KR930008399Y1 - Brushless motor - Google Patents

Abstract

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Description

Brushless motor

1A and 1B are schematic diagrams showing a cross-sectional view of a part of a conventional brushless motor and an operation state of a PG pattern.

2 is a waveform diagram showing a signal detected in a conventional PG pattern.

3A and 3B are schematic views showing the sectional view showing the main parts of the brushless motor according to the present invention and the working state of the PG pattern.

4 is a waveform diagram showing a signal detected in a PG pattern according to the present invention.

* Explanation of symbols for main parts of the drawings

1: head drum 2: rotation axis

2: bush 4: rotor case

5: Main magnet 6: Magnet for FG

7: magnet for PG 8: coil for driving

9: printed circuit board 10: pattern for FG

11: back yoke 12: bend

13: PG pattern 20: bend

21a, 21b: space part 22: pattern for PG

The present invention relates to a brushless motor, and more particularly, to improve the reliability of a brushless motor by removing a magnetic path of a frequency generating magnet that acts as a main cause of noise in a phase generating pattern. It is.

In general, the brushless motor used to drive the head drum of a video tape recorder (VTR) or digital audio tape recorder (DAT) is manufactured in a large size, and thus a signal of several tens of mV or more is output. It does not affect the pattern for phase generation (abbreviated as PG) that controls the position of the signal. Since the signal itself is output at a significant difference compared to the noise, the cut-off level (Cut- By setting the Off Level high, only the necessary signals could be obtained and used.

However, as video tape recorders and digital audio tape recorders have recently been made smaller and lighter, brushless motors for driving the head drums have been made smaller, so that the signal itself is weakly output and the cut-off level is 1 mV. Since it is very difficult to maintain the following, there is an urgent need for measures to reduce the noise output simultaneously with the signal to 0.4 mV or less.

In the conventional brushless motor, as shown in FIGS. 1A and 1B, a bush 3 in which the rotating shaft 2 of the head drum 1 is fitted in the center is provided in the rotor case 4, and the rotor case 4 is provided. The main magnet (5) is mounted on the inner side, and the magnet (6) for frequency generation (FG, abbreviated as FG) for controlling the speed is mounted on the outside, and on one side of the magnet 6 for the FG. The magnet 7 for PG is mounted integrally.

In addition, a printed circuit board 9 having a driving coil 8 wound around the main magnet 5 is installed, and the FG pattern 10 is formed on an upper surface of the printed circuit board 9. A back York 11 is attached to form a closed furnace, and a rectangular bent portion 12 is integrally formed at a predetermined portion of the printed circuit board 9 and the back yoke 11. In the bent portion 12 of the printed circuit board 9, a pattern 13 for PG is formed.

Therefore, in the brushless motor, a magnetic field is formed as a current is applied to the driving coil 8 to rotate the rotor case 4 by mutual magnetic flux with the main magnet 5, and the magnet 6 for the FG. The magnetic flux generated from the FG pattern 10 is interlinked with the FG pattern 10 to control the speed of the brushless motor by the FG signal caused by the induced electromotive force, and the magnetic flux generated by the PG magnet 7 is blocked by the back yoke 11. While being connected to the PG pattern 13 of the bent portion 12 to control the position of the brushless motor by the PG signal by the induced electromotive force.

However, as shown in FIG. 1B, when the PG magnet 7 is positioned in the PG pattern 13 of the bend 12 to obtain the PG signal, the leakage flux generated in the FG magnet 6 is obtained. As shown in FIG. 2, noise is generated in addition to the PG signal to obtain a PG signal waveform in an unstable state as shown in FIG. 2, which makes it difficult to operate a brushless motor, thereby lowering reliability. However, there was a problem causing problems in small production.

The present invention is to solve the above problems, the object of the present invention is to form a bent portion of the printed circuit board and back yoke in the form of a "T" of the magnet for the FG acting as a major cause of noise in the PG pattern By eliminating the magnetic path, the generation of induced electromotive force due to the leakage flux of the FG magnet and the linkage of the PG pattern is prevented, so that a stable PG signal waveform can be obtained, and the reliability of the brushless motor is improved. It is also to provide a brushless motor that can be easily applied to small production.

Features of this invention for achieving the above object, the main magnet is mounted on the inside of the rotor case and the FG magnet is mounted on the outside, PG magnet is integrally formed on one side of the FG magnet, In a brushless motor in which a driving coil is wound on a lower side of the main magnet and a back yoke is attached to the lower side of the printed circuit board, a PG for a predetermined portion of the printed circuit board and the back yoke. There is a brushless motor in which a “T” shaped bend having a pattern is formed to remove the magnetic path of the magnet for FG.

Hereinafter, a brushless motor according to the present invention will be described in detail with reference to the accompanying drawings.

3a, b and 4 show a preferred embodiment for explaining the brushless motor according to the present invention, the brushless motor as shown in FIG. 1a and already described, inside the rotor case 4. The main magnet 5 is mounted, and the FG magnet 6 is mounted on the outside thereof, and the PG magnet 7 is integrally formed on one side of the FG magnet 6.

In addition, the lower side of the main magnet (5) is provided with a printed circuit board (9) wound around the drive coil 8 is mounted in a face-to-face type, the pattern for FG on the upper surface of the printed circuit board (9) 10) is formed, and the back yoke 11 is attached to the lower surface, and the "T" shape so as to have the space portions 21a, 21b at the lower side of the predetermined portion of the printed circuit board 9 and the back yoke 11; The bent portion 20 is formed in a shape, and the PG pattern 22 is formed on one side of the bent portion 20.

As described above, in the brushless motor according to the present invention, when a current is applied to the driving coil 8 mounted on the printed circuit board 9, a magnetic field is formed, and the rotor case is formed by mutual magnetic flux with the main magnet 5. (4) is rotated, the head drum (1) is rotated by the rotation shaft (2) by the rotation of the rotor case (4), the magnetic flux generated in the FG magnet (6) of the rotor case (4) The speed of the brushless motor is controlled by the FG signal generated by the induced electromotive force by being interlinked with the pattern 10.

In addition, the magnetic flux generated in the PG magnet 7 is interlinked with the PG pattern 22 of the bent portion 20 to control the position of the brushless motor by the PG signal caused by the induced electromotive force. As shown, when the PG magnet 7 is positioned on the PG pattern 22 of the bent portion 20 to obtain a PG signal, the leakage magnetic flux generated in the FG magnet 6 is transferred to the bent portion 20. It exits to the outside through the formed spaces 21a and 21b.

Therefore, as shown in FIG. 4, the noise of the PG signal is removed to obtain a stable PG signal waveform, thereby precisely controlling the position of the brushless motor and minimizing the noise output simultaneously with the signal, thereby minimizing the size of the brushless motor. It can be easily applied to production.

As described above, the brushless motor according to the present invention obtains a stable PG signal waveform by removing the magnetic path of the magnet for FG, which acts as a major source of noise in the PG pattern, thereby improving reliability by the normal operation of the brushless motor. At the same time, it is a useful design that enables small production.

Claims (1)

The main magnet is mounted on the inside of the rotor case, the FG magnet is mounted on the outside, the PG magnet is integrally formed on one side of the FG magnet, and the printed circuit board is wound around the main magnet. Is provided, and in a brushless motor in which a back yoke is attached to the lower side of the printed circuit board, " T " having a PG pattern 22 at predetermined portions of the printed circuit board 9 and the back yoke 11; "Braceless motor is characterized in that the bent portion 20 is formed to remove the magnetic path of the magnet 10 for FG.