KR200144591Y1 - Driving coil of flat coreless motor - Google Patents

Abstract

The present invention relates to a drive coil of a flat coreless motor, in which a spiral portion 26 is formed in a state in which only a part of the winding part and the end of the winding 25 of the wire 25 constituting the drive coil are separated. (25) There is a lot of room for cold soldering without soldering because of the complete peeling of the insulating film, this is to solve the conventional problem that a large amount of quality loss occurs due to rework and even disposal. do.

In order to solve this problem, the present invention is to form a laminated spiral part in which a spiral part is formed on the spiral part and another spiral part is formed on the winding start part and the winding end part of the wire constituting the driving coil.

Therefore, this design is used for coreless motors such as tape recorders and camcorders.

Description

Driving coil of flat coreless motor

1 is a cross-sectional view showing an example of a flat coreless motor.

(A) and (b) of FIG. 2 are a perspective view and a cross-sectional view showing a conventional driving coil in FIG.

(A), (b) of FIG. 3 is a perspective view and sectional drawing which show the drive coil of the flat coreless motor which concerns on this invention.

* Explanation of symbols for main parts of the drawings

10: rotor 11: rotor case

12: magnet 13: bush

14: rotating shaft 20: stator

21: printed circuit board 22: bearing housing

23: drive coil 24: Hall element

25: wire 26, 27: helix

28: laminated spiral portion

The present invention relates to a drive coil of a flat coreless motor. More specifically, the soldering performance of the cold coil is improved by forming a laminated spiral portion in which a spiral portion is laminated in two layers at the start and the end of the winding coil. The present invention relates to a drive coil of a flat coreless motor which can reduce quality loss.

In the conventional general flat coreless motor, as shown in FIG. 1, the magnet 12 is mounted inside the rotor case 11 and the rotor 14 is penetrated and fixed to the bush 13 in the center thereof. 10) and the bearing coil 22 is fixed to the lower surface of the printed circuit board 21 so as to penetrate the rotating shaft 14, and the driving coil (2) on the printed circuit board 21 corresponding to the magnet 12. 23) and the stator 20 to which the hall element 24 is mounted.

In the flat coreless motor configured as described above, when a current is applied to the driving coil 23 on the printed circuit board 21, a magnetic field is generated in the driving coil 23, and the driving coil 23 and the magnet 12 are mutually connected. The rotor 10 is rotated by the action. At this time, the current direction of the driving coil 23 is switched by the Hall element 24 for sensing the N (N) and S (S) poles of the magnet 12, thereby constantly rotating in a constant direction at all times.

The driving coil 23 used in the flat coreless motor as described above has a spiral portion 26 having only copper wires by removing the insulation film at the winding start and end of the wire 25 sequentially wound as shown in FIG. Formed.

However, in the driving coil 23 of the flat coreless motor as described above, the spiral portion 26 is formed in a state in which only a part of the winding portion and the end portion of the winding of the wire 25 are peeled off. When the insulation film was peeled off (25), it could not be completely peeled off and there was much room for cold soldering. This caused a large amount of quality loss due to reworking and even disposal.

This invention is to solve the above-mentioned general problems, and the object of this invention is to form a laminated spiral portion which is peeled off to be laminated with a Shanghai layer on the winding start and the winding end of the wire so that the insulating film of the wire is not completely peeled off. It is possible to provide a drive coil of a flat coreless motor that can be surely soldered, thereby preventing cold soldering and improving solderability to reduce quality loss.

A characteristic of the drive coil of the flat coreless motor according to the present invention for achieving the above object is that the wire is fusion-wound by a predetermined number of times in succession, and a flat portion having a spiral for soldering at the winding start and the winding end of the wire The driving coil of the coreless motor is characterized in that the spiral portion of the winding start portion and the winding end portion is formed of a laminated spiral portion in which a spiral portion is formed at this spiral portion and laminated in a shanghai layer.

Hereinafter, the drive coil of the flat coreless motor according to the present invention will be described in detail by the accompanying drawings for a preferred embodiment.

FIG. 3 is a drawing for explaining the driving coil of the flat coreless motor. Here, the drive coil 23 is fusion wound around the wire 25 having the insulation coating formed a predetermined number of times, and the laminated spiral portion 28 is formed at the winding start and winding ends of the wire 25. The spiral portion 28 of the wire 25 has a spiral portion 26 formed at a winding start portion and a winding end portion of the wire 25, and another spiral portion 27 is formed on the spiral portion 26. ), The insulating film of the wire 25 is peeled off in a state of being laminated with a shanghai layer.

The drive coil of the flat coreless motor of the present invention configured as described above has a laminated spiral portion 28 in a state in which a winding layer and a winding end portion of the wire 25 constituting the drive coil 23 are laminated in a shanghai layer. By doing so, even if the insulation film of the wire 25 is not completely peeled off in the insulation film peeling process of the wire 25, reliable soldering is performed, thereby improving cold soldering and improving solderability, thereby reducing quality loss. In addition, as the solderability of the driving coil 23 is improved, the surface mounting technology of the driving coil 23 may be easily used, thereby facilitating automation. In addition, the winding start portion and the winding end portion of the wire 25 constituting the driving coil 23 are not firmly fused and released, thereby preventing a shape defect of the driving coil 23.

As described above, according to the driving coil of the flat coreless motor according to the present invention, since the laminated spiral portion of the wire winding and the winding end of the wire is formed in the laminated state in the shanghai layer, the solderability is improved to prevent cold soldering. It is easy to use the surface mounting technology of the drive coil, so it is easy to automate, and the winding start and the winding end of the drive coil are not loosened, so that a shape defect of the drive coil is not generated.

Claims (1)

In a drive coil of a flat coreless motor in which a wire is sequentially fused and wound a predetermined number of times, and a spiral part for soldering is formed at a winding start part and a winding end part of the wire, the spiral part of the winding start part and the winding end part is formed on the spiral part. A drive coil of a flat coreless motor, which is formed of a laminated spiral portion with another spiral portion laminated in two layers.