JPS6110455Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a voltage regulating device for a magnetic alternating current generator mounted on a two-wheeled vehicle or the like.

This type of voltage regulator, which has been well known in the past, has a semiconductor control element such as a thyristor installed in parallel with a battery or other load, and conducts the semiconductor element to short-circuit the output of a magnetic alternator, thereby regulating the voltage using the short-circuit method. is going on.

However, in the above-mentioned conventional device, the lamp flickers when the voltage regulator is loaded at night around the rotational speed at which the voltage regulator starts operating. or,
The disadvantage is that the lamp voltage drops dramatically when the regulator is activated.

In order to solve the above-mentioned drawbacks, this invention inserts a resistor between the regulator and the charging coil terminal (a regulator and a resistor connected in series is connected between the terminals of the charging coil), and uses it as a load (lamp) at night. We have developed a voltage regulator that suppresses the short-circuit current caused by the regulator operation during the day, eliminates lamp flickering, and reduces the drop in lamp voltage, and can be used as a conventional regulator circuit by shorting the resistor terminals during daytime loads. The purpose is to provide

The present invention will be described below with reference to embodiments shown in the drawings. In Fig. 1, 1 is a battery charging coil installed in a magnetic alternator, and an intermediate tap 1a
Power is supplied to the lamp load 7 via the first day/night changeover switch 6. resistance 2
is a resistor for adjusting the short-circuit current when regulator 3 is in operation, and is connected in series with regulator 3 and between the output terminals of coil 1 (resistance value is 0.5 to 1Ω).
degree). Further, a second day/night selector switch 8 is connected in parallel with the resistor 2, and this second day/night selector switch 8 is opened when the first day/night selector switch 6 is closed, and closed when the first day/night selector switch 6 is opened. Works in conjunction. Further, power is supplied from the coil 1 to the battery 5 via the diode 4.

Next, the operation of the above configuration will be explained.
At night, the first day/night switch 6 is closed and the second day/night switch 8 is open. As a result, when the battery voltage reaches the operating setting value of the regulator 3, the thyristor in the regulator 3 becomes conductive, and the output (AC output) of the lamp and charging coil 1 is short-circuited via the resistor 2. This resistor 2 allows the short circuit current to be suppressed compared to the complete output short circuit of the conventional regulator 3 only. Therefore, although the voltage adjustment of the battery 5 is the same as the conventional operation, the short circuit current can be adjusted by the resistance value of the resistor 2, and an extreme drop in the lamp voltage can be prevented.

Further, during the daytime, the first day/night changeover switch 6 is open and the second daytime/nighttime changeover switch 8 is closed. As a result, when the battery voltage reaches the operating setting value, the thyristor in the regulator 3 becomes conductive, and the output of the coil 1 is directly short-circuited as in the conventional case, thereby controlling the charging current of the battery 5.

Here, the battery voltage V vs. engine speed N during nighttime when the resistance value of resistor 2 is changed
The waveforms of the lamp voltage V _L and the battery charging current I _B are shown by solid lines in Fig. 2. In Fig. 2, the resistance value of resistor 2 is R ₀ (0 Ω _, conventional example) < R ₁ (0.5
In the example shown in FIG _. 2, the rated value _of the lamp voltage VL is approximately _7.1V , and the rated value of the battery voltage _VB is approximately 7.1V. The rated value of the battery voltage _VB is approximately 7.1V. The rated value of _{the battery voltage VB is} approximately 7.1V.
The rated value of _B (the operating setting value of regulator 3) is set to approximately 9V.

FIG. 3 shows another embodiment of the present invention, in which instead of connecting the lamp load 7 to the battery charging coil 1 in the embodiment shown in FIG. 1, it is wound on the same core as the battery charging coil. A lamp load 7 is connected to a lamp power supply coil 10 connected to the lamp via a first day/night changeover switch 6.

In each of the embodiments described above, a half-wave rectifier circuit using the diode 4 is used as the rectifier circuit, but a full-wave rectifier circuit may also be used.

Furthermore, in the embodiments described above, it goes without saying that the resistor 2 may be housed integrally within the case of the regulator 3.

As described above, in the present invention, a short-circuit type regulator is connected to the battery charging coil via a resistor, and a second day/night changeover switch is connected in parallel with this resistor. It is possible to suppress the short-circuit current during operation, prevent an extreme drop in lamp voltage, and prevent flickering of the lamp when the regulator starts operating.Furthermore, since the resistor is short-circuited during the daytime, Similarly, the regulator has an excellent effect in that the battery voltage can be well controlled.

[Brief explanation of the drawing]

Fig. 1 is an electric circuit diagram showing one embodiment of the device of the present invention, Fig. 2 is a characteristic diagram of each part used to explain the operation of the device shown in Fig. 1, and Fig. 3 is an electric circuit diagram showing another embodiment of the device of the present invention. It is a circuit diagram. 1, 10... Magnetic alternator battery charging coil and lamp power supply coil, 2... Resistor,
3... Voltage regulator, 4... Diode constituting a rectifier circuit, 5... Battery, 6... First day/night changeover switch, 7... Lamp load, 8... Second day/night changeover switch.

Claims (1)

[Scope of utility model registration request] A battery is connected to the battery charging coil of the magnetic AC generator via a rectifier circuit, and a short-circuit type voltage regulator is connected via a resistor of the battery charging coil, and the battery charging coil or this battery charging coil is connected to the battery charging coil. A lamp load is connected to a lamp power supply coil wound on the same core as the battery charging coil through a first day/night changeover switch, and the lamp load is closed when the first daytime/night changeover switch is opened. 1. A voltage regulator for a magnetic alternator, characterized in that a second day/night selector switch that is opened at certain times is connected in parallel with the resistor.