KR200328616Y1 - Monitoring lamp - Google Patents

Abstract

In the monitoring lamp according to the present invention, a wire through which an AC current flows passes through a circular core, and a coil of a certain number of turns is wound around the core. The coil is connected in series with a diode and a light emitting diode that function as rectifiers. By the above configuration, the monitoring lamp of the present invention has the effect that the power consumption and heat generation amount is extremely small compared to the conventional lamp and the appearance is small so that the installation space is not required separately, so it is convenient to install.

Description

Monitoring lamp {MONITORING LAMP}

The present invention relates to a monitoring lamp for monitoring whether a current is shorted in an electric circuit, and more particularly, to a monitoring lamp for monitoring whether a current flowing in a wire inside a housing device for a capacitor is shorted.

The various electrical devices commonly found in the surroundings are equipped with a monitoring lamp made of a light emitting diode (LED) which shows the user whether the electrical device is working properly. If the electrical device is working properly, for example, the green light is turned on. Is making up. Such lamps are also used, for example, in a housing device for capacitors for safely storing compensating capacitors, etc. Compensating capacitors refer to capacitors for adjusting the power factor of an electric system with a motor and other inductive loads such as an electric motor or a transformer. As shown in Fig. 1, the electric wires 3a to 3c exposed in the condenser housing device 10 are connected to an electric system (not shown) such as an electric motor or a transformer via the terminal 2.

The conventional monitoring lamp 5 attached to such a capacitor housing device has a configuration in which it is directly connected to an electric wire (3a in the drawing) as shown in FIG. The AC current classified in the electric wire 3a is half-wave rectified to DC as it passes through the diode 7, and light is emitted from the LED 5 when the rectified current passes through the LED 5. By the way, in the case of the capacitor | condenser housing apparatus, for example, the electric wire 3a-3c may flow several amperes-tens of amperes normally, and may flow up to 40A maximum. At this time, for example, assuming that the current flowing through the wire 3a is 10 A, since the voltage drop due to the LED 5 and the rectifying diode 7 is approximately 1.4 V, the power P is P = VA = 1.4 (V) x 10 (A) = 14 (W).

Therefore, the conventional monitoring lamp attached to the housing device for the capacitor had a problem that the power consumption is large and heat generation is caused by this, and further, since a circuit board having resistors (R) and diodes (5, 7), etc. are required. The substrate and space for it were required.

On the other hand, another conventional method of implementing the monitoring lamp is a configuration in which an amplifier Amp is connected in parallel to the wire 3a and a light emitting diode or the like is connected to the amplifier. However, this method, which requires additional circuitry, power, and space, was also not a desirable alternative, because a large number of circuit elements are needed to implement the amplifier, and moreover, a power supply is also required to power the amplifier.

The present invention has been made to solve such a problem, it is an object of the present invention to provide a monitoring lamp with a very low power consumption and low heat generation by operating at a small current. It is also an object of the present invention to provide a monitoring lamp consisting of a simple circuit element is small in appearance and requires little installation space.

1 shows a circuit of a monitoring lamp according to the prior art;

2 shows a circuit of a monitoring lamp according to the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

2 is a view showing an embodiment of a monitoring lamp according to the present invention. In the figure, the electric wire 3 through which an AC electric current flows passes through the circular core 6, and the coil 4 of the predetermined number of turns is wound around the core 6. The coil 4 is connected in series with the diode 7 and the light emitting diode 5 which function as rectifiers. The core 6 may be made of a conventional iron core, preferably made of silicon steel sheet. The coil 4 may also be wound throughout the core 6 or may be wound only on a portion of the core 6 as shown in FIG. 2.

The monitoring lamp of the present invention with the above configuration operates as follows: Since AC current flows in the wire 3, the magnetic field formed around the wire 3 also continues to change with time. According to Faraday's law that a magnetic field that changes in time generates an electric field, induced electromotive force is generated in a wire wound around the coil 3, and the electromotive force causes current to flow through the diode 7 and the light emitting diode 5, thereby emitting light. Will radiate light.

In one embodiment, the induced electromotive force generated in accordance with the configuration of the present invention when the current flowing through the wire 3 is 10 A produces a current of approximately 10 mA. Since the voltage drop by the diode 7 and the light emitting diode 5 is about 1.4 V, the power P consumed by the monitoring lamp according to the present invention is P = VA = 1.4 (V) x 10 (mW) = 0.014. (W) This value is about 1/000 of the conventional power consumption (that is, 14 W) described above, and it can be seen that the power consumption is significantly reduced compared to the conventional technology, and thus, the heat generation amount is extremely low. . Thus, since the monitoring lamp according to the present invention can operate by a very small current compared to the conventional lamp, the power consumption is extremely low, the amount of heat generated is small and the appearance is small, there is a significant effect that little installation space is required.

The construction of the present invention is not limited to the embodiment described above. In the above embodiment, the diode 7 having the rectifying function is separately provided. However, since the light emitting diode 5 also has the rectifying function on its own, it is not necessary to additionally install the diode 7. In addition, the cross section of the core 6 may be anything, such as circular or square shape. Moreover, the above embodiment has been described that the monitoring lamp of the present invention is mounted on the housing device for the condenser, but the technical idea of the present invention is not limited thereto. In order to notify the user by detecting whether a short circuit of an AC current flows. If so, the monitoring lamp according to the present invention may be used in any other electrical device.

As described above, the monitoring lamp of the present invention has the effect that the power consumption and heat generation amount is very small compared to the conventional lamp and the appearance is small so that the installation space is not necessary separately, it is convenient to install.

Claims (2)

In the lamp for monitoring whether the electric current flowing through the alternating current in the electrical device is short-circuited, A core installed to surround a circumference of a wire through which an alternating current flows; A coil wound around the core by a predetermined number of turns; And A light emitting diode connected in series with the coil, And an induction electromotive force in the coil as an alternating current flows in the wire, and the light emitting diode emits light by the induction electromotive force. The monitoring lamp of claim 1, further comprising an electronic device having a rectifying function between the coil and the light emitting diode.