KR20120004892A - Seawater aquarium water purifier suction device - Google Patents

Abstract

The present invention relates to a water purifier that improves the water quality by removing various contaminants in an aquarium or fish farm. The present invention provides a water purifier by purifying various contaminants suspended on the water surface of an aquarium to efficiently improve the water quality. On the other hand, as a plurality of suction holes are formed in the suction pipe up and down, and the suction hole is formed in the upper part of the buoy, the water of the aquarium water purifier that purifies by inhaling various pollutants and sea water suspended on the surface with a pump even if the level of the aquarium is changed. It relates to a suction device.
The main configuration according to the embodiment of the present invention and the aquarium is accommodated; A water purifier installed in the aquarium and provided with a suction port and a pump for suction pumping sea water; the suction pipe is coupled to the suction port of the water purifier and is provided with a plurality of suction holes up and down, and installed in an upright state in the aquarium. and; The buoy is installed on the upper portion of the suction pipe, the suction hole is formed in the upper portion and the guide tube is formed in the lower portion of the suction pipe.

Description

Seawater suction device for aquarium water purifier {Seawater aquarium water purifier suction device}

The present invention relates to a water purifier for improving water quality by removing various contaminants in an aquarium or fish farm, and more specifically, a suction tube having a plurality of suction holes formed at a suction port where seawater is sucked into a pump of a water purifier in an aquarium. It is installed in an upright state, and the suction pipe is fitted with a buoy which flows up and down according to the level of the aquarium, while forming a suction hole in the upper part of the buoy, and floating various kinds of contaminants (foam, excreta, scales, foreign substances, etc.) on the sea surface and the water surface. ) By pumping and purifying, and then circulating through the aquarium to purify various contaminants suspended on the surface of the aquarium, improving the water quality efficiently and forming a plurality of suction holes up and down in the suction pipe. As the hole is formed, various pollutants suspended above the water surface even if the water level in the aquarium changes The present invention relates to a seawater suction device of an aquarium water purifier for purifying the seawater with a pump.

In general, fish markets and various sushi restaurants use aquariums to store and store fish in live fish, and these aquariums contain various pollutants such as excreta and scales of living fish in the presence of seawater. Occurs in large quantities and accumulates at the bottom of the aquarium.

These contaminants are decomposed by microorganisms over time, gradually depleting the dissolved oxygen of seawater, and also toxic to fish as decomposing substances such as nitrate ions (NO3-) and ammonium ions (NH4 +) increase. In addition, as the water quality deteriorates rapidly as nutrients increase, various bacteria breed and become a major cause of fish death and disease.

On the other hand, when the seawater in the aquarium is exchanged, the seawater is first purified to supply the water to the aquarium to use the seawater, or the deep sea water of the relatively clean sea is used as the water, but the water quality of the aquarium is rapidly deteriorated. This often required situation is a setting that takes a small amount of water exchange costs.

In particular, in the summer when the temperature is high, the aquarium's water quality deteriorates more rapidly. Therefore, it is safe because infectious bacteria such as Vibrio choleroe and infectious bacteria such as cholera may occur. There was a difficulty in securing stable seawater.

Therefore, in order to solve the problem of the conventional aquarium seawater, the oxygen is supplied to the conventional aquarium while pumping the seawater with a pump to increase the dissolved oxygen of the seawater, and remove various contaminants such as bubbles, excreta, scales, and foreign substances, thereby improving the quality of the seawater. There is provided a water purifier to improve the quality.

Conventionally, water purifiers in aquariums use the Venturi nozzle to supply oxygen to the seawater pumped by the pump to increase the dissolved oxygen amount and to purify the seawater by separating and removing contaminants such as bubbles, feces and scales. However, since the pump of a water purifier cannot suck and purify various contaminants such as bubbles, scales, and foreign substances suspended on the surface of the water, the purification efficiency of sea water is inferior.

That is, the water purifier of the conventional aquarium as shown in Figure 1, the water purifier 20 is placed on one side of the aquarium 10, the pump 30 is placed in the lower portion of the water purifier 20 to pump the suction of sea water While circulating by means of the suction port 21 where the sea water is sucked into the pump 30, the drain port 22 through which the purified sea water is drained into the aquarium 10, and various contaminants separated and removed from the water purifier 20 (bubble). , Excrement, scales, foreign matters, etc.) is discharged to the outside is installed, the seawater is filtered through the air pipe 21a and foreign matters to supply oxygen to the inlet 21, the seawater is sucked into the pump 30 A suction net 21b is installed.

Therefore, in the conventional water purifier, since the intake port where the seawater of the aquarium is sucked by the pump is located at the bottom of the aquarium, the seawater of the bottom layer is easily sucked by the pump and purified by the water purifier, but various contaminants (bubbles, scales, Foreign substances, etc.) are not inhaled by the pump, so that various bacteria grow as they are continuously suspended on the water and decomposed by microorganisms.

The present invention has been made in order to improve the problems that can not be purified by suctioning the various contaminants suspended on the water surface in the conventional water purifier of the aquarium, by sucking the various contaminants suspended on the water surface of the aquarium with the pump of the water purifier By purifying, the water quality is improved efficiently, and even though the water level of the aquarium is changed, a plurality of suction holes are provided at the suction inlet where the seawater is sucked by the pump of the water purifier to efficiently purify the contaminants and seawater suspended on the water by the pump. The suction pipe is installed in an upright state, and the suction pipe is fitted with a buoy that flows up and down according to the water level of the aquarium, while a suction hole is formed at the upper part of the buoy to suck and clean various pollutants suspended on the sea and the surface with a pump. Then, the seawater suction station of the aquarium water purifier circulated to the aquarium To provide to the primary purpose.

The present invention is to realize the desired object as described above,

An aquarium in which seawater is accommodated; A water purifier installed in the aquarium and provided with a suction port and a pump for suction pumping sea water; the suction pipe is coupled to the suction port of the water purifier and is provided with a plurality of suction holes up and down, and installed in an upright state in the aquarium. and; The buoy is installed on the upper portion of the suction pipe, the suction hole is formed in the upper portion and the guide tube is formed in the lower portion of the suction pipe.

In addition, as a preferred embodiment of the present invention, the air holder in the water purifier is characterized in that the air holder is installed in the interior of the inlet is equipped with an air pipe supplied with oxygen or ozone.

According to an embodiment of the present invention, the suction pipe is formed in the upright state in which the suction pipe is formed in the suction port in which the sea water is suctioned by the pump of the water purifier in the aquarium, and buoys are installed in the suction pipe to flow up and down according to the level of the aquarium On the other hand, a suction hole is formed in the upper part of the buoy, and the various contaminants (bubbles, excreta, scales, foreign substances, etc.) suspended on the sea water and the surface are pumped and purified, and then circulated through the aquarium, whereby By purifying pollutants, the water quality is efficiently improved, and a plurality of suction holes are formed in the suction pipes up and down, and suction holes are formed in the upper part of the buoy, so that various pollutants and sea water suspended on the surface of the aquarium are changed even if the aquarium level is changed. It is to provide the effect of purifying by suction with a pump.

In addition, according to an embodiment of the present invention, since the air holder is built in the intake port through which oxygen is sucked into the pump through the air pipe, the aeration efficiency of oxygen or ozone is increased, thereby increasing the dissolved oxygen content and sterilization power of the seawater, and improving the water quality. It is to provide the effect of keeping the aquarium clean by sterilizing bacteria.

1 is a configuration diagram showing the installation state of the water purifier in the conventional aquarium.
Figure 2 is a block diagram showing an installation state of the water purifier in the embodiment of the present invention.
Figure 3 is an exploded perspective view showing a suction pipe and a buoy in the present invention.
Figure 4 is a sectional view of the main portion showing the installation of the suction pipe and buoy in the present invention.
5 and 6 is a cross-sectional view of the main portion showing the operating state of the buoy in the present invention.
7 is a cross-sectional view showing an installation state of the air holder in the embodiment of the present invention.
Figure 8 is a side cross-sectional view showing an installation state of the air holder in the embodiment of the present invention.

As a preferred embodiment of the present invention, the main point of the present invention is to efficiently improve the water quality by suctioning and purifying various contaminants (bubbles, excreta, scales, foreign substances, etc.) suspended on the water surface of the aquarium with a water purifier pump while maintaining the water level of the aquarium. Even if it is different, the various contaminants and sea water suspended on the water surface is to be sucked by the pump of the water purifier to efficiently purify.

Next, looking at the main configuration of the seawater suction device according to an embodiment of the present invention, the aquarium 10 and the seawater is accommodated; It is installed in the aquarium 10 and the water inlet 21 and the pump 30 is provided with a water inlet pump for suctioning the sea water; includes, and is installed coupled to the inlet 21 of the water purifier 20 A suction pipe 40 is installed in an upright state in the aquarium 10 while a plurality of suction holes 41 are formed up and down; Buoy 50 is inserted into the upper portion of the suction pipe 40, the suction hole 52 is formed on the upper portion and the guide tube 51 is formed on the lower portion (50).

In addition, as a preferred embodiment of the present invention, the water holder 20 is characterized in that the air holder 60 is built in the interior of the suction port 21 is equipped with an air pipe 21a is supplied with oxygen or ozone.

In the main configuration of the embodiment, the aquarium 10 may be embodied in various forms such as a square or a circle, and the seawater is accommodated at an appropriate level in the aquarium 10 as shown in FIG. 10) The live fish and shellfish are stored and kept in a fresh state, and a water purifier 20 is installed at one side of the aquarium 10 to purify and circulate seawater.

The water purifier 20 is a pump 30 for circulating by suction pumping the seawater of the aquarium 10 in the internal space of the main body implemented in the form of a rectangular body, and generates a bubble of fine particles to increase the dissolved oxygen of the seawater An engine, a drain 22 for draining the purified seawater into the aquarium 10, and a discharge pipe 23 through which various pollutants (bubbles, excreta, scales, foreign substances, etc.) separated and removed from the seawater are discharged to the outside. .

In addition, an inlet 21 for connecting seawater to the pump 30 is installed at a lower portion of the water purifier 20, and an air pipe 21a for supplying oxygen or ozone to the inlet 21 is connected to the outside. In addition, the air pipe 21a may inject oxygen or ozone into the inlet 21 according to the quality of the seawater.

That is, the air pipe 21a is for injecting oxygen into the suction port 21 where the seawater is sucked by the pump to increase the dissolved oxygen amount of the seawater, but when the water quality of the seawater rapidly deteriorates and harmful bacteria propagate in the fish and shellfish, Ozone is injected into the suction port 21 through the pipe 21a to sterilize various harmful bacteria to effectively improve the water quality of the seawater.

Accordingly, the water purifier 20 pumps the seawater of the aquarium 10 into the pump 30 through the suction port 21 and is pumped into the aeration pipe, and generates bubbles of fine particles in the aeration pipe to increase the amount of dissolved oxygen while aeration. Foam and contaminants generated by the sea water is discharged to the outside through the discharge pipe 23, where the purified sea water is circulated to the aquarium 10 through the drain 22.

An embodiment of the present invention is to install the suction pipe 40 and the buoy 50 in the suction port 21 in which the seawater of the aquarium 10 is sucked into the pump 30 of the water purifier 20, the suction pipe 40 ) Is installed in an upright state in the aquarium 10 by coupling the elbow 42 to the inlet 21 of the water purifier 20, and in the above buoy 50 is fitted to the upper portion of the suction pipe 40 to float on the water surface It is installed as possible.

In the above main configuration, the suction pipe 40 is installed as an elbow 42 at the end of the suction port 21 in the water purifier 20, as shown in FIGS. It is installed as, a plurality of suction holes 41 are formed at regular intervals on the outer periphery.

The suction pipe 40 is made of a cylindrical pipe, preferably made of PVC pipes with excellent corrosion resistance against seawater, and a plurality of suction holes 41 are formed at regular intervals up and down to pump seawater. It is sucked into the 30, it is installed at a height lower than the water level of the aquarium (10).

In addition, in the above main configuration, the buoy 50 is implemented in a cylindrical shape, as shown in Figures 3 to 4 in the drawing, preferably made of synthetic resin (PVC) excellent corrosion resistance against seawater, the suction hole in the upper center 52 is formed while the guide tube 51 is formed in the lower and upright state, the guide tube 51 is fitted to the upper portion of the suction pipe 40 is installed to be moved up and down.

In the buoy 50 is implemented to have a buoyancy buoyant internal space, three to six suction holes 52 are formed radially in the upper center, the guide tube 51 formed in the up and down standing state in the lower suction pipe It is fitted to the outer periphery of the 40 and moves up and down, where the guide tube 51 is implemented in a suitable length according to the water level of the aquarium (10).

In the buoy 50, the suction hole 52 formed in the upper portion and the guide tube 51 formed in the lower portion penetrate up and down, where the suction hole 52 is positioned above the surface of the aquarium 10 and below the surface of the water. Suspended various contaminants are sucked, and the various contaminants sucked through the suction hole 52 are introduced into the suction pipe 40 through the guide pipe 51.

In the above, the buoy 50 has buoyancy so that the upper surface is located below the water surface of the aquarium 10, as shown in FIGS. 5 to 6 in the drawing, and is sucked in the upper portion of the buoy 50 so as to be located below the water surface. The hole 52 is implemented.

Therefore, the buoy 50 is inserted into the upper portion of the suction pipe 40 is installed so as to move up and down, when the water level of the aquarium 10 is changed, the various contaminants suspended on the water surface flows up and down according to the water level of the aquarium 10 The suction hole 52 is sucked into the suction pipe 40 through the guide pipe 51.

In addition, the embodiment of the present invention is to increase the aeration efficiency of oxygen or ozone to increase the dissolved oxygen amount and sterilization power of sea water, as shown in Figure 7 to 8 through the air pipe (21a) to the pump 30 By installing the air holder 60 in the suction port 21 to be sucked, a cup-shaped air holder 60 is built in the inside of the suction port 21 on which the air pipe 21a is mounted.

One end of the air holder 60 is attached to the inner circumferential surface of the suction port 21, and a suction space 61 is formed between the outer circumferential surface and the inner circumferential surface of the suction port 21 in a direction in which seawater is sucked into the pump 30. The air pipe 21a is mounted on the suction space 61.

Accordingly, when the seawater is sucked into the pump 30 through the inlet 21, the air holder 60 has a high flow rate while the seawater passes through the air holder 60, and a strong suction force acts on the suction space 61. As a large amount of oxygen or ozone is supplied through the air pipe (21a) to increase the aeration efficiency.

In the embodiment of the present invention, since various contaminants suspended on the water surface of the aquarium 10 are sucked into the suction hole 52 of the buoy 50 and purified in the water purifier 20, the water quality is efficiently improved while the aquarium ( Even though the water level of 10) is changed, the buoy 50 flows up and down according to the water level, so that various pollutants and sea water suspended on the water surface are sucked and purified by the pump 30, thereby efficiently improving the water quality of the sea water.

In addition, the embodiment of the present invention by installing the air holder 60 in the intake port 21 in which oxygen is sucked into the pump 30 through the air pipe (21a) to increase the aeration efficiency of oxygen or ozone dissolved oxygen in seawater To improve the water quality by increasing the sterilization and sterilization of various bacteria to keep the aquarium 10 in a clean state.

Meanwhile, in the embodiment of the present invention, the buoy 50 is formed in a cylindrical shape, the suction hole 52 is formed in the upper center thereof, while the buoy 50 is positioned below the surface of the fish, so that the fish are obstructed by the buoy 50. Since it does not approach the suction hole 52 to eliminate the problem that the small fish enters the suction hole (52).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: aquarium 20: water purifier
21: inlet 21a: air tube
22: drain port 23: discharge pipe
30: pump 31: cap
40: suction pipe 41: suction hole
50: Buoy 51: Guide
52: suction hole 60: air holder
61: suction space

Claims (5)

An aquarium 10 in which seawater is accommodated; And a water purifier 20 installed in the aquarium 10 and provided with a suction port 21 and a pump 30 for suction pumping sea water.
A suction pipe 40 coupled to the suction port 21 of the water purifier 20 and having a plurality of suction holes 41 formed up and down and installed in an upright state in the aquarium 10;
The buoy 50 is inserted into the upper portion of the suction pipe 40, the suction hole 52 is formed in the upper portion and the guide tube 51 is formed in the lower portion of the aquarium water purifier, characterized in that it comprises a Seawater suction device.
The method of claim 1;
Seawater suction device of the aquarium water purifier, characterized in that the air holder 60 is built in the interior of the inlet port 21 is equipped with an air pipe (21a) to supply oxygen or ozone from the water purifier (20).
The method of claim 2;
The air holder 60,
One end is attached to the inner circumferential surface of the suction port 21 in the form of a cup, and a suction space 61 is formed between the outer circumferential surface and the inner circumferential surface of the suction port 21 in a direction in which seawater is sucked into the pump 30. Seawater suction device of the aquarium water purifier, characterized in that the air pipe (21a) is mounted on the upper portion (61).
The method of claim 1;
Suction pipe 40,
Aquarium water quality, characterized in that coupled to the end of the inlet 21, the elbow 42, installed in the upright and upright state in the aquarium 10, a plurality of suction holes 41 formed at regular intervals up and down on the outer periphery Seawater suction of clarifier.
The method of claim 1;
The buoy 50 is
The seawater suction device of the aquarium water purifier, characterized in that the inner space is implemented to have a buoyancy, the suction hole 52 formed in the upper portion and the guide tube 51 formed in the lower portion penetrates up and down.

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