CN210692345U - High-efficiency automatic inductor winding machine - Google Patents

Abstract

The utility model discloses an efficient inductance automatic winding machine, which belongs to the winding machine field, and comprises a frame, a magnetic ring fixing support, a magnetic ring rotating mechanism, a copper wire tensioning mechanism, a winding mechanism and a wire feeding mechanism, wherein a magnetic ring of an inductance is detachably arranged on the magnetic ring fixing support; the magnetic ring rotating mechanism is used for driving the magnetic ring to rotate along the axis of the magnetic ring; the copper wire tensioning mechanism comprises a copper wire clamping plate, and the copper wire clamping plate is used for tensioning a copper wire wound on the magnetic ring to enable the copper wire to be tightly wound on the magnetic ring; the winding mechanism comprises a wire groove positioned on one side of the magnetic ring fixing support, a first driving mechanism used for driving the height of the wire groove to rise and fall and a second driving mechanism used for driving the wire groove to move left and right; the wire feeding mechanism is used for driving the copper wire to move in the wire guide groove. The utility model discloses can reduce the cost of labor by a wide margin, improve work efficiency.

Description

High-efficiency automatic inductor winding machine

Technical Field

The utility model relates to a coiling machine field especially indicates an efficient inductance automatic coil winding machine.

Background

At present, the production of large inductors is mainly based on manual production, wherein the winding occupies most time, and the working strength of the winding is the greatest due to the large wire diameter (the diameter is between 1.0 and 3.0 mm), so that the cost for winding is the most when enterprises produce large inductors. At present, a semi-automatic winding machine capable of reducing labor intensity of large-inductance winding exists in the market, but each semi-automatic winding machine needs to be configured with a manual operation, only labor intensity is reduced, manual work is not reduced, and working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an efficient inductance automatic coil winding machine that can reduce cost of labor by a wide margin.

In order to solve the technical problem, the utility model provides a technical scheme as follows:

the utility model provides an efficient inductance automatic coil winding machine, including the frame, set up in magnetic ring fixed bolster, magnetic ring rotary mechanism, the taut mechanism of copper line, winding mechanism and the mechanism of sending the line in the frame, wherein:

the magnetic ring of the inductor is detachably arranged on the magnetic ring fixing support;

the magnetic ring rotating mechanism is positioned on the right side of the magnetic ring fixing support and used for driving the magnetic ring to rotate along the axis of the magnetic ring;

the copper wire tensioning mechanism is positioned on the left side of the magnetic ring fixing support and comprises a copper wire clamping plate, and the copper wire clamping plate is used for tensioning a copper wire wound on the magnetic ring to enable the copper wire to be tightly wound on the magnetic ring;

the winding mechanism is used for returning one end of a copper wire from the left side of the magnetic ring to the right side of the magnetic ring and penetrates through an inner hole of the magnetic ring, and comprises a wire groove, a first driving mechanism and a second driving mechanism, wherein the wire groove is positioned on one side of the magnetic ring fixing support, the first driving mechanism is used for driving the height of the wire groove to rise and fall, and the second driving mechanism is used for driving the wire groove to move left and right;

the wire feeding mechanism is used for driving the copper wire to move in the wire guide groove.

Furthermore, a magnetic ring fixing groove for placing the magnetic ring is formed in the magnetic ring fixing support, and an open groove for allowing a copper wire to penetrate through and be wound on the magnetic ring is formed between the magnetic ring fixing groove and the side wall of the magnetic ring fixing support.

Furthermore, the magnetic ring fixing groove comprises a step through hole for placing the magnetic ring and a U-shaped groove communicated with the step through hole.

Furthermore, the magnetic ring rotating mechanism comprises a clamp for clamping the magnetic ring, a third driving mechanism for driving the clamp to move back and forth relative to the magnetic ring, a fourth driving mechanism for driving the clamp to open and close, and a fifth driving mechanism for driving the clamp to rotate.

Furthermore, the copper wire tensioning mechanism further comprises a sixth driving mechanism for driving the copper wire clamping plate to open and close and a seventh driving mechanism for driving the copper wire clamping plate to move back and forth relative to the magnetic ring.

Further, a force sensor is arranged on the sixth driving mechanism.

Furthermore, the inlet side of the wire groove is located on the right left side of the magnetic ring fixing support, and the outlet side of the wire groove is located on the right side of the magnetic ring fixing support.

Furthermore, the cross section of the wire guide groove is V-shaped, and an oblique angle is arranged on the inlet side of the wire guide groove.

Furthermore, send line mechanism to include two parallel arrangement be used for carrying the running roller of copper line, be used for driving two running roller pivoted eighth actuating mechanism each other, be used for driving two running rollers and remove ninth actuating mechanism that removes and be used for driving the tenth actuating mechanism of the distance change between two running rollers.

Furthermore, a copper wire positioning mechanism is arranged between the magnetic ring fixing support and the copper wire tensioning mechanism on the rack, and the copper wire positioning mechanism comprises a V-shaped positioning block for placing the copper wire and an eleventh driving mechanism for driving the V-shaped positioning block to ascend and descend.

The utility model discloses following beneficial effect has:

the utility model discloses an efficient inductance automatic coil winding machine, treat that magnetic ring rotary mechanism places the magnetic ring of inductance back on the magnetic ring mount, send line mechanism to deliver the copper line to the metallic channel of wire winding mechanism, make the one end of copper line transfer to the right side of magnetic ring and pass the hole of magnetic ring from the left side of magnetic ring, from this with the copper line around establishing on the magnetic ring, copper line splint of later copper line straining mechanism will make the copper line inseparable around establishing on the magnetic ring around establishing the copper line, accomplish the copper line round on the magnetic ring around establishing, later magnetic ring rotary mechanism drive magnetic ring rotates certain angle, wire winding mechanism and copper line straining mechanism mutually support with the copper line inseparable around establishing on the magnetic ring, so relapse with the copper line around establishing the number of turns back of settlement on the magnetic ring, can accomplish the wire winding.

Compared with the prior art, the utility model discloses an efficient inductance automatic coil winding machine can realize the full-automatic of inductance around establishing, has saved a large amount of manual works from this, has reduced the cost of labor, has improved work efficiency.

Drawings

Fig. 1 is a schematic structural view of a high-efficiency automatic inductance winding machine of the present invention;

fig. 2 is a schematic structural view of a magnetic ring fixing bracket in the high-efficiency automatic inductance winding machine of the present invention;

fig. 3 is a schematic structural view of a magnetic ring rotating mechanism in the high-efficiency automatic inductance winding machine of the present invention;

fig. 4 is the utility model discloses a copper line positioning mechanism's among efficient inductance automatic coil winding machine structural schematic diagram.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

The terms "upper", "lower", "left", "right" and the like in the present invention are relative terms, and are not limited herein.

The utility model provides an efficient inductance automatic coil winding machine, as shown in fig. 1-4, including frame 1, set up magnetic ring fixed bolster 3, magnetic ring rotary mechanism 2, copper line straining device 4, winding mechanism 5 and send line mechanism 6 in frame 1, wherein:

the magnetic ring 7 of the inductor is detachably arranged on the magnetic ring fixing support 3;

the magnetic ring rotating mechanism 2 is positioned on the right side of the magnetic ring fixing support 3 and used for driving the magnetic ring 7 to rotate along the axis of the magnetic ring 7;

the copper wire tensioning mechanism 4 is positioned on the left side of the magnetic ring fixing support 3, the copper wire tensioning mechanism 4 comprises a copper wire clamping plate 4-1, and the copper wire clamping plate 4-1 is used for tensioning a copper wire wound on the magnetic ring 7 to enable the copper wire to be tightly wound on the magnetic ring 7;

the winding mechanism 5 is used for returning one end of a copper wire from the left side of the magnetic ring 7 to the right side of the magnetic ring 7 and enabling the copper wire to pass through an inner hole of the magnetic ring 7, and the winding mechanism 5 comprises a wire groove 5-1 positioned on one side of the magnetic ring fixing support 3, a first driving mechanism used for driving the height of the wire groove 5-1 to rise and fall, and a second driving mechanism used for driving the wire groove 5-1 to move left and right;

the wire feeding mechanism 6 is used for driving the copper wires to move in the wire guide groove 5-1.

The utility model discloses an efficient inductance automatic coil winding machine working procedure as follows:

step 1: the magnetic ring rotating mechanism 2 places the magnetic ring 7 of the inductor on a magnetic ring 7 fixing frame;

step 2: after one end of the copper wire is fixed, the wire feeding mechanism 6 drives the copper wire to move along the wire guide groove 5-1, so that one end of the copper wire moves from the left side of the magnetic ring 7 to the right side of the magnetic ring 7 and penetrates through an inner hole of the magnetic ring 7, and the copper wire is wound on the magnetic ring 7;

and step 3: a copper wire clamping plate 4-1 of the copper wire tensioning mechanism 4 clamps the copper wire passing through the inner hole of the magnetic ring 7 and tensions the copper wire to enable the copper wire to be tightly wound on the magnetic ring 7, so that the copper wire is wound on the magnetic ring 7 for one circle;

and 4, step 4: the magnetic ring rotating mechanism 2 drives the magnetic ring 7 to rotate for a certain angle;

and 5: and (3) loosening the copper wire by using a copper wire clamping plate 4-1 of the copper wire tensioning mechanism 4, enabling one end of the copper wire to enter a wire guide groove 5-1, driving the copper wire by using a wire feeding mechanism 6 again to move along the wire guide groove 5-1 so that one end of the copper wire moves from the left side of the magnetic ring 7 to the right side of the magnetic ring 7 and penetrates through an inner hole of the magnetic ring 7, and winding the copper wire on the magnetic ring 7, and then repeating the step 3.

And repeating the steps 3-5 to wind the copper wire on the magnetic ring 7 for a preset number of turns, thus finishing the winding work of the inductor.

Compared with the prior art, the utility model discloses an efficient inductance automatic coil winding machine can realize the full-automatic of inductance around establishing, has saved a large amount of manual works from this, has reduced the cost of labor, has improved work efficiency.

In the step 5, the second driving mechanism drives the wire guide groove 5-1 according to the end position of the copper wire so that the end of the copper wire falls into the inlet side of the wire guide groove 5-1, then the second driving mechanism drives the wire guide groove 5-1 to move rightwards, and meanwhile the wire feeding mechanism 6 drives the copper wire to move in the wire guide groove 5-1, and winding of the copper wire on the magnetic ring 7 is completed.

In addition, because the copper line is according to the length of intercepting in advance around the number of turns of establishing before on the magnetic ring, also closely around establishing on the magnetic ring in order to guarantee that several rings of copper lines are first, can take the manual work with the utility model discloses an efficient inductance automatic coil winding machine cooperation is accomplished a small amount of turns jointly (like 3-5 circles), specifically, after the manual work is placed the magnetic ring on the magnetic ring fixed bolster, can take following step:

step 11: starting the high-efficiency automatic inductance winding machine, manually enabling one end of a copper wire to penetrate through an inner hole of a magnetic ring 7 and placing the copper wire in a copper wire clamping plate 4-1, enabling the copper wire clamping plate 4-1 to clamp the copper wire, and manually fixing the other end of the copper wire;

step 12: the copper wire clamping plate 4-1 tensions the copper wire to enable the copper wire to be tightly wound on the magnetic ring 7, and the winding of the copper wire on the magnetic ring 7 is completed;

step 13: the magnetic ring rotating mechanism 2 drives the magnetic ring 7 to rotate for a certain angle, then the copper wire is pulled by manpower to pass through the inner hole of the magnetic ring 7 again, the copper wire is clamped by the copper wire clamping plate 4-1, and then the step 12 is repeated.

After the copper wire is wound on the magnetic ring 7 for a small number of turns by repeating the steps 12 and 13, the winding mechanism 5 and the wire feeding mechanism 6 are put into operation to replace the action of manually penetrating the copper wire through the inner hole of the magnetic ring 7, and workers can leave free to operate another high-efficiency automatic inductance winding machine.

In the embodiment of the utility model, when the copper wire clamp plate 4-1 tightens the copper wire to tightly wind the copper wire on the magnetic ring 7 at the initial position, in order to avoid the interference of the wire groove 5-1 to the copper wire clamp plate 4-1, the first driving mechanism can control the wire groove 5-1 to be positioned below the copper wire clamp plate 4-1, when the copper wire tightening mechanism 4 controls the copper wire to wind on the magnetic ring 7 for a circle, the copper wire clamp plate 4-1 loosens the copper wire and moves leftwards continuously, meanwhile, the first driving mechanism drives the height of the wire groove 5-1 to rise to make the copper wire fall into the wire groove 5-1, then the wire feeding mechanism 6 controls the copper wire to move to the right side of the magnetic ring 7 along the wire groove 5-1 and pass through the inner hole of the magnetic ring 7, then the first driving mechanism drives the wire groove 5-1 to descend for a certain height, then the copper wire clamp plate 4, and starting the winding of the next circle.

The first driving mechanism can drive the wire guide groove 5-1 to move left and right to adapt to the change of the length of the copper wire, so that one end of the copper wire can fall into the wire guide groove 5-1 every time and can pass through the inner hole of the magnetic ring 7 through the wire guide groove 5-1.

The first driving mechanism and the second driving mechanism can adopt a structural form that a telescopic cylinder or a motor drives a guide rail sliding groove.

The utility model discloses in, copper line splint 4-1 can adopt the PE material to make, can guarantee can not harm the copper line in the in-process of taut copper line.

Preferably, the magnetic ring fixing support 3 can be provided with a magnetic ring fixing groove 3-1 for placing the magnetic ring 7, at this time, an open groove 3-2 needs to be arranged between the magnetic ring fixing groove 3-1 and the side wall of the magnetic ring fixing support 3, and a copper wire can pass through the open groove 3-2 and be wound on the magnetic ring 7. Further, the magnetic ring fixing groove 3-1 preferably adopts a structural form of a stepped through hole 3-1-1, wherein an inner hole with a larger diameter is equivalent to the diameter of the magnetic ring 7, and the magnetic ring 7 is placed in the inner hole with the larger diameter and can rotate in the inner hole with the larger diameter, so that the magnetic ring rotating mechanism 2 can drive the magnetic ring 7 to rotate around the center of the magnetic ring. The inner hole with smaller diameter can block the magnetic ring 7 to prevent the magnetic ring 7 from being pulled out of the magnetic ring fixing groove 3-1 simultaneously when the copper wire clamping plate 4-1 tensions the copper wire.

When the copper wire moves in the wire guide groove 5-1, the first driving mechanism drives the height of the wire guide groove 5-1 to be consistent with the height of the open groove 3-2, so that the copper wire is wound on the magnetic ring 7 at the open groove 3-2 every time, and the quality of the inductor is further ensured.

In addition, the magnetic ring fixing groove 3-1 can also comprise a U-shaped groove 3-1-2 communicated with the stepped through hole 3-1-1. The magnetic ring rotating mechanism 2 can enter the U-shaped groove 3-1-2 to drive the magnetic ring 7 to rotate.

In an embodiment of the present invention, the magnetic ring rotating mechanism 2 preferably includes a clamp 2-1 for clamping the magnetic ring 7, a third driving mechanism 2-4 for driving the clamp 2-1 to move back and forth relative to the magnetic ring 7, a fourth driving mechanism 2-2 for driving the clamp 2-1 to open and close, and a fifth driving mechanism 2-3 for driving the clamp 2-1 to rotate. After the copper wire is wound on the magnetic ring 7 for one circle, the height of the clamp 2-1 is lowered into the U-shaped groove 3-1-2 under the control of the third driving mechanism 2-4, then the fourth driving mechanism 2-2 controls the clamp 2-1 to clamp the magnetic ring 7, and then the fifth driving mechanism 2-3 drives the clamp 2-1 to rotate for a certain angle, so that the magnetic ring 7 is driven to rotate for a certain angle. After the magnetic ring 7 completes the angular rotation, the copper wire tensioning mechanism 4, the winding mechanism 5 and the wire feeding mechanism 6 are matched again to tightly wind the copper wire on the magnetic ring 7.

It should be noted that, in the process of winding the copper wire on the magnetic ring 7, in order to further prevent the problem of poor winding quality caused by the shaking of the magnetic ring 7 in the magnetic ring fixing groove 3-1, the fourth driving mechanism 2-2 preferably controls the clamp 2-1 to clamp the magnetic ring 7 all the time, after the fifth driving mechanism 2-3 drives the clamp 2-1 to rotate for a certain angle, the fourth driving mechanism 2-2 controls the clamp 2-1 to open and release the magnetic ring 7, the fifth driving mechanism 2-3 drives the clamp 2-1 to rotate for a certain angle again in the opposite direction to return the clamp 2-1 to the original position, and the fourth driving mechanism 2-2 controls the clamp 2-1 to clamp the magnetic ring 7 again to perform the winding of the next circle of copper wire. The third driving mechanism 2-4 drives the clamp 2-1 to enter and exit the U-shaped groove 3-1-2 before the copper wire is wound for the first time and after the copper wire is completely wound.

The embodiment of the utility model provides an in, third actuating mechanism 2-4 can adopt telescopic cylinder or motor drive rail block's structural style, and fourth actuating mechanism 2-2 can adopt die clamping cylinder or motor drive gear's structural style to drive opening and shutting of anchor clamps 2-1, and fifth actuating mechanism 2-3 can adopt motor or revolving cylinder driven structural style etc. all can realize the utility model discloses an aim at.

In the embodiment of the present invention, in order to make the copper wire clamp plate 4-1 tension the copper wire at any time and make the copper wire wind around the magnetic ring 7, the copper wire tensioning mechanism 4 further includes a sixth driving mechanism for driving the copper wire clamp plate 4-1 to open and close and a seventh driving mechanism for driving the copper wire clamp plate 4-1 to move back and forth relative to the magnetic ring 7. The sixth driving mechanism can adopt a structural form of a clamping cylinder and also can adopt a structural form of a motor driving cam or gear to rotate; the seventh driving mechanism can adopt a structural form that a motor drives the guide rail sliding block.

In the embodiment of the utility model, in order to guarantee that copper line splint 4-1 can both be accurate at every turn carry the copper line, can set up force sensor on the sixth actuating mechanism. The force sensor detects the tension of the copper wire clamp plate 4-1 on the copper wire, and when the tension reaches a preset value, the sixth driving mechanism automatically adjusts the difference value with the target position according to a program instruction, so that the copper wire is always wound on the magnetic ring 7 at a constant tension.

In one embodiment of the present invention, the inlet side of the wire groove 5-1 is located right on the left side of the magnetic ring fixing bracket 3, and the outlet side of the wire groove 5-1 is located right on the right side of the magnetic ring fixing bracket 3. The structure can ensure that the copper wire can accurately fall into the wire groove 5-1 every time and the copper wire clamp plate 4-1 can clamp the copper wire.

Further, the cross-sectional shape of the wire groove 5-1 is preferably V-shaped, and in operation, the copper wire is positioned in the V-shaped groove 3-2 of the wire groove 5-1, so that the copper wire can be prevented from being separated from the wire groove 5-1. In addition, the inner side of the inlet of the lead groove 5-1 can be provided with an oblique angle 3-3 to increase the inlet area of the lead groove 5-1, so that copper wires can enter the lead groove 5-1 conveniently.

In an embodiment of the present invention, the wire feeding mechanism 6 is disposed on the frame 1 and located on the left side of the magnetic ring fixing support 3, and preferably includes two parallel rollers 6-1, an eighth driving mechanism for driving the two rollers 6-to-rotate, a ninth driving mechanism for driving the two rollers 6-1 to move left and right, and a tenth driving mechanism for driving the distance between the two rollers 6-1 to change, wherein the copper wire passing through the inner hole of the magnetic ring 7 is located between the two rollers 6-1. During operation, the tenth driving mechanism drives the two rollers 6-1 to clamp the copper wire, and the eighth driving mechanism drives the two rollers 6-1 to rotate mutually to transfer the copper wire to the left, so that the copper wire moves in the wire guide groove 5-1. The ninth driving mechanism drives the two rollers 6-1 to move left and right to adapt to the change of the length of the copper wire, so that the rollers 6-1 can convey the copper wire to move in the wire guide groove 5-1 at proper positions.

The two rollers 6-1 can be vertically arranged or horizontally arranged, so long as the axes of the two rollers 6-1 are perpendicular to the axis of the copper wire.

The eighth driving mechanism can adopt a structural form of driving a roller wheel to rotate by a motor, the ninth driving mechanism can adopt a structural form of driving a guide rail chute by a telescopic cylinder or a motor, and the tenth driving mechanism can adopt a structural form of clamping a cylinder and can also adopt a structural form of driving a gear or a cam by a motor.

In addition, the wire feeding mechanism 6 can feed the copper wire into the wire guide groove 5-1 and enable the copper wire to move in the wire guide groove 5-1, the tenth driving mechanism drives the two rollers 6-1 to clamp the copper wire, the effect of straightening the copper wire is achieved, the tension of the copper wire clamp plate 4-1 on the copper wire can be improved, and the copper wire is ensured to be wound on the magnetic ring 7 more tightly.

Furthermore, after one end of a copper wire penetrates through an inner hole of the magnetic ring 7, in order to prevent the end of the copper wire from sagging, a copper wire clamping plate 4-1 of the copper wire clamping mechanism 4 cannot clamp the copper wire, a copper wire positioning mechanism 8 can be arranged on the rack 1 between the magnetic ring fixing support 3 and the copper wire tensioning mechanism 4, and the copper wire positioning mechanism 8 comprises a V-shaped positioning block 8-1 for placing the copper wire and an eleventh driving mechanism 8-2 for driving the V-shaped positioning block 8-1 to ascend and descend in height. The eleventh driving mechanism 8-2 drives the V-shaped positioning block 8-1 to rise to a certain height, and one end of the copper wire falls on the V-shaped positioning block 8-1 without falling after penetrating through an inner hole of the magnetic ring 7, so that the copper wire can be clamped by the copper wire clamping plate 4-1.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an efficient inductance automatic coil winding machine, its characterized in that, include the frame, set up in magnetic ring fixed bolster, magnetic ring rotary mechanism, the taut mechanism of copper line, winding mechanism and the mechanism of sending the line in the frame, wherein:

the magnetic ring of the inductor is detachably arranged on the magnetic ring fixing support;

the magnetic ring rotating mechanism is positioned on the right side of the magnetic ring fixing support and used for driving the magnetic ring to rotate along the axis of the magnetic ring;

the copper wire tensioning mechanism is positioned on the left side of the magnetic ring fixing support and comprises a copper wire clamping plate, and the copper wire clamping plate is used for tensioning a copper wire wound on the magnetic ring to enable the copper wire to be tightly wound on the magnetic ring;

the winding mechanism is used for returning one end of a copper wire from the left side of the magnetic ring to the right side of the magnetic ring and penetrates through an inner hole of the magnetic ring, and comprises a wire groove positioned on one side of the magnetic ring fixing support, a first driving mechanism used for driving the height of the wire groove to rise and fall and a second driving mechanism used for driving the wire groove to move left and right;

the wire feeding mechanism is used for driving the copper wire to move in the wire guide groove.

2. The high efficiency automatic induction winding machine as claimed in claim 1, wherein the magnetic ring fixing support is provided with a magnetic ring fixing groove for placing the magnetic ring, and an opening groove for passing a copper wire and winding the copper wire on the magnetic ring is provided between the magnetic ring fixing groove and the side wall of the magnetic ring fixing support.

3. The high efficiency automatic coil winding machine for inductors according to claim 2 wherein said magnetic ring retaining slots comprise stepped through holes for said magnetic ring to rest on and U-shaped slots communicating with said stepped through holes.

4. The high efficiency automatic induction winding machine as claimed in claim 1, wherein said magnetic ring rotating mechanism comprises a clamp for clamping said magnetic ring, a third driving mechanism for driving said clamp to move back and forth relative to said magnetic ring, a fourth driving mechanism for driving said clamp to open and close, and a fifth driving mechanism for driving said clamp to rotate.

5. The high efficiency automatic inductance winding machine according to claim 1, wherein said copper wire tensioning mechanism further comprises a sixth driving mechanism for driving said copper wire clamp plate to open and close and a seventh driving mechanism for driving said copper wire clamp plate to move back and forth relative to the magnetic ring.

6. The high efficiency automatic induction winding machine according to claim 5, wherein a force sensor is provided on the sixth driving mechanism.

7. The high efficiency automatic induction winding machine as claimed in claim 1, wherein the inlet side of the wire groove is located right to the left side of the magnetic ring fixing support, and the outlet side of the wire groove is located right to the right side of the magnetic ring fixing support.

8. The high efficiency automatic induction winding machine according to claim 7, wherein the cross sectional shape of the wire groove is V-shaped, and the inlet side of the wire groove is provided with an oblique angle.

9. The high-efficiency automatic inductance winding machine according to claim 1, wherein the wire feeding mechanism comprises two parallel rollers for feeding copper wires, an eighth driving mechanism for driving the two rollers to rotate mutually, a ninth driving mechanism for driving the two rollers to move left and right, and a tenth driving mechanism for driving the distance between the two rollers to change.

10. The high efficiency automatic induction winding machine according to any one of claims 1 to 9, wherein a copper wire positioning mechanism is disposed on the frame between the magnetic ring fixing support and the copper wire tensioning mechanism, and the copper wire positioning mechanism comprises a V-shaped positioning block for placing the copper wire and an eleventh driving mechanism for driving the V-shaped positioning block to ascend and descend.

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