JPS6241386Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a motor power supply circuit suitable for tape recorders, particularly tape recorders employing a soft touch mechanism.

The soft touch mechanism is used to control the tape recorder's tape running mode (playback, recording,
To change modes (fast forward, rewind, etc.),
The trigger switch is changed by simply operating the mode setting controller, and the rotational force of the motor driven by the trigger switch is transmitted to the tape drive mechanism via the gear, making the tape drive mechanism compatible with the mode setting controller. The device is configured to be set to a specified operating mode.

In such a tape recorder, when changing the mode, it is necessary to rotate the motor for about 1 to 2 seconds using the trigger switch as described above.

Generally speaking, when a portable tape recorder is used for a long time on battery power, the battery voltage drops and the internal resistance increases. Therefore, when performing the above operation, the load on the motor becomes extremely heavy, and especially if an impedance circuit such as a stabilized power supply circuit is connected to the battery power supply circuit, the torque of the motor may become weaker, making it impossible to switch the operating mode. It was hot.

The present invention was proposed in view of this point, and while the operation mode is being switched by the trigger switch (that is, while the trigger switch is working), the stabilized power supply circuit as described above is activated. The impedance circuit is configured to be inactive so that a sufficient voltage is applied to the motor, and the operation mode can be reliably switched even when the voltage is reduced.

The embodiment of the present invention shown in FIG. 1 will be described below.

Reference numerals 1 and 1' denote a positive power supply line and a negative power supply line connected to a battery power supply, 2 a stabilizing power supply circuit, and 3 a motor. The stabilized power supply circuit 2 is composed of an NPN type driving transistor 4, a Zener diode 5, electrolytic capacitors 6, 7, and resistors 8, 9, and 10 is a motor noise prevention coil.

S ₁ is a trigger switch whose movable piece is switched from an OFF terminal to an ON terminal in response to operating a mode setting operator (not _shown ). The movable piece is switched by force until it moves to a predetermined operating position (for example, the playback mode position), and after the mode change, the movable piece returns from the ON terminal to the OFF terminal.

_S2 is a motor switch that closes when the tape drive mechanism moves to a predetermined operating position to keep the motor 3 in a rotating state, and the motor switch _S2 is open in the stop mode.

The circuit connection of the present invention will be specifically explained.

The motor 3 is connected in series with the positive power supply line 1 together with the motor switch S ₂ and the collector and emitter of a driving transistor 4, and a Zener diode 5 constituting the stabilizing power supply circuit 2 is connected to the base of the driving transistor 4. is connected.
Further, the ON terminal of the trigger switch S ₁ was connected to the power supply side of the motor switch S ₂ , and the OFF terminal was connected to the negative power supply line 1' via a pull-down resistor to connect the movable piece of the trigger switch S ₁ . A fixed terminal is connected between the load side of the motor switch _S2 and the collector of the driving transistor 4.

14 is the collector of the driving transistor 4;
This is a PNP type starting transistor with an emitter and a collector connected in parallel between the emitters, and the base of the starting transistor 14 is connected to the negative power supply line 1' via a pull-down resistor.

Therefore, when the tape recorder is in stop mode and the mode setting controller is operated, for example, to switch to playback mode, the movable part of trigger switch _S1 is switched from the OFF terminal to the ON terminal, and the motor switch is switched. S ₂ will be shorted.

As a result, current is supplied from the positive power supply line 1 to the load side through the trigger switch _S1 , but at this time, the base of the starting transistor 14 is at a low level and is in a conductive state. As a result, the current passing through the trigger switch _S1 is supplied to the motor 3, bypassing the resistor 8 and the driving transistor 4 of the stabilized power supply circuit 2 .

Therefore, the battery power supply voltage is directly applied to the motor 3 through the starting transistor 14, and the operating mode can be changed by the rotational force of the motor 3.

When the tape drive mechanism moves to the playback mode operating position, the motor switch _S2 is kept closed and the trigger switch _S1 returns from the ON terminal to the OFF terminal, so that the starting transistor 14 becomes non-conductive. become a state. As a result, a stabilizing voltage is applied to the motor 3 through the driving transistor 4 of the stabilizing power supply circuit 2 , and the motor 3 enters a steady rotation state.

Since the motor power supply circuit of the present invention is configured as described above, when the trigger switch _S1 is switched when changing the operation mode of the tape recorder, the battery power supply voltage is stabilized for the motor 3 when the mode change starts. It is applied directly without passing through the power supply circuit 2 . However, even when switching the tape operation mode in a state where the battery power supply voltage has dropped, sufficient voltage can be supplied to the motor, and the operation mode can be switched reliably.

As described above, according to the present invention, when switching the tape running operation mode of a tape recorder using the rotational force of the motor, a stabilizing power supply circuit is provided to stabilize the voltage of the battery power supply at the start of mode switching. By bypassing the electromotive transistor and supplying the battery power supply voltage to the motor, the motor is driven to rotate, making it possible to reliably switch the operating mode using the motor's rotational force even when the voltage is reduced. It is extremely useful in practice as a motor power supply circuit for a tape recorder employing a touch mechanism.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of the present invention. 1, 1'...Positive power line and negative power line, 2 ...
... Stabilized power supply circuit, 3 ... Motor, S ₁ ... Trigger switch, S ₂ ... Motor switch, 4 ... Drive transistor, 5 ... Zener diode, 1
4...Transistor for electromotive force.

Claims (1)

[Claim for Utility Model Registration] In a tape recorder that uses the rotational force of a motor to change the tape running operation mode, there is provided a motor switch that closes when the tape drive mechanism moves to a predetermined operating position, and a base. a driving transistor connected to a Zener diode constituting a stabilized power supply circuit; a motor connected in series with the positive power supply line together with the motor switch and the collector and emitter of the driving transistor; The emitter and collector are connected in parallel between the collector and emitter of a starting transistor, and the movable piece is activated in response to the operation of the mode setting controller.
It consists of a trigger switch that can be switched from an OFF terminal to an ON terminal, the ON terminal of the trigger switch is connected to the power supply side of the motor switch, the OFF terminal is connected to the negative power supply line together with the base of the starting transistor, and the A power supply circuit for a motor of a tape recorder, characterized in that a fixed terminal of a trigger switch is connected between the load side of the motor switch and the collector of a drive transistor.