CN215417870U - Inductance coil winding device - Google Patents
Inductance coil winding device Download PDFInfo
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- CN215417870U CN215417870U CN202122088423.1U CN202122088423U CN215417870U CN 215417870 U CN215417870 U CN 215417870U CN 202122088423 U CN202122088423 U CN 202122088423U CN 215417870 U CN215417870 U CN 215417870U
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Abstract
The utility model discloses an inductance coil winding device, which comprises a lead conveying structure, a wire breaking mechanism, a lead winding mechanism and a coil feeding mechanism, wherein the lead conveying structure is arranged on the lead winding mechanism; the wire winding mechanism comprises a wire guide plate, and a circular wire guide groove is formed in the wire guide plate; two groups of clamping rollers are symmetrically arranged at the position of the wire guide groove, and the clamping rollers are connected with a first rotating power structure; the coil feeding mechanism comprises a vibration feeder which is communicated with an L-shaped coil feeding track, a U-shaped groove is arranged below the L-shaped coil feeding track, a first push-pull device is arranged at the outer end of the U-shaped groove, and the first push-pull device is connected with a push plate. The utility model drives the lead to rotate and advance along the lead groove through the circular lead groove and the clamping roller, thereby continuously penetrating through the coil, realizing the winding of the coil, greatly improving the winding length of the inductor, and needing no precise mechanical arm to hinge the lead, therefore, the lead is not easy to damage, and the qualified rate of finished products is higher.
Description
Technical Field
The utility model belongs to the field of machinery, and particularly relates to an inductance coil winding device.
Background
The conventional toroidal inductor is usually made by winding a wire around a toroidal core. However, the conventional winding device usually adopts a two-manipulator structure, that is, one manipulator makes the wire pass through the coil, and the other manipulator returns the wire to the first manipulator after contacting the coil, and then continues to wind the wire. The winding mode needs continuous clamping and loosening actions of a manipulator. It is therefore generally only suitable for inductive coils with a small number of windings, a short overall length of wire (the length of the windings depends on the length of the robot arm), and it requires precise handling of the wire, and in practice the scrap rate is high and therefore requires improvement.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems, the utility model discloses an inductance coil winding device. The utility model drives the lead to rotate and advance along the lead groove through the circular lead groove and the clamping roller, thereby continuously penetrating through the coil, realizing the winding of the coil, greatly improving the winding length of the inductor, and needing no precise mechanical arm to hinge the lead, therefore, the lead is not easy to damage, and the qualified rate of finished products is higher.
In order to achieve the purpose, the technical scheme of the utility model is as follows:
an inductance coil winding device comprises a lead conveying structure, a wire breaking mechanism, a lead winding mechanism and a coil feeding mechanism;
the wire winding mechanism comprises a wire guide plate, and a circular wire guide groove is formed in the wire guide plate; two groups of clamping rollers are symmetrically arranged at the position of the wire guide groove, and the clamping rollers are connected with a first rotating power structure; the coil feeding mechanism comprises a vibration feeder which is communicated with an L-shaped coil feeding track, a U-shaped groove is arranged below the L-shaped coil feeding track, a first push-pull device is arranged at the outer end of the U-shaped groove and is connected with a push plate, the other end of the U-shaped groove is connected with a rotating wheel in a shaft coupling mode, and the rotating wheel is connected with a second rotating power device; a first lifting device is arranged above the inner side of the rotating wheel and connected with a first limiting wheel; a second push-pull device is arranged on the inner side of the rotating wheel in the horizontal direction and connected with a second limiting wheel; an L-shaped line pressing rod is installed on one side of the U-shaped groove and connected with a third push-pull device.
The wire conveying structure comprises a wire wheel and a wire feeding roller which are sequentially arranged along the guide conveying direction, and the wire feeding roller is connected with a servo motor.
In a further improvement, a cavity is formed in the middle of the wire guide plate, and a triangular wire clamp plate is formed in the cavity.
In a further improvement, the first rotary power structure comprises a first rotary motor, the first rotary motor is connected with a rotating shaft, two driving wheels are fixed on the rotating shaft, and the driving wheels are in transmission connection with the clamping rollers through a transmission belt.
In a further improvement, the first push-pull device, the first lifting device and the second push-pull device are all cylinders; the second rotary power device is a stepping motor.
In a further improvement, the first limiting wheel and the second limiting wheel are both elastic wheels.
In a further improvement, the nip rollers are rubber nip rollers.
In a further improvement, the thread breaking mechanism comprises a fixed cutter and a movable cutter, and the movable cutter is connected with a movable cutter lifting cylinder.
The utility model has the advantages that:
the utility model drives the lead to rotate and advance along the lead groove through the circular lead groove and the clamping roller, thereby continuously penetrating through the coil, realizing the winding of the coil, greatly improving the winding length of the inductor, and needing no precise mechanical arm to hinge the lead, therefore, the lead is not easy to damage, and the qualified rate of finished products is higher.
Drawings
Fig. 1 is a schematic top view of the present invention.
Fig. 2 is a side view schematic diagram of a coil feed mechanism.
Detailed Description
The utility model is further explained with reference to the drawings and the embodiments.
Example 1
As shown in fig. 1 and 2, an inductance coil winding device includes a lead conveying mechanism 1, a wire breaking mechanism 2, a lead winding mechanism 3 and a coil feeding mechanism 4;
the wire winding mechanism 3 comprises a wire guide plate 31, wherein a circular wire guide groove 32 is formed in the wire guide plate 31; two groups of clamping rollers 33 are symmetrically arranged at the position of the wire guide groove 32, and the clamping rollers 33 are connected with a first rotary power structure 34; the coil feeding mechanism 4 comprises a vibration feeder 41, the vibration feeder 41 is communicated with an L-shaped coil feeding rail 42, a U-shaped groove 43 is arranged below the L-shaped coil feeding rail 42, a first push-pull device 44 is arranged at the outer end of the U-shaped groove 43, the first push-pull device 44 is connected with a push plate 45, the other end of the first push-pull device 44 is connected with a rotating wheel 46 in a shaft connection mode, and the rotating wheel 46 is connected with a second rotating power device 47; a first lifting device 48 is arranged above the inner side of the rotating wheel 46, and the first lifting device 48 is connected with a first limiting wheel 49; a second push-pull device 410 is horizontally arranged on the inner side of the rotating wheel 46, and the second push-pull device 410 is connected with a second limiting wheel 411; an L-shaped wire pressing rod 412 is installed on one side of the U-shaped groove 43, and a third push-pull device 413 is connected to the L-shaped wire pressing rod 412. The U-shaped groove 43 is formed with an arc-shaped protrusion 414.
The wire conveying structure 1 comprises a wire wheel 11 and a wire feeding pair roller 12 which are sequentially arranged along the guide conveying direction, and the wire feeding pair roller 12 is connected with a servo motor 13.
A cavity 14 is formed in the middle of the wire guide plate 31, and a triangular wire clamping plate 15 is formed in the cavity 14. The first rotary power structure 34 includes a first rotary motor 341, the first rotary motor 341 is connected to a rotating shaft 342, two transmission wheels 344 are fixed on the rotating shaft 342, and the transmission wheels 344 are in transmission connection with the nip rollers 33 through a transmission belt 343.
The first push-pull device 44, the first lifting device 48 and the second push-pull device 410 are all cylinders; the second rotary power unit 47 is a stepping motor.
The first limiting wheel 49 and the second limiting wheel 411 are elastic wheels.
The nip roller 33 is a rubber nip roller.
The thread breaking mechanism 2 comprises a fixed knife 21 and a movable knife 22, and the movable knife 22 is connected with a movable knife lifting cylinder 23.
The using method of the utility model is as follows:
the coil 5 is conveyed to the U-shaped groove 43 by the vibration feeder 41, then the second push-pull device 410 is extended to drive the second limiting wheel 411 to extend outwards, the third push-pull device 413 pushes the coil to a position between the second limiting wheel 411 and the rotating wheel 46, and then the first lifting device 48 descends to drive the first limiting wheel 49 to descend, so that the coil 5 is limited among the three wheels.
The feed pair roller 12 is then rotated so that the wire enters the wire groove 32 and is nipped and conveyed by the nip roller 33, passing through the coil confined between the three wheels. When the tail of the wire reaches the coil, the L-shaped wire pressing rod 412 extends forward to press the wire on the L-shaped wire pressing rod 412 at the side of the coil 5, and then the clamping roller 33 drives the wire to move forward along the wire guiding groove 32 and continuously pass through the coil 5, so that the wire is wound on the coil, wherein the first two windings press the tail end wire on the two coils of the wire, namely the first inner coil and the second L-shaped wire pressing rod 412 retract. As the wire is wound, the spinning wheel 46 slowly rotates, thereby slowly rotating the coil so that the coil is continuously wound around the coil. After winding, the first lifting device 48 and the second pushing and pulling device 410 are retracted, so that the wound inductor coil falls into the cavity 14, and the third pushing and pulling device 413 pushes the next coil for the next cycle.
While embodiments of the utility model have been disclosed above, it is not limited to the applications set forth in the specification and the embodiments, which are fully applicable to various fields of endeavor for which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.
Claims (8)
1. The inductance coil winding device is characterized by comprising a lead conveying structure (1), a wire breaking mechanism (2), a lead winding mechanism (3) and a coil feeding mechanism (4);
the wire winding mechanism (3) comprises a wire guide plate (31), and a circular wire guide groove (32) is formed in the wire guide plate (31); two groups of clamping rollers (33) are symmetrically arranged at the position of the wire guide groove (32), and the clamping rollers (33) are connected with a first rotating power structure (34); the coil feeding mechanism (4) comprises a vibration feeder (41), the vibration feeder (41) is communicated with an L-shaped coil feeding track (42), a U-shaped groove (43) is arranged below the L-shaped coil feeding track (42), a first push-pull device (44) is arranged at the outer end of the U-shaped groove (43), the first push-pull device (44) is connected with a push plate (45), the other end of the first push-pull device is connected with a rotating wheel (46) in a shaft mode, and the rotating wheel (46) is connected with a second rotating power device (47); a first lifting device (48) is arranged above the inner side of the rotating wheel (46), and the first lifting device (48) is connected with a first limiting wheel (49); a second push-pull device (410) is horizontally arranged on the inner side of the rotating wheel (46), and the second push-pull device (410) is connected with a second limiting wheel (411); an L-shaped wire pressing rod (412) is installed on one side of the U-shaped groove (43), and a third push-pull device (413) is connected to the L-shaped wire pressing rod (412).
2. The induction coil winding device according to claim 1, wherein the wire feeding structure (1) comprises a wire wheel (11) and a wire feeding pair roller (12) which are arranged in sequence along the guide conveying direction, and the wire feeding pair roller (12) is connected with a servo motor (13).
3. The inductor winding device according to claim 1, wherein the wire guide plate (31) has a cavity (14) formed in the middle thereof, and a triangular wire clamping plate (15) is formed in the cavity (14).
4. The inductance coil winding device according to claim 1, wherein the first rotary power structure (34) comprises a first rotary motor (341), the first rotary motor (341) is connected with a rotating shaft (342), two driving wheels (344) are fixed on the rotating shaft (342), and the driving wheels (344) are in transmission connection with the clamping roller (33) through a transmission belt (343).
5. The induction coil winding apparatus as claimed in claim 1, wherein said first push-pull means (44), said first lifting means (48) and said second push-pull means (410) are each a pneumatic cylinder; the second rotary power device (47) is a stepping motor.
6. The inductor winding device according to claim 1, wherein the first limiting wheel (49) and the second limiting wheel (411) are elastic wheels.
7. The inductance coil winding device according to claim 1, wherein said nip roller (33) is a rubber nip roller.
8. The inductance coil winding device according to claim 1, wherein the wire breaking mechanism (2) comprises a fixed knife (21) and a movable knife (22), and the movable knife (22) is connected with a movable knife lifting cylinder (23).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122088423.1U CN215417870U (en) | 2021-09-01 | 2021-09-01 | Inductance coil winding device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122088423.1U CN215417870U (en) | 2021-09-01 | 2021-09-01 | Inductance coil winding device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215417870U true CN215417870U (en) | 2022-01-04 |
Family
ID=79664632
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122088423.1U Active CN215417870U (en) | 2021-09-01 | 2021-09-01 | Inductance coil winding device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN215417870U (en) |
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2021
- 2021-09-01 CN CN202122088423.1U patent/CN215417870U/en active Active
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Legal Events
| Date | Code | Title | Description |
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| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CP01 | Change in the name or title of a patent holder |
Address after: 418100 No. 1828 Wuyang Avenue, economic development zone, Huaihua City, Hunan Province Patentee after: Huaihua Yaxin Technology Co.,Ltd. Address before: 418100 No. 1828 Wuyang Avenue, economic development zone, Huaihua City, Hunan Province Patentee before: YAXIN (HUAIHUA) ELECTRONICS CO.,LTD. |
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| CP01 | Change in the name or title of a patent holder |