KR101899148B1 - Method for winding coil on rotor of blower motor - Google Patents

Abstract

The present invention is characterized in that a plurality of stators are attached to the inner side surface of the case along a circumferential direction, and a rotating shaft that rotates together with the rotating shaft is mounted on the rotating shaft passing through the case, A method of winding a coil of a blower motor comprising a wound coil and a commutator, wherein a plurality of teeth are radially protruded from the core, wherein the commutator has a plurality of segments in a circular shape, Numbered sequentially from 1 to n, numbered sequentially from 1 to n to the teeth of the cores corresponding to the commutator, and the coils are wound between the teeth of the cores and the segments of the commutator To a coil winding method of an in-blower motor rotor.
As described above, the blower motor-blower motor coil winding method according to the present invention can reduce the amount of winding of a coil, thereby reducing the manufacturing cost. By winding the same amount of coils symmetrically on the segment of each commutator, The vibration is smoothly attenuated, the winding work is more easily performed, and the productivity of the motor is improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of winding a coil of a blower motor,

More particularly, the present invention relates to a method of winding a coil of a blower motor, and more particularly, to a method of winding a coil of a blower motor rotor, in which a plurality of stators are mounted along the circumferential direction on the inner surface of the case, Wherein the rotor comprises a core in the form of a hollow body, a coil wound on the core, and a commutator, and a method of winding the coil of the blower motor rotor.

Winding the coil to the motor is an important factor for improving the efficiency of the motor.

In the prior art for winding a coil on a motor, an armature, which is common to EP-A-0571173, comprises a sleeve of insulating material fitted in the middle of an armature shaft, a plurality of laminators having a slot on the outer side of the sleeve, A core laminated; And winding a coil on an armature composed of a commutator provided on one side of the core; The pliers of a single winding machine are hooked to a hook provided in a commutator located in front of a single winding machine and then wound through a slot of the core by a pitch of one winding. After rotating the armature by one slot, A pre-winding step of hooking the two hooks provided; Inverting the armature by 180 °; In the inverted state, the pliers are hooked to the hook of 3 located on the opposite side of the hook of 1, then wound through the slot of the core by one pitch, rotated by one slot, A winding step after hooking; And the inverting step of inverting the armature by 180 ° is repeated to repeat the winding by the number of slots formed in the armature, and the armature winding method for a motor brush motor is disclosed.

In another conventional technique, two commutators and rotating shafts are mounted on the No. 0121163, and 12 slots of the stratified iron core constituting the rotor are formed at regular intervals. In each of the twelve slots, And a second coil winding is connected to each of the two commutators so that a rated voltage of 110 V or 220 V can be selectively used. In the coil winding method of the double commutator motor, And sequentially winds to the next 7th to 11th slots and the 2nd to 6th slots in the clockwise direction. At the same time, the 12th and 7th slots are set as another starting points, So that the primary winding is completed. After the primary winding as described above, the rotor is rotated 180 degrees around the centers of the two commutator symmetry lines, And the 10th slot as a start point, the coils are sequentially wound on the slots 4-11 of the next slot and the slots 1 ~ 3 of the next slot in the clockwise direction, and the fourth slot and the ninth slot are set as another starting point The second winding operation of the coil is completed by sequentially winding the coils in the next slots in the clockwise direction, the slots in the fifth to ninth slots, and the slots in the tenth and the tenth slots sequentially. Registration is open.

However, the conventional winding method has a disadvantage in that the amount of turnover is large, resulting in a large manufacturing cost, and that the same amount of coils are not wound around the segments of each commutator, causing noise and vibration during rotation of the motor.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to reduce the manufacturing cost by reducing the number of turning lines at the time of winding, and by winding the same amount of coils in the segments of each commutator, A method of winding a coil of a blower motor rotor which can be used as a coil winding method.

In the case of the present invention, a plurality of stators are attached along the circumferential direction on the inner surface of the case, and a rotating shaft that rotates together with the rotating shaft is mounted on the rotating shaft passing through the case. Wherein a plurality of teeth are radially protruded from the core, wherein the plurality of segments are formed in a circular shape, and the plurality of segments are formed in a circular shape, Numbers from 1 to n are assigned to the cores, and the cores corresponding to the commutators are sequentially numbered from 1 to n to sequentially wind the coils between the teeth of the core and the segments of the commutator.

As described above, the coil winding method of a blower motor rotor of the present invention can reduce the amount of winding of a coil, thereby reducing manufacturing cost. By winding the same amount of coils symmetrically on the segment of each commutator, So that the vibration is attenuated and the winding work is further facilitated, thereby improving the productivity of the motor.

1 is an assembled view of an end cover assembly, a front cover assembly, and an armature of a blower motor according to the present invention.
2 is a perspective view of the blower motor armature of the present invention.
3 is a side view of the blower motor armature of the present invention.
4 is a view showing a coil winding process of the blower motor rotor of the present invention.
5 is a schematic view of a coil winding of a blower motor rotor of the present invention.
6 is a perspective view of the blower motor of the present invention.
7 is a side view of the blower motor of the present invention.
8 is a cooling operation state view of the blower motor of the present invention.
9 is a top schematic view of a first embodiment of an end cover assembly of a blower motor of the present invention.
Figures 10-13 are brush assembly drawings in accordance with a first embodiment of an end cover assembly of a blower motor of the present invention.
Figure 14 is an exploded perspective view of an end cover assembly of a blower motor according to a second embodiment of the present invention;
15 is a top schematic view of a second embodiment of an end cover assembly of a blower motor of the present invention.
Figures 16-17 are brush usage views according to a second embodiment of an end cover assembly of a blower motor.
18 is a perspective view showing a front cover assembly of a blower motor of the present invention.
19 is a view showing an assembling process of the blower motor of the present invention.

A plurality of stator 220 are attached to the inner surface of the front cover 210 according to the circumferential direction and a rotary shaft 310 passing through the front cover 210 is provided with a rotor The rotor 320 includes a core 321 in the form of a hollow body and a coil 324 and a commutator 325 wound on the core 321. The rotor 321 is wound around the core 321, A plurality of segments are formed in a circular shape in the core (321), and a plurality of teeth (322) are radially protruded from the core (321). The commutator (325) And the number of the teeth 322 of the core 321 corresponding to the commutator 325 is sequentially numbered from 1 to n so that the teeth 313 of the core 321 Winding the coil 324 between the segments of the commutator 325 Features.

The segments of the teeth 322 of the core 321 and the segments of the commutator 325 are numbered in the clockwise direction.

The coil winding method of the blower motor rotor is characterized in that the segments of the teeth (322) of the core (321) and the commutator (325) are each 17 pieces.

Hereinafter, a coil winding method of a blower motor rotor according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a blower motor rotor according to the present invention, Fig.

As shown in FIGS. 1 and 2, the blower motor of the present invention includes a plurality of stator 220 attached to an inner side surface of a case 100 along a circumferential direction, and a rotary shaft 310 And a rotor 320 that rotates together with the rotation shaft 310 is mounted.

The rotor 320 includes a core 321 in the shape of a hollow body and a coil 324 and a commutator 325 wound around the core 321. The present invention is applicable to a coil winding method of a blower motor rotor .

More specifically, a plurality of teeth 322 are radially protruded from the core 321, and the plurality of segments of the commutator 325 are circular.

As described later, the commutator 325 is sequentially numbered from 1 to n, and the teeth 322 of the core 321 corresponding to the commutator 325 are sequentially numbered from 1 to n The number should be numbered.

The coil 324 is inserted between the tooth 313 of the core 321 and the segment of the commutator 325 after the first segment of the commutator 325 is positioned at the first tooth 322 of the core 321. [ .

At this time, it is preferable that the segments of the teeth 322 of the core 321 and the segments of the commutator 325 are numbered in the clockwise direction.

FIG. 3 is a side schematic view of the blower motor rotor of the present invention, FIG. 4 is a view of a coil winding process of the blower motor rotor of the present invention, and FIG. 5 is a schematic view of a coil winding of the blower motor rotor of the present invention.

As shown in FIGS. 3 to 4, the segment of the core 322 of the core 321 of the present invention and the segment of the commutator 325 are each composed of 17 pieces.

Thus, the coil winding method of the blower motor rotor of the present invention is as follows.

For convenience of description, when referring to the segment outer tooth 313, the representation of the commutator 325 and the core 321 is omitted.

Starting from segment 1, it is drawn into the slot between the 15th and 16th teeth, then drawn into the slot between the 11th and 12th teeth, and once wound in the clockwise direction on the 12th and 15th teeth, Segmenting the first segment;

After entering the slot between No. 6 and No. 7 Tees in the 9th segment, it is drawn into the slot between No. 2 and No. 3 teeth and wound once in the clockwise direction to No. 3 and No. 6 teeth. 2 steps to get caught;

In the 17th segment, a slot between the 14th and 15th teeth is drawn into the slot between the 10th thread and the 11th thread, and the thread is wound clockwise to the 11th thread and the 14th thread. 3 steps to get caught;

In the 8th segment, it is drawn into the slot between the No. 5 thread and the No. 6 thread, and then drawn into the slot between the No. 1 thread and No. 2 thread. Then, the No. 2 thread and the No. 5 thread are wound clockwise one time, 4 steps to get caught;

After entering the slot between the No. 13 tooth and the No. 14 tooth in the 16th segment, it is drawn into the slot between the No. 9 tooth and the No. 10 tooth and wound once to the No. 10 tooth and the No. 13 tooth clockwise. 5 steps to take;

After entering the slot between No. 4 and No. 5 Tees in the 7th segment, it is drawn into the slot between the No. 17 and No. 1 teeth and wound once on the No. 1 and No. 4 teeth clockwise. 6 steps to take;

After entering the slot between the No. 12 and No. 13 teeth in the 15th segment, it is drawn into the slot between the No. 8 and No. 9 teeth and wound once to the No. 9 tooth and the No. 12 tooth clockwise. 7 steps to get caught;

After entering the slot between the No. 3 tooth and the No. 4 tooth in the 6th segment, it is drawn into the slot between the No. 16 tooth and No. 17 tooth and wound once to the No. 17 tooth and the No. 3 tooth clockwise. 8 steps to take;

After entering the slot between the No. 11 thread and the No. 12 thread in the 14th segment, it is drawn into the slot between the No. 7 thread and the No. 8 thread and wound once on the No. 8 thread and the No. 11 thread clockwise. 9 steps to take;

After entering the slot between the No. 2 and No. 3 teeth in the 5th segment, it is drawn into the slot between the No. 15 tooth and No. 16 tooth and wound once in the clockwise direction to the No. 16 tooth and the No. 2 tooth. 10 steps to take;

After entering the slot between the 10th thread and the 11th thread in the 13th segment, it is drawn into the slot between the 6th thread and the 7th thread and wound once in the clockwise direction to the 7th thread and the 10th thread. 11 steps to take;

In the 4th segment, it is drawn into the slot between the No. 1 tooth and the No. 2 tooth, and then drawn into the slot between the No. 14 tooth and the No. 15 tooth to be wound once in the clockwise direction to the No. 15 tooth and the No. 1 tooth. 12 steps to take;

After entering the slot between the No. 9 and No. 10 teeth in the 12th segment, it is drawn into the slot between the No. 5 and No. 6 teeth and wound once in the clockwise direction to No. 6 and No. 9 teeth. Step 13 to make it take;

After entering the slot between the 17th and 1st tees in the 3rd segment, it is drawn into the slot between the 13th tee and the 14th tee, and once wound clockwise to the 14th tee and the 17th tee, 14;

After entering the slot between the No. 8 and No. 9 teeth in the 11th segment, it is drawn into the slot between No. 4 and No. 5 teeth and wound once to the No. 5 tooth and No. 8 tooth clockwise. 15 steps to take;

After entering the slot between the No. 16 thread and the No. 17 thread in the 2nd segment, it is drawn into the slot between the No. 12 thread and the No. 13 thread and wound once to the No. 13 thread and the No. 16 thread clockwise. 16 steps to take;

After entering the slot between No. 7 and No. 8 teeth in the 10th segment, it is drawn into the slot between No. 3 and No. 4 teeth and wound once on the No. 4 tooth and No. 7 tooth in the clockwise direction. And a seventeenth step of performing wiring.

Then, return to the operation of step 1 and repeat the winding operation of step 17.

Fig. 6 is a perspective view of the blower motor of the present invention, Fig. 7 is a side view of the blower motor of the present invention, and Fig. 8 is a cooling operation state view of the blower motor of the present invention.

A fan (430) is mounted on the motor (M) to improve cooling efficiency.

The flange 410 is coupled to the end cover 110 and the flange cover 420 is coupled to the lower surface of the flange 410. The fan 430 is mounted on the upper surface of the flange 410,

The fan 430 is formed in a hollow shape as a whole, and a plurality of blades are formed between the pair of rings at predetermined intervals along the circumferential direction.

The arrows shown in Fig. 8 show the air flow.

Air flows (not shown) through which air can flow between the flange 410 and the flange cover 420 so that air flows into the interior of the motor M through the flow path, And is discharged to the outside through a cooling hole 111 formed in the end cover 110.

The cooling holes 111 will be described later.

Figure 9 is a plan schematic view of a first embodiment of an end cover assembly of a blower motor of the present invention.

9, the end cover assembly 100 of the present invention includes a disk-shaped end cover 110 having a hollow hole formed at its central portion, a plurality of radially mounted end covers 110 And a condenser assembly 160 on which the terminals 161 are mounted. The cooling holes 111 are formed in the end cover 110 between the brushes 120 .

Meanwhile, the rotation shaft 310 of the armature 300 protrudes to the outside through the hollow hole of the end cover 110.

10 to 13 are brush assembly views according to the first embodiment of the end cover assembly of the blower motor of the present invention.

10 to 13, the brush 120 according to the first embodiment is inserted into the inner space of the brush holder 130 having the upper surface thereof opened and the inner space formed therein, and the brush holder 130, And a brush holder cap 140 mounted on an opening side of the brush holder 130 so as to prevent the brush 120 from being separated from the brush holder 130. The brush holder cap 140 includes a brush holder 130, It is possible to attach and detach it.

One surface of the brush holder 130 opposed to the rotating shaft 310 is formed with a front hole 132 passing through the inside and the outside of the brush holder 130. A brush inserted into the brush holder 130 through the front hole 132, A spring 150 is installed in the brush holder 130 so that the brush 120 is always rotated by the restoring force of the spring 150. As a result, (310).

The brush 120 inserted in the brush holder 130 can move in the radial direction due to the restoring force of the spring 150, thereby increasing the length of the brush 120.

An insertion protrusion 131 having an elastic force is formed on the side surface of the brush holder 130 and an insertion protrusion 131 is inserted into a side surface of the brush holder cap 140 corresponding to the insertion protrusion 131 The insertion protrusion 131 of the brush holder 130 is inserted into the insertion hole 141 of the brush holder cap 140 so that the brush holder 130 and the brush holder cap 140 are inserted into the insertion hole 141 of the brush holder cap 140. [ They are bound together.

More specifically, the insertion protrusion 131 is formed with a large circumference at the end thereof, and a step is formed due to a difference in circumference from the body portion, and a sloped surface having a sharp point toward the end portion is formed, The insertion into the insertion hole 141 becomes easy, and after the insertion, it is not easily separated by the step.

A choke coil 170 for blocking electromagnetic waves is mounted on the upper surface of the end cover 110. The choke coil 170 is fixed by a fixing member 180. [

The fixing member 180 includes an elastic body 181 protruding upward from the upper surface of the end cover 110 and a locking protrusion 182 formed at the upper end of the elastic body 181 so as to have a larger circumference than the elastic body 181 One side of the latching protrusion 182 is formed to be inclined and has a pointed shape as it goes to the upper side.

When the pair of fixing members 180 protrude from the upper surface of the end cover 110 so as to be spaced apart from each other by a predetermined distance so that the inclined surfaces of the locking projections 182 face each other, The choke coil 170 is inserted and mounted so that the pair of fixing members 180 are further formed along the longitudinal direction of the choke coil 170 so that the choke coil 170 is more tightly coupled.

The principle that the choke coil 170 cuts off the electromagnetic wave is a well-known technology for public use, and a detailed description thereof will be omitted.

The brush holder 130 is mounted on the guide hole 112 of the end cover 110. A plurality of coupling protrusions 113 protrude upward from both sides of the guide hole 112, The connection member 134 having the engagement groove 135 formed in the upper and lower sides is fastened to one side of the projection 113 to be inserted into the projection 113.

A coupling protrusion 133 is formed on both sides in the longitudinal direction of the brush holder 130 so as to correspond to the coupling groove 135. The coupling protrusion 133 is formed on the other side surface of the coupling member 134, Respectively.

14 is a perspective view of an end cover assembly of a blower motor according to a second embodiment of the present invention, and Fig. 15 is a plan overview diagram of a second embodiment of an end cover assembly of the blower motor of the present invention.

As shown in FIGS. 14 to 15, the end cover assembly 100 according to the second embodiment includes a disc-shaped end cover 110 having a hollow hole formed at its central portion, A brush 120 inserted into the guide hole 112 and a condenser assembly 160 on which the terminal 161 is mounted. The brush 120 has a plurality of guide holes 112 formed therein, And a cooling hole 111 is formed through the upper and lower portions so that the heat generated in the inner space formed by the end cover 110 and the front cover 200 to be described later is radiated to the outside.

Figures 16-17 are brush state views in accordance with a second embodiment of an end cover assembly of a blower motor.

16 to 17, the brush 120 according to the second embodiment of the end cover assembly is inserted into the inner space of the brush holder 130 having the upper surface opened and the inner space formed therein, and the brush holder And a brush holder cap 140 mounted on an opening of the brush holder 130 to prevent the brush 120 from detaching from the brush holder 130.

The rib 121 is protruded from the outer surface of the brush holder 130 in the longitudinal direction and the protruded rib 121 is fixed to the inner surface of the guide hole 112, So that vibration absorption is facilitated.

The shape of the brush holder 130 and the fastening relationship with the brush holder cap 140 are the same as those described above with reference to FIGS. 8 to 11.

18 is a perspective view showing the front cover assembly of the blower motor of the present invention.

As shown in FIG. 18, a plurality of stator 220 are fixed along the circumferential direction on the inner surface of the front cover 210, and four stator 200 are fixed in the present invention.

19 is a view showing the degree of assembly of the blower motor of the present invention.

19, the present invention relates to a blower motor, which comprises an end cover assembly 100 including an armature 300 and an end cover 110, and a front cover 210 including a front cover 210, A first step of assembling the motor M made up of the assembly 200; And a two-step process of assembling the motor fan 400 including the fan 430 to the motor M assembled by the one-step process.

Particularly, the 2-step process includes a 2-1 step of assembling the insulator sleeve 440 to the front and rear ends of the motor M assembled by the one-step process; Step 2-2 of assembling the flange 410 and the flange cover 420 to the end cover assembly 100; And assembling the fan 430 to the front cover assembly 200 in steps 2 and 3.

Further, after the 2-3 step process, a 2-4 step process for mounting the bearing is added.

As described above, the coil winding method of a blower motor rotor of the present invention can reduce the amount of winding of a coil, thereby reducing manufacturing cost. By winding the same amount of coils symmetrically on the segment of each commutator, So that the vibration is attenuated and the winding work is further facilitated, thereby improving the productivity of the motor.

100. End cover assembly
110. End cover 111. Cooling hole 112. Guide hole
113. Coupling protrusion
120. Brushes
130. Brush holder 131. Insertion protrusion 132. Front hole
133. engaging projection 134. connecting member 135. engaging groove
136. The rib
140. Brush holder cap 141. Insertion hole
150. Spring
160. Capacitor assembly
170. Choke coil
180. Fixing member 181. Elastic member 182. Locking projection
200. Front cover assembly
210. Front cover
220. Stator
300. Amateur
310. A rotating shaft
320. Rotor 321. Core
322. Teeth 323. Slot 324. Coil
325. Commutators
400. Blower motor
410. Flange
420. Flange cover
430. Fan
440. Sleeve
M. motor

Claims (3)

A plurality of stators 220 are attached to the inner surface of the case 100 along the circumferential direction and a rotor 320 rotating together with the rotating shaft 310 is mounted on the rotating shaft 310 passing through the case 100 The rotor 321 includes a core 321 in the shape of a hollow body and a coil 324 and a commutator 325 wound around the core 321. The core 321 is provided with a plurality of teeth The commutator 325 has a plurality of segments formed in a circular shape and is numbered sequentially from 1 to 17 to the commutator 325. The number of commutators 325 The number of the teeth 322 of the core 321 is sequentially numbered from 1 to 17 so that the coil 324 is wound between the teeth 322 of the core 321 and the segment of the commutator 325, The method comprising the steps of:
The segments of the teeth 322 of the core 321 and the segments of the commutator 325 are numbered clockwise,
After the first segment of the commutator 325 is positioned in the first tooth 322 of the core 321,
Starting from segment 1, it is drawn into the slot between the 15th and 16th teeth, then drawn into the slot between the 11th and 12th teeth, and once wound in the clockwise direction on the 12th and 15th teeth, Segmenting the first segment;
After entering the slot between No. 6 and No. 7 Tees in the 9th segment, it is drawn into the slot between No. 2 and No. 3 teeth and wound once in the clockwise direction to No. 3 and No. 6 teeth. 2 steps to get caught;
In the 17th segment, a slot between the 14th and 15th teeth is drawn into the slot between the 10th thread and the 11th thread, and the thread is wound clockwise to the 11th thread and the 14th thread. 3 steps to get caught;
In the 8th segment, it is drawn into the slot between the No. 5 thread and the No. 6 thread, and then drawn into the slot between the No. 1 thread and No. 2 thread. Then, the No. 2 thread and the No. 5 thread are wound clockwise one time, 4 steps to get caught;
After entering the slot between the No. 13 tooth and the No. 14 tooth in the 16th segment, it is drawn into the slot between the No. 9 tooth and the No. 10 tooth and wound once to the No. 10 tooth and the No. 13 tooth clockwise. 5 steps to take;
After entering the slot between No. 4 and No. 5 Tees in the 7th segment, it is drawn into the slot between the No. 17 and No. 1 teeth and wound once on the No. 1 and No. 4 teeth clockwise. 6 steps to take;
After entering the slot between the No. 12 and No. 13 teeth in the 15th segment, it is drawn into the slot between the No. 8 and No. 9 teeth and wound once to the No. 9 tooth and the No. 12 tooth clockwise. 7 steps to get caught;
After entering the slot between the No. 3 tooth and the No. 4 tooth in the 6th segment, it is drawn into the slot between the No. 16 tooth and No. 17 tooth and wound once to the No. 17 tooth and the No. 3 tooth clockwise. 8 steps to take;
After entering the slot between the No. 11 thread and the No. 12 thread in the 14th segment, it is drawn into the slot between the No. 7 thread and the No. 8 thread and wound once on the No. 8 thread and the No. 11 thread clockwise. 9 steps to take;
After entering the slot between the No. 2 and No. 3 teeth in the 5th segment, it is drawn into the slot between the No. 15 tooth and No. 16 tooth and wound once in the clockwise direction to the No. 16 tooth and the No. 2 tooth. 10 steps to take;
After entering the slot between the 10th thread and the 11th thread in the 13th segment, it is drawn into the slot between the 6th thread and the 7th thread and wound once in the clockwise direction to the 7th thread and the 10th thread. 11 steps to take;
In the 4th segment, it is drawn into the slot between the No. 1 tooth and the No. 2 tooth, and then drawn into the slot between the No. 14 tooth and the No. 15 tooth to be wound once in the clockwise direction to the No. 15 tooth and the No. 1 tooth. 12 steps to take;
After entering the slot between the No. 9 and No. 10 teeth in the 12th segment, it is drawn into the slot between the No. 5 and No. 6 teeth and wound once in the clockwise direction to No. 6 and No. 9 teeth. Step 13 to make it take;
After entering the slot between the 17th and 1st tees in the 3rd segment, it is drawn into the slot between the 13th tee and the 14th tee, and once wound clockwise to the 14th tee and the 17th tee, 14;
After entering the slot between the No. 8 and No. 9 teeth in the 11th segment, it is drawn into the slot between No. 4 and No. 5 teeth and wound once to the No. 5 tooth and No. 8 tooth clockwise. 15 steps to take;
After entering the slot between the No. 16 thread and the No. 17 thread in the 2nd segment, it is drawn into the slot between the No. 12 thread and the No. 13 thread and wound once to the No. 13 thread and the No. 16 thread clockwise. 16 steps to take;
After entering the slot between No. 7 and No. 8 teeth in the 10th segment, it is drawn into the slot between No. 3 and No. 4 teeth and wound once on the No. 4 tooth and No. 7 tooth in the clockwise direction. 17, which is for winding the wire,
And after the operation of step 17, the operation is returned to the operation of the first step and the winding operation of the seventeenth step is repeated.

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