KR101939115B1 - Feeding implement for attaching motor magnet - Google Patents

Abstract

An object of the present invention is to provide a feeder for attaching a motor magnet, which can conveniently supply magnets to attach the magnets to a rotor of a motor. The feeder according to the present invention includes: a feeding body (10) having a feeding groove (14) in which a magnet (2) is received; a feeding movable member (20) slidably coupled to the feeding groove (14) of the feeding body (10); and a retreat elastic member (30) for applying a force to return the feeding movable member (20) to an original position while the feeding movable member (20) is advanced in the feeding groove (14) of the feeding body (10). The feeding groove (14) is formed in a groove shape extending in the longitudinal direction of the feeding body (10) and the feeding movable member (20) is formed in a block shape having a predetermined length and is slidably coupled with the feeding groove (14).

Description

[0001] The present invention relates to a feeding device for attaching a motor magnet,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a feeding device for mounting a motor magnet, and more particularly to a feeding device for a motor magnet attachment, which can conveniently supply magnets for attaching magnets to rotors of motors.

Generally, a motor is a device that converts electric energy into mechanical energy and obtains rotational force. It is widely used for home electric appliances as well as industrial devices, and is largely divided into a DC motor and an AC motor.

Meanwhile, the motor includes an Interior Permanent Magnet (IPM) motor in which permanent magnets are embedded in the rotor core according to the arrangement of permanent magnets in the rotor, a surface permanent magnet type permanent magnet in which permanent magnets are arranged on the surface of the rotor core, Magnet (SPM) motors.

A conventional surface-attached magnet type motor is provided so that a rotor is rotatable by a shaft with a rotor inside a stator on which a coil (not shown) is wound, and a plurality of permanent magnets are arranged along the circumference of the rotor Arranged and fixed.

The stator is formed with a plurality of teeth protruding at regular intervals along the inner circumferential surface of the yoke portion having a circular ring shape, and the coil is wound around each tooth to be fixed to the housing of the motor.

The rotor is manufactured by stacking a plurality of silicon steel sheets. A shaft hole is formed in the center so that the shaft is penetrated and fixed. A magnet mounting groove is formed along the circumference of the outer circumferential surface, and a permanent magnet is attached to each magnet mounting groove.

When the AC power is applied to a coil (not shown), a magnetic flux is generated in a direction perpendicular to the shaft, and the rotating magnetic flux is applied to the rotor by the magnetic flux of the permanent magnet located on the surface of the rotor Torque is generated to rotate the rotor.

Conventionally, there is a problem in that it is inconvenient to supply the permanent magnets to the magnet mounting grooves on the outer circumferential surface of the rotor, and there is a problem in that the productivity is lowered due to a long time for supplying the magnets. This is also a relatively difficult problem. On the other hand, although a system for automatically supplying magnets may be considered, such an automatic magnet supply system requires expensive equipment and a relatively large magnet supply system must be installed in the workplace. There is a lot of trouble.

Korean Patent Publication No. 10-2007-0113727 (published on November 29, 2007) Korean Patent Publication No. 10-2006-0024509 (published on March 17, 2006) Korean Patent Publication No. 10-2007-0113726 (published on November 29, 2007)

SUMMARY OF THE INVENTION The present invention has been developed in order to solve the problems as described above, and it is an object of the present invention to provide a magnet, which can conveniently supply a magnet for attaching a magnet to a rotor of a motor, And to provide a feeding device for a motor magnet attaching of a new structure which can expect a desirable result such as a higher speed of operation.

According to an aspect of the present invention, there is provided a feeding apparatus comprising: a feeding body having a feeding groove in which a magnet is received; A feeding movable member slidably coupled to the feeding groove of the feeding body; And a retroreflective member for applying a force to return the feeding movable member to an original position in a state in which the feeding movable member is advanced in the feeding groove of the feeding body.

The feeding groove is formed in a groove shape extending in the longitudinal direction of the feeding body, and the feeding movable member is formed in a block shape having a predetermined length and is slidably coupled to the feeding groove.

A magnet is accommodated in the feeding groove and the feeding movable member advances and the magnet is pushed by the feeding movable member to be seated in the magnet mounting groove formed on the outer peripheral surface of the rotor of the motor.

And a sliding block portion having a relatively smaller width in the left and right direction is provided on a bottom surface of the feeding movable member, and the sliding block portion is slidably coupled to the feeding groove of the feeding body.

Wherein the feeding body is provided with groove forming pieces extending in the longitudinal direction on both sides of the feeding body, the feeding body is provided with a pair of parallel groove forming pieces, and the feeding groove is formed by the pair of groove forming pieces do.

And the pair of groove forming pieces are disposed outside of both side surfaces of the sliding block portion of the feeding movable member.

A lever is provided at a rear end of the feeding body, and the lever has a concave groove leading to a rear end of the feeding groove, and a recess is formed at a rear end of the concave groove.

Wherein the feeding elastic member comprises a coil spring and the feeding body is provided with a front elastic coupling portion at an upper portion of the feeding groove and the feeding movable member is provided with a rear elastic coupling portion facing the front elastic coupling portion, Wherein the front end portion and the rear end portion of the front elastic coupling portion and the rear elastic coupling portion are respectively coupled to the front elastic coupling portion and the rear elastic coupling portion.

According to the present invention, since the magnet can be simply attached to the outer circumferential surface of the rotor of the motor by pushing the magnet placed on the feeding groove of the feeding body by the feeding movable member, the magnet can be supplied to the magnet mounting groove on the outer peripheral surface of the rotor There is an advantage in that the work for attaching the magnet is convenient, and the time required for supplying the magnet is small, and the productivity is improved.

Meanwhile, it is to be understood that the above-described effects are the main effects of the present invention, and that the present invention has various other effects than the above-mentioned effects.

1 is a perspective view of a feeding device for attaching a motor magnet according to the present invention;
Fig. 2 is a side view of Fig.
Fig. 3 is a cross-
Fig. 4 is a front view of Fig. 1
5 is a rear view of Fig. 1
Fig. 6 is a plan view of Fig. 1
Fig. 7 is a bottom view of Fig.
8 is a perspective view showing a process of supplying a magnet to a rotor of a motor by a feeding device for attaching a motor magnet according to the present invention
9 is a perspective view showing a state where a magnet is supplied to a rotor of a motor by a feeding device for attaching a motor magnet according to the present invention
10 is a perspective view showing a rotor of a motor to which a magnet is supplied by a feeding device for attaching a motor magnet according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

Referring to the drawings, a feeding apparatus for attaching a motor magnet according to the present invention includes a feeding body 10, a feeding movable member 20, and a retort elastic body 30 in a basic configuration.

The feeding body (10) has a feeding groove (14) in which the magnet (2) is received. The feeding body 10 is formed in a block shape having a predetermined length. On both end portions of the feeding body 10, there is provided a groove forming piece 12 raised upward. A pair of side by side grooving pieces 12 are provided on the feeding body 10. The feeding groove 14 is formed by the pair of the groove forming pieces 12. The feeding groove 14 extends in the longitudinal direction of the feeding body 10. The feeding groove 14 has a rectangular groove shape extending in the longitudinal direction of the feeding body 10. A permanent magnet 2 (hereinafter referred to as a magnet 2) to be attached to the outer peripheral surface of the rotor 4 of the motor is placed on the feeding groove 14. The magnet 2 is in the form of a square block so that the magnet 2 is placed on the feeding groove 14 in the shape of a square groove and both sides of the magnet 2 are supported by the pair of groove forming pieces 12 . A lever 15 is provided at the rear end of the feeding body 10 and the lever 15 is provided with a recessed groove portion continuing to the rear end of the feeding groove 14, do. The lever 15 is in the form of a circular bar having a section, and the concave groove portion is formed in a groove shape that is cut out by a predetermined length concave toward the proximal end portion from the tip end portion of the lever 15. And the bottom of the concave groove portion is formed as a horizontal surface. The concave groove portion is connected to the rear end of the feeding groove 14 formed in the feeding body 10. The concave groove portion of the lever 15 is continued to the feeding groove 14 of the feeding body 10. The step portion is disposed at a position spaced rearward from the rear end of the feeding groove 14 of the feeding body 10 by a predetermined distance.

The feeding body 10 has an upward bracket 16 disposed at a position spaced a certain distance from the distal end toward the proximal end. The upward bracket 16 extends upward in the vertical direction of the feeding body 10.

The feeding body 10 has a front elastic coupling portion 17. The base end portion of the front elastic body coupling portion 17 is fixed to the upward bracket 16 provided on the feeding body 10 and the front elastic body coupling portion 17 is provided on the feeding body 10. The front elastic coupling portion 17 is disposed in a direction parallel to the feeding groove 14. [ And the front elastic coupling portions 17 are arranged in a direction parallel to the longitudinal direction of the feeding body 10. [ The front elastic coupling portion 17 is disposed above the feeding groove 14 of the feeding body 10. The front elastic coupling portion 17 is floated above the feeding groove 14 of the feeding body 10.

The feeding body 10 further includes a grip bar 18 protruding laterally. The grip bar 18 is coupled to the front elastic coupling portion 17 provided on the feeding bar. The grip bar 18 is engaged with the bar coupling hole which is open to the side of the front elastic member engaging portion 17 and is engaged. In the present invention, the grip bar 18 is disposed in a direction perpendicular to the longitudinal direction of the feeding bar. Further, a knurling portion is further provided on the outer peripheral surface of the grip bar 18. The knurled portion is a portion formed by the outer peripheral surface of the grip bar (18). A plurality of knurling portions are provided on the outer circumferential surface of the grip bar (18).

The feeding movable member 20 is slidably engaged with the feeding groove 14 of the feeding body 10. The feeding movable member 20 is formed in a block shape having a predetermined length. The feeding movable member 20 has a sliding block portion on its bottom surface. The lateral width of the sliding block portion is relatively narrower than the lateral width of the feeding movable member 20. [ The feeding movable member 20 and the sliding block portion are in the form of a block having a square cross section and the lateral width of the sliding block portion is relatively smaller than that of the feeding movable member 20. The sliding block may be constituted by the feeding movable member 20. The feeding movable member 20 is shaped like a block extending along the feeding groove 14 of the feeding body 10 by a predetermined length. The sliding block portion of the feeding movable member 20 is slidably engaged with the feeding groove 14 of the feeding body 10. At this time, the pair of left and right groove forming pieces 12 of the feeding body 10 are disposed outside the left and right ends of the sliding block portion. The left and right end portions of the sliding block portion are brought into contact with the inner surfaces of the pair of groove forming pieces 12 of the feeding body 10. A pair of left and right groove forming pieces 12 of the feeding body 10 support the sliding block portions from both the left and right sides.

The feeding movable member 20 is retracted back by the elastic body 30 in a state where the feeding movable member 20 is advanced forward in the feeding groove 14 of the feeding body 10. [ And a pushing piece 22 is provided at a portion adjacent to the rear end of the feeding movable member 20. [ The pushing piece 22 is fixed to the feeding movable member 20 by a fixing means. The fastening means includes fasteners such as bolts and fasteners (24).

The pushing piece 22 is provided with a fastener through-hole communicating with the upper and lower surfaces thereof. The fastener piece 24 is provided with an upper fastener through-hole which meets with the fastener through-hole of the pusher piece 22, The feeding movable member 20 is provided with a fastening hole for engaging with the fastening hole of the pushing piece 22.

Therefore, when the pushing piece 22 is placed on the upper surface of the feeding movable member 20, the upper and lower fastening hole portions of the fastening piece 24 and the pushing piece 22, The fixing piece 24 presses the pushing piece 22 and fixes the pushing piece 22 to the feeding movable member 20. In this case, And the pushing piece (22) is detachably coupled to the feeding movable member (20). The fastener and the fastening piece 24 serve as fastening means for fastening the pushing piece 22 to the feeding movable member 20. [

The pushing piece (22) protrudes laterally of the feeding movable member (20). The pushing piece 22 protrudes in a direction perpendicular to the longitudinal direction of the feeding movable member 20. [ At this time, the feeding moving part is constituted by a curved surface part of a groove shape having a concave rear surface.

A rear elastic member engaging portion 25 is provided at the rear of the feeding movable member 20. A rear elastic member engaging portion 25 protrudes from the front surface of the fixing piece 24. The rear elastic coupling portion 25 is disposed at a position facing the front elastic coupling portion 17 of the feeding body 10. At this time, the rear elastic member engaging portion 25 may be provided on the pushing piece 22. Therefore, the rear elastic coupling portion 25 is provided at the rear of the feeding movable member 20.

The elastic body 30 is composed of a coil spring. The front end and the rear end of the reticle elastic body 30 are coupled to the front elastic coupling portion 17 and the rear elastic coupling portion 25, respectively. The front elastomeric connecting portion 17 is in the form of a boss having a hollow portion inside and the rear elastomeric connecting portion 25 is in the shape of a pin. The front end portion of the elastic body 30 is connected to the inner hollow portion of the front elastic- And the rear end portion of the retriton elastomer 30 is engaged with the outer peripheral surface of the rear elastic member engaging portion 25. [ The retroreflective sheet 30 is disposed in a direction parallel to the longitudinal direction of the feeding body 10 and the feeding movable member 20. The retroreflective sheet 30 is disposed above the feeding movable member 20. [ As a result, the structure in which the retroreflective member 30 is interposed between the feeding body 10 and the feeding movable member 20 is adopted.

The retracting elastic body 30 is compressed when the feeding movable member 20 coupled to the feeding groove 14 of the feeding body 10 advances toward the front end side (front side) of the feeding body 10, So that the feeding movable member 20 applies a force to return (return) the original position. The length of the feeding movable member 20 is smaller than the length of the feeding body 10 so that a home sector for accommodating the magnet 2 having a certain area from the leading end to the proximal end of the feeding body 10 is secured. The feeding movable member 20 advances to push the magnet 2 forward from the leading end of the feeding body 10 in a state where the magnet 2 is placed on the home sector of the receiving body of the feeding body 10, The magnet 2 pushed out by the movable member 20 is seated in the mounting groove of the magnet 2 formed on the outer peripheral surface of the rotor 4 of the motor.

The buffering member 26 is provided at the rear end of the feeding movable member 20. The buffer member 26 is made of a soft and constant elastic material capable of absorbing impact such as rubber. The buffer member 26 may be attached to the back surface of the fixing piece 24 provided at the rear end of the feeding movable member 20 by an attachment means such as an adhesive. The buffer member 26 is preferably interposed between the fixing piece 24 of the feeding movable member 20 and the step portion of the lever 15. [ In this case, when the buffering movable member 20 is retracted to the original position due to the elastic force of the retratch elastic body 30, the buffering member 26 moves the fixing member 24 of the feeding movable member 20 and the feeding body 10 So that the impact can be alleviated.

Further, the feeding movable member 20 is provided with a hole penetrating to the upper and lower surfaces thereof. The holes are elongated along the longitudinal direction of the feeding movable member 20. The feeding body 10 is provided with an auxiliary hole 10H penetrating from the upper surface of the feeding groove 14 to the lower surface. The auxiliary hole (10H) is disposed in the inner region of the hole of the feeding movable member (20).

The feeding device for the motor magnet mounting according to the present invention having the above-described configuration supplies the magnet 2 to the mounting groove of the magnet 2 formed on the outer peripheral surface of the rotor 4 (rotor) of the motor so as to be seated. The feeding device for the motor magnet attachment of the present invention allows two persons to continuously supply the magnet 2 to the mounting groove of the magnet 2 on the outer peripheral surface of the rotor 4 in a joint operation.

A worker holds the lever 15 provided in the feeding body 10 of the present invention by hand and places the magnet 15 in the feed groove 14 (the home sector accommodating the magnet 2) of the feeding body 10, (2), the operator holding the lever (15) advances the feeding movable member (20) forward.

Then the magnet 2 is pushed forward from the feeding groove 14 of the feeding body 10 by the feeding movable member 20 so that the magnet 2 is inserted into the mounting groove of the magnet 2 on the outer peripheral surface of the rotor 4 Lt; / RTI > At this time, an adhesive is applied to the mounting groove of the magnet (2), so that the magnet (2) seated in the mounting groove of the magnet (2) is attached by adhesion. On the other hand, the retriton elastomer 30 is compressed and has an elastic restoring force.

Next, when the worker holding the lever 15 releases the pressing force on the feeding movable member 20, the feeding movable member 20 is retracted to the original position by the elastic restoring force of the elastic body 30.

As described above, when one operator grips the lever 15, another operator puts the magnet 2 in the feeding groove 14 of the feeding body 10, and the worker holding the lever 15 performs the feed operation The operation of pushing the member 20 and feeding (feeding) the magnet 2 to the magnet mounting groove of the rotor 4 to seat the rotor 2 is repeated so that the magnet 2 is fitted into the mounting groove of the magnet 2 formed on the outer peripheral surface of the rotor 4 of the motor The magnet 2 can be attached.

According to the feeding device for attaching a motor magnet according to the present invention, simply by pushing the magnet 2 placed on the feeding groove 14 of the feeding body 10 by the feeding movable member 20, It is convenient to supply and attach the magnet 2 to the mounting groove of the magnet 2 on the outer circumferential surface of the rotor 4 because the magnet 2 can be supplied and attached to the outer circumferential surface of the rotor 4 of the rotor 2, And thus the productivity is improved. It is also possible to supply the magnet 2 to the outer circumferential surface of the rotor 4 of the motor in a state of being placed on the feeding groove 14 of the feeding body 10 without the need for the worker to individually feed and attach the magnet 2 The work for supplying the magnet 2 to be attached to the outer circumferential surface of the rotor 4 is much easier than in the prior art. Further, the present invention eliminates the need to provide a system for automatically supplying the magnets (2), avoids a case where a large amount of facility expenses due to having an automatic supply system of an expensive magnet (2) is required, There is no need to install the magnet 2 supply system of the magnet 2, and it is also possible to prevent the case where the installation position of the magnet 2 automatic supply system is restricted.

The grip bar 18 of the feeding body 10 and the pushing piece 22 of the feeding movable member 20 allow the operator to move the magnet 2 in the feeding groove 14 of the feeding body 10, So that it is more convenient to perform the pushing operation. The worker holding the lever 15 behind the feeding body 10 with one hand pushes the feeding movable member 20 forward with the other hand to move the magnet 2 to the mounting position of the magnet 2 mounted on the outer surface of the rotor 4 When the feeding movable member 20 is pushed forward, the operator places the thumb of the other hand that does not hold the lever 15 against the pushing support piece 22 and the other finger holds the grip bar 18 Therefore, the feeding movable member 20 can be pushed forward more easily. The gripping bar 18 and the pushing piece 22 are held together by the other hand and the feeding movable member 20 is pushed forward so as to prevent the force from being excessively entered into the finger for pushing the feeding movable member 20, The operation of supplying the magnet 2 to the mounting groove of the magnet 2 of the rotor 4 can be more conveniently performed because the feeding movable member 20 can be pushed by the least possible hand force. The gripping bar 18 and the pushing piece 22 serve as levers for the worker to grip with the other hand when the feeding movable member 20 is pushed toward the distal end of the feeding body 10, The operation of pushing the feeding movable member 20 forward in the feeding groove 14 of the feeding channel 14 can be performed more easily and conveniently.

The pushing piece 22 is provided with a concave curved surface so that when the feeding movable member 20 is pushed, the feeding movable member 20 is moved in a state in which the thumb is placed on the concave curved portion of the pushing piece 22 It is prevented that the operator's thumb is forcibly pressed by the pushing piece 22 to feel the pain, so that when the pushing movable member is pushed, the user feels more comfortable in the thumb.

The knurled portion is provided on the outer peripheral surface of the grip bar 18 so that the knurled portion is in contact with the finger of the operator so that the finger can be prevented from slipping on the grip bar 18, And the magnet 2 is supplied to the mounting groove of the magnet 2 on the outer circumferential surface of the rotor 4, a more smooth operation is achieved. It is possible to work more smoothly when the magnet 2 is supplied to the mounting groove of the magnet 2 on the outer circumferential surface of the rotor 4 since the fingers are slid on the grip bar 18 and the magnet 2 is supplied.

The front and rear ends of the elastic body 30 may be coupled to the front elastic body coupling portion 17 of the feeding body 10 and the rear elastic body coupling portion 25 of the feeding movable body 20, The disassembling and assembling of the feeding body 10, the feeding movable member 20 and the retort elastic body 30 can be performed more conveniently and quickly.

When the buffering movable member 20 is retracted to the original position by the elastic force of the retracting elastic body 30 and the cushioning member 26 is engaged with the fixing piece 24 of the feeding movable member 20 and the fixing piece 24 of the feeding body 10 The feed movable member 20 is pressed forward to feed the magnet 2 to the outer peripheral surface of the rotor 4 of the motor and then the feed movable member 20 is pressed When the force is released, the feeding movable member 20 is elastically retreated to its original position by the elastic restoring force of the retracting elastic body 30. When the feeding movable member 20 is retracted, It is possible to prevent an impact force that may be generated between the feeding movable member 20 and the step portion of the lever 15 so that the collision during the elastic return of the feeding movable member 20 And it is possible to prevent noise from being generated by the feeding movable member 20 The lever 15 of the feeding body 10 is prevented from being damaged. The cushioning member 26 functions to prevent generation of noise at the retraction of the feeding movable member 20 and to prevent burnout such as abrasion due to impact.

The feeding movable member 20 has a hole penetrating the upper and lower surfaces thereof. The hole is formed in a long hole extending along the longitudinal direction of the feeding movable member 20, The feed movable member 20 is provided with an auxiliary hole 10H penetrating from the upper surface to the lower surface of the feeding movable member 20 so that when the feeding movable member 20 moves back and forth in the feeding groove 14 of the feeding body 10, Since the air that can be generated between the feeding bodies 10 is discharged to the outside through the holes of the feeding movable member 20 and the auxiliary holes 10H of the feeding body 10, It is possible to prevent an air resistance or a frictional resistance which may be generated when the feed movable member 20 is moved back and forth in the feeding groove 14 of the feeding movable member 20, . The prevention of the force applied to the hand when pushing the feeding movable member 20 in particular means that the operation of pushing and feeding the feeding movable member 20 becomes easier.

The grip bar 18 and the pushing piece 22 are detachably coupled to the front elastic coupling portion 17 of the feeding body 10 and the feeding movable member 20, The grip bar 18 and the push grip piece 22 are disposed on the left side of the feeding body 10 and the grip bar 18 and the push grip piece 22 ) Can be disposed. That is, regardless of whether the worker is a left-handed person or a right-handed person, the gripping bar 18 and the pushing-gripping piece 22 can be gripped to push the feeding movable member 20. It is possible to easily use the feeding device for attaching a motor magnet according to the present invention regardless of left-handedness or right-handedness.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

2. Magnet 4. Rotor
10. Feeding body 12. Home forming
14. Feeding groove 15. Lever
16. Upward Bracket 17. Front Elastic Coupling Unit
18. Grip bar 20. Feeding movable member
22. Push holding piece 24. Fixing piece
25. Rear Elastomeric Coupling Section 30. Rettol Elastic Body

Claims (4)

A feeding body (10) having a feeding groove (14) in which a magnet (2) is received;
A feeding movable member (20) slidably coupled to the feeding groove (14) of the feeding body (10);
And a retracting elastic body (30) for applying a force for returning the feeding movable member (20) to an original position while the feeding movable member (20) is advanced in the feeding groove (14) of the feeding body Respectively,
The feeding elastic member 30 is constituted by a coil spring and the feeding body 10 is provided with a front elastic coupling portion 17 at an upper portion of the feeding groove 14, A front elastic member engaging portion 17 and a rear elastic member engaging portion 25 facing the front elastic member engaging portion 17 are provided so that the front end portion and the rear end portion of the elastic body 30 are connected to the front elastic member engaging portion 17 and the rear elastic member engaging portion 25,
A grip bar 18 is coupled to the front elastic coupling portion 17 of the feeding body 10 so that the grip bar 18 protrudes sideways of the feeding body 10,
Wherein a pushing piece (22) is provided at a portion adjacent to the rear end of the feeding movable member (20), and the pushing piece (22) is configured to protrude laterally from the feeding movable member Feeding device for magnet attachment.
The method according to claim 1,
The feeding groove 14 is formed in a groove shape extending in the longitudinal direction of the feeding body 10 and the feeding movable member 20 is formed in a block shape having a predetermined length, Wherein the first and second motor magnets are fixedly coupled to each other.
3. The method of claim 2,
The magnet 2 is received in the feeding groove 14 and the feeding movable member 20 advances and the magnet 2 is pushed by the feeding movable member 20 to be guided to the outer peripheral surface of the rotor 4 of the motor And is configured to be seated in the formed magnet mounting groove (4MG).
The method according to claim 1,
The feeding block 20 includes a sliding block 20SB having a relatively narrow width in the left and right direction so that the sliding block 20SB slides in the feeding groove 14 of the feeding body 10 Wherein the first and second motor magnets are fixedly coupled to each other.

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