JPH10254559A - Phase control circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a phase control circuit for supplying power from the zero volt of a commercial power source for the prescribed time, performing the power control of a load and suppressing element destruction and power source distortion. SOLUTION: This phase control circuit is provided with a zero volt pulse output means 3 for detecting the zero volt of the commercial power source 1 and outputting zero volt pulse signals, a timer 4 for inputting the zero volt pulse signals and starting timing, a time setting means 5 for setting the set time of the timer 4, a driving means 7 for supplying the power to the load 2 and a control means 6 for turning ON the power supply to the load 2 of the driving means 7 after the zero volt pulse signals are inputted until the timing of the timer 4 reaches the set time set by the time setting means 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to load power control, and more particularly to phase control.

[0002]

2. Description of the Related Art In recent years, with the diversification and increase in capacity of home appliances such as heaters and motors, energy saving has been called for.
Load input control, especially phase control of loads, has become mainstream.

FIG. 5 is a diagram showing a power supply waveform to a load of a conventional phase control circuit, showing a power supply period during phase control. This is a method of supplying power until it reaches zero volts.

[0004]

However, in the prior art described above, since the driving means is turned on at a high power supply voltage, an inrush current becomes large at the time of power supply, and element destruction and power supply distortion become large. There were problems such as becoming. In particular, in the case of an inductance load of a motor or the like, the influence was remarkable.

An object of the present invention is to solve the above-mentioned conventional problems, and an object of the present invention is to provide a phase control circuit which suppresses inrush current, eliminates destruction of elements, and reduces power supply distortion.

[0006]

According to the present invention, there is provided a zero volt pulse output means for detecting zero volt of a commercial power supply and outputting a zero volt pulse signal in synchronization with the zero volt, and an input of the zero volt pulse signal. And a time setting means for setting a set time of the timer, and a driving means for supplying power to a load, and after the zero volt pulse signal is input, the timer counts the time. And a control means for turning on the power supply to the load of the driving means until the set time set by the setting means is reached. Detects zero volts and outputs a zero volt pulse signal. The control means which has input the zero volt pulse signal outputs a signal for turning on the power supply to the load to the driving means, and at the same time, the timer which has input the zero volt signal starts counting time, and the predetermined setting which is previously set by the time setting means Until the time is reached, phase control is performed by supplying power to the load. Therefore, the point in time when the power supply to the load is started can be always set to zero volt, so that inrush current does not flow, and destruction of the elements such as the bidirectional thyristor constituting the driving means by inrush and power supply distortion are suppressed. can do.

[0007]

According to a first aspect of the present invention, there is provided a zero volt pulse output means for detecting zero volt of a commercial power supply and outputting a zero volt pulse signal in synchronization with the zero volt, A timer for inputting a zero volt pulse signal to start timing, time setting means for setting a set time of the timer, and driving means for supplying power to a load; And a control unit for turning on the power supply to the load of the driving unit until the time measurement reaches the set time set by the time setting unit. It detects zero volts of the commercial power supply voltage and outputs a zero volt pulse signal. The control means which has input the zero volt pulse signal outputs a signal for turning on the power supply to the load to the driving means, and at the same time, the timer which has input the zero volt signal starts counting time, and the predetermined setting which is previously set by the time setting means Until the time is reached, phase control is performed by supplying power to the load. Therefore, the point at which power is supplied to the load can always be set to zero volts, so that no rush current flows and the destruction of elements such as a bidirectional thyristor constituting the driving means due to inrush and power supply distortion are suppressed. can do.

According to a second aspect of the present invention, there is provided a voltage detecting means for detecting a power supply voltage of a commercial power supply, a reference voltage setting means for setting a reference voltage value to be compared with the power supply voltage, Second control means for outputting a signal for turning on power supply to the load while the power supply voltage is equal to or lower than the reference voltage value, and supplying the signal output from the second control means to supply power to the load A voltage control means for detecting a voltage of the commercial power supply by the voltage detection means, and the second control means supplies the load to the load only when this value is equal to or less than a reference voltage preset by the reference voltage setting means. A signal for supplying electric power is output, and the driving unit performs phase control by inputting this signal and supplying electric power to a load. Therefore, the inrush current at the time of turning on and the inrush at the time of turning off are suppressed, so that destruction of elements such as a bidirectional thyristor constituting the driving means and power supply distortion can be suppressed. Further, the circuit can be configured with elements of ranks having low withstand voltage and withstand current value ratings, and the cost is reduced.

Further, by changing the reference voltage value by the reference voltage setting means, the power supply on time of the driving means to the load changes, and the amount of power supplied to the load can be changed.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. In each embodiment, the same components are denoted by the same reference numerals, and a description thereof will be partially omitted.

(First Embodiment) FIG. 1 is a block diagram of a phase control circuit according to a first embodiment of the present invention, and FIG. 2 is a diagram showing voltage waveforms and signal waveforms of respective parts of the phase control circuit.

In FIG. 1, 1 is a commercial power supply, 2 is a load such as a motor, and 3 is a zero volt pulse output means for detecting zero volt of the voltage of the commercial power supply 1 and outputting a signal in synchronization with the zero volt. A timer for starting the timing after inputting the zero volt pulse signal output from the output means 3 and resetting the set time, 5 is a time setting means for setting the set time of the timer 4, and 6 is an input of the zero volt pulse signal The control means 7 outputs a signal to turn on the power supply to the load 2 until the time measured by the timer 4 reaches the set time from the time when the timer 4 reaches the set time. And a driving means such as a bidirectional thyristor.

In FIG. 2, (a) is a commercial power supply waveform, (b) is an output signal of the zero volt pulse output means 3,
(C) is an output signal of the control means 6, and (d) is a power waveform (hatched portion) supplied to the load 2.

The operation of the above configuration will be described. First,
The user sets the set time of the timer 4 with the time setting means 5. The setting time is within half a wave of the commercial power supply 1 (0 to 10 msec in a 50 Hz area, and 0 to 8.33 in a 60 Hz area).
msec). Here, the following description will be made assuming that 4 msce is set. First, a power switch (not shown) is turned on.
Between (T ₀ ~T _a) is zero volt pulse output means 3 because the commercial power supply 1 does not become zero volts does not output zero volts signal as shown in FIG. 2 (b). Therefore, timer 4
Does not operate, and the control means 6 does not output a signal for turning on the power supply to the load 2 to the drive means 7 as shown in FIG. 2 (c). Therefore, as shown in FIG. Is not supplied with power.

Thereafter, when the voltage of the commercial power supply 1 becomes zero volt (T _a ), the zero volt pulse output means 3 detects zero volt, and outputs _a zero volt pulse signal to the timer 4 and the control means 6 as shown in FIG. I do. The timer 4 that has received the zero volt pulse signal clears the time and starts measuring time. Further, as shown in FIG. 2C, the control means 6 outputs a signal for turning on the power supply to the load 2 to the driving means 7.

By inputting this ON signal, the driving means 7
Power supply to the load 2 is started as shown in (d). Until the reaching 4msec counting of the timer 4 is set time, the state supplies held power to the load 2 (T _a ~T _b). When the time counted by the timer 4 reaches 4 msec (T _b ), the control means 6 outputs a signal for turning off the power supplied to the load 2 as shown in FIG. Upon input of this off signal, the driving means 7 stops supplying power to the load 2 as shown in FIG. The power supply is not performed to the load 2 again to the voltage of the commercial power supply 1 is outputted zero volt pulse signal from zero volt pulse output means 3 becomes zero volts (T _b ~T _c). By changing the set time of the time setting means 5, the timer 4
And the amount of power supplied to the load 2 can be changed.

By repeating the above operation, load 2
Can be performed. Further, since the point in time when the power supply to the load 2 is started can be always set to zero volt, no rush current flows when the power supply to the load 2 is turned on, and a bidirectional thyristor or the like which constitutes a driving means by inrush And the power supply distortion can be suppressed.

(Embodiment 2) FIG. 3 is a block diagram of a phase control circuit according to Embodiment 2 of the present invention, and FIG. 4 is a diagram showing voltage waveforms and signal waveforms of respective parts of the phase control circuit. FIG.
In the figure, 11 is a voltage detecting means for detecting the voltage of the commercial power supply 1, 12 is a reference voltage setting means for setting a reference voltage value to be compared with a detected value of the voltage detecting means 11, and 13 is a reference voltage detected by the voltage detecting means 11. The second control means outputs a signal for turning on the power supply to the load 2 while the voltage is equal to or less than the voltage value.

4A shows the waveform of the commercial power supply, FIG. 4B shows the output signal of the second control means 13, and FIG. 4C shows the waveform of the power supplied to the load 2 (shaded area).

The operation of the above configuration will be described. First,
The user sets a predetermined reference voltage value as shown by a dotted line in FIG. Voltage detection means 1
The voltage value detected by No. 1 is compared with the reference voltage value by an absolute value. Here, the following description will be made assuming that the reference voltage value is set to 50V.

When a power switch (not shown) is turned on, the voltage detecting means 11 detects the voltage of the commercial power supply 1. At this time, if the detected voltage value is 50 V or less, the second control means 13 which has input this signal outputs a signal for turning on the power supply to the load 2 to the driving means 7, and the driving means which has input this signal 7 supplies power to the load 2. Conversely, when the voltage value detected by the voltage detecting means 11 is higher than 50 V, the second control means 13 outputs a signal for turning off the power supply to the load 2 to the driving means 7, and the driving means 7 receives this signal. No power is supplied to the load 2.

Next, the state of power supply to the load 2 in the present phase control circuit will be described. Assuming that the starting point is zero volts (T _s ) of the commercial power supply 1 as shown in FIG. 4A, the voltage value increases, and from zero volts to 50 V (T _s 〜).
For _Tu ), power is supplied to the load 2 as shown in FIG. Then, while the drops to 50V begins to descend after reaching a peak (T _u) of the voltage value becomes the voltage is further increased to 50V or more (T _u ~T _v ~T _w) is shown in FIG. 4 (c) As described above, power is not supplied to the load 2.

When the voltage further drops and becomes 50 V (T _w ) or less, power starts to be supplied to the load 2 again as shown in FIG. 4C. until reaching the (T _w ~T _x ~T _y) is to supply power to the load 2 as shown in FIG. 4 (c). While this cycle continues, power is supplied to the load 2 only during a low period when the voltage of the commercial power supply 1 is 50 V or less. Therefore, inrush current at the time of ON and inrush at the time of OFF are suppressed, so that destruction of elements such as a bidirectional thyristor constituting the driving means 7 and power supply distortion can be suppressed. Further, since the circuit can be constituted by elements having ranks with low withstand voltage and withstand current value, the cost is reduced.

Also, by changing the reference voltage value by the reference voltage setting means 12, the amount of power supplied to the load 2 can be changed by changing the ON time of power supply to the load 2.

By repeating the above operation, load 2
Can be performed.

[0026]

As is apparent from the above description, according to the first aspect of the present invention, since the point in time when the power supply to the load is started is always zero volt, the rush current stops flowing, and the inrush current is not generated. It is possible to suppress destruction of elements constituting the driving means and the like and power supply distortion.

According to the second aspect of the present invention, since power is supplied only during a period when the voltage value of the commercial power supply is low, an inrush current at the time of ON and an inrush at the time of OFF are suppressed. In addition, it is possible to suppress the destruction of the elements constituting the driving means and the like and the distortion of the power supply, and it is possible to configure the circuit with elements of ranks having low withstand voltage and withstand current value, so that the cost is reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram of a phase control circuit according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a voltage waveform and a signal waveform of each part of the phase control circuit.

FIG. 3 is a block diagram of a phase control circuit according to a second embodiment of the present invention.

FIG. 4 is a diagram showing a voltage waveform and a signal waveform of each part of the same phase control circuit.

FIG. 5 is a diagram showing a power supply waveform to a load of a conventional phase control circuit.

[Explanation of symbols]

 2 Load 3 Zero volt pulse output means 4 Timer 5 Time setting means 6 Control means 7 Driving means 11 Voltage detection means 12 Reference voltage setting means 13 Second control means

Claims (2)

[Claims] 1. A zero volt pulse output means for detecting zero volt of a commercial power supply and outputting a zero volt pulse signal in synchronism with the zero volt, a timer for inputting the zero volt pulse signal to start timing, and a set time of the timer Time setting means for setting the time, and driving means for supplying power to the load, from the input of the zero volt pulse signal until the time of the timer reaches the set time set by the time setting means And a control unit for turning on the power supply to the load of the driving unit. 2. A voltage detecting means for detecting a power supply voltage of a commercial power supply, a reference voltage setting means for setting a reference voltage value to be compared with the power supply voltage, and a power supply voltage when the power supply voltage is equal to or less than the reference voltage value. A phase control circuit comprising: a second control unit that outputs a signal for turning on power supply to a load; and a driving unit that receives the signal output by the second control unit and supplies power to the load.