JPH01238498A - Controller for generator - Google Patents

Abstract

PURPOSE:To extend the life of a generator by reducing a set voltage in accordance with the temperature of a generator. CONSTITUTION:When the output voltage of a generator 1 rises so that a potential at a point A rises, a potential at a point P becomes high. When a potential at a point P exceeds the breakdown voltage of a Zener diode D1, a transistor Tr1 turns ON, and a transistor Tr2 turns OFF. Thus, no current flows from a battery 4 to a field coil 7, and no current develops in the generator coil 1. On the other hand, when the temperature of the generator rises due to the temperature rise around the generator and the heat generation of the generator itself, the resistance value of a thermistor 10 is increased so that the potential at the point P becomes high. Thus, the life of the generator can be extended.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a control device for a generator that generates electricity by rotating in conjunction with an engine mounted on a vehicle or the like.

(Prior art) Since the generator mounted on a vehicle rotates in conjunction with the engine that is the power source of the vehicle, the output voltage fluctuates depending on the engine speed. do. Such fluctuations in output voltage affect electrical loads such as batteries connected to the generator, so in order to eliminate such effects, the generator is controlled by a voltage control circuit installed at the output end of the generator. There is a generator control device that controls the power generation state of the generator according to the output voltage of the generator.

(Problem to be solved) However, there are cases where it is necessary to control the output voltage of the single-shot TLa itself. That is, as the engine speeds up, the voltage output from the generator may become extremely high. If the output voltage of the generator increases in this way, the current flowing through the generator's generating coil or field coil will increase, or the current flowing through the generator's generating coil or field coil will increase. There is a limit to the current that can flow, and if a current exceeding this limit (current that exceeds the maximum allowable type) flows, it may shorten the life of the generator. Is there a need to stop direct action?

Incidentally, the maximum permissible 'ift current of the generator coil or field coil of the generator is determined by the degree of heat dissipation from the generator, and such degree of heat dissipation is determined by the temperature around the generator. That is, for the same load, the higher the temperature around the generator is due to the temperature during high-temperature periods such as summer or the heat generated by the engine, the smaller the maximum allowable power and the lower the possible output voltage. Furthermore, when the ambient temperature of the generator is low, the maximum allowable current increases and the possible output voltage increases. Therefore, when the output voltage of the generator exceeds a predetermined voltage, 15? The only way to stop the power generation action of the electric machine is to meet the maximum allowable temperature when the surrounding temperature of the generator is high. On the other hand, in order to solve this problem, if the predetermined voltage when the generator stops generating electricity is set low, even if the temperature around the generator is low,
The power generation function of the generator stops, and as a result, even though power generation is possible, only one power generation is performed, causing problems such as insufficient charging of the pantry connected to the generator.

Unreleased +j1 was made in view of the above circumstances, and its purpose is to extend the life of the generator by preventing the output voltage of the generator from exceeding the specified voltage. It is an object of the present invention to provide a control device for a generator, which is capable of generating power and continuing power generation as much as possible.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the present invention provides a comparison means for comparing the output voltage with a predetermined voltage in a generator control device that performs control according to the output voltage. and a stopping means for stopping the power generation action of the generator when the output voltage is determined to be higher than a predetermined voltage by the comparing means, and a temperature detecting means for detecting the temperature of the generator, and a temperature detecting means for detecting the temperature of the generator. The present invention is characterized in that the predetermined voltage in the comparing means is lowered as the detected temperature rises.

(Function) When the output voltage of the generator exceeds a predetermined voltage, it is determined by the comparing means, and as a result, the generating action of the generator is stopped by the stopping means. Further, the predetermined voltage in the comparison means is lowered as the temperature of the generator increases. So one shot? If the temperature of the generator is high, power generation will be stopped even if the output voltage of the generator is not very high, but if the temperature of the generator is low, power generation will continue even if the output voltage of the generator is somewhat high. It becomes unstoppable.

(Example) Hereinafter, an example of the present invention will be described with reference to the accompanying drawings.

The drawing is a circuit diagram showing one embodiment of a control circuit for a generator according to the present invention. In the drawing, numeral 1 is a generator coil connected to an on-vehicle engine, and a rectifier 2 is connected to the generator coil l. The current generated in the generator coil 1 is rectified by a rectifier 2, and is supplied to a battery 4 via a fuse 3, and is also supplied to an electric load 6 via an on/off switch 5.

On the other hand, the field coil 7 facing the power generation coil l
is connected at one end to the positive electrode of the battery 4 via the open/close switch 5 and the fuse 3, and is connected to the positive electrode of the battery 4 through the resistor 11.
It is connected to the base of the transistor ■, , through. Further, the other end of the field coil 7 is grounded via transistors T, 2. Furthermore, a resistor it and a transistor Tet are connected to both ends of the field coil 7.
A diode D2 is connected in parallel with the diode D2.

On the other hand, when the open/close switch 5 is opened (ON), the battery 4
'itt current from fuse 3, switch 5 and resistor 1
1 to the bases of transistors T,, 2, which causes transistor Tr2 to close I&(ON)
As a result, the other end of the field coil 7 is grounded via the transistors T, 2, and current from the battery 4 flows to the field coil 7 via the fuse 3 and switch 5. Therefore, as the generator coil l rotates, a current is generated from the generator coil l, and after this current is rectified by the rectifier 2, the generator 4 is charged, and electricity is transmitted via the switch 5. It is supplied to load 6.

A resistor 8, which constitutes a comparison means for comparing the output voltage of the generator with a predetermined voltage, is connected between the positive output end of the generator connected to the positive terminal of the battery 4 and the electric load 6, and the ground point. 9 and thermistor 10 are connected in series. That is, the output voltage of the generator corresponding to the potential at point A in the figure is divided by resistor 8, resistor 9, and thermistor 1O, and thereby the potential at point P in the figure is determined. Then, the rotation of the generator coil l increases, and the output voltage of the generator l -
As the potential at point A in the figure increases, the potential at point P in the figure also increases accordingly. In this way, when the potential at point P in the figure exceeds the breakdown voltage of Zener diode D1,
A voltage is supplied from point P to the base of the transistor T r I via the Zener diode D1. Then, 1
- Run sister T, 1 or ON L/, which was supplied from battery 4 to the base of transistor Tr2 via resistor 11, is connected to transistor T1. This causes the transistor Tr2 to open Q (OFF), and 71i current no longer flows from the battery 4 to the field coil 7, and as a result, 1 generating coil 1
The current is no longer generated. As described in 4- below, the transistors Tr1, Tr2, etc. constitute a stopping means for stopping the power generation action of the generator.

By the way, the thermistor 10 is fixed to the casing (not shown) of a 9A electric machine, and serves as temperature detection means for detecting the temperature of the IF generator. And it's released
When the temperature of the generator increases by L due to an increase in the temperature around a or heat generated by the generator itself, the resistance value of the thermistor IO increases and the potential at point P in Figure 1 increases. Therefore, when the temperature of the generator is high, even if the potential at point A in the figure corresponding to the output voltage of the generator is low, the potential at point P becomes high, and a breakdown current flows through the Zener diode D. As mentioned above, the power generation operation of the generator is stopped by the transistors Trl and T, 2. The output voltage when the 37iit operation of the generator is stopped becomes lower as the temperature detected by the thermistor 10 rises. In the figure, 12 and 13 are resistors for determining the base potentials of the transistors Trl and Tr2, respectively.

Next, the operation of the above-mentioned generator control device will be explained.

When the open/close switch 5 of the generator is closed (ON), a current is passed from the battery 4 to the field coil 7, and as the generator coil 1 is rotated by the vehicle engine,
Current is supplied to the battery 4 and the electrical load 6. Then, when the engine speed is made very high, the generator coil l
The rotation of the motor becomes very high, and the potential at point A in the figure relative to the output voltage of the generator becomes very high. Then, the potential at point P in the figure increases as the potential at point A rises, and a breakdown current flows through Zener diode D1, causing transistor T7. is closed (ON) L/, transistor T
When r2 is open (OFF) L, the current from the battery 4 no longer flows to the field coil 7. As a result, the power generation action of the generator is stopped, and a Ttt current exceeding the maximum allowable current is prevented from flowing through the generator coil 1 and the field coil 7. Therefore, the lifetime of the generator is prevented from being shortened. Note that even if the generator stops generating electricity, i! Since the electric load is supplied with current from the battery 4, problems such as the headlights, which are the electric load, going out due to sudden acceleration of the vehicle, for example, will not occur.

In addition, when the temperature around the generator increases due to the air temperature in a high-temperature machine or the heat generated by the engine in the summer, the resistance fc of the thermistor IO increases, and the potential at point P increases by about 71L relative to the potential at point A. Therefore, even if the output voltage of the generator is not very high, a breakdown current will flow through the Zener diode D1 and the generator will stop generating electricity.

Therefore, as the temperature around the generator increases, the maximum permissible current decreases, or a current exceeding this current is prevented from flowing into the generator coil 1 or the field coil 7. Therefore, it is possible to extend the life of the starter. On the other hand, as the temperature around the aircraft decreases, the maximum permissible ゛Ichihara will increase, or the maximum permissible Ichihara will increase.
The power generation function of the FF machine will no longer be stopped, and it will be possible to continue generating power as much as possible.

(Name of the Invention) As explained above, the present invention provides a control device for a generator that performs control according to an output voltage, which includes a comparison means for comparing an output voltage with a predetermined voltage, and a comparison means for comparing an output voltage with a predetermined voltage. comprises a stop means for stopping the power generation action of the generator when it is determined that the voltage is higher than a predetermined voltage, and a temperature detecting means for detecting the temperature of the generator, and as the temperature detected by the temperature detecting means rises. By lowering the predetermined voltage in the comparison means, it is possible to prevent the output voltage of one generator from exceeding the specified voltage corresponding to the temperature of the generator, thereby extending the life of the generator Tftm. This has the effect of making it possible to continue generating electricity as much as possible.

[Brief explanation of the drawing]

[A] is a circuit diagram showing one embodiment of a control circuit for a generator according to the present invention. 8.9... Resistor (comparison means), lO... Thermistor (temperature detection means), Trl, Tr2... Transistor (stopping means). Patent applicant: Yamaha Motor Co., Ltd. Agent
Patent Attorney Ryo Yamashita

Claims (1)

[Claims] A generator control device that performs control according to the output voltage includes a comparison means for comparing the output voltage with a predetermined voltage, and a power generating operation of the generator when the output voltage is determined to be higher than the predetermined voltage by the comparison means. and a temperature detection means for detecting the temperature of the generator, and as the temperature detected by the temperature detection means rises, the predetermined voltage in the comparison means is lowered. Generator control device.