JPH05182569A - Two-wire electronic lag switch - Google Patents

Abstract

PURPOSE:To provide a household two-wire electronic lag switch having a simple structure and capable of being manufactured in small size by means of combination of generally readily avaiable, inexpensive electronic components. CONSTITUTION:A TRIAC Q1 is connected in series with an AC power source and a load and a gate drive circuit is connected between the T2-G terminals of the TRIAC Q1 and the AC side terminal of a diode bridge DB1 is connected between the T2-T1 terminals of the TRIAC Q1. The divided output of an integrated circuit IC connected in parallel via the light-emitting diode Qd of a photo TRIAC to a self-holding circuit is connected to the G termianl of a second thyristor SCR2, the self-holding circuit being formed by connecting a first transistor Tr1 and a first thyristor SCR1 between the DC side terminals of the diode bridge DB1. The A-K terminals of the second thyristor SCR2 are connected to the output side of the self-holding circuit which is provided with a control switch S1 and a second transistor Tr2 is connected to the control switch S1 and the integrated circuit IC.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a delay switch having a delay time of about 30 seconds to 10 minutes, which is used in a front door, a toilet, etc., and more particularly to a two-wire type electronic delay switch having a timing mechanism formed of electronic parts. It is related.

[0002]

2. Description of the Related Art In recent years, a house has a high degree of airtightness, and there are many dark rooms even in the daytime. Therefore, a delay switch having a timer function for performing a delay operation when turning on and off a lighting or a ventilation fan is used. For example, as a delay switch used for toilets, when the switch is turned on when entering the room, the lighting and the ventilation fan are activated at the same time, and when the switch is turned off when exiting, the lighting is turned off, but only the ventilation fan is stopped with a delay of about 3 minutes. is doing. In addition, as a delay switch used at the entrance, a switch which is turned on and then turned off for about 30 seconds even when the switch is turned off at the time of leaving has become widespread. This type of conventional delay switch uses a mainspring or a small motor to secure the delay time.

[0003]

However, in recent years, from the needs of consumers, it has been desired that the delay time can be arbitrarily set between 0 and 10 minutes, which is difficult to realize with the conventional spring type. Met. As a solution to such a problem, for example, it is conceivable to make the time mechanism of the switch electronic. In this case, the load current must be used to secure the control power for the electronic switch timing mechanism, and at least 90% of the power supplied to the load side must be secured, and the load capacity also changes from 2W to 200W. However, there are many difficult problems in that it is required to support different types of loads such as incandescent lamps, fluorescent lamps, and ventilation fans.

The present invention has been made in order to solve the above-mentioned conventional problems, and constitutes a two-wire type electronic delay switch with a timer function for general households by a combination of easily available and inexpensive electronic components. This aims to solve the above problems.

[0005]

In order to achieve the above object, a two-wire type electronic delay switch according to the present invention has a triac connected in series to an AC power source and a load, and has a triac connected between T _{2 and} G terminals. A gate drive circuit is connected, an AC side terminal of the diode bridge is connected between the T ₂ -T ₁ terminals of the triac, and a first transistor and a first thyristor are connected between the DC side terminals of the diode bridge. To form a self-holding circuit, connect the integrated circuit in parallel with the self-holding circuit through the light emitting diode of the phototriac, and connect the divided output of the integrated circuit to the G terminal of the second thyristor. A of the second thyristor
The -K terminal is connected to the output side of the self-holding circuit, an operation switch is provided in the self-holding circuit, and a second transistor is connected to the operation switch and the integrated circuit, depending on the clock pulse width of the integrated circuit. After a predetermined time period has elapsed after the operation of the operation switch, the control voltage is set to zero by the second thyristor and the operation is terminated.

[0006]

With the above construction, when the break contact of the operation switch is in the ON state, the AC power source and the load are connected in series to the AC bridge side terminal of the diode bridge, and the AC side terminal receives 100 V AC. Although 100 V DC is generated at the DC side terminal, since the photo triac and the triac are in the non-conduction state, no current flows through the load and the load is not driven. When the make contact of the operation switch is turned on from this standby state, a current flows through the light emitting diode of the phototriac, which turns on the triac of the phototriac, and the triac becomes conductive through the gate drive circuit. Flows and the load is driven. Next, when the break contact is turned on, a current is continuously supplied to the integrated circuit by the action of the self-holding circuit of the first thyristor and the first transistor, and the load is continuous because the phototriac and triac are on. And be driven. Then, the integrated circuit starts counting through the operation of the second transistor, and the integrated circuit outputs the control signal to the second thyristor after a predetermined time according to the clock pulse width to set the control voltage to zero, The photo triac and triac are turned off and are turned off, and the current supply to the load is stopped and the driving of the load is completed.

[0007]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 shows a first embodiment of the present invention and is an electric circuit diagram of a two-wire type electronic delay switch having a timer function capable of setting an arbitrary delay time between 0 and 10 minutes. This electronic delay switch SW has two connection terminals P1.
And P2, and an AC power supply 1 and a low power consumption ventilation fan showing a specific example of an electric appliance as the load 2 are connected in series between the first and second connection terminals P1 and P2. ..

A varistor VZ, a capacitor C1, a triac Q1, and an AC side terminal side of the diode bridge DB are connected in parallel between the first and second connection terminals P1 and P2. The capacitor C1 and the varistor VZ are for noise absorption and lightning surge absorption. Between the T2-G terminals of the triac Q1, _two constant voltage diodes ZD1 and ZD that form a gate drive circuit are provided.
In addition to connecting the series circuit of the two connected in anti-series and the triac Q-t of the phototriac,
_A noise countermeasure capacitor C2 and a resistor R1 are connected in parallel between the _{1 and} G terminals.

An emitter E of a pnp type first transistor Tr1 which performs a switching operation is connected to the anode side of the DC side terminal of the diode bridge DB1. A current limiting resistor R is provided on the base B of the first transistor Tr1.
The A terminal of the first thyristor SCR1 is connected via 3 and its K terminal is connected to the cathode side of the DC side terminal of the diode bridge DB1. A resistor R2 is connected between the emitter E and the base B of the first transistor Tr1 and its collector C and the first thyristor SC are connected.
A resistor R4 is connected between the G terminals of R1 and a resistor R5 is connected between the GK terminals of the first thyristor SCR1. Further, between the emitter E and the collector C of the first transistor Tr1, the make contact m of the operation switch S1 is provided.
Are connected. Due to the circuit configuration on the DC side terminal side of the diode bridge DB1, the first thyristor S is connected simultaneously with the connection (ON operation) of the operation switch S1 to the make contact.
The self-holding circuit is formed so that the first transistor Tr1 is self-held by the action of CR1.

An electrolytic capacitor C3 is connected between the collector C of the first transistor Tr1 and the K terminal of the first thyristor SCR1. As a result, the collector C side of the first transistor Tr1 becomes the DC power supply voltage side line V _DD , and the cathode side of the DC side terminal of the diode bridge DB1 becomes the DC power supply ground side line V _SS .
Between the lines V _DD and V _SS is smoothed to a direct current of about 5 V (volt) by the action of the electrolytic capacitor C3. Further, a light emitting diode Q-d of a phototriac and a light emitting diode LED for indicating the operation of the electronic delay switch SW are connected in series to the DC power supply voltage side line V _DD , and the light emitting diode LED has an integrated circuit. IC is connected.

Break contact b of the operation switch S1
Is an npn-type second transistor Tr having a built-in resistor.
2 is connected to the base side terminal B, the emitter side terminal E is connected to the ground side line V _SS , and the collector side terminal C is connected to the voltage side line V via the pin 6 and the resistor R6 of the integrated circuit IC. Connected to _DD .

The integrated circuit IC mainly counts clock pulses. For example, MC1 manufactured by Motorola Co.
4541B can be applied. This MC1454
1B includes a 16-stage binary counter and an oscillator that is used by connecting one external capacitor and two resistors, and can count up to 2 ¹⁶ = 65536. Here, pin 1 to pin 3 of the integrated circuit IC are 1
I / O terminal of an oscillator that oscillates by connecting two external capacitors C4 and two external resistors VR and R7, pin 5 is an auto reset terminal, pin 6 is a master reset terminal, and pin 7 is a first ground. Voltage terminal, pin 8 is an output terminal with a maximum count of 2 ¹⁶ , pin 9 is a second ground voltage terminal, pins 10, 12 and 13 are a second power supply voltage terminal, and pin 14 is a first power supply voltage terminal. is there.

In the integrated circuit IC, pins 5, 10 and pins 12 to 14 are connected to the light emitting diode LED, and pins 7 and 9 are connected to the ground side line V _SS , respectively. Further, in the integrated circuit IC, the pin 1 is connected to one end of the variable resistor VR for time setting, the pin 2 is connected to one end of the capacitor C4, the pin 3 is connected to one end of the resistor R3, and the other ends thereof are connected. Are connected to each other to form a closed circuit. This variable resistor VR and capacitor C4
By combining with, the period T (second) of the clock pulse of the integrated circuit IC can be varied from 0 to 9 ms depending on the resistance value of the variable resistor VR. Therefore, the integrated circuit IC counts up to 2 ¹⁶ = 65536, and then pin 8 goes high. As a result, the time limit setting 0 of the delay time in the electronic delay switch SW is set.
~ Got about 10 minutes.

Thus, the operation switch S1 is the make contact m.
When turned on, a DC voltage is generated on the voltage side line V _DD , and the pin 6 of the integrated circuit IC is at a high level through the resistor R6 because the second transistor Tr2 is off. The circuit IC is in the reset state. On the other hand, when the operation switch S1 is turned on to the break contact b,
Since the second transistor Tr2 becomes conductive, the integrated circuit I
The pin 6 of C becomes low level, the reset of the integrated circuit IC is released, and the integrated circuit IC starts counting.

The pin 8 of the integrated circuit IC is connected to the G terminal of the second thyristor SCR2. The K terminal of the second thyristor SCR2 is directly connected to the ground side line V _SS , the electrolytic capacitor C5 is connected between the G and K terminals, and the A terminal thereof is connected to the power supply side line V _DD. There is. As a result, when the integrated circuit IC counts 2 ¹⁶ clock pulses to bring the pin 8 to a high level, a current is supplied to the G terminal of the second thyristor SCR2, and the AK terminal is electrically connected to control voltage. Becomes zero. As a result, the first transistor Tr1, the first thyristor SCR1, the light emitting diode Q-d and the triac Q-t of the phototriac are turned off, which turns off the triac Q1. It becomes a state.

Next, the operation of this embodiment will be described.
First, as an initial state, when the operation switch S1 is turned on to the break contact b, the diode bridge DB
Since the AC power supply 1 and the load 2 are connected in series to 1, AC 100 V is applied to the AC side terminal,
A direct current of 100 V is generated at the direct current side terminal. However, since the first transistor Tr1 and the light emitting diode Q-d of the phototriac and the triac Q-t and the triac Q1 are in the non-conduction state, no current flows through the ventilation fan of the load 2 and the load 2 is driven. do not do.

When the make contact m of the operation switch S1 is turned on from this standby state, a current flows through the light emitting diode Q-d of the phototriac, and the triac Q-t is turned on by the light emission of the light emitting diode Q-d. .. Therefore, two constant voltage diodes ZD1 and ZD connected in reverse
Current is supplied to the gate G of the triac Q1 through 2 and the triac Q1 becomes conductive, so that current flows through the ventilation fan of the load 2 and the load 2 starts to rotate. At this time, a voltage is generated in the triac Q1 by the _two constant voltage diodes ZD1 and ZD2 connected in anti-series, and this voltage is generated by the diode bridge DB1 and the diode bridge DB1 connected between the T ₂ -T ₁ terminals of the triac Q1. Electrolytic capacitor C
It is smoothed to a direct current by the function of 3 and supplied as a control power source for the integrated circuit IC. Since such an operation is instantaneously performed, 100 V DC is not applied to the integrated circuit IC, and therefore the integrated circuit IC is not destroyed. Further, at this time, the voltage side line V is passed through the make contact m of the operation switch S1.
_A current flows from the _DD to the gate G of the first thyristor SCR1 via the resistor R4, the first thyristor SCR1 becomes conductive, and the action of the first thyristor SCR1 causes the first transistor Tr1 to self-hold. To be done.

Next, the operation switch S1 is set to the break contact b.
When turned on, the self-holding circuit of the first thyristor SCR1 and the first transistor Tr1 continuously supplies current to the integrated circuit IC via the light emitting diode Q-d and the light emitting diode LED of the phototriac. At the same time, the triac Q-t is turned on by the light emission of the light emitting diode Q-d, and the triac Q1 is also turned on. Therefore, the ventilation fan of the load 2 continues to rotate. Also, at the same time when the break contact b is turned on, the second transistor Tr
2 is turned on, the reset of the integrated circuit IC is released through the operation of the second transistor Tr2, and the counting of the clock pulse having the pulse width determined by the resistance value of the variable resistor VR and the like is started. The operation of the electronic delay switch SW is the operation of the first thyristor SC due to the function of the self-holding circuit.
Since the R1, the first transistor Tr1, the phototriac, and the triac Q1 are kept in the ON state, the operation is continued until the integrated circuit IC counts up. This operating state is continuously illuminated by the light emitting diode LED.

Next, when the integrated circuit IC counts up and a predetermined time period arbitrarily set according to the clock pulse width elapses, the pin 8 becomes high level and the G terminal of the second thyristor SCR2. Supplied with current,
The AK terminals are electrically connected, and the control voltage between the voltage side line V _DD and the ground side line V _SS becomes zero. As a result, the first transistor Tr1 and the first thyristor SC
R1 and the light emitting diode Q-d of the phototriac are turned off, and the triac Q1 is turned off by the operation of the triac Q-t to be turned off. As a result, the load current is stopped to enter the standby state, and the driving of the load 2 is completed. At the same time, the supply of current to the light emitting diode LED is stopped, the light emitting diode LED is turned off, and the light emission display is turned off.

FIG. 2 shows a second embodiment of the present invention.
In this embodiment, the gate drive circuit of the triac Q1 is
It is composed of a diode bridge DB2, a constant voltage diode ZD3, and a transistor QT-t which is a phototransistor. The AC side terminal of the diode bridge DB2 is connected between the T ₂ -G terminals of the triac Q1, and the cathode side of the constant voltage diode ZD3 is connected to the anode side of the DC side terminal. The collector C side of the transistor QT-t is connected to the anode A side of the constant voltage diode ZD3, and the emitter E side of the transistor QT-t is connected to the cathode side of the DC side terminal of the diode bridge DB2.

The transistor Q of the phototransistor
The withstand voltage of T-t needs to be a high withstand voltage for driving AC100V. The other structure is the same as that of the above-mentioned embodiment except that the light emitting diode Q-d of the phototriac is replaced by the light emitting diode QT-d of the phototransistor.

[0022]

As described above, since the present invention is constructed as described above, it has the following effects. That is, a combination of inexpensive electronic components that are generally easily available has a simple structure and a wide range of power (for example, 2 W to 200 W) and power factor (for example, 1 to 2 W).
The load of 0.5) can be reliably and easily controlled by the 2-wire type power supply circuit, and the delay time can be arbitrarily set between 0 and 10 minutes, and the operation of the electronic switch It is possible to provide a small-sized electronic delay switch for general households, in which the state can be energized and displayed by a light emitting diode.

[Brief description of drawings]

FIG. 1 is an electric circuit diagram showing a first embodiment of the present invention.

FIG. 2 is an electric circuit diagram showing a second embodiment of the present invention.

[Explanation of symbols]

1 AC power supply 2 Load C1, C2, C4 capacitor C3, C5 electrolytic capacitor DB1, DB2 diode bridge IC integrated circuit LED light emitting diode P1, P2 connection terminal Q1 triac Q-d phototriac light emitting diode Q-t phototriac triac QT -d Phototransistor light emitting diode QT-t Phototransistor transistor R1 to R7 Resistance S1 Operation switch b Break contact m Make contact SCR1 First thyristor SCR2 Second thyristor Tr1 First transistor Tr2 Second transistor VR Variable resistance V _DD DC power supply side voltage line V _SS DC power supply side ground voltage line VZ Varistor ZD1, ZD2, ZD3 Constant voltage diode

Claims (1)

[Claims] 1. A connecting the triac in series with the AC power source and a load, connecting the gate drive circuit between the triac T ₂ -G terminals, the AC side of the diode bridge between said triac T ₂ -T ₁ terminal A terminal is connected and a first transistor and a first thyristor are connected between the DC side terminals of this diode bridge to form a self-holding circuit. The self-holding circuit is connected in parallel with the light emitting diode of the phototriac. Connected to the integrated circuit, the divided output of the integrated circuit is connected to the G terminal of the second thyristor, and the AK terminal of the second thyristor is connected to the output side of the self-holding circuit. An operation switch is provided in the holding circuit, a second transistor is connected to the operation switch and the integrated circuit, and the operation switch is operated according to the clock pulse width of the integrated circuit. 2-wire electronic delay switch, characterized in that to terminate the operation of the control voltage as zero by the after a lapse constant timed second thyristor.