JPH0521185Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field] The present invention relates to a light emitting diode lighting circuit for an AC solenoid valve.

[Background technology]

2. Description of the Related Art In general, electromagnetic valves that control the supply and discharge of fluid pressure are widely known as actuators for controlling the operations of various machines or control devices for these actuators.

An indicator light is provided on the solenoid valve in order to confirm from the outside whether the solenoid valve is operating in response to a set voltage, has stopped operating, or is malfunctioning. This indicator light is connected in series or parallel to the solenoid of the solenoid valve, and when connected in parallel, the indicator light lights up even when the excitation current does not flow through the solenoid even though the power supply voltage is supplied. It's getting old.

Colored neon tubes, which can withstand 200V alternating current (AC) voltage, have traditionally been widely used as indicator lights, but due to the unavoidable deterioration of the filled gas (neon gas, argon gas), However, they lacked durability and caused problems such as erroneous lighting due to the magnetic influence of the solenoid.

On the other hand, as operation display circuits using light emitting diodes as indicator lights have been provided,
In terms of durability and malfunction, it has become possible to display more stable operation than the conventional neon tube.

However, unlike neon tubes, light-emitting diodes are easily destroyed by small voltages, and so low-voltage DC power supplies are usually used as their power sources. For this reason, if an AC power supply is to be used, it is necessary to provide a resistor in series with the light-emitting diode or to provide a Zener diode to keep the voltage constant. In the former case, however, the voltage due to the resistance is extremely large, making the power usage efficiency extremely poor, and the resistance loss due to the generation of Joule heat in the resistor becomes excessive, causing problems such as insulation deterioration and quality deterioration of electrical components and other components due to overheating. In particular, in the case of solenoids that require high power, there is a problem that the circuit configuration space becomes large due to the large resistance. In the latter case, although the supply voltage can be made constant, the increase in cost and the complication of the circuit configuration due to the provision of a Zener diode cannot be avoided.

[Purpose of invention]

An object of the present invention is to provide a light emitting diode lighting circuit for a solenoid valve that can safely light the light emitting diode without destroying it even when an AC power source is used as the power source for the solenoid valve.

Another object of the present invention is to provide a light emitting diode lighting circuit for an AC solenoid valve that has a simple circuit configuration and can be miniaturized.

[Summary of the idea]

The present invention is an AC solenoid valve in which a load is connected in series to an AC power source via a shot prevention diode, and a light emitting diode is directly connected to a flywheel diode connected in parallel to this load. Since the light emitting diode can be lit using an alternating current flywheel current, the light emitting diode can be safely lit even when using an alternating current power supply, and the circuit configuration can be simplified.
This allows miniaturization.

[Embodiment 1] FIG. 1 is a circuit diagram of a light emitting diode lighting circuit for an AC solenoid valve that is an embodiment of the present invention.

In the first embodiment, the AC power supply 1 is, for example,
A commercial AC power source such as 200V AC or 100V AC. This AC power source 1 is connected to a solenoid coil 3 of an AC solenoid valve via a shot prevention diode 2.
(load) connected in series. The shot prevention diode 2 half-wave rectifies the alternating current from the alternating current power source 1. On the other hand, a flywheel diode 4 is connected in parallel to the solenoid coil 3, and this flywheel diode 4 is connected in series with a light emitting diode 5. There is. In other words, the series circuit of the flywheel diode 4 and the light emitting diode 5 is connected in parallel with the solenoid coil 3. The flywheel diode 4 functions to input the remaining energy of the solenoid coil 3 to the solenoid coil 3 through the flywheel diode 4.

The light emitting diode 5 of this embodiment lights up and emits light by the forward current of the flywheel diode 4, that is, the flywheel current, and the magnitude of this flywheel current varies depending on the reactance component of the solenoid coil 3.

Next, the operation of this embodiment will be explained.

First, the output current from the AC power supply 1 is a full-wave AC current of a predetermined frequency. This full-wave alternating current is half-wave rectified by the shot prevention diode 2, and is supplied to the solenoid coil 3 as a current with ripples removed.

On the other hand, in the flywheel diode 4, a relatively small but sufficient current to light the light emitting diode 5, that is, a flywheel current is generated.

Therefore, the solenoid coil 3 is supplied with a current that is a combination of the half-wave rectified alternating current from the shot prevention diode and the flywheel current from the flywheel diode 4,
The solenoid coil 3 is driven by the current. As a result, the plunger or movable core (not shown) of the solenoid valve is driven, and the flow of fluid such as air in the switching valve section is switched.

Furthermore, the light emitting diode 5 is connected to the solenoid coil 3.
As the flywheel diode 4 is driven, the flywheel diode 4
It is lit by the flywheel current and emits light. The light emitted from the light emitting diode 5 makes it possible to visually confirm that the solenoid coil 3 is being driven normally.

[Embodiment 2] FIG. 2 is a circuit diagram showing a light emitting diode lighting circuit for an AC solenoid valve according to another embodiment of the present invention.

In the second embodiment, two light emitting diodes 5a and 5b are connected in parallel in order to ensure that the light emitting diodes are lit normally without being destroyed even when the flywheel current is particularly large. .

Therefore, the second embodiment can be effectively applied as a light emitting diode lighting circuit for high power use.

It should be noted that the present invention is not limited to the above embodiments, and various other modifications are possible.

〔effect〕

(1) An AC solenoid valve that connects a load in series to an AC power source via a shot prevention diode that performs half-wave rectification of the full-wave AC current of this AC power source, and By connecting flywheel diodes in parallel and connecting a light emitting diode to the flywheel diode in series, the light emitting diode can be safely lit without being destroyed even when AC power is used as the power source for the solenoid valve. The operation can be clearly and stably confirmed by the light emitting diode.

(2) According to (1) above, the circuit configuration is simplified, and miniaturization and cost reduction can be realized.

(3) By connecting multiple light emitting diodes in parallel, the light emitting diodes can be safely lit even when using high-power AC power.

[Brief explanation of the drawing]

Fig. 1 is a circuit diagram of a light emitting diode lighting circuit for an AC solenoid valve, which is an embodiment of the present invention, and Fig. 2 is a circuit diagram showing a light emitting diode lighting circuit for an AC solenoid valve, which is another embodiment of the present invention. be. 1... AC power supply, 2... Shoot prevention diode, 3... Solenoid coil, 4... Flywheel diode, 5, 5a, 5b... Light emitting diode.

Claims (1)

[Claims for Utility Model Registration] (1) An AC solenoid valve in which a load is connected in series to an AC power source via a shot prevention diode that performs half-wave rectification of the full-wave AC current of the AC power source, the AC solenoid valve comprising: A light emitting diode lighting circuit for an AC solenoid valve, characterized in that a flywheel diode is connected in parallel to the load connected to the load, and a light emitting diode is connected in series to the flywheel diode. (2) A light emitting diode lighting circuit for an AC solenoid valve according to claim 1, wherein a plurality of the light emitting diodes are connected in parallel.