JPH099485A - Power supply voltage drop detection control circuit and conditioner withit - Google Patents

Abstract

PURPOSE: To prevent the compressor machine of an air conditioner from filing by dividing a power supply voltage which is stepped down by a transformer for a control substrate by at least two fixed resistors, inputting the voltage from a port for A/D conversion input and detecting the fluctuation of a current voltage, and stopping the equipment to be controlled when the power supply voltage drops to a specific value or lower. CONSTITUTION: An AC voltage supplied to power supply lines 1 and 2 is stepped down by a transformer for a control substrate, is subjected to all-wave rectification by an insulator 4, and further is divided by fixed resistors 11-13. Then, a detection voltage is taken out of a junction point 19 between the fixed resistors 12 and 13 and is inputted to a micro controller 8 from a port 17 for A/D conversion input. When an AC power supply voltage is dropped to a proper voltage or lower for a compressor machine 9, a detection voltage also drops and hence a microcomputer 8 detects it and funs off a switch 10, thus enabling the compressor machine 9 to stop and preventing troubles due to the drop of the power supply voltage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply voltage drop detection control circuit for a commercial power supply having a large voltage fluctuation and an air conditioner provided with the same.

[0002]

2. Description of the Related Art A conventional air conditioner has no means for detecting fluctuations in power supply voltage. Therefore, an air conditioner installed in an area where the voltage of the commercial power source is unstable has a problem that when the voltage of the commercial power source drops, the compressor fails or, in the worst case, a fire occurs.

[0003]

SUMMARY OF THE INVENTION The present invention has been invented to solve the above problems, and its gist is to provide a control board transformer for lowering a power supply voltage,
Two or more fixed resistors that divide the power supply voltage dropped by the transformer and the divided voltage are input from the A / D conversion input port to detect fluctuations in the power supply voltage, and the power supply voltage has dropped to a specified value. The power supply voltage drop detection control circuit is characterized by comprising a microcontroller for stopping the controlled equipment.

Another feature is that two or more fixed resistors for dividing the power supply voltage are connected to the output side of a disconnector provided on the output side of the control board transformer.

Another feature is that a Zener diode is connected in parallel with two or more fixed resistors for dividing the power supply voltage.

Another feature is that the air conditioner is provided with the power supply voltage drop detection control circuit and the compressor, and forcibly stops the compressor, which is the controlled device, when the power supply voltage drops to a predetermined value. It is in.

[0007]

According to the present invention, by virtue of the features of claim 1, the power supply voltage is dropped by the transformer for the control board and then divided by the fixed resistance, and then the A / D conversion input to the microcontroller. Input from the port for detecting the fluctuation of the power supply voltage. Then, when the power supply voltage drops to a predetermined value, the microcontroller stops the controlled device.

Since the output voltage of the control board transformer is converted from AC to DC by the disconnector and this DC voltage waveform is input to the A / D conversion input port, the microcontroller is provided. Can easily detect a drop in power supply voltage.

According to the feature of claim 3, when the power supply voltage becomes a high voltage and the voltage divided by the fixed resistance becomes equal to or higher than the Zener voltage of the Zener diode,
A voltage equal to or higher than the Zener voltage is absorbed by the reverse current flowing through the Zener diode.

In the fourth aspect, the compressor of the air conditioner is forcibly stopped when the power supply voltage drops to a predetermined value.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENT One embodiment of the present invention is shown in FIG. In FIG. 1, L ₁ and L ₂ are AC two-phase commercial power supplies, 16 is an air conditioner, and incorporates a compressor 9 and a power supply voltage drop detection control circuit 15. AC two-phase commercial power supplies L ₁ and L ₂ are air conditioners 16
It is connected to the power supply lines 1 and 2 inside. Power line 1
Is connected directly to the compressor 9, and the power supply line 2 is connected to the compressor 9 via a switch 10 which is turned on / off by the microcontroller 8.

The alternating current supplied to the power supply lines 1 and 2 enters the control board transformer 3 where the voltage is dropped. Next, full-wave rectification is performed by the disconnecting switch 4 to be converted into direct current, and smoothed by the capacitor 5. Then, this direct current is adjusted to a predetermined voltage by the three-terminal regulator 6, smoothed by the capacitor 7, and supplied to the microcontroller 8.

The direct current which is full-wave rectified by the disconnector 4 is input to the earth 20 through the fixed resistors 11, 12 and 13 in this order,
In this process, the voltage is divided by the fixed resistors 11, 12, 13. The detection voltage extracted from the connection point 19 between the fixed resistors 12 and 13 is applied to the microcontroller 8 through its A / D conversion input port 17
Input from.

The current drawn from the connection point 18 between the fixed resistors 11 and 12 is input to the ground 20 via the Zener diode 14 connected in parallel to the resistors 12 and 13. Although not shown in the figure, the microcontroller 8 outputs to a fan motor, a remote controller, etc. to control them.

When the voltage of the AC two-phase commercial power supplies L ₁ and L ₂ decreases, the voltage on the output side of the disconnector 4 also decreases in proportion to this, and therefore the detection voltage divided from this also changes to the AC 2 voltage. It drops in proportion to the voltage drop of the phase power supply.

Therefore, when the voltage of the AC two-phase power supply drops to a predetermined value, that is, below the proper voltage of the compressor 9, the detection voltage input from the A / D conversion input port 17 to the microcontroller 8 drops. So the microcontroller 8
Detects this and turns off the switch 10. Therefore, the compressor 9 is stopped to prevent the trouble due to the decrease of the power supply voltage.

At this time, since the detection voltage is not an AC voltage waveform but a DC voltage waveform, the microcontroller 8 can easily detect the voltage drop by simply comparing the detection voltage value and the predetermined voltage value.

The fixed resistor 11 adjusts the reverse current flowing into the Zener diode 14 so that the Zener diode 14 operates in a region having good characteristics, and prevents a large amount of reactive current from flowing through the Zener diode 14. Therefore, when the voltage of the AC two-phase power supply is equal to or higher than a predetermined value and the voltage at the connection point 18 between the fixed resistors 11 and 12 becomes higher than the Zener voltage of the Zener diode 14, a reverse current flows through the Zener diode 14, and therefore the connection point The voltage of 18 is held at the Zener voltage.

As a result, the A / D of the microcontroller 8
No overvoltage is applied to the conversion input port 17, and the microcontroller 8 is not destroyed. But,
When the voltage at the connection point 18 drops below the Zener voltage of the Zener diode 14 due to the voltage drop of the AC two-phase power supply, no reverse current flows through the Zener diode 14, and at this time the detection voltage is the same as when the Zener diode 14 is not connected. Is equivalent.

When using a commercial power supply in which there is no possibility of overvoltage being applied to the A / D conversion input port 17 of the microcontroller 8, the Zener diode 14 is omitted and the fixed resistors 11 and 12 are replaced by one resistor. Can be replaced.

[0021]

According to the present invention, a control board transformer for lowering the power supply voltage, two or more fixed resistors for dividing the power supply voltage dropped by the transformer, and the divided voltage are
It is extremely simple and inexpensive as it has a microcontroller that detects fluctuations in the power supply voltage by inputting from the D conversion input port and stops the controlled device when the power supply voltage drops to a specified value. Nevertheless, the controlled device can be stopped when the fluctuation of the power supply voltage is precisely detected and the controlled device is stopped when the power supply voltage drops to a predetermined value. Therefore, it is possible to prevent the controlled device from breaking down due to the drop of the power supply voltage.

In the second aspect, the output voltage of the control board transformer is converted from AC to DC by the disconnector.
Since this DC voltage waveform is input to the microcontroller, the microcontroller can easily detect a drop in the power supply voltage and can reduce the processing load.

In the third aspect, when the voltage divided by the fixed resistance becomes equal to or higher than the Zener voltage of the Zener diode, the voltage higher than the Zener voltage is absorbed by the reverse current flowing through the Zener diode. It is possible to prevent an overvoltage from being applied to the microcontroller and prevent its destruction.

In the fourth aspect, the compressor of the air conditioner is forcibly stopped when the power supply voltage drops to a predetermined value, so that the failure of the compressor and the fire of the air conditioner can be prevented.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing one embodiment of the present invention.

[Explanation of symbols]

 3 Control board transformers 11, 12, 13 Fixed resistance 17 A / D conversion input port 9 Controlled device (compressor) 8 Microcontroller 15 Power supply voltage drop detection control circuit 4 Disconnector 14 Zener diode 16 Air conditioner

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shigeharu Kondo 1-chome, Asahi-cho, Nishibiwajima-cho, Nishikasugai-gun, Aichi Prefecture Air-conditioning factory, Mitsubishi Heavy Industries, Ltd. (72) Kazuyuki Isaka Nishibashishima-cho, Nishikasugai-gun, Aichi Prefecture Asahi-cho 3-chome Mitsubishi Heavy Industries, Ltd. Air Conditioning Factory

Claims (4)

[Claims] 1. A control board transformer for reducing a power supply voltage, two or more fixed resistors for dividing the power supply voltage dropped by the transformer, and the divided voltage are input from an A / D conversion input port. A power supply voltage drop detection control circuit comprising a microcontroller that detects a change in power supply voltage and stops a controlled device when the power supply voltage drops to a predetermined value. 2. The power supply voltage drop according to claim 1, wherein two or more fixed resistors for dividing the power supply voltage are connected to the output side of a disconnector provided on the output side of the control board transformer. Detection control circuit. 3. A power supply voltage drop detection control circuit according to claim 1, wherein a Zener diode is connected in parallel with two or more fixed resistors for dividing the power supply voltage. 4. The power supply voltage drop detection control circuit according to claim 1 and a compressor, wherein the compressor, which is a controlled device, is forcibly stopped when the power supply voltage drops to a predetermined value. Air conditioner.