JPS6176016A - Generator controller - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention (Field of Application of the Invention) The present invention relates to an improvement in a generator control device that is used in the fields of vehicles, construction machinery, equipment, etc. and is equipped with a generator driven by a prime mover such as an engine. .

(Background of the Invention) FIG. 2 shows an AC generator control device used in a conventional hydraulic excavator.

The alternating current generator 1 includes an armature winding 2 and a field winding 3, as well as a rectifier 4, and outputs a rectified generated voltage. The alternating current generator 1 is rotationally driven by an engine (not shown). A voltage regulator 5 is connected to the alternator IK. The voltage regulator 5 has a field relay 6 and contacts 7a~
Voltage regulating relay 7 with 7c, resistors Rf, R,, ~R
There is from 3. B.

F, E%N, W, I are terminals, 8 is a charge lamp, 9 is a storage battery, 10 is a power switch, lla to lid are fuses, 12 is a light, a high voltage electric load such as a wiper motor, 13 is a car Electrical loads with low withstand voltage made of electronic components such as radios and quartz hour meters, and 14 are voltmeters.

The rectified generated voltage output from terminal B of the alternator 1 floats and charges the storage battery 9 via fuse lla and power switch 10, and also
c through [electrical load 12.13, fuse li
d and is displayed on the voltmeter 14. On the other hand, the generated voltage is applied to the field winding 3 via the voltage regulator 5. That is,
During normal operation, the field relay 6 operates and resistors R,
Since the output voltage is short-circuited, the generated voltage is applied to the series circuit of the resistor R1 and the relay coil of the voltage adjustment relay 7, and the contact 7b of the voltage adjustment relay 7 is connected to either the contact 7a or 7C depending on the magnitude of the generated voltage. come into contact with crabs. As a result, the field current flowing through the field winding 3 is controlled, and the alternating current generator 10
The generated voltage is adjusted to a constant voltage.

However, if the voltage regulator 5 malfunctions, for example, if the contacts 7a and 7b of the voltage regulating relay 7 are welded and short-circuited, the voltage generated by the alternator 10 will abnormally increase. Since the generated voltage is displayed on the voltmeter 14, the operator can detect an abnormal rise in the generated voltage using the voltmeter IA, but the operator may become distracted while working and overlook the abnormal rise. be. An abnormal rise in the generated voltage is, for example, 24V.
The voltage will be around 60V in the system. When the generated voltage increases in this way, electrical loads 13 made of electronic components such as car radios and quartz hour meters with low withstand voltages are destroyed.

(Objective of the Invention) An object of the present invention is to provide a generator control device that can solve the above-mentioned problems and reliably notify an abnormal increase in the generated voltage of the generator due to a failure of the voltage regulator.

(Features of the Invention) In order to achieve the above object, the present invention includes overvoltage detection means for detecting when the generated voltage of the generator reaches a certain value exceeding a constant voltage adjusted by a voltage regulator. , and an alarm means that operates in response to detection by the overvoltage detection means,
The present invention is characterized in that overvoltage caused by a voltage regulator failure is detected and a warning is issued.

(Embodiment of the Invention) FIG. 1 shows an embodiment in which the present invention is applied to a 24V system hydraulic sill. Components similar to those in FIG. 2 are designated by the same reference numerals.

A switching circuit 15 for detecting overvoltage is connected between terminal B of the alternating current generator 1 and ground.

The switching circuit 15 includes transistors Q1. Q! and Zener diode ZD. Tzenata.

The Zener voltage value of the diode ZD is selected to be the maximum permissible voltage value of the electrical load 13. Generally, the maximum allowable voltage value of electronic equipment used in 24V system is set to about 35V, so the Zener voltage value of Zener diode ZD should be set to 35V.
In this case, it is desirable to select . L, R%E are terminals.

The relay contact 16a of the input current/break relay 16 is inserted between the heater 11C and the electric load 13, and is connected to the terminal of the switching circuit 15 via one end of the relay coil 16b and the diode 17. Ru.

A terminal B of the alternating current generator 1 is connected to a HEAZ 11a.

One end of the overvoltage warning lamp 18 is connected to the terminal LK of the switching circuit 15 through the terminal 11e.

When the voltage regulator 5 is operating normally, the alternator 1
0 generation voltage is a constant voltage (usually 27 to 28V for 24■ system)
), the storage battery 9 is charged by this voltage, and the electric loads 12 and 13 receive the necessary power supply. In addition, the field relay 6 is activated by the voltage between terminals N and E of the alternator 1 and short-circuits the resistor FLf, so no voltage is applied to the charge lamp 8 and it goes out.
This indicates that the storage battery 9 is being charged.

The normal generated voltage of the alternator L is applied to the terminals R and EISJ1 of the switching circuit 15, and the Zener diode ZD is not conductive, so the transistors Q, , Q,
are both turned off, and the input 'vt'#t, the relay coil 16b of the relay 16 for switching off, and the overvoltage warning lamp 18 are turned off.
Prevent energization to. However, relay contact 16a &
When the equipment is closed, power is supplied to the electrical load 13.

When a failure occurs in the voltage regulator 5, for example, when the contacts 7a and 7b of the voltage regulating relay 7 cause a welding short circuit, the generated voltage of the alternator 1 increases abnormally.

When the generated voltage reaches the Zener voltage value of Zener diode ZD, Zener diode ZD becomes conductive, transistor Q is turned on, and transistor Q2 is also turned on. Therefore, the input current blocking relay 16
The relay coil 16b is energized, and the relay contact 16a
opens, and the 1JL air load 13 is protected. At the same time, the overvoltage warning lamp 18 lights up to notify the operator of the overvoltage.

According to this embodiment, it is possible to deal with the unlikely event that the voltage regulator 5 fails. The voltmeter 14 can also be omitted.

(Correspondence between the invention and the embodiments) In the illustrated embodiment, the switching circuit 15 corresponds to the overvoltage detection means of the present invention, and the overvoltage warning lamp 18 corresponds to the alarm means.

(Modified example) If the electrical load 13 is treated to increase its withstand voltage,
It is not necessarily necessary to provide the input current cutoff relay 16.

As a warning means, a buzzer may be provided instead of the overvoltage warning lamp 18 or together with it.

The present invention is effective not only when the voltage regulator is a relay set but also when a semiconductor switching element is used.

The present invention can be applied not only to the AC generator 1 but also to a DC generator.

(Effects of the Invention) As explained above, according to the present invention, the overvoltage detection means detects that the generated voltage of the generator reaches a certain value exceeding the constant voltage adjusted by the voltage regulator; An alarm means that operates in response to the detection by the overvoltage detection means is provided to detect overvoltage caused by a failure of the voltage regulator and issue an alarm, thereby reliably notifying an abnormal rise in the generated voltage. I can do it.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing one embodiment of the present invention, and FIG. 2 is a circuit diagram showing a conventional generator control device. 1... AC generator, 5... Voltage regulator, 6... Field relay, 7... Voltage adjustment IJL'-, 9...・Storage battery, 12.13
...... Electric load, 15... Switching circuit, 16... Input current cutoff relay, 18
...Overvoltage warning lamp, Q, , Q,...
...Transistor, zD... Zener diode. Figure 1 Figure 2

Claims (1)

[Claims] 1. In a generator control device equipped with a generator driven by a prime mover and a voltage regulator that adjusts the generated voltage of the generator to a constant voltage, if the generated voltage of the generator exceeds the constant voltage or What is claimed is: 1. A generator control device comprising: overvoltage detection means for detecting that the overvoltage has reached a value; and alarm means for operating in response to detection by the overvoltage detection means.