CN210467579U - Novel inductance coil winding device - Google Patents

Abstract

The utility model relates to a novel inductance coils wire winding device belongs to mechanical equipment technical field. This novel inductance coils wire winding device includes operation panel, lower wire winding servo motor, barricade fixing base, crossbeam and goes up wire winding servo motor. When the novel inductance coil winding device is used, an inductance wire sequentially passes through a lead ring, a wire bundling wheel and a wire guide nozzle which are arranged on a wire inlet mechanism, the inductance wire is clamped by a cutting wire clamping cylinder through a wire clamping block and a cutting wire clamping baffle, and meanwhile, the cutting wire clamping cylinder drives a cutting knife to cut off redundant inductance wires; and the lower winding servo motor and the upper winding servo motor are used for starting working at the same time, so that the winding process of the inductance wire is completed. In a word, this novel inductance coils winding device structural design is reasonable, can make the both ends of inductance line wire winding simultaneously, has improved inductance coils's wire winding efficiency, has alleviateed workman's intensity of labour, has also improved inductance coils wire-wound qualification rate simultaneously, is fit for using widely.

Description

Novel inductance coil winding device

Technical Field

The utility model relates to a novel inductance coils wire winding device belongs to mechanical equipment technical field.

Background

The inductor can convert the electric energy into magnetic energy to be stored. The inductor is similar in structure to a transformer, but has only one winding. The inductor has an inductance that only impedes the change in current. If the inductor is in a state where no current is passing, it will try to block the current from flowing through it when the circuit is on; if the inductor is in a current passing state, the inductor will try to keep the current unchanged when the circuit is opened. The inductance coil is an important component in the inductor, and the winding of the inductance coil is completed mechanically due to the small volume of the inductance coil, but the existing inductance coil device is complex in structure, low in winding efficiency and low in qualification rate after the inductance coil is prepared.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that exists among the background art, the utility model provides a technical scheme that its technical problem adopted is: a novel inductance coil winding device comprises an operation table, a lower winding servo motor, a retaining wall fixing seat, a cross beam and an upper winding servo motor, wherein the bottom of the operation table is fixedly provided with the lower winding servo motor, the retaining wall fixing seat is fixed on the operation table corresponding to the lower winding servo motor, the middle part of the retaining wall fixing seat is fixedly provided with the retaining wall, the retaining wall fixing seat is provided with a flying fork clamping jaw air cylinder fixing seat, the lower winding servo motor can drive the flying fork clamping jaw air cylinder fixing seat to rotate around the retaining wall, the flying fork clamping jaw air cylinder fixing seat is fixedly provided with a flying fork clamping jaw air cylinder, the flying fork clamping jaw air cylinder is provided with a flying fork clamping jaw, the operation table is fixedly provided with the cross beam, the side surface of the cross beam is fixedly provided with a transverse moving guide rail relative to the flying fork clamping jaw air cylinder fixing seat, the transverse moving guide rail is provided with a transverse moving slide plate, a vertical moving guide rail is fixed on the transverse moving sliding plate, a vertical moving sliding plate is arranged on the vertical moving guide rail and can slide along the vertical moving guide rail under the driving of a vertical moving servo motor, an upper winding servo motor, a limiting bearing and a collet chuck driving cylinder are fixed on the vertical moving sliding plate, a rotating shaft of the upper winding servo motor penetrates through the limiting bearing, a collet chuck is arranged at the bottom of the rotating shaft, a collet chuck driving plate is fixed at the top end of a collet chuck driving ejector rod of the collet chuck driving cylinder, the collet chuck driving cylinder can control the opening and closing of the collet chuck through the collet chuck driving ejector rod and the collet chuck driving plate, a wire clamping vertical moving cylinder is fixed on the side surface of the limiting bearing, a wire clamping vertical moving plate is arranged at the top end of the ejector rod of the wire clamping vertical moving cylinder, and a wire clamping jaw cylinder is fixed on the wire clamping, be equipped with the double-layered line clamping jaw on the double-layered line clamping jaw cylinder, the bottom of crossbeam is fixed with cuts double-layered line lateral shifting cylinder, cut double-layered line lateral shifting cylinder and can drive and cut double-layered line longitudinal shifting cylinder lateral shifting, cut double-layered line longitudinal shifting cylinder and can drive and cut the vertical moving cylinder longitudinal shifting of double-layered line, cut the vertical moving cylinder of double-layered line and can drive and cut double-layered line cylinder fixed plate and remove in vertical direction, it cuts double-layered line cylinder and cuts double-layered line baffle to cut to be fixed with on the double-layered line cylinder fixed plate, the one side of cutting double-layered line baffle is equipped with cuts the sword, the opposite side of cutting double-layered line baffle is equipped with the double-layered line piece, it can drive and cut sword and double-layered line piece and slide.

Preferably, a wire inlet mechanism is fixed on the operating platform, and a wire guide nozzle, a wire bundling wheel and a wire guide ring are arranged on the wire inlet mechanism.

The utility model designs a novel inductance coil winding device, which is characterized in that in the using process, an inductance line sequentially passes through a lead ring, a wire bundling wheel and a lead nozzle which are arranged on a line inlet mechanism, a cutting and line clamping cylinder clamps the inductance line through a line clamping block and a cutting and line clamping baffle plate, and meanwhile, the cutting and line clamping cylinder drives a cutting knife to cut off redundant inductance line; then the cutting wire clamping cylinder bypasses the retaining wall under the combined action of the cutting wire clamping transverse moving cylinder, the cutting wire clamping longitudinal moving cylinder and the cutting wire clamping vertical moving cylinder, a flying fork clamping jaw arranged on the flying fork clamping jaw cylinder clamps the inductance wire, and the cutting wire clamping cylinder releases the inductance wire; then, the collet chuck clamps the head of the inductor to be wound under the driving of a collet chuck driving cylinder, and the collet chuck places the inductor to be wound on a retaining wall under the driving of a transverse moving servo motor and a vertical moving servo motor; then lower winding servo motor and last winding servo motor begin work simultaneously, lower winding servo motor drives the end of a thread that flies fork clamping jaw cylinder and rotates and drive inductance line and coils the winding post of inductance, meanwhile, winding servo motor drives the collet chuck that presss from both sides the inductance head and rotates, make the winding post of inductance carry out the double-line winding simultaneously, after finishing setting for the number of winding turns, fly fork clamping jaw stops to between barricade and the mechanism of entrying, the clamp jaw is under the drive of the vertical removal cylinder of clamp wire and clamp jaw cylinder, clip two inductance lines that inductance winding post came out, fly fork clamping jaw unclamps the inductance line, cut the surplus inductance line that the clamp cylinder removed and come out inductance winding post and cut off, accomplish the winding process of inductance line. In a word, this novel inductance coils winding device structural design is reasonable, can make the both ends of inductance line wire winding simultaneously, has improved inductance coils's wire winding efficiency, has alleviateed workman's intensity of labour, has also improved inductance coils wire-wound qualification rate simultaneously, is fit for using widely.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of a novel inductance coil winding device of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural diagram of a novel inductance coil winding device of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

fig. 5 is a schematic structural diagram three of the novel inductance coil winding device of the present invention;

wherein, 1, an operation table; 2. a lower winding servo motor; 3. retaining wall fixing seats; 4. retaining walls; 5. a fly fork clamping jaw air cylinder fixing seat; 6. a fly fork clamping jaw cylinder; 7. a fly fork jaw; 8. a cross beam; 9. a lateral movement guide rail; 10. moving the servo motor laterally; 11. transversely moving the slide plate; 12. a vertically moving guide rail; 13. vertically moving a servo motor; 14. vertically moving the slide plate; 15. an upper winding servo motor; 16. a limit bearing; 17. a rotating shaft; 18. a collet; 19. the collet drives the cylinder; 20. the collet chuck drives the ejector rod; 21. a collet driver plate; 22. a wire clamping vertical moving cylinder; 23. a wire clamping vertical moving plate; 24. a wire clamping jaw cylinder; 25. a wire clamping jaw; 26. a cutting wire clamping transverse moving cylinder; 27. a cutting wire clamping longitudinal moving cylinder; 28. a cutting wire clamping vertical moving cylinder; 29. cutting a wire clamping cylinder fixing plate; 30. a cutting wire clamping cylinder; 31. cutting a wire clamping baffle; 32. cutting knife; 33. a wire clamping block; 34. a wire inlet mechanism; 35. a wire nozzle; 36. a wire bundling wheel; 37. and a wire loop.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The attached drawings are simplified schematic diagrams, and merely illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

In a first specific embodiment, please refer to fig. 1-5, a novel inductance coil winding device comprises an operation table 1, a lower winding servo motor 2, a retaining wall fixing seat 3, a beam 8 and an upper winding servo motor 15, wherein the bottom of the operation table 1 is fixed with the lower winding servo motor 2, the retaining wall fixing seat 3 is fixed on the operation table 1 corresponding to the lower winding servo motor 2, a retaining wall 4 is fixed in the middle of the retaining wall fixing seat 3, a flying fork clamping jaw cylinder fixing seat 5 is arranged on the retaining wall fixing seat 3, the lower winding servo motor 2 can drive the flying fork clamping jaw cylinder fixing seat 5 to rotate around the retaining wall 4, a flying fork clamping jaw cylinder 6 is fixed on the flying fork clamping jaw cylinder fixing seat 5, a flying fork clamping jaw 7 is arranged on the flying fork clamping jaw cylinder 6, the beam 8 is fixed on the operation table 1, a lateral moving guide rail 9 is fixed on the lateral surface of the beam 8 relative to the flying fork clamping jaw cylinder fixing, the horizontal moving guide rail 9 is provided with a horizontal moving slide plate 11, the horizontal moving slide plate 11 can slide along the horizontal moving guide rail 9 under the driving of a horizontal moving servo motor 10, the horizontal moving slide plate 11 is fixed with a vertical moving guide rail 12, the vertical moving guide rail 12 is provided with a vertical moving slide plate 14, the vertical moving slide plate 14 can slide along the vertical moving guide rail 12 under the driving of a vertical moving servo motor 13, the vertical moving slide plate 14 is fixed with an upper winding servo motor 15, a limit bearing 16 and a collet chuck driving cylinder 19, a rotating shaft 17 of the upper winding servo motor 15 passes through the limit bearing 16, the bottom of the rotating shaft 17 is provided with a collet chuck 18, the top end of a collet chuck driving mandril 20 of the collet chuck driving cylinder 19 is fixed with a collet chuck 21, and the collet chuck driving cylinder 19 can control the opening and closing of the collet chuck 18 through the collet chuck driving mandril 20 and the collet chuck driving plate, a clamping line vertical moving cylinder 22 is fixed on the side face of the limiting bearing 16, a clamping line vertical moving plate 23 is arranged at the top end of an ejector rod of the clamping line vertical moving cylinder 22, a clamping line clamping jaw cylinder 24 is fixed on the clamping line vertical moving plate 23, a clamping line clamping jaw 25 is arranged on the clamping line clamping jaw cylinder 24, a cutting clamping line transverse moving cylinder 26 is fixed at the bottom of the cross beam 8, the cutting clamping line transverse moving cylinder 26 can drive a cutting clamping line longitudinal moving cylinder 27 to transversely move, the cutting clamping line longitudinal moving cylinder 27 can drive a cutting clamping line vertical moving cylinder 28 to longitudinally move, the cutting clamping line vertical moving cylinder 28 can drive a cutting clamping line cylinder fixing plate 29 to move in the vertical direction, a cutting clamping line cylinder 30 and a cutting clamping line baffle plate 31 are fixed on the cutting clamping line cylinder fixing plate 29, and a cutting knife 32 is arranged on one side of the cutting clamping line baffle plate 31, the other side that cuts double-layered line baffle 31 is equipped with thread clamping block 33, cut double-layered line cylinder 30 and can drive and cut sword 32 and the slip of thread clamping block 33 on cutting double-layered line cylinder fixed plate 29, be fixed with income line mechanism 34 on the operation panel 1, it is equipped with wire mouth 35, bunch wheel 36 and wire loop 37 on the mechanism 34 to go into the line.

The utility model discloses a novel inductance coil winding device, which is characterized in that in the using process, an inductance wire sequentially passes through a lead ring 37, a wire bunching wheel 36 and a wire guide nozzle 35 which are arranged on a wire inlet mechanism 34, a cutting wire clamping cylinder 30 clamps the inductance wire through a wire clamping block 33 and a cutting wire clamping baffle 31, and meanwhile, the cutting wire clamping cylinder 30 drives a cutting knife 32 to cut off redundant inductance wires; then the cutting wire clamping cylinder 30 bypasses the retaining wall 4 under the combined action of the cutting wire clamping transverse moving cylinder 26, the cutting wire clamping longitudinal moving cylinder 27 and the cutting wire clamping vertical moving cylinder 28, so that the fly fork clamping jaw 7 arranged on the fly fork clamping jaw cylinder 6 clamps the inductance wire, and the cutting wire clamping cylinder 30 releases the inductance wire; then, the collet chuck 18 clamps the head of the inductor to be wound under the driving of the collet chuck driving cylinder 19, and the collet chuck 18 places the inductor to be wound on the retaining wall 4 under the driving of the transverse movement servo motor 10 and the vertical movement servo motor 13; then, the lower winding servo motor 2 and the upper winding servo motor 15 start to work simultaneously, the lower winding servo motor 2 drives the flying fork clamping jaw cylinder 6 to rotate to drive the line end of the inductance line to wind the winding post of the inductance, meanwhile, the upper winding servo motor 15 drives the collet chuck 18 which clamps the inductance head to rotate, so that the winding post of the inductance simultaneously carries out double-line winding, after the set winding number is finished, the flying fork clamping jaw 7 stops between the retaining wall 4 and the line inlet mechanism 34, the line clamping jaw 25 clamps two inductance lines coming out of the inductance winding post under the driving of the line clamping vertical moving cylinder 22 and the line clamping jaw cylinder 24, the flying fork clamping jaw 7 loosens the inductance lines, the line cutting clamping cylinder 30 moves to cut off redundant inductance lines coming out of the inductance winding post, and the winding process of the inductance lines is finished. In a word, this novel inductance coils winding device structural design is reasonable, can make the both ends of inductance line wire winding simultaneously, has improved inductance coils's wire winding efficiency, has alleviateed workman's intensity of labour, has also improved inductance coils wire-wound qualification rate simultaneously, is fit for using widely.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (2)

1. The utility model provides a novel inductance coils wire winding device, includes operation panel (1), lower wire winding servo motor (2), barricade fixing base (3), crossbeam (8) and last wire winding servo motor (15), its characterized in that: the bottom of the operating platform (1) is fixed with a lower winding servo motor (2), the operating platform (1) is fixed with a retaining wall fixing seat (3) corresponding to the lower winding servo motor (2), the middle part of the retaining wall fixing seat (3) is fixed with a retaining wall (4), a flying fork clamping jaw air cylinder fixing seat (5) is arranged on the retaining wall fixing seat (3), the lower winding servo motor (2) can drive the flying fork clamping jaw air cylinder fixing seat (5) to rotate around the retaining wall (4), a flying fork clamping jaw air cylinder (6) is fixed on the flying fork clamping jaw air cylinder fixing seat (5), a flying fork clamping jaw (7) is arranged on the flying fork clamping jaw air cylinder (6), a cross beam (8) is fixed on the operating platform (1), a transverse moving guide rail (9) is fixed on the side face of the cross beam (8) relative to the flying fork clamping jaw air cylinder fixing seat (5), and a transverse moving sliding plate (11) is arranged on, the transverse moving sliding plate (11) can slide along a transverse moving guide rail (9) under the drive of a transverse moving servo motor (10), a vertical moving guide rail (12) is fixed on the transverse moving sliding plate (11), a vertical moving sliding plate (14) is arranged on the vertical moving guide rail (12), the vertical moving sliding plate (14) can slide along the vertical moving guide rail (12) under the drive of a vertical moving servo motor (13), an upper winding servo motor (15), a limiting bearing (16) and a collet chuck driving cylinder (19) are fixed on the vertical moving sliding plate (14), a rotating shaft (17) of the upper winding servo motor (15) penetrates through the limiting bearing (16), a collet chuck (18) is arranged at the bottom of the rotating shaft (17), and a collet chuck driving plate (21) is fixed at the top end of a collet chuck driving ejector rod (20) of the collet chuck driving cylinder (19), the novel cutting device is characterized in that the collet chuck driving cylinder (19) can control the opening and closing of the collet chuck (18) through a collet chuck driving ejector rod (20) and a collet chuck driving plate (21), a wire clamping vertical moving cylinder (22) is fixed on the side face of the limiting bearing (16), a wire clamping vertical moving plate (23) is arranged at the top end of the ejector rod of the wire clamping vertical moving cylinder (22), a wire clamping jaw cylinder (24) is fixed on the wire clamping vertical moving plate (23), a wire clamping jaw (25) is arranged on the wire clamping jaw cylinder (24), a cutting wire clamping transverse moving cylinder (26) is fixed at the bottom of the cross beam (8), the cutting wire clamping transverse moving cylinder (26) can drive the cutting wire clamping longitudinal moving cylinder (27) to transversely move, the cutting wire clamping longitudinal moving cylinder (27) can drive the cutting wire clamping vertical moving cylinder (28) to longitudinally move, and the cutting wire clamping vertical moving cylinder (28) can drive the cutting wire clamping cylinder fixing plate (29) to vertically move The straight direction removes, cut and be fixed with on double-layered line cylinder fixed plate (29) and cut double-layered line cylinder (30) and cut double-layered line baffle (31), the one side of cutting double-layered line baffle (31) is equipped with cuts sword (32), the opposite side of cutting double-layered line baffle (31) is equipped with double-layered line piece (33), cut double-layered line cylinder (30) and can drive and cut sword (32) and double-layered line piece (33) and slide on cutting double-layered line cylinder fixed plate (29).

2. The novel inductance coil winding device according to claim 1, characterized in that: a wire inlet mechanism (34) is fixed on the operating platform (1), and a wire guide nozzle (35), a wire bundling wheel (36) and a wire guide ring (37) are arranged on the wire inlet mechanism (34).

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