KR0181025B1 - Drum motor driving apparatus for use in a vcr - Google Patents

Abstract

The present invention relates to a drum motor driving apparatus of V.C.R, which is turned off when a positive voltage induced by the magnet 2 from the switching hall element 7 is applied, and is switched off. 7, the first transistor Q5 is turned on when a negative voltage is applied, and the first transistor Q5 is turned off when the first transistor Q5 is turned off, so that the DC power supply Vcc is driven. When the first transistor Q5 is turned on, the second transistor Q6 is turned on so that the residual voltage Ea induced in the driving coil 3 is emitted.

Accordingly, the present invention has the effect of increasing the driving force of the drum motor and improving the uniformity of rotation of the drum motor by removing the residual voltage induced by the driving coil and acting inversely to the driving force for driving the drum motor.

Description

VC's drum motor drive

1 is a cross-sectional view showing a drum motor of a conventional conventional V.C.R.

2 is a schematic circuit diagram showing a conventional conventional V. C. drum motor drive device.

3 is a circuit diagram of a V. C. drum motor driving apparatus according to a preferred embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: rotor case 2: magnet

3, L: driving coil 4: stator core

5: printed circuit board 6: rotating shaft

7: Switching Hall element A, B: Input terminal

C: Capacitor Q: Transistor

The present invention relates to a drum motor driving apparatus used to drive a head drum of a video cassette recorder (hereinafter abbreviated as V. C. egg) of the present invention, and particularly, a force acts in a reverse direction of an induced magnetic flux. The present invention relates to a drum motor driving device of V.C.AL which facilitates the operation of the drum motor by removing residual magnetic flux that obstructs the normal operation of the drum motor.

Typically, a recording and playback head is used to perform functions such as recording and playback in a V.C. egg. By the way, such a recording and reproducing head is attached to a drum, and this drum is commonly called a head drum. On the other hand, when V.C.R is in the recording and reproducing mode, the drum on which the reproducing and recording heads are mounted rotates at a predetermined speed, thereby reproducing from the cassette tape proceeding at a constant speed or recording to the cassette tape. .

In addition, a drum motor is generally used as a device for driving the head drum. A drum motor is generally divided into two parts, a stator and a rotor. Magnets are mounted on the inside and the bottom of the rotor, and a predetermined number of pulse generators generate pulses according to the rotation of the coil and the rotor. And a switching hall element for providing rotational force to the rotor.

1 is a cross-sectional view showing a conventional V. C. drum motor.

As shown in FIG. 1, a conventional V.C.R drum motor includes a rotor case 1, a magnet 2, a stator core 4, a driving coil 3, and a printed circuit. board: PCB), rotating shaft 6, switching Hall element (7).

Brief description of the driving of the conventional drum motor shown in FIG.

Hall effects occur in the two switching Hall elements 7 mounted on the printed circuit board 5 due to the influence of the magnetic field formed by the magnets 2, and thus voltages are induced in the Hall elements 7. do. Then, the voltage induced in the hall element 7 is applied to the driving coil 3 wound on the stator core 4, so that the change in the magnetic flux induced in the driving coil 3 causes the driving force to the magnet 2. It provides a, thereby rotating the rotor of the drum motor by rotating the magnet (2) to drive the drum motor.

2 is a schematic circuit diagram of a conventional conventional drum motor drive device.

In Fig. 2, the terminals A and B represent the corresponding input terminals of the two switching Hall elements 7, respectively, and the coils La and Lb represent the driving coils 3 wound on the stator core 4, respectively. Vcc represents a power supply terminal for supplying power for inducing magnetic flux to the coils La and Lb.

The operation of the conventional drum motor driving apparatus shown in FIG. 2 will be described with reference to the switching hall element 7 on one side.

When a positive voltage induced from the switching hall element 7 is applied to the input terminal A of the switching hall element 7 by the N pole of the magnet 2, the transistor Q1, which is a PNP type, is turned off. The PNP transistor Q2 whose base terminal is connected to the collector terminal of the PNP transistor Q1 is turned on by the voltage difference between the emitter terminal and the base terminal.

Therefore, the supply power source Vcc is supplied to the coil La connected to the collector terminal of the transistor Q2. That is, when the transistor Q2 is turned on, a current flows in the coil La by Vcc, whereby magnetic flux is induced in the coil La. The predetermined voltage Ea is induced in the coil La by the current flowing through the coil La.

Similarly, when a positive voltage induced from the switching hall element 7 by the N pole of the magnet 2 is applied to the input terminal B of the switching hall element 7, the PNP transistor Q3 is turned on. The PNP transistor Q4, which is turned off and whose base terminal is connected to the collector terminal of the PNP transistor Q3, is turned on.

Therefore, the supply power source Vcc is supplied to the coil Lb connected to the collector terminal of the transistor Q3. That is, when the transistor Q4 is turned on, a current flows in the coil Lb by Vcc, whereby magnetic flux is induced in the coil Lb. The predetermined voltage Eb is induced in the coil Lb by the current flowing through the coil Lb.

However, in the above-mentioned conventional V.C.R drum motor driving apparatus, after the magnetic flux is induced in the coil La or Lb, a negative voltage is applied to the input terminal A or B of the switching Hall element. In this case, the voltage Ea or Eb induced by the current flowing through the coil La or Lb does not flow in the circuit and remains in the coil La or Lb.

As a result, such a residual voltage (Ea or Eb) has a problem that acts inversely to the driving force for driving the drum motor to make the rotation of the drum motor difficult and bring uneven rotation.

Accordingly, the present invention has been made to solve such a problem, and an object of the present invention is to eliminate the residual voltage remaining in the driving coil, thereby improving the rotational force and the variation of rotation of the drum motor. To provide a drum motor drive device.

According to a preferred embodiment of the present invention for achieving the above object, the present invention provides a magnet, a driving coil supplied with a DC power source, a stator core wound with the driving coil, two switching Hall elements, In the drum motor driving apparatus of V.C.R for driving a drum motor including a printed circuit board on which the two switching hall elements are mounted and a rotating shaft, the amount induced by the magnets 2 from the switching hall elements. The first transistor is turned off when a positive voltage is applied and is turned on when a negative voltage is applied from the switching Hall element, and the DC power is supplied. Connected between the driving coil and the DC power supply terminal, and when the first transistor is turned off, it is simultaneously turned off so that the DC power is provided to the driving coil, and the first transistor When the resistor is turned on, the transistor includes a second transistor which is turned on to emit a residual voltage induced in the driving coil.

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

3 is a circuit diagram of a V. C. drum motor driving apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 3, the V. C. drum motor driving apparatus of the present invention includes transistors Q5 and Q6, resistors R7, R8 and R9, and capacitor C. As shown in FIG. For the sake of simplicity, the drum motor drive shown in FIG. 3 is shown only for the switching hall element on one side.

When a positive voltage induced by the N pole of the magnet 2 through the input terminal A of the switching hall element 7 is applied through the resistor R7, the PNP transistor Q5 is turned off. do.

As a result, current flows from the power supply Vcc to the transistor Q6 and the driving coil La. At this time, the PNP transistor Q6 is turned off.

As a result, the supply power supply Vcc flows to the coil La through the resistor R6, whereby magnetic flux is induced in the coil La to drive the drum motor.

On the other hand, when the N pole of the magnet 2 is moved and a positive voltage is applied to an input terminal (not shown) of another switching hall element, a negative voltage is induced to the input terminal A. At this time, the voltage La is induced in the coil La.

Then, the transistor Q5 is turned on, so that the power supply Vcc flows through the turned-on transistor Q5. In addition, the transistor Q6 is turned on by the voltage difference between the base terminal and the emitter terminal, whereby the voltage induced in the coil La is emitted through the turned-on transistor Q6.

In this way, the drum motor driving apparatus according to the present invention, which is connected to two switching Hall elements, respectively, emits a residual voltage induced in the driving coil.

On the other hand, the capacitor C connected in parallel between the transistor Q5 and the transistor Q6 connected in parallel is a voltage smoothing capacitor between the collector of the transistor Q5 and the emitter.

Accordingly, the present invention has the effect of increasing the driving force of the drum motor and improving the uniformity of rotation of the drum motor by removing the residual voltage induced by the driving coil and acting inversely to the driving force for driving the drum motor.

While the invention has been shown and described with reference to certain preferred embodiments, those skilled in the art will recognize that various modifications and changes may be made without departing from the spirit and scope of the invention as set forth in the following claims.

Claims (3)

A magnet 2, a drive coil 3 to which a DC power supply Vcc is supplied, a stator core 4 on which the drive coil 3 is wound, a switching hall element 7, and the switching hole A drum motor driving device for removing residual voltage generated in the drum motor by being connected to the switching hall element in a drum motor of a V.C. egg having a printed circuit board on which the element 7 is mounted and the rotating shaft 6. In this case, when a positive voltage induced by the magnet 2 from the switching Hall element 7 is applied, it is turned off and negative from the switching Hall element 7. A first transistor Q5 turned on when a voltage of? It is connected between the driving coil 3 to which the DC power supply Vcc is supplied and the DC power supply terminal, and when the first transistor Q5 is turned off, it is turned off at the same time so that the DC power supply Vcc When the first transistor q5 is turned on, it is simultaneously turned on so that the residual voltage Ea induced in the driving coil 3 is released. V. C. drum motor drive device comprising a second transistor (Q6). 2. The drum motor driving apparatus of claim 1, wherein the V. C. R drum motor is further connected in parallel between the collector and the emitter of the first transistor (Q5) to smooth the voltage between the collector and the emitter. V. C. drum motor drive device comprising a. 2. The drum motor driving apparatus of claim 1, wherein the first and second transistors (Q5, Q6) are PNP transistors, respectively.