KR850000712B1 - Slow rotary method - Google Patents

Abstract

The torque compensation method for a portable tape recorder includes reducing the rotation number of a motor to one-fourth to increase the playing time of a cassette tape four times, and thus the synchronized speed is maintained without distortion at even such a reduced speed. The torque of the motor is increased in such a way that detected signals of pulse noises periodically generated between the commutator and the brush of the DC motor control the driving current of the low speed motor and then the synchronized rotational power is periodically applied to the commutator.

Description

Motor low speed rotation method of tape recorder

1 is a diagram illustrating the principle of a DC motor.

2 is a circuit diagram of one embodiment of the present invention.

3 is a waveform diagram of voltage and current of each part of FIG.

The present invention relates to a method of compensating torque to achieve a synchronous speed without distortion of rotation even at a low speed by reducing the motor revolution by a quarter in order to quadruple the use time of one cassette tape in a compact portable tape recorder. .

Conventionally, as a method of increasing the use time of a cassette tape, for example, when a motor is rotated at 600 r.pm, which is reduced to one quarter by applying 1.5 V to a motor having a speed of 2,400 rpm at a rated 6 V, the theoretical speed is usually 30 minutes. The cassette tape can be used for two hours, but if the voltage actually applied to the motor is lowered, the torque of the motor drops sharply to the point where the flywheel and the pinch roller capstan cannot be driven. The method described above is not actually used because it is impossible to discern the sound that is shaken and incompletely recorded or reproduced and reproduced.

In view of the above, the present invention controls the driving current of the motor by detecting a pulse noise generated periodically in the DC motor to increase the insufficient lock when the rotation speed of the motor is reduced to one quarter. In addition to increasing the rotational force and at the same time without the distortion of the rotation to reduce the motor revolutions, even if the cassette tape can proceed at a constant speed, recording and playback with normal sound, the use time of the tape four times.

When explaining the present invention by one embodiment is as follows. FIG. 1 is a drawing of the principle of a DC motor, which connects the commutator 2 and 2 'and the rotor 4 in contact with the brushes 3 and 3' to rotate between the permanent magnets 1 and 1 '. Increasing the current flowing in the rotor 4 of the DC motor increases the torque. If the rotor 4 of the motor continues to rotate, the commutator 2 and 2 'and the brush 3 and 3' The direction of the current flowing in (4) should be continuously changed.

That is, the commutator 2 and the brush 3, the commutator 2 'and the brush 3' are in contact with each other until the rotor 4 reaches the position A, and the rotor 4 is brought to the position B. The moment the commutator 2 is rotated and the brush 3 'and the commutator 2' are in contact with the brush 3, respectively, and at this moment, the direction of the current flowing through the rotor 4 changes and the contact points are simultaneously. An electrical spark is generated between the two sparks, which is a pulsed noise that occurs periodically at the A and C positions whenever the current changes direction.

However, once the rotor 4 rotates, it has inertia and continues to rotate in the rotational direction, that is, A → B → C → D. Therefore, the timing of changing the direction of the current is determined by the rotor 4 and the permanent magnets (1,1 '). ) Changes at a time earlier than pi (ø) before the parallel moment.

2 is an embodiment of the torque compensation circuit when the motor rotational speed is reduced to one quarter in the present invention. One side of the DC motor M is connected to one side of the coil L and the resistor R ₇ . (+ B) are connected at the same time the diode (D) and to the base of the transistor (Q ₁₎ through the capacitor (C), the other end respectively connected to the collector of jeokhang (R ₁₎ and a transistor (Q ₃₎ and the transistor (Q ₁ to ) Is connected to the other side of the coil (L) via a resistor (R ₄ ) and is grounded through the switch (SW) and resistor (R ₂ ) through the transistor (Q ₂ ) and transistor (Q ₃ ), The emitter of Q ₂ ) is the resistor (R ₃ ) and the emitter of the transistor (Q ₁ ) is connected to the resistor (R ₅ ), respectively. Switch SW to StandardPlay side so that emitter of transistor Q ₃ is directly grounded to motor M Apply the power (+ B) voltage (eg 6V). At this time, the forward voltage drop of the collector-emitter of the transistor Q ₃ is ignored. Therefore, the motor M is operated at the normal speed. When the tape is to be used for a long time, when the switch SW is switched to the long play side, the emitter of the transistor Q ₃ is grounded through the resistor R ₂ , so that the collector potential of the transistor Q ₃ becomes the resistor ( R ₂ ) rises by the voltage drop, so that the motor M has a van voltage from the supply voltage (e.g. 6V) to the collector potential (e.g. 4.5V) of transistor Q ₃ resulting in a low voltage on motor M. Since the voltage is applied, the motor M rotates at a low speed. At this time, pulsed noise as shown in FIG. 3 occurs as described above.

If noise occurred at point A in FIG. 1, the noise is rectified by the diode D and applied to the base of the transistor Q ₁ .

The amplified current I _c1 flows through the collector of the transistor Q ₁ at the moment when the noise is applied, and this current is again amplified by the transistor Q ₂ and applied to the base of the transistor Q ₃ . Therefore, the amplified current I _c3 flows through the collector of the transistor Q ₃ , but if R ₁ 》 R _7, I _c3 ≒ I _m, so that the amplified motor M driving current I _m flows largely and the rotor 4 ) Rotates with strong force in the direction of the arrow. However, noise generated by the first degree A that each amplifier stage is delayed by pi (ø) move through the rotor (4), and flows until early moment in the point B, the motor (M) driving current (I _m), a rotor When (4) rotates to the position of C, noise occurs again and D rotates with strong force at the position.

That is, since the rotor 4 rotates continuously by the force at points B and D, the rotor 4 is periodically applied to the rotor 4 in synchronization with the rotation of the moto M.

Therefore, the lock of the motor (M) is increased to be able to advance the tape at a constant speed.

In the above operation, the coil L delays the noise generated in the motor M so as not to affect other circuits and to stabilize the operation of the motor M. As described above, the present invention can advance the cassette tape at a constant speed even if the rotational speed of the motor is set to one quarter, so that the recording amount corresponding to four ordinary cassette tapes can be recorded on one cassette tape. At the speed of rotation, it was possible to operate the tape's auto stop function, which could not operate due to lack of torque.

Claims (1)

In rotating the cassette tape by reducing the rotational speed of the DC motor of the portable tape recorder, the drive current of the motor rotating at low speed is controlled by synchronizing the pulsed noise generated periodically between the commutator and the brush of the DC motor. By increasing the torque of the motor by applying the prescribed rotational force to the rotor, the rotational force of the motor, which is reduced by a quarter, is increased, and at the same time, it is rotated at a synchronous speed without distortion.

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