KR200320054Y1 - sterilizer equipped in water tank - Google Patents

Abstract

The present invention relates to a sterilization apparatus installed in a reservoir, and the sterilization apparatus is provided with a reservoir for storing and discharging a predetermined amount of water, and a plurality of ozone sterilization units generating ozone and oxygen while being immersed in the reservoir. And an air hose for supplying air to the ozone sterilization unit; and a control box for intermitting supply of air and power to the ozone sterilization unit; and detecting a water level by a water level sensor mounted inside the reservoir. The operation of the ozone sterilization unit is controlled in the control box according to the signal detected by the water level sensor, and the ozone sterilization unit is equipped with an ultraviolet lamp in the hollow part to generate ultraviolet rays by the power supplied from the control box. It is characterized by. This design makes it easy to install not only the newly installed reservoir but also the existing reservoir, and the sterilization ability can be adjusted according to the number of ozone sterilization units to be installed. At the same time, the effect of increasing the sterilization capacity is generated.

Description

Sterilizer equipped in water tank {sterilizer equipped in water tank}

The present invention relates to a sterilization device installed in a water tank (water tank) installed in an apartment or a town house, and more specifically, can be easily installed in a conventionally installed water tank as well as a newly installed water tank. At the same time it is possible to be more effective sterilization, and relates to a sterilization apparatus installed in the reservoir tank that can cope flexibly with the capacity of the reservoir.

In general, the water supply from each source is sterilized and purified, and the water supplied to each household may be contaminated by bacteria due to the aging of the pipe in the process of being supplied, and contaminated surface water may be introduced even when groundwater is used. There is a case. In addition, Gan-Sai Water, which is used to supply living water in areas without widespread water supply facilities, such as in remote villages or island villages, mainly draws ground water, sterilizes it, and supplies it to each site. In the liver abnormality, the sterilization is mainly performed using chlorine (Cl). When the chlorine is introduced into a water tank (water tank) in which water is stored, sterilization is performed due to the strong oxidation of oxygen generated when chlorine is decomposed, but the amount of chlorine and the amount of chlorine introduced must be controlled, and an appropriate chlorine concentration is maintained. Failure to do so may result in a decrease in sterilization, odor or adverse effects on the human body.

However, since the water supply to each household is not provided with a separate disinfection device, there is a problem in that the drinking water in which the contaminated surface water flows due to the aging of the water pipe is inevitably consumed as it is. By doing so, there is a problem in that an operator with expert knowledge of chlorine sterilization is required. In addition, apartments and apartments use common water tanks, but in order to disinfect water supplied from common water tanks like this, a special device is required. There is a problem in that it cannot flexibly cope with the capacity.

Therefore, the present invention is devised to solve the problems as described above, the object of the present invention can be easily installed in the existing reservoir as well as the first newly installed reservoir, and secondly according to the capacity of the reservoir The sterilizing power can be increased or decreased, and the third sterilization can be automatically controlled according to the water level of the reservoir, and the fourth is to provide a sterilization apparatus that can be sterilized by ozone in a space not irradiated with ultraviolet rays.

1 is an overall installation of the sterilization apparatus according to an embodiment of the present invention.

Figure 2 is a perspective view of the ozone sterilization unit mounted to the sterilization apparatus of Figure 1;

3 is a partial cross-sectional view of the ozone sterilization unit of FIG. 2;

* Description of the symbols for the main parts of the drawings *

10: sterilization apparatus, 30: reservoir,

50: control box, 70: ozone sterilization unit,

310: inlet, 320: drain,

510: water level sensor, 710: UV lamp,

720: air hose

The above object is easily achieved by the present invention, the sterilization apparatus installed in the reservoir according to one aspect of the present invention is provided with a reservoir for storing and discharging a certain amount of water, while the inside of the reservoir submerged ozone and oxygen And a plurality of ozone sterilization units for generating; and an air hose for supplying air to the ozone sterilization units; and a control box for intermitting supply of air and power to the ozone sterilization units.

Then, the water level is sensed by the water level sensor mounted inside the reservoir, the operation of the ozone sterilization unit is controlled in the control box according to the signal detected by the water level sensor, the ozone sterilization unit is ultraviolet in the hollow part The lamp is mounted, characterized in that the ultraviolet light is generated by the power supplied from the control box.

In the present invention, the wavelength of the ultraviolet light generated by the ultraviolet lamp includes 253.7nm strong sterilizing power and ultraviolet light of 184.9nm to generate ozone in the air, so that sterilization by ultraviolet rays and ozone sterilization are simultaneously performed. do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be used for the same parts throughout the drawings.

1 is an overall installation of the sterilization apparatus according to an embodiment of the present invention. Sterilization apparatus according to the present invention shown by the reference numeral 10 as shown in the drawing is a control box for supplying and controlling the ozone sterilization unit 70, ozone sterilization unit 70 for generating ozone and ultraviolet light ( 50) and the water level sensor 510 for measuring the water level of the reservoir 30 and transmitting the water level to the control box 50.

The sterilization apparatus 10 is mounted in a water tank 30 commonly referred to as a water tank, the water tank 30 is an upper container as a closed container used in water tanks or liver water used in apartment houses or private houses. Water inlet 310 is formed on the side and the drain port 320 is formed on the lower side.

The ozone sterilization unit 70 has an ultraviolet lamp 710 embedded in a cylindrical shape and is connected to an air hose 720 for supplying air from the outside. In the ultraviolet lamp 710, ultraviolet rays are generated to sterilize.

The ultraviolet ray has various properties depending on the type of wavelength, and the ultraviolet ray wavelength ranges from 100 nm to 400 nm (nanometa, 1 nm = 10-7 cm), with 100 nm to 280 nm being UV-C (short wave) and 280 nm to 315 nm. Are classified into UV-B (medium wave) and 315 nm to 400 nm as UV-A (long wave), and there are various ultraviolet lamps which are means for artificially making these wavelengths most effective. The ultraviolet lamp 710 is abundantly generated UV of 253.7nm, the strongest sterilizing power among the UV-C (short wave) of ultraviolet. Ultraviolet disinfection is effective for most bacteria such as bacteria, viruses and molds, and can be sterilized simply by turning on the germicidal lamp without the need for special operation. to be. Ultraviolet light having a wavelength of 253.7 nm is strong enough to destroy the DNA of microorganisms, and when 1 minute of irradiation with ultraviolet light having a intensity of 100 W, 99% of Escherichia coli, dipyterae, and dysentery bacteria contained in the water are killed. As described above, the ultraviolet rays having excellent sterilizing ability also have a difference in sterilizing power due to the irradiation distance, but the sterilizing power is surely within 20 cm, but the sterilizing power is lowered at 20 cm or more. In addition, since the ultraviolet ray having the property of going straight does not pass through an object, a blind spot is generated which is not irradiated, and the blind spot has a problem that the sterilizing power is lowered even though it is within 20 cm. As described above, sterilization by ozone in addition to ultraviolet rays was adopted to prevent degradation of sterilization power in a blind spot where irradiation distance or ultraviolet rays were not irradiated. The ozone (O3) is a compound through oxidation with a tertiary oxygen atom. Ozone is a blue, water-soluble incomplete gas with a very special smell that can be easily recognized. Ozone is well known as a more powerful oxidant than elemental fluorine and is widely used in water treatment. Ozone inhibits bacteria and viruses 3,125 times faster than chlorine, and is 50% more powerful. In addition to the control of common bacteria such as viruses, fungi, fungi, fungal pathogens, and cysts, E. coli and E. coli can be controlled for feces.

This ozone is generated when plants discharge photosynthesically under conditions such as beaches and forests, when high voltage discharges such as thunder are discharged. Ozone is contained in a small amount of about 0.01 to 0.03 ppm in the natural atmosphere of forests, coasts and alpine, and more than 90% of the global ozone is concentrated in the ozone layer in the stratosphere between 10 and 50 km above ground. Here, the process of producing and extinguishing the oxygen in the air is converted to ozone and reduced by the ultraviolet radiation of the solar tube is repeated.

Examples of artificially generating ozone include ultraviolet lamp, silent discharge, and electrolysis. The ultraviolet lamp system not only contains no toxic nitrogen oxides (NOx) in the generated ozone gas, but also can expect synergistic effects with ultraviolet rays, and this method is called a photooxidation method.

In the present invention, ultraviolet rays are used as a method for generating ozone. In the ultraviolet lamp 710 of the present invention, ultraviolet rays having a wavelength of 184.9. Nm are irradiated, and ozone (O 3) is generated by the ultraviolet rays. That is, the ozone sterilization unit 70 is mounted with an ultraviolet lamp 710, and an air hose 720 is mounted to supply air containing oxygen from the outside. Therefore, the ultraviolet lamp 710 is irradiated with ultraviolet light having a wavelength of 184.9.nm, and when the ultraviolet light is irradiated to oxygen supplied by the air hose 720, the following reaction occurs and a portion of the oxygen molecules are ozone ( O3).

2O3

The ozone sterilization unit 70 has a cylindrical body having a hollow portion and an ultraviolet lamp 710 mounted therein, and a pair of air hoses 720 are provided to inject air from the outside. Accordingly, in the ultraviolet lamp 710, ultraviolet rays having a wavelength of 184.9. Nm are generated in addition to 253.7 nm having strong sterilizing power, and the ultraviolet rays having a wavelength of 184.9. Nm are irradiated to oxygen (O 2) supplied to the ozone sterilization unit 70. Done. Oxygen irradiated with ultraviolet light becomes ozone (O3) through the above process, and the ozone diffuses into the reservoir. Therefore, the ozone sterilization unit 70 should not allow water to penetrate into the inside and allow the ozone to be freely diffused to the outside (see FIG. 2 and FIG. 3). By sterilizing by the ozone in the blind area is not irradiated with the generated ultraviolet rays can be surely sterilized bacteria or viruses contained in the water.

And the water level sensor 510 is mounted at a lower predetermined distance of the reservoir 30, when the water flowing into the reservoir 30 is below a certain level may warn the user about the low water level, the water level sensor 510 The low water level signal is transmitted to the control box 50. Therefore, the control box 50 stops the operation of the ozone sterilization unit 70 by the signal detected by the water level sensor 510. Since the ozone sterilization unit 70 is installed in a plurality, the ozone sterilization unit 70 can determine the number of ozone sterilization units 70 to be mounted according to the capacity of the water storage tank 30. That is, the user decides how many ozone sterilization units 70 to be mounted according to the capacity of the reservoir 30, and simply installs the inside of the reservoir 30.

Sterilization apparatus installed in the reservoir according to the present invention according to the configuration as described above, first, can be easily installed in the existing reservoir as well as the newly installed reservoir, second, the sterilization ability according to the number of ozone sterilization unit installed Since it can be adjusted, it is possible to flexibly respond to the capacity of the reservoir to be installed, and can be easily repaired by the ozone sterilization unit to be separated. Third, the sterilization effect can be controlled automatically according to the water level of the reservoir, and fourth, the marketability of the sterilization apparatus is increased because the sterilization is carried out by ozone in the blind area not irradiated with ultraviolet rays.

What has been described above is just one embodiment for carrying out the sterilization apparatus installed in the water storage tank according to the present invention, the present invention is not limited to the above embodiment, but is claimed in the following utility model registration claims As will be apparent to those skilled in the art to which the present invention pertains without departing from the gist of the present invention, to the extent that various modifications can be made therein.

Claims (4)

It is provided with a reservoir 30 for storing and discharging a certain amount of water, A plurality of ozone sterilization units 70 generating ozone and oxygen while being immersed in the reservoir 30; An air hose 720 for supplying air to the ozone sterilization unit 70; And Sterilization apparatus installed in the reservoir, characterized in that consisting of; control box 50 for intermittent supply of air and power to the ozone sterilization unit (70). The ozone sterilization unit of claim 1, wherein the water level is sensed by the water level sensor 510 mounted in the water tank 30, and the ozone sterilization unit is controlled by the control box 50 according to a signal detected by the water level sensor 510. Sterilization apparatus installed in the reservoir, characterized in that for controlling the operation of the (70). According to claim 1, wherein the ozone sterilization unit 70 is installed in the reservoir, characterized in that the ultraviolet lamp 710 is mounted in the hollow portion is generated by the power supplied from the control box 50 ultraviolet light. Disinfection device. The wavelength of the ultraviolet rays generated by the ultraviolet lamp 710 includes sterilizing power of 253.7 nm and 184.9. Nm of generating ozone in the air. Sterilization apparatus installed in the reservoir, characterized in that.