering sill with jack.
Described transmission mechanism comprises motor, main shaft, line sending driven shaft, the partial gear be installed on main shaft, the coiling driven gear be installed on roll, the line sending driven gear be installed on line sending driven shaft, and gear-box; Described motor and gear-box are installed in frame, described main shaft, line sending driven shaft, roll are installed on gear-box, described motor is rotated by deceleration device drive shaft, described partial gear respectively with coiling driven gear and line sending driven gear interval engaged transmission, described partial gear meets and drives coiling driven gear to turn
circle (n is positive integer), when the first tooth of described partial gear engages with coiling driven gear, on the recess that described moving arm is positioned at edge cam and metal wire is stirred in preparation; Described main shaft is provided with convex Locking arc, the middle part of described convex Locking arc is provided with driving tooth, described roll is provided with the recessed Locking arc matched with convex Locking arc, the edge of described recessed Locking arc is made up of two concave arcs, the driven tooth matched with driving tooth is provided with between two concave arcs, according to the track that driven locking wheel rotates, the terminal of the starting point of first concave arc and second concave arc was positioned on the straight line in recessed Locking arc axle center; Described gear-box is provided with the locking rod of two between cog inserting line sending driven gear, described main shaft is provided with the radial cams that locking rod is moved back and forth, is provided with back-moving spring between gear-box and locking rod; Described main shaft is provided with axial cam, described in push pin to move back and forth under the control of axial cam thus make to be wrapped in the metal wire on pushing pin and depart from and push pin.
Described thread cutting mechanism comprises electric clippers, line slideway for cutting off metal wire, and described line slideway is located in frame, and line slideway is provided with slide, and described electric clippers is installed on slide, and described frame is provided with the driving mechanism driving slide to move back and forth.
Further, described driving mechanism is the first leverage driven by axial cam, described first leverage comprises the first lever be located in frame, first lever one end is connected with slide, the first push rod is provided with between the other end and axial cam, described gear-box is provided with the first axle sleeve for supporting the first push rod, is provided with the return spring of the electric clippers return making to push out between described frame and slide.
Described wire agency comprises drive pulley, driven pulley, belt, excircle establishes reeded contact roller, the tensioner arm that belt is tightened and guide roller, described belt sleeve is contained on drive pulley and driven pulley, described contact roller, tensioner arm and guide roller are positioned at the same side of belt, the axis of described contact roller and the axis being parallel of drive pulley, described contact roller is arranged in frame by support arm, the holddown spring that contact roller is contacted with the belt flexibility on drive pulley is provided with between support arm with frame, roller is equipped with in described tensioner arm one end, the other end and frame pinned connection, torsion spring is provided with between tensioner arm and frame, roller is made to be pressed on belt, described line sending driven shaft is in transmission connection by chain and drive pulley.
Described frame is provided with conducting mechanism, and described conducting mechanism comprises guide pad, guide holder and drive unit, and described guide holder to be arranged in frame and between moving arm and electric clippers; Described guide pad is connected with drive unit, by drive unit, guide pad is pressed on guide holder, and described guide pad is provided with when guide pad is pressed on guide holder for the guiding groove that shaping rear metal wire passes, and the entrance of described guiding groove is larger than outlet; Described drive unit is arranged in frame.
Described frame is provided with the second leverage that edge cam is moved back and forth, described edge cam by a swing arm and frame hinged, described swing arm is provided with flat recess hole away from the other end of frame, described second leverage comprises the second lever and pull bar, described pull bar one end is connected with swing arm through flat recess hole by bearing pin, the other end and the second lever contact, described pull bar is located in frame slidably, second lever is provided with the second push rod away between the other end of pull bar and axial cam, described gear-box is provided with the second axle sleeve for supporting the second push rod, the extension spring that edge cam is resetted is provided with between described pull bar and frame.
Further, described moving arm is L-shaped, and the other end away from roll is provided with shifting block, and described shifting block is provided with groove.
Further, described edge cam is provided with conduit, and the hole of described conduit just communicates with gathering sill.
Further, in order to make reset of pushing pin, described main shaft is provided with and makes the resetting cam resetted of pushing pin.
A kind of fully automatic wire winding machine of the present invention has following beneficial effect: structure is simple, operating efficiency is high, time saving and energy saving.
Accompanying drawing explanation
Below in conjunction with accompanying drawing and embodiment, the present invention is elaborated;
Fig. 1 is structural representation of the present invention;
Fig. 2 is structure right view of the present invention;
Fig. 3 is the transmission mechanism structure enlarged diagram that the present invention removes motor, deceleration device, and its convexity Locking arc matches with second concave arc of recessed Locking arc;
Fig. 4 is the axial arrangement schematic diagram of the transmission mechanism only leaving gear-box side plate shown in Fig. 3;
Fig. 5 is the structure enlarged diagram of roll of the present invention;
Fig. 6 is the top view of roll shown in Fig. 5, and the little spring between moving arm and roll is shown;
Fig. 7 is edge cam structure enlarged diagram of the present invention;
Fig. 8 is the front view of edge cam shown in Fig. 7;
Fig. 9 is the structure enlarged diagram of partial gear of the present invention, axial cam, radial cams and convex Locking arc;
Figure 10 is the structure enlarged diagram of the recessed Locking arc of the present invention;
Figure 11 is the structure enlarged diagram of guide pad of the present invention;
Figure 12 is the product structure schematic diagram that the present invention produces.
Detailed description of the invention
As shown in Fig. 1 ~ Figure 11, a kind of fully automatic wire winding machine, comprising frame 100, the winding mechanism 200 be installed in frame, being positioned at wire agency 300 above winding mechanism, transmission mechanism 400, thread cutting mechanism 500 for cutting off metal wire after winding mechanism is Wrapping formed.
Described winding mechanism 200 comprises roll 210, to push pin 220 and edge cam 230, described roll 210 is connected with transmission mechanism 400, and drive it along own axis by transmission mechanism, roll 210 center is provided with axially extending bore 211, described pushing pin 220 is slidably disposed in axially extending bore 211, and drive by transmission mechanism 400 220 slips in described axially extending bore 211 of pushing pin, described roll 210 is provided with its rotation and stirs metal wire and is wrapped in the moving arm 212 on pushing pin, be provided with between described moving arm 212 and roll 210 and make the other end of moving arm 212 away from roll and the little spring 213 of edge cam 230 Elastic Contact, described moving arm 212 is L-shaped, the other end away from roll is provided with shifting block 214, described shifting block 214 is provided with groove 215, make metal wire at edge cam and moving arm between the other end away from roll, make the space of metal money play little, fall into groove, be convenient to be wound around.Described edge cam 230 is hinged with frame 100 by a swing arm 231, described swing arm 231 is provided with flat recess hole 232 away from the other end of frame, described edge cam 230 is provided with the jack 233 for 220 insertions of pushing pin, edge cam 230 is made up of recess 230.1 and protuberance 230.2, recess and the protuberance of described edge cam seamlessly transit, described protuberance 230.2 is provided with and is positioned at jack 233 side and the gathering sill 234 rolled off the production line for guide wire, described gathering sill 234 extends to recess 230.1, bottom 234.1 and the recess 230.1 of gathering sill 234 are positioned at same plane, the gathering sill side of gathering sill the same side is positioned at higher than another side of gathering sill with jack, namely the dual-side of described gathering sill 234 has difference in height, if gathering sill is positioned at the left side of jack, then moving arm slides (as shown in Figure 8 counterclockwise on edge cam, the direction of arrow is slided), the right edge 234.2 of gathering sill higher than limit, left side 234.3 (as Fig. 7, shown in 8), if gathering sill is positioned at the right side of jack, then moving arm slid clockwise on edge cam, the limit, left side of gathering sill is not higher than right edge (providing diagram).The end face of described roll 210 be provided with when push pin retraction through hole time eject shaping after the projection 216 of metal wire.In order to metal wire rolls off the production line smooth and easy, improve the accuracy rate dialling line, edge cam 230 is provided with conduit 235, and the pore of described conduit 235 just communicates with gathering sill 234.
Described transmission mechanism 400 comprises motor 410, main shaft 420, line sending driven shaft 430, the partial gear 421 be installed on main shaft, the coiling driven gear 440 be installed on roll 210, be installed on the line sending driven gear 431 on line sending driven shaft, and gear-box 450, described motor 410 and gear-box 450 are installed in frame 100, described main shaft 420, line sending driven shaft 430 and roll 210 are installed on gear-box 450, described motor 410 is rotated by deceleration device 411 drive shaft 420, described partial gear 421 respectively with coiling driven gear 440 and line sending driven gear 431 interval engaged transmission, described partial gear 421 meets and drives coiling driven gear 440 turns
circle, when the first tooth of described partial gear 421 engages with coiling driven gear 440, described moving arm 212 is positioned at the recess of edge cam 230 and prepares to stir metal wire, described main shaft 420 is provided with convex Locking arc 422, the middle part of described convex Locking arc 422 is provided with driving tooth 422.1, described roll 210 is provided with the recessed Locking arc 460 matched with convex Locking arc 422, the edge of described recessed Locking arc 460 is by two concave arcs (460.1, 460.2) form, at two concave arcs (460.1, 460.2) driven tooth 460.3 matched with driving tooth 422.1 is provided with between, according to the track that driven locking wheel rotates, the terminal of the starting point of first concave arc 460.1 and second concave arc 460.2 was positioned on the straight line in recessed Locking arc axle center, described gear-box 450 is provided with the locking rod 470 of two between cog inserting line sending driven gear 431, described main shaft 420 is provided with the radial cams 423 that locking rod 470 is moved back and forth, is provided with back-moving spring 471 between gear-box 450 and locking rod 470, described main shaft 420 is provided with axial cam 424, described push pin 220 move back and forth under the control of axial cam 424 thus make to be wrapped in the metal wire on pushing pin depart from push pin, further, in order to ensure to make reset of pushing pin, main shaft 420 is provided with the resetting cam 424 of 220 resets that make to push pin.
Described thread cutting mechanism 500 comprises the electric clippers 510 for cutting off metal wire, line slideway 520, described line slideway 520 is located in frame 100, line slideway 520 is provided with slide 521, described electric clippers 510 is installed on slide 521, described frame 100 is provided with the first leverage 530 driving slide to move back and forth, described first leverage 530 comprises the first lever 531 be located in frame 100, first lever 531 one end is connected with slide 521, the first push rod 532 is provided with between the other end and axial cam 424, described gear-box 450 is provided with the first axle sleeve 451 for supporting the first push rod 532, the return spring 533 of the electric clippers return making to push out is provided with between described frame 100 and slide 521.
Described wire agency 300 comprises drive pulley 310, driven pulley 320, belt 330, excircle establishes reeded contact roller 340, the tensioner arm 350 that belt is tightened and guide roller 360, described belt 330 is sleeved on drive pulley 310 and driven pulley 320, described contact roller 340, tensioner arm 350 and guide roller 360 are positioned at the same side of belt, the axis of described contact roller 340 and the axis being parallel of drive pulley 310, described contact roller 340 is arranged in frame 100 by support arm 341, the holddown spring 342 that contact roller is contacted with the belt flexibility on drive pulley is provided with between support arm 341 with frame 100, roller 351 is equipped with in described tensioner arm 350 one end, the other end and frame 100 pinned connection, torsion spring 352 is provided with between tensioner arm 350 and frame 100, roller 351 is made to be pressed on belt 330, described line sending driven shaft 430 is in transmission connection by chain and drive pulley 310, described frame 100 is provided with the projection 370 between guide roller 360 and belt 330, described projection 370 is provided with guide wire and rolls off the production line the pilot hole in direction, and guide roller and pilot hole can carry out rough stretching shaping to metal wire.
Described frame 100 is provided with conducting mechanism 600, and described conducting mechanism 600 comprises guide pad 610, guide holder 620 and drive unit 630, and described guide holder 620 to be arranged in frame 100 and between moving arm 212 and electric clippers 510; Described guide pad 610 is connected with drive unit 630, by drive unit 630, guide pad 610 is pressed on guide holder 620, described guide pad 610 is provided with when guide pad is pressed on guide holder for the guiding groove 611 that shaping rear metal wire passes, the entrance 611.1 of described guiding groove 611 is larger than outlet 611.2, entrance is horn-like, make shaping after metal wire just fall into guiding groove, thus accurately fall on the edge of a knife of electric clippers 510; Described drive unit 630 is arranged in frame 100.
Described frame 100 is provided with the second leverage 240 that edge cam 230 is moved back and forth, described second leverage 240 comprises and is located at the second lever 241 in frame and pull bar 242, described pull bar 242 one end is connected with swing arm 236 through flat recess hole 236.1 by bearing pin, the other end contacts with the second lever 241, described pull bar 242 is located in frame 100 slidably, second lever 241 is provided with the second push rod 243 away between the other end of pull bar and axial cam 424, described gear-box 450 is provided with the second axle sleeve 452 for supporting the second push rod 243, the extension spring 244 that edge cam is resetted is provided with between described pull bar 242 and frame 100.
The course of work:
Metal wire is around on guide roller 360, and through the pilot hole on projection 370, the roller 351 on tensioner arm 350 is pressed in metal wire on belt 330, and simultaneously belt tension, contact roller 340 is pressed in metal wire on the belt 330 of drive pulley 310.Motor 410 turns clockwise (direction is seen as shown in Figure 4) by the main shaft 420 that decelerator 411 drives, main shaft 420 to be engaged with line sending driven gear 431 by partial gear 421 and drives line sending driven shaft 430 to rotate, wire agency 300 is driven down to send metal wire, metal wire is through guide pipe 235 and gathering sill 234, arrive the knife-edge part of electric clippers 510, partial gear 421 departs from line sending driven gear 431 and engages, metal wire stops descending, when radial cams 423 forwards basic circle section to, by the effect of back-moving spring 471, locking rod 470 inserts two between cog of line sending driven gear 431, thus line sending driven shaft 430 locking.When the first tooth of partial gear 421 forward to engage with coiling driven gear 440 time, the moving arm 212 being located at roll 210 is positioned in original position, and described original position is that moving arm 212 is positioned at the recess 230.1 of edge cam 230 and prepares to stir metal wire; Partial gear 421 is rotated further, being engaged with coiling driven gear 440 by partial gear 421 drives roll 210 to rotate, thus moving arm 212 catches metal wire by axle centered by 220 of pushing pin, and is wound around 1.5 circles, partial gear 421 forwards anodontia section to, and roll 210 stops operating; Now convex Locking arc 422 matches with first concave arc 460.1 of recessed Locking arc 460, roll 210 locking, prevents roll 210 from turning round; Meanwhile, axial cam 424 is pushed open edge cam 230 by the second leverage 240, and is unrolled in the through hole 211 of bobbin 210 in 220 tops of pushing pin, thus makes metal wire disengaging push pin 220.Time a little, driving tooth 422.1 on convex Locking arc 422 engages with the driven tooth 460.3 of recessed Locking arc 460, roll 210 is driven to rotate, main shaft 420 is rotated further, convex Locking arc 422 matches with second concave arc 460.2 of recessed Locking arc 460, roll 210 locking, now moving arm 212 is got back in original position.Metal wire departs from pushes pin after 220, and radial cams 423 ejects two between cog of locking rod 470 from line sending driven gear 431, and partial gear 421 engages again with line sending driven gear 431.Before completing line sending, the second push rod 243 is positioned at the datum level of axial cam 424, edge cam 230 return under the effect of extension spring 244, pushes pin 220 to eject under the effect of resetting cam 242, and in the jack 233 of insertion end face cam 230.Main shaft 420 is again engaged by partial gear 421 and line sending driven gear 431 and drives wire agency 300 down to send metal wire; Meanwhile drive unit 630 is buckled in guide pad 610 on guide holder 620, and metal wire penetrates in guiding groove 611.When partial gear 421 and line sending driven gear 431 depart from engage time, line sending stops, meanwhile, axial cam 424 just forwards to and is ejected by the first push rod 532, first leverage 530 is shifted cutting position onto electric clippers 510 and is set up, metal wire cut off by electric clippers 510, and guide pad 610 leaves guide holder 620, then enters next circulation.
Claims (10)
1. fully automatic wire winding machine, is characterized in that: comprising frame, the winding mechanism be installed in frame, being positioned at wire agency, transmission mechanism and the thread cutting mechanism for cutting off metal wire after winding mechanism is Wrapping formed above winding mechanism, described winding mechanism comprises roll, push pin and edge cam, described roll is connected with transmission mechanism, and drive it along own axis by transmission mechanism, roll center is provided with axially extending bore, described pushing pin is slidably disposed in axially extending bore, and driven to push pin by transmission mechanism and to slide in described axially extending bore, described roll is provided with its rotation and stirs metal wire and is wrapped in the moving arm on pushing pin, be provided with between described moving arm and roll and make the other end of moving arm away from roll and the little spring of edge cam Elastic Contact, described edge cam is located in frame, edge cam is provided with for the jack inserted of pushing pin, described edge cam is made up of recess and protuberance, seamlessly transit between described recess and protuberance, described protuberance is provided with and is positioned at jack side and the gathering sill rolled off the production line for guide wire, described gathering sill extends to recess, bottom and the recess of gathering sill are in the same plane, the gathering sill side of gathering sill the same side is positioned at higher than another side of gathering sill with jack.
2. fully automatic wire winding machine according to claim 1, it is characterized in that: described transmission mechanism comprises motor, main shaft, line sending driven shaft, the partial gear be installed on main shaft, the coiling driven gear be installed on roll, the line sending driven gear be installed on line sending driven shaft, and gear-box; Described motor and gear-box are installed in frame, described main shaft, line sending driven shaft, roll are installed on gear-box, described motor is rotated by deceleration device drive shaft, described partial gear respectively with coiling driven gear and line sending driven gear interval engaged transmission, described partial gear meets and drives coiling driven gear to turn
circle, when the first tooth of described partial gear engages with coiling driven gear, on the recess that described moving arm is positioned at edge cam and metal wire is stirred in preparation; Described main shaft is provided with convex Locking arc, the middle part of described convex Locking arc is provided with driving tooth, described roll is provided with the recessed Locking arc matched with convex Locking arc, the edge of described recessed Locking arc is made up of two concave arcs, the driven tooth matched with driving tooth is provided with between two concave arcs, according to the track that driven locking wheel rotates, the terminal of the starting point of first concave arc and second concave arc was positioned on the straight line in recessed Locking arc axle center; Described gear-box is provided with the locking rod of two between cog inserting line sending driven gear, described main shaft is provided with the radial cams that locking rod is moved back and forth, is provided with back-moving spring between gear-box and locking rod; Described main shaft is provided with axial cam, described in push pin to move back and forth under the control of axial cam thus make to be wrapped in the metal wire on pushing pin and depart from and push pin.
3. fully automatic wire winding machine according to claim 2, it is characterized in that: described thread cutting mechanism comprises electric clippers, line slideway for cutting off metal wire, described line slideway is located in frame, line slideway is provided with slide, described electric clippers is installed on slide, and described frame is provided with the driving mechanism driving slide to move back and forth.
4. fully automatic wire winding machine according to claim 3, it is characterized in that: described driving mechanism is the first leverage driven by axial cam, described first leverage comprises the first lever be located in frame, first lever one end is connected with slide, the first push rod is provided with between the other end and axial cam, described gear-box is provided with the first axle sleeve for supporting the first push rod, is provided with the return spring of the electric clippers return making to push out between described frame and slide.
5. fully automatic wire winding machine according to claim 2, it is characterized in that: described wire agency comprises drive pulley, driven pulley, belt, excircle establishes reeded contact roller, the tensioner arm that belt is tightened and guide roller, described belt sleeve is contained on drive pulley and driven pulley, described contact roller, tensioner arm and guide roller are positioned at the same side of belt, the axis of described contact roller and the axis being parallel of drive pulley, described contact roller is arranged in frame by support arm, the holddown spring that contact roller is contacted with the belt flexibility on drive pulley is provided with between support arm with frame, roller is equipped with in described tensioner arm one end, the other end and frame pinned connection, torsion spring is provided with between tensioner arm and frame, roller is made to be pressed on belt, described line sending driven shaft is in transmission connection by chain and drive pulley.
6. fully automatic wire winding machine according to claim 1, it is characterized in that: described frame is provided with conducting mechanism, described conducting mechanism comprises guide pad, guide holder and drive unit, and described guide holder to be arranged in frame and between moving arm and electric clippers; Described guide pad is connected with drive unit, by drive unit, guide pad is pressed on guide holder, and described guide pad is provided with when guide pad is pressed on guide holder for the guiding groove that shaping rear metal wire passes, and the entrance of described guiding groove is larger than outlet; Described drive unit is arranged in frame.
7. fully automatic wire winding machine according to claim 2, it is characterized in that: described frame is provided with the second leverage that edge cam is moved back and forth, described edge cam by a swing arm and frame hinged, described swing arm is provided with flat recess hole away from the other end of frame, described second leverage comprises the second lever and pull bar, described pull bar one end is connected with swing arm through flat recess hole by bearing pin, the other end and the second lever contact, described pull bar is located in frame slidably, second lever is provided with the second push rod away between the other end of pull bar and axial cam, described gear-box is provided with the second axle sleeve for supporting the second push rod, the extension spring that edge cam is resetted is provided with between described pull bar and frame.
8. fully automatic wire winding machine according to claim 1, is characterized in that: described moving arm is L-shaped, and the other end away from roll is provided with shifting block, and described shifting block is provided with groove.
9. the fully automatic wire winding machine according to claim 1 or 7, is characterized in that: described edge cam is provided with conduit, and the hole of described conduit just communicates with gathering sill.
10. fully automatic wire winding machine according to claim 2, is characterized in that: described main shaft is provided with and makes the resetting cam resetted of pushing pin.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410520591.5A CN104384393B (en) | 2014-09-30 | 2014-09-30 | Fully automatic wire winding machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410520591.5A CN104384393B (en) | 2014-09-30 | 2014-09-30 | Fully automatic wire winding machine |
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| CN104384393A true CN104384393A (en) | 2015-03-04 |
| CN104384393B CN104384393B (en) | 2016-04-06 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201410520591.5A Expired - Fee Related CN104384393B (en) | 2014-09-30 | 2014-09-30 | Fully automatic wire winding machine |
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Cited By (6)
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| CN105731178A (en) * | 2016-04-26 | 2016-07-06 | 江苏雷特电机股份有限公司 | Automatic wire feeding device |
| CN105728599A (en) * | 2016-05-06 | 2016-07-06 | 中国矿业大学 | Cutting mechanism of two variable-pitch variable-width mutually-twisted flat screw wires and using method thereof |
| CN106077365A (en) * | 2016-08-18 | 2016-11-09 | 詹云 | Metal fibril automatic winding device |
| CN107910995A (en) * | 2017-12-25 | 2018-04-13 | 天津市源泉机电设备制造有限公司 | A kind of coiling flowing water unit |
| CN110202079A (en) * | 2019-05-30 | 2019-09-06 | 苏州福菁浩自动化科技有限公司 | A kind of production method of microsprings |
| CN112091479A (en) * | 2020-08-19 | 2020-12-18 | 武汉凌云光电科技有限责任公司 | Clamping winding ring assembly for preparing tin ring, automatic tin ring preparation device and method |
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| CN105731178A (en) * | 2016-04-26 | 2016-07-06 | 江苏雷特电机股份有限公司 | Automatic wire feeding device |
| CN105728599A (en) * | 2016-05-06 | 2016-07-06 | 中国矿业大学 | Cutting mechanism of two variable-pitch variable-width mutually-twisted flat screw wires and using method thereof |
| CN105728599B (en) * | 2016-05-06 | 2017-11-17 | 中国矿业大学 | A kind of variable-pitch and variable width two is mutually around flat spiral steel wire cutting mechanism and its application method |
| CN106077365A (en) * | 2016-08-18 | 2016-11-09 | 詹云 | Metal fibril automatic winding device |
| CN107910995A (en) * | 2017-12-25 | 2018-04-13 | 天津市源泉机电设备制造有限公司 | A kind of coiling flowing water unit |
| CN110202079A (en) * | 2019-05-30 | 2019-09-06 | 苏州福菁浩自动化科技有限公司 | A kind of production method of microsprings |
| CN112091479A (en) * | 2020-08-19 | 2020-12-18 | 武汉凌云光电科技有限责任公司 | Clamping winding ring assembly for preparing tin ring, automatic tin ring preparation device and method |
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| CN104384393B (en) | 2016-04-06 |
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