JP3275981B2 - Relay device for alternate operation - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a relay device for alternate operation, in which setting and resetting are repeated by turning on a power supply.

[0002]

2. Description of the Related Art Conventionally, a relay device for alternate operation is used for pump control or the like. When an AC power supply is turned on, a connection state of a contact of a keep relay having a normally closed contact and a normally open contact is alternately switched. In order to realize the function of maintaining the connection state of the contacts until the power is cut off and the AC power is turned on again, a method of controlling a keep relay by a flip-flop circuit composed of two thyristors is general. is there.

Further, this type of alternate operation relay device is
For example, Japanese Patent Publication No. Sho 58-56449 is known.

[0004] This alternate operation relay device is constituted by a circuit as shown in FIG. 4. When a DC voltage is applied between the DC power supply terminals 21 and 21, the gate of the first thyristor 22 is connected via a normally closed contact 23. Gate current flows, the first thyristor 22 is turned on, and the set coil 2 of the keep relay is turned on.
4 are excited. At this time, the normally closed contact 23 is turned off and the normally open contact 25 is turned on. However, since the first thyristor 22 has a self-holding function, the gate of the second thyristor 26 is connected to the first diode 27. The second thyristor 26 is not turned on. As a result, the keep relay is self-held in the set state, and this self-holding is maintained even when the power supply voltage disappears.

Next, when a DC voltage is applied again, a gate current flows to the gate of the second thyristor 26 via the normally open contact 25, and the second thyristor 26 is turned on. Therefore, the reset coil 2 of the keep relay
8 is excited, the normally open contact 25 returns to the original reset state and is held by itself, the gate of the first thyristor 22 is grounded via the second diode 29, and the first thyristor 22 is turned on. No state is established, and the keep relay is self-held in the reset state, and this self-hold is maintained even when the DC voltage disappears, as in the set state.

In order to make the circuit of FIG. 4 more stable, as shown in FIG. 5, between the gate of the first thyristor 22 and the normally closed contact 23 and between the gate of the second thyristor 26 and the normally open contact 24 Generally, a first constant voltage diode 30 and a second constant voltage diode 31 are respectively connected between them, and the circuit operation of FIGS. 4 and 5 is extremely stable, and very reliable. It is expensive.

[0007]

However, according to the above prior art, the first thyristor 22 and the second thyristor 26 or the first constant voltage diode 30 and the second thyristor
There is a disadvantage that two constant voltage diodes 31 and two very expensive parts must be used.

Accordingly, an object of the present invention is to provide an alternate operation relay device which is highly reliable and can be manufactured at low cost.

[0009]

In order to solve the above-mentioned problems, an alternate operation relay device according to the present invention comprises a first transistor connected to a power supply line of a DC power supply via a set coil and a reset coil of a keep relay. And a collector connected to the collector of the second transistor, a first resistor and a second resistor respectively between the collector of the first transistor and the base of the second transistor and between the collector of the second transistor and the base of the first transistor. And the bases of the first and second transistors are connected to a normally open contact and a normally closed contact of a keep relay, respectively, and are connected to a ground line through a third resistor from a common contact of the keep relay, and The emitters of the first and second transistors are connected to each other, and a switching element is connected between the connection point of the emitters and a ground line. Transistor base of - which are connected to respective first and second diode between the emitter.

[0010] The key pre-relay from the power supply line of the DC power supply.
1 through the set coil and the reset coil, respectively.
Connected to the collectors of the first and second transistors.
Followed by a collector of the first transistor and a second transistor.
Between the bases of the transistors and the collector of the second transistor
Between the base of the first transistor and the first and second transistors, respectively.
A resistor is connected, and the bases of the first and second transistors are connected to the normally open contact and normally closed contact of the keep relay via fourth and fifth resistors, respectively, and the common contact of the keep relay is connected to the ground line. Connection, and furthermore, the first and second transformers.
Connect the emitters of the respective transistors, and connect the emitters
And a switching element connected between the first and second ground lines.
The first and second transistors are respectively connected between the base and the emitter of the second transistor.
And a second diode .

[0011] Further, the key pre
1 through the set coil and the reset coil, respectively.
Connected to the collectors of the first and second transistors.
Followed by a collector of the first transistor and a second transistor.
Between the bases of the transistors and the collector of the second transistor
Between the base of the first transistor and the first and second transistors, respectively.
A resistor is connected, and the bases of the first and second transistors are
When connected to the normally open contact and normally closed contact of the keep relay respectively
In both cases, from the common contact of the keep relay via the third resistor
A first and a second transistor connected to a ground line;
And the emitter connection point and ground
A switching element is connected between the lines, and the sixth and seventh transistors are respectively connected between the base and the emitter of the first and second transistors.
Are connected.

[0012]

According to the alternate operation relay device of the present invention, when a switching element is turned on after a DC voltage is applied to a control circuit by turning on an AC power supply, a first transistor is turned on and a set coil is turned on. Energized, the contact of the keep relay is connected to the normally open contact, and it is set. At that time, the second transistor and the reset coil are turned off. Thereafter, even if the DC voltage disappears due to the interruption of the AC power supply, the keep relay maintains the set state by the self-holding function.

Next, when the switching element is turned on after a DC voltage is applied to the control circuit by turning on the AC power again, the second transistor is turned on, the reset coil is excited, and the keep relay is turned on. Is connected to the normally closed contact, and the reset state is established. At that time, the first transistor and the set coil are turned off. Thereafter, even if the DC voltage disappears due to the interruption of the AC power supply, the keep relay keeps the reset state by the self-holding function.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the relay device for alternating operation according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a circuit diagram of an alternate operation relay device according to an embodiment of the present invention, in which a set coil 2 and a reset coil 3 of a keep relay are respectively connected from a power supply line 1 of a DC power supply. The first transistor 4 and the second
The first resistor R1 and the first resistor R1 are connected between the collector of the first transistor 4 and the base of the second transistor 5 and between the collector of the second transistor 5 and the base of the first transistor 4, respectively. Second resistance R
2 and the bases of the first transistor 4 and the second transistor 5 are connected to a normally open contact 6 and a normally closed contact 7 of a keep relay, respectively.
Further, the thyristor 10 is connected to the ground line 9 via the third resistor R3, the emitters of the first transistor 4 and the second transistor 5 are connected respectively, and the thyristor 10 is connected between the connection point of the emitter and the ground line 9. The first diode D1 and the second diode D2 are connected between the base and the emitter of the first transistor 4 and the second transistor 5, respectively.

The gate of the thyristor 10 is connected to the power supply line 1 via a constant voltage diode 11. That is, the transistor flip-flop circuit 12 having the set coil 2 and the reset coil 3 of the keep relay as loads.
And a thyristor 10 connected in series.

In the alternate operation relay device, when the DC voltage V _D is applied by turning on the AC power supply V, and when the DC voltage V _D rises to the rated voltage of the constant voltage diode 11, the gate current flows to the gate of the thyristor 10. Flow, thyristor 10 turns on. Before that, a path from the reset coil 3, the second resistor R2, the base to the emitter of the first transistor 4, the second diode D2, the normally closed contact 7 of the keep relay to the common contact 8, and the third resistor R3. Immediately after the DC voltage V _D is applied to the transistor flip-flop circuit 12 because the first transistor 4 is forward-biased and the second transistor 5 is reverse-biased, , The first transistor 4 is on and the second transistor 5 is off. Further, at this time, the set coil 2 is excited, and the common contact 8 of the keep relay is connected to the normally open contact 6 with a delay from the operation of the thyristor 10 and the transistor flip-flop circuit 12, so that the set state is established.

At this time, the common contact 8 of the keep relay is connected to the normally open contact 6, but since the first transistor 4 is already in a stable state, it keeps on. Then, the common contact 8 of the keep relay be DC voltage V _D is extinguished by interruption of the AC power source V lasts a set state while connected to the normally open contact 6.

Next, when the DC voltage V _D is applied by turning on the AC power supply V again, the thyristor 10 is turned on in the same manner as described above. Before that, a path from the set coil 2, the first resistor R1, the base to the emitter of the second transistor 5, the first diode D1, the normally open contact 6 of the keep relay to the common contact 8, and the third resistor R3. Immediately after the thyristor 10 is turned on and the DC voltage V _D is applied to the transistor flip-flop circuit 12 because the second transistor 5 is forward biased and the first transistor 4 is reverse biased , The second transistor 5 is on and the first transistor 4 is off. Further, at this time, the reset coil 3 is excited, and the contact of the keep relay is connected to the normally closed contact 7 with a delay from the operation of the thyristor 10 and the transistor flip-flop circuit 12 to be in a reset state. common contact 8 of the keep relay be DC voltage V _D disappears lasts a reset state while connected to the normally closed contact 7.

Therefore, the alternate operation relay device of the present invention repeats the set state and the reset state with the stable operation as described above.

FIG. 2 is a circuit diagram of one embodiment of the alternate operation relay device according to the present invention, wherein the bases of the first transistor 4 and the second transistor 5 are a fourth resistor R4 and a fourth resistor R4, respectively. Connected to a normally open contact 6 and a normally closed contact 7 of the keep relay via a fifth resistor R5, and a common contact 8 of the keep relay is connected to a ground line 9;
The same operation as the circuit of the relay device for alternating operation in FIG. 1 is performed.

FIG. 3 is a circuit diagram of an embodiment of an alternate operation relay device according to claim 3 of the present invention, wherein a sixth transistor is provided between the base and the emitter of the first transistor 4 and the second transistor 5 respectively. A resistor R6 and a seventh resistor R7 are connected, and perform the same operation as the circuit of the alternate operation relay device of FIG. 1 as in FIG.

In the above embodiment, the thyristor 10 is connected between the connection point of the emitter of the first transistor 4 and the emitter of the second transistor 5 and the ground line 9, but this is only an example. The present invention is not limited to the thyristor 10, and for example, other switching elements such as semiconductors and relays can be connected.

[0024]

As described above, in the alternate operation relay device according to the present invention, the first transistor and the second transistor are connected to the power supply line of the DC power supply via the set coil and the reset coil of the keep relay, respectively. And a first resistor and a second resistor connected between the collector of the first transistor and the base of the second transistor and between the collector of the second transistor and the base of the first transistor, respectively. The bases of the first and second transistors are connected to a normally open contact and a normally closed contact of a keep relay, respectively, and connected to a ground line via a third resistor from a common contact of the keep relay, and further to the first and second transistors. And a switching element connected between the connection point of the emitter and the ground line, and the first and second transistors are connected to each other. Since the first diode and the second diode are respectively connected between the base and the emitter, an excellent effect that the operation is stable and the reliability is high, and the expensive components can be reduced and the device can be manufactured at a low cost. Have

Also, a key line is connected to the power line of the DC power supply.
Through a set coil and a reset coil, respectively.
To the collectors of the first transistor and the second transistor
Connected to the collector of the first transistor and the second transistor.
Between the bases of the transistors and the collector of the second transistor
Between the base of the transistor and the base of the first transistor, respectively.
And the bases of the first and second transistors are connected to the normally open and normally closed contacts of the keep relay via fourth and fifth resistors, respectively, and the common contact of the keep relay is connected to a ground line. To the first and second trucks.
Connect the emitters of the transistors, and connect the emitters
Connect a switching element between the point and the ground line,
And a first transistor between the base and the emitter of the second transistor, respectively.
Since the above-mentioned diode and the second diode are connected to each other, a stable operation and high reliability are obtained, and an excellent effect that expensive parts can be reduced and the device can be manufactured at a low cost can be obtained.

Also, the key line is connected to the power supply line of the DC power supply.
Through a set coil and a reset coil, respectively.
To the collectors of the first transistor and the second transistor
Connected to the collector of the first transistor and the second transistor.
Between the bases of the transistors and the collector of the second transistor
Between the base of the transistor and the base of the first transistor, respectively.
And the bases of the first and second transistors.
Connect to the normally open and normally closed contacts of the keep relay, respectively.
At the same time, through the third resistor from the common contact of the keep relay
To the ground line, and further to the first and second transistors.
Connect the emitters of the
A switching element is connected between the ground lines, and the first and second
Since the sixth and seventh resistors are respectively connected between the base and the emitter of the transistor described above, an excellent effect that the operation is stable and the reliability is high, and expensive components can be reduced and the device can be manufactured at low cost. It has.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of one embodiment of an alternate operation relay device according to claim 1 of the present invention.

FIG. 2 is a circuit diagram of one embodiment of the alternate operation relay device according to claim 2 of the present invention.

FIG. 3 is a circuit diagram of one embodiment of an alternate operation relay device according to claim 3 of the present invention.

FIG. 4 is a circuit diagram of a conventional relay device for alternating operation.

FIG. 5 is a circuit diagram of a conventional alternate operation relay device.

[Explanation of symbols]

1 ... power line, 2 ... set coil, 3 ...
Reset coil, 4... First transistor, 5.
A second transistor, 6 a normally open contact, 7 a normally closed contact, 8 a common contact, 9 a ground line, 10
... thyristor, 11 ... constant voltage diode, 12
... Transistor flip-flop circuit, D1 ...
Diode, D2 ... diode, R1 ... first resistor, R2 ... second resistor, R3 ... third resistor,
R4: fourth resistor, R5: fifth resistor, R6
... resistance of the 6, R7 · · · seventh resistor, V · · · AC power supply, V _D · · · DC voltage.

Claims (3)

(57) [Claims] In an alternate operation relay device which repeats setting and resetting by turning on a power supply, a collector of a first transistor and a collector of a second transistor via a set coil and a reset coil of a keep relay from a power supply line of a DC power supply, respectively. Connected between the collector of the first transistor and the base of the second transistor, and between the collector of the second transistor and the base of the first transistor, respectively, The bases of the first and second transistors are connected to a normally open contact and a normally closed contact of the keep relay, respectively, and connected to a ground line via a third resistor from a common contact of the keep relay. The emitters of the first and second transistors are connected respectively, and a switch is provided between the connection point of the emitters and the ground line. A switching element, and first and second diodes connected between the base and the emitter of the first and second transistors, respectively. 2. Set and reset by turning on power
In the alternate operation relay device that repeats
Set coil and reset coil of keep relay from source line
And the first transistor and the second transistor
A first transistor connected to the collector of the first transistor
Between the collector of the second transistor and the base of the second transistor and
A collector of a second transistor and the first transistor
First and second resistors are connected between the bases of the first and second transistors, respectively, and the bases of the first and second transistors are connected to the normally open and normally closed contacts of the keep relay via fourth and fifth resistors, respectively. And a common contact of the keep relay is connected to a ground line, and further, the first and second transistors are connected.
The emitters of the star are connected to each other.
A switching element connected between the ground lines;
And between the base and the emitter of the second transistor, respectively.
A relay device for alternating operation, wherein the first and second diodes are connected . 3. Set and reset by turning on power
In the alternate operation relay device that repeats
Set coil and reset coil of keep relay from source line
And the first transistor and the second transistor
A first transistor connected to the collector of the first transistor
Between the collector of the second transistor and the base of the second transistor and
A collector of a second transistor and the first transistor
Connecting first and second resistors between the bases of the
The bases of the first and second transistors are respectively the aforementioned keep
Connect to the normally open and normally closed contacts of the relay, and
A grounding resistor is connected via the third resistor from the common contact of the keep relay.
In the first and second transistors.
Emitters are connected to each other, and the connection point of the emitter is connected to the ground.
A relay device for alternating operation , wherein a switching element is connected between lines, and sixth and seventh resistors are connected between the base and the emitter of the first and second transistors, respectively.