KR200370741Y1 - clean water system - Google Patents

Abstract

Provides a more hygienic water purifier.

Such a water purifier includes a filter part for filtering bacteria and foreign substances contained in the incoming raw water, a cold water part for cooling the purified water filtered from the filter part, a hot water part for heating the purified water to make hot water, and a component thereof. It includes one or more cases, the case is provided with an outlet having a cock for receiving cold water and hot water, the outlet is provided with a plasma ion generator for preventing bacterial propagation.

Description

Water Purifier {clean water system}

The present invention relates to a water purifier, and more particularly, to a water purifier that enables more hygienic use by preventing the propagation of bacteria occurring in the entire vicinity of the drip tray of the water purifier.

In general, a well-known water purifier is directly connected to the water supply and the type of cooling or warming with cold and hot water by receiving raw water and the type of cooling water or using warm and cold water in a water tank.

In any type of water purifier or outlet for receiving cold or hot water, a cock is installed at the bottom of the cock to prevent water droplets falling from the cock from bouncing around.

Since the water purifier can breed bacteria in the drip tray, an ultraviolet generator is installed near the drip tray to prevent the growth of the germs by ultraviolet rays.

However, the water purifier in which the UV generator is installed has a problem in that the case discolors when ultraviolet light is shined.

In addition, the method of preventing bacterial propagation with ultraviolet rays can prevent the propagation of bacteria only in the part where the ultraviolet rays are irradiated, and thus the bacterial propagation cannot be prevented over the entire area near the drip tray.

As described above, since the ultraviolet sterilization method can sterilize bacteria only in the portion to which ultraviolet rays are irradiated, it is an object of the present invention to improve a problem in which germs cannot be sterilized in the portion not irradiated with ultraviolet rays.

In order to realize the object of the present invention, a plasma ion generator is installed in the drip tray area installed in the case body so that the positive and negative ions of the plasma can be diffused in the vicinity of the drip tray so that bacteria can be propagated throughout the drip tray. To provide.

1 is a perspective view of a water purifier installed with sterilization means according to the present invention.

2 is an enlarged view of a main part of FIG. 1;

3 is a circuit diagram of a plasma ion generating device according to the present invention.

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

1 is a perspective view showing the external appearance of the water purifier according to the present invention, and the technical matters according to the present invention may be applied to a water purifier having a shape or another shape as shown.

Such a water purifier is provided with a drip tray 4 at an outer front portion of the case 2. The drip tray 4 is provided with a cock 6 connected to a cold water tank (not shown) installed inside the case 2.

In addition, when a hot water tank (not shown) is installed, the cock 8 for receiving hot water is also installed.

On the lower side of these cocks 6 and 8, the drip tray 4 is provided in the front part of the case 2, and the drip tray 4 has a space portion (3) having a shape in which the casing 2 enters inward. h) is formed and the grill member g is provided below this space part.

The grill member g is formed in a substantially cylindrical shape so as to receive the water droplets falling from the cocks 6 and 8 by a predetermined amount.

Since the drip tray 4 is capable of propagating bacteria in a structural manner, the present embodiment provides a plasma generator 10 capable of generating plasma ions over the drip tray 4.

The circuit diagram of this plasma generator 10 is shown in FIG. This circuit diagram only illustrates one circuit capable of generating plasma, and thus does not limit the scope of the present invention.

A line filter 20 for removing noise included in an AC power supply connected to a commercial AC power supply, and an anode terminal connected to an output terminal of the line filter 20 to rectify the filtered AC power supply 22. And a resistor 24 connected to an output terminal of the first diode 22 to limit a current of the rectified power supply, and a thyristor connected to the other end of the resistor 24 to perform a switching function. A first capacitor 28 connected in parallel between the resistor 24 and the thyristor 26 to charge power supplied through the resistor 24, and an output terminal of the thyristor 26. A transformer 30 having a primary coil connected to the secondary coil, one end of which is connected to a secondary coil of the transformer 30, and the other terminal of which is connected to a cation discharge terminal 32; A second diode 36 and a third connected in parallel between both ends of the secondary coil of 30; An anode terminal is connected to the capacitor 38 and the secondary coil of the transformer 30, and the cathode terminal is composed of a third diode 40 connected to the cation discharge terminal 32.

An anion discharge terminal 42 is provided between the anode short of the second diode 36 and the third capacitor 38 connected in parallel between both ends of the transformer 30 and connected in series with each other.

The cation discharge terminal 32 and the negative ion discharge terminal 42 are installed in a state of being exposed to the drip tray 4 of the case 2.

The water purifier of the present invention, which is constituted as described above, suppresses noise interference from the outside while passing through the line filter 20 when a power source is connected.

The power supply passing through the line filter 20 passes only a half wave on the positive side of the sinusoidal power supply when passing through the first diode 22.

This half-wave power supply is repeatedly charged and discharged by the resistor 24 and the first capacitor 28.

At this time, when the battery is charged to the predetermined voltage by the bidirectional thyristor 26, the input frequency is repeatedly switched on and off while transferring the charged voltage to the primary coil of the transformer 30, and the switching frequency is 50 Hz or 60 Hz. Will be sent to the transformer.

When discharge is performed, charging starts by a time determined by the time constant of the resistor 24 and the first capacitor 28, and when the voltage reaches a predetermined voltage, the discharge is repeated again.

As the voltage of the primary coil of the transformer 30 passes through the secondary coil, different voltages according to the number of windings of the coil are emitted to the secondary coil.

At this time, when a voltage of the "+" phase is generated, the second diode 36 becomes conductive and charges the second capacitor 34.

When the phase of the transformer 30 is changed, the third diode 40 is turned on and the third capacitor 38 is charged to obtain double the voltage of the first charged voltage. The positive electrode is discharged while flowing toward the terminal 32, and the negative voltage is discharged while flowing toward the negative electrode discharge 42.

The characteristic of such a circuit is that by connecting a diode and a capacitor to the secondary coil side of the transformer, it is possible to obtain a high voltage without sensing the secondary coil of the transformer, so that less heat is generated. good.

The water purifier according to the present invention has a terminal portion for generating positive and negative ions of plasma in the drip tray portion, so that the ions emitted from these terminals spread in the air and spread over the entire drip portion in the front portion of the water purifier case.

By this action, bacteria adhered around the drip tray and floating various bacteria can be removed by the release of plasma cations and anions.

Therefore, it is possible to use a more hygienic water purifier as compared to the conventional sterilization method by ultraviolet rays.

Claims (2)

Water purifier case; A drip plate installed at the front of the water purifier case and having a cock installed to discharge water contained in the case; And a plasma generator installed at the drip tray to generate plasma ions around the drip tray. The plasma generator of claim 1, wherein the plasma generator comprises: a line filter for removing noise included in an AC power supply connected to a commercial AC power supply; and a first terminal for rectifying the filtered AC power by connecting an anode terminal to an output terminal of the line filter. A diode, a resistor connected to one terminal of an output terminal of the first diode to limit the current of the rectified power source, a thyristor connected to the other end of the resistor to perform a switching function, and between the resistor and the thyristor A first capacitor connected in parallel to charge the power supplied through a resistor, a transformer having a primary coil connected to an output terminal of the thyristors, and one terminal connected to a secondary coil of the transformer, and the other terminal having a cation discharge terminal. A second capacitor connected to the second diode and a third capacitor connected in parallel between both ends of the secondary coil of the transformer; An anode terminal is connected to the secondary coil of the transformer and the cathode terminal is composed of a third diode connected to the cation discharge terminal, and an anion discharge terminal is installed between the anode terminal and the third capacitor of the second diode connected in series with each other. water purifier.