KR20150048585A - A water cleaning and sterilizing device for live fish - Google Patents

Abstract

The present invention relates to a water sterilizing and purifying device for a live fish aquarium. More specifically, when purifying water by using a plasma, ozone and contaminant gas diluted in water are separated from water and purified. The water sterilizing and purifying device for a live fish aquarium according to the present invention comprises: a case; a pump prepared in the case and pumping up water from an aquarium disposed in the outside through a first pathway prepared as a hose; a plasma sterilizer formed as a cylinder having a separate internal space therein in the case, feeding the water therein through a second pathway connected to the pump, and converting the water into sterilized and purified water by using a plasma; a gas and liquid separator formed as a cylinder having a separate internal space therein in the case, feeding the sterilized water through a third pathway connected to the plasma sterilizer, and separating ozone and residual contaminant gas diluted in the sterilized water by using a bubble generator; and an air purifier formed as a cylinder having a separate internal space therein in the case, feeding the ozone and residual contaminant gas therein through a fourth pathway connected to the gas and liquid separator, and purifying the same to be discharged to the outside. The gas and liquid separator includes the bubble generator, thereby effectively separating the ozone and residual contaminant gas diluted in the sterilized water.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a sterilization and purification apparatus for a living fish aquarium,

More particularly, the present invention relates to a sterilization and purification apparatus for a living fish aquarium which is capable of separating ozone and polluted gas diluted in water with water in the process of purifying water by using plasma .

Generally, one of the methods for purifying an aquarium water is a plasma purification method. That is, a plasma is generated to promote generation of OH radicals having higher oxidizing power than ozone and chlorine, thereby binding hydrogen peroxide and ultraviolet rays to purify water quality in the aquarium.

However, the above plasma cleaning method has a problem that a small amount of ozone and OH radicals are diluted in water and evaporates to the outside, causing air pollution.

In addition, the plasma-based purification method has a problem in that a small amount of ozone and OH radicals are diluted in water, and the survival rate of live fish is lowered.

In addition, the plasma purification method has a problem that hydrogen, nitrogen, and ammonia diluted in contaminated water can not be completely removed.

Korean Patent Publication No. 10-2011-0069400 (June 23, 2011) Korean Public Utility Model 20-2007-0001299 (December 17, 2007)

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an sterilizing water purification apparatus for a living fish aquarium which is capable of effectively separating ozone and a small amount of polluted gas generated by a plasma sterilization purification method with water, An object of the present invention is to provide a water purification apparatus.

It is another object of the present invention to provide a sterilization and purification apparatus for a living fish aquarium that can separate water from ozone and a small amount of polluted gas into aquarium so that the survival rate of live fish can be increased. .

It is another object of the present invention to provide a sterilization and purification apparatus for a living fish aquarium which is capable of decomposing ozone and a small amount of polluted gas.

The sterilizing water purification apparatus for a living fish tank according to the present invention comprises: a case; A pump provided inside the case and pulling up water from an outside aquarium through a first flow path provided as a lake; A plasma sterilizer provided in a cylindrical shape having a separate internal space inside the case and converting the water into sterilized and purified sterilized water by flowing the water into the inside through a second flow path connected to the pump; The sterilizing water is introduced into the inside of the case through a third flow path connected to the plasma sterilizer and the ozone diluted in the sterilizing water and the residual ozone A gas-liquid separator for separating polluted gas and the like; An air purifier for purifying the ozone and the residual pollution gas through a fourth flow path connected to the gas-liquid separator and purifying the ozone and discharging the polluted gas to the outside; And the gas-liquid separator includes the bubble generator, so that the ozone and the residual polluted gas diluted in the sterilized water are effectively separated.

The gas-liquid separator is disposed adjacent to a side surface of the gas-liquid separator so as to flow the sterilizing water flowing through the third flow path along the inner surface of the gas-liquid separator to separate ozone and polluted gas from the sterilizing water A gas discharge unit for passing the ozone and the polluted gas to the air purifier, and a gas discharge unit for discharging the sterilized water to the inside of the air purifier, And a water discharging portion for discharging the sterilizing water into an aquarium.

The water discharge unit may include a first water discharge member extending upwardly through the bottom surface of the gas-liquid separator, the first water discharge member being provided with a tube shielded upward, and a tube extending laterally from the middle of the first and second water discharge members A third water discharge port extending from the extended end of the second water discharge member to a position adjacent to the bottom surface of the gas-liquid separator, and a second water discharge port extending from the upper end of the bubble separator, And a fourth water discharging part which is provided with a tube penetrating through the water discharging opening to allow the water to flow well into the water discharging opening.

The air purifier further includes a first moisture filtering network for filtering the moisture contained in the ozone and the polluted gas flowing through the fourth flow path, and a second moisture filtering network for purifying the ozone and the polluted gas filtered through the first filtering network, A second moisture filtering network for filtering the moisture contained in the ozone and the polluted gas once more by the active carbon portion and the moisture filtered by the first moisture filtering net and the second moisture filtering net, And a sponge portion.

The air cleaner is provided to extend from the lower end of the water discharging portion and is formed by winding up a lake filled with a predetermined amount of water so as to prevent the outside air from flowing back into the inside of the air cleaner And a water-discharging flow path portion.

According to the solution of the above-mentioned problems, the sterilizing water purification device for a living fish aquarium according to the present invention has an effect of effectively separating ozone and polluted gas by a water injecting part and a bubble generator.

In addition, water separated from the ozone and the polluted gas by the water discharge unit can be discharged to the aquarium, thereby increasing the survival rate of the live fish.

In addition, the sterilizing water purifying apparatus for a living fish aquarium according to the present invention has an air purifier capable of decomposing ozone and a small amount of polluted gas generated in the plasma sterilization process, thereby preventing air pollution.

1 is a front view for explaining a sterilization and purification apparatus for a living fish aquarium according to an embodiment of the present invention.
2 is a cross-sectional view showing a gas-liquid separator of a sterilizing / purification device for a living fish aquarium according to the present invention.
3 is a cross-sectional view showing an air purifier of a sterilizing / purification device for a living fish aquarium according to the present invention.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view for explaining a sterilizing and purification apparatus for a living fish aquarium according to an embodiment of the present invention; FIG.

2 is a cross-sectional view showing a gas-liquid separator of a sterilizing / purification device for a living fish aquarium according to the present invention.

3 is a cross-sectional view showing an air purifier of a sterilizing / purification device for a living fish aquarium according to the present invention.

1 to 3, a sterilization and purification apparatus 100 for a living fish aquarium according to the present invention includes a case 110, a pump 120, a plasma sterilizer 130, a gas-liquid separator 140, and an air purifier 150).

The pump 120, the plasma sterilizer 130, the liquid separator 140, and the air cleaner 150 are provided in the case 110, respectively.

The pump 120 is provided as a lake and includes a first flow path 121 through which water flows in an aquarium outside. At this time, the pump 120 pulls up the water from the aquarium.

The plasma sterilizer 130 includes a second flow path 131 provided in a cylindrical shape and connected to the pump 120. At this time, the second flow path 131 serves to receive the water drawn up by the pump 120 into the plasma sterilizer 130. The plasma sterilizer 130 generates plasma in water to generate chemically active species such as ultraviolet rays, shock waves, hydrogen ions, oxygen, radicals, and hydrogen peroxide, and is dissolved in the water to remove contaminants.

That is, the plasma sterilizer 130 serves to purify the water.

At this time, the purified water becomes a state in which a small amount of ozone and contaminated gas are diluted.

The gas-liquid separator 140 includes a third channel 141 provided in a cylindrical shape and connected to the plasma sterilizer 130 and a third channel 141 provided adjacent to the side surface on the upper surface of the gas-liquid separator 140, A gas discharge port 144 for discharging the ozone and the polluted gas separated from the water contained in the gas-liquid separator 140, and a gas discharge port 144 for separating the ozone and the polluted gas And a water discharge unit 145 for discharging the water to the outside.

The water injection unit 143 flows down through the inner wall of the gas-liquid separator 140 through the third flow path 141. At this time, the water slowly flows down on the inner wall of the gas-liquid separator 140, and the ozone and the polluted gas which are diluted in the water float upward and are primarily separated.

The water discharge unit 145 includes a first water discharge member 146 and a second water discharge member 146. The first water discharge member 146 extends upward from the bottom of the gas-liquid separator 140, ) Adjacent to the bottom surface of the water discharge portion 145 at the end extending to the side surface of the second water discharge member 147 and the second water discharge member 147 provided by the pipe extending from the middle to the side of the upper and lower rooms A third water discharging member 148 provided as an extended tube and a second water discharging member 148 penetrating from the upper end of the first water discharging member 146 to the upper end of the water discharging portion 145 And a fourth water discharge member 149 provided in the pipe.

Liquid separator 140. Water is injected from the inner bottom surface of the gas-liquid separator 140 by the water injector 143, and water flows along the inner wall of the gas-liquid separator 140. The water flows from the lower end of the third water discharging member 148 to the first water discharging member 146 when the water is heated up to the second water discharging member 147, The water is discharged to the outside of the gas-liquid separator 140.

The ozone and the contaminated gas float upward until the water that has flowed from the inside of the gas-liquid separator 140 is discharged through the water discharge unit 145.

The gas-liquid separator 140 may further include a bubble generator 142.

When the bubble generator 142 is supplied with electric power, the ferrite core operates as an electromagnet around the coil, and a magnetic force generated by the magnetic bubble generator 142 is applied to the magnets 142 So that the air is discharged into the gas-liquid separator 140.

That is, the bubble generator 142 continuously generates bubbles until the water is discharged through the water discharge part 145, thereby promoting decomposition of the ozone and the polluted gas.

At this time, the separated ozone and the polluted gas are floated above the gas-liquid separator 140 and discharged to the gas discharge unit 144.

The air cleaner 150 is provided in a cylindrical shape. The air purifier further includes a fourth flow path coupled to the gas discharge unit and extending to a side surface of the air purifier 150 and a fourth flow path that filters the ozone and polluted gas, The first moisture filter 152 and the activated carbon 153 for purifying the ozone and the polluted gas that have passed through the first moisture filtering net and filtered by the moisture and the ozone and the polluted gas purified at the active end 153 And a sponge portion 154 for absorbing the moisture filtered by the first moisture filtering network and the second moisture filtering network.

That is, the ozone and the polluted gas rising upward from the inside of the gas-liquid separator 140 are flowed into the air purifier 150 through the fourth flow path 151.

Thus, the ozone and the polluted gas flowing into the air purifier 150 contain a small amount of moisture, so that the moisture is primarily filtered through the first moisture filtering network 152. The ozone and the polluted gas, which are primarily filtered by the water, are purified by the activated carbon portion 153 while rising upward from the inside of the air cleaner 150, and are secondarily purified by the second moisture- Moisture is filtered out.

That is, the water is completely removed and the purified gas is discharged to the outside, thereby preventing air pollution.

At this time, the moisture filtered by the first moisture filtering network 152 and the second moisture filtering network 154 is absorbed into the sponge unit 155 while falling downward.

The air purifier 150 further includes a water drain passage part 156 provided to the lower end of the air purifier 150 to discharge the water falling downward beyond the absorption amount of the sponge part 155 to the outside.

At this time, the water discharging passage portion 156 is wound in an upward and downward direction so as to prevent air from flowing backward from the outside, and the water is filled up by a position where the upper and lower rooms are wound once.

In the sterilizing and purifying apparatus 100 for a living fish aquarium according to an embodiment of the present invention, the ozone and the polluted gas are diluted in the water during sterilization of water using plasma. At this time, ), The aquarium water is caused to flow along the inner wall surface of the gas-liquid separator 140 to obtain a primary gas-liquid separation effect, and the gas-liquid separating effect is maximized by the bubble generator to be diluted with the water The ozone, the polluted gas, and the like can be effectively separated from the water.

Also, the sterilizing and purification device 100 for a living fish aquarium according to the present invention can purify the ozone, the polluted gas, and the like by the air purifier 150, thereby preventing air pollution.

In addition, the sanitization and purification device 100 for a living fish aquarium according to the present invention can purify water in an aquarium in real time, and can effectively increase the survival rate of live fish.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

100: sterilizing water purification device for live fish aquarium
110: Case 120: Pump
121: first flow path 130: plasma sterilizer
131: Secondary flow pathway 140: Gas-liquid separator
141: third flow path 142: bubble generator
143: water injection part 144: gas discharge part
145: water discharge part 146: first water discharge member
147: second water discharging member 148: third water discharging member
149: fourth water discharging member 150: air purifier
151: fourth flow pathway 152: first water flow-
153: active end 154: second moisture-
155: sponge part 156: water discharge channel part

Claims (5)

case;
A pump provided inside the case and pulling up water from an outside aquarium through a first flow path provided as a lake;
A plasma sterilizer provided in a cylindrical shape having a separate internal space inside the case and converting the water into sterilized and purified sterilized water by flowing the water into the inside through a second flow path connected to the pump;
The sterilizing water is introduced into the inside of the case through a third flow path connected to the plasma sterilizer and the ozone diluted in the sterilizing water and the residual ozone A gas-liquid separator for separating polluted gas and the like;
An air purifier for purifying the ozone and the residual pollution gas through a fourth flow path connected to the gas-liquid separator and purifying the ozone and discharging the polluted gas to the outside; Lt; / RTI >
Wherein the gas-liquid separator includes the bubble generator, and effectively separates the ozone and residual polluted gas diluted in the sterilized water. The method according to claim 1,
The gas-
A water injector provided adjacent to a side surface of the inner upper surface to flow the sterilized water flowing through the third flow path along the inner surface of the gas-liquid separator to separate ozone and polluted gas from the sterilized water;
A gas discharge portion provided in a pipe which penetrates the upper surface and is connected to the fourth flow path and circulates the ozone and the polluted gas to the air purifier,
And a water discharging portion for discharging the sterilizing water to the aquarium if the sterilizing water flowing into the inside of the aquarium goes up to 3/1. 3. The method of claim 2,
The water-
A first water discharging member extending upwardly through the bottom surface of the gas-liquid separator and provided with a tube shielded upward;
A second water discharging member provided with a tube extending to the side of the upper and lower sides of the first water discharging member,
A third water outlet portion extending from an extended end of the second water discharge member to a position adjacent to a bottom surface of the gas-liquid separator,
And a fourth water discharging part provided in a tube penetrating from the upper end of the first water discharging member to the upper end of the bubble separator and allowing the water to flow well into the water discharging port. Device. The method according to claim 1,
The air purifier includes:
A first moisture filtering network for filtering moisture contained in the ozone and the polluted gas, which are flowed by the fourth flow path,
An activated carbon part for purifying the ozone and the polluted gas filtered through the first filtering net,
A second moisture filtering net for once filtering the moisture contained in the ozone and the polluted gas purified by the activated carbon,
And a sponge portion for absorbing the moisture filtered by the first moisture filtering network and the second moisture filtering network. 5. The method of claim 4,
The air purifier includes:
And a water discharge channel portion provided in a tube penetrating the lower end and being provided in a shape that the water filled in the predetermined amount of water is wound upwards and downwards so that the outside air does not flow back into the inside of the air cleaner And the sterilizing water purification device for a living fish aquarium.

Images