KR950001434Y1 - Power circuit - Google Patents

Abstract

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Description

Leakage current prevention device for negative ion generator

1 is an explanatory diagram of a state in which a leakage current is absorbed by the present invention.

Figure 2 is a state explanatory diagram for absorbing the leakage current flowing to the negative ion generating unit by the present invention.

Figure 3 is an exploded perspective view of one embodiment of the present invention is applied to the fan.

* Explanation of symbols for main parts of the drawings

12: ground wire 14: net

16: negative ion generator 18, 18a: connector

20: resistance 22: wire

10, 24: power supply wire 26: ground wire

28: metal pipe 30: binding plate

32: vent hole 34: negative ion generating chip

The present invention relates to a leakage current prevention device of the negative ion generating unit designed to absorb the leakage current generated when negative ions generated in the negative ion generating device to achieve a safe and economical use.

In general, it is well known that anion generators are obtained by blowing negative ions generated from an ohmic ion generator.

However, the conventional negative ion generator has been using non-electrically conductive material around the negative ion generator and the generator as a method of blocking the high pressure and leakage current generated from the negative ion generator, but the metal body (electric conductor) is a leakage current There is no way to prevent it and it is not adopted.

In particular, a fan such as a fan is unable to ground the mesh itself due to a breakdown voltage problem, so that a high-pressure induction current generated in an anion group is charged in the network, and a significant leakage current is generated.

Therefore, there is a high risk of safety accidents due to leakage current, and there is a large amount of current loss, which is uneconomical use.

The present invention aims to prevent abnormality of the breakdown voltage and to make the charged leakage current flow in the ground state so as not to impact the human body at all in order to solve the defects.

In order to achieve the above object, the present invention connects the power supply line and the conductor of the negative ion generator with a resistor to absorb the leakage current rate, embeds the negative ion generating chip into the metal tube, and prevents the leakage current from occurring by earthing the metal tube.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an explanatory diagram of a state of absorbing the leakage current generated in the network (conductor) by the present invention, Figure 2 is a diagram illustrating a state of absorbing the leakage current flowing to the negative ion generating unit by the present design, Figure 3 As an exploded perspective view of an embodiment of the present invention is applied to the fan, referring to Figures 1 to 3, the present invention has a built-in high-voltage cable (10a) on one side of the negative ion generator 16 is connected to the power supply line 24 A metal pipe 28 in which a binding plate 30 having a plurality of ventilation holes 32 is formed in the periphery thereof, is connected to the power supply line 24 with an electric wire 22, and a ground wire 26 attached to the net 14. It is configured by connecting a resistor 20 to one pair of connectors 18 and 18a on one side. Unexplained reference numerals in the drawings; 36 is indicated by the fan seat, 38 is the front screen, and 40 is the power outlet.

The present invention having such a configuration uses a resistor 20 that withstands the leakage current withstand the leakage current induced in the network (metal body) 14 by the resistor 20 is a high-current current generated in the negative ion generator 16 Ground to ensure safe anion generation.

That is, when the high pressure generated in the negative ion generator 16 flows along the high voltage line 10a, a magnetic field is formed in the direction perpendicular to the high voltage line 10a, and thus, a metal body positioned within the magnetic field, that is, in the present invention, Induced current flows through the network 14.

In order to prevent the induced current from flowing in the network 14 as shown in FIG. 1, a pair of connectors 18 may be connected to the ground wire 26 and connected to the ground wire 26. 18a) is attached and connected to the resistor 20 attached to the wire 22 to discharge the leakage current generated through the resistor 20.

The discharged leakage current is grounded with the power supply line 24 for supplying power to the negative ion generator 16, and discharged out through the resistor 20 to satisfy the breakdown voltage and insulation resistance.

In addition, in order to prevent the leakage current generated in the negative ion generator 16, as shown in FIG. 2, the high pressure generated in the negative ion generator 16 is wrapped around the high voltage line 10a with the metal pipe 28 and the negative ion generator 16 The ground wire 26 drawn out from is connected to the metal pipe 28 and the high voltage cable 10a is connected to the binding plate 30 to which the ohmic ion generating chip 34 is attached through the center of the metal pipe 28 to generate negative ions. Anions generated in the chip 34 can be discharged out through the metal pipe 28.

The present invention made of such a configuration is a novel design that can achieve safe use and economical use by avoiding the leakage current flowing to the metal chain and the negative ion generating unit by the negative ion generator high voltage line.

Claims (1)

In forming the negative ion generator 16 to which the power supply line 24 is connected, a metal pipe 28 in which a high voltage line 10a is embedded at one side and a binding plate 30 having a plurality of ventilation holes 32 at the circumference thereof is bound. It is formed and connected to the power supply line 24 by a wire 22 and a pair of connectors 18, 18a on one side of the ground wire 26 attached to the network 14 is connected by a resistor 20 Leakage current prevention device for negative ion generating unit.