KR200344989Y1 - A hoalu aquarium abandoned thing clearance and ozone dosage device. - Google Patents

Abstract

The present invention relates to an improved organic matter removal and ozone dispensing device for live fish aquariums, which is capable of efficiently dissolving and supplying ozone that removes organic matter present in live fish aquariums and sterilizes pathogens, into the water contained in the aquarium. 10) in which the tank water w of the live fish aquarium 20 is supplied; The tank water (w) is introduced into the lower portion of the rising channel 111 of the bubble induction pipe 110 fixed to stand in the central portion of the bottom member 100 to seal the lower portion through the inlet pipe 120 to rise. The bubble channel (k) generated while the ozone air is discharged by installing the bubble generating port 220 connected to the hose 210 from the well-known ozone generator 200 is positioned below the rising channel 111. Floating in the upper direction of the 111, the water tank (w) raised to the outlet 112 of the ascending channel 111 is installed downward induction pipe 110 outside the bubble guide pipe 110 to be fixed to the bottom member 100 The water surface (wa) of the water tank (w) is lowered to the descending water channel 131 formed by the 130 is discharged to the return pipe 132, and raised to the outlet 112 of the rising water channel (111) The bubble (k) floated up is buried in the organic material (g) by the surface tension is discharged to the bubble outlet 141, the bubble outlet 141 is formed in the bubble space portion 142 In addition, the organic matter discharge means having one side of the bubble space portion 142 on one side of the bubble (k) is destroyed and the water outlet (143) is discharged to the organic material (g) is discharged ( 140) is configured to include.

Description

A hoalu aquarium abandoned thing clearance and ozone dosage device.

The present invention relates to an improved organic material removal and ozone administration device for live fish aquarium to remove the organic matter present in the live fish aquarium and to efficiently dissolve and supply ozone to sterilize pathogens in the water contained in the aquarium.

In general, live fish used as sashimi is stored in the living state in the aquarium, but the water in the aquarium becomes turbid by the excreta of the live fish.

Therefore, the freshness of the live fish is reduced by the turbid water, which causes the death of customers, and the customers who choose the live fish are impure, resulting in a decrease in sales.

In particular, when the excretion of fish, etc., the pathogens multiply, causing unsanitary problems.

Therefore, attempts have been made to remove organic matter mixed in the water of the aquarium, but in the past, a method of circulating the water in the aquarium with a pump to pass through the filter has been mainly attempted.

However, this method is a method for filtering the organic matter in the filter, so if the filter is not cleaned from time to time, there is a problem that the cumbersome and inconvenience to clean the filter from time to time because the water is not properly circulated by the accumulated organic matter.

Furthermore, organic matter in the water in live aquariums is primarily fish droppings. Since some of the waste is dissolved in water, even if it is not completely removed, even if the water is passed through the filter and put back into the aquarium, the water in the aquarium becomes turbid. It is caused.

Specifically, the excretion of fish, which is an organic substance, generates ammonia nitrogen, so that the decay rate of water quality is increased.

In addition, due to the deterioration of water quality due to the increase of ammonia and nitrite due to the corrosion of heavy metals and excreta in the tank water, various fish diseases occur, which leads to the death of fish, which causes economic loss. It will lead to problems that come with pain and discomfort.

In addition, ozone having a sterilizing effect is administered to live fish aquariums to sterilize Vibrio bacteria. Previously, ozone gas was directly injected into the aquarium to be dissolved so that it could not be dissolved properly, resulting in inefficiency. .

In other words, in the past, turbid water by organic matter was frequently exchanged. Thus, water in which ozone gas is dissolved is exchanged. Therefore, ozone gas must be dissolved in the exchanged water. Since this takes a long time to sterilize Vibrio bacteria, etc. in the live aquarium, there is a problem that can not be seen as sterilization in a complete state.

The present invention is to provide an organic material removal and ozone administration device for live fish aquariums that can efficiently remove the organic substances present in the tank water by using the bubbles generated to dissolve the ozone component in the tank water of the live fish aquarium. There is a purpose.

The present invention for achieving the above object, in that the tank water of the live fish aquarium by the pump; Water tank water flows through the inlet pipe to the rising channel of the bubble induction pipe, which is fixed to stand in the center of the bottom member to seal the lower portion, and the bubble is connected to the lower portion of the rising channel by a hose from a known ozone generator Since the sphere is installed so that the ozone air is released, bubbles generated are floated upward in the upward channel, and the water tank raised to the outlet of the upward channel is installed in the downward guide pipe installed outside the bubble guide pipe to be fixed to the bottom member. The air bubbles are lowered to the descent channel formed by the discharge channel and discharged to the return pipe, and the air bubbles floating on the surface of the tank water raised to the outlet of the upward channel are discharged to the bubble outlet by buried organic matter by the surface tension, and the air bubbles are disposed above the bubble outlet. A space portion is provided, and bubbles are destroyed at one side surface of the bubble space portion and water bubbles and organic matter which become water are discharged. Characterized in that the drain comprises a discharge means for organic matter.

1 is a schematic view showing a state of use of the present invention,

2 is an overall perspective view of the device of the present invention,

3 is a longitudinal cross-sectional view illustrating the operation of the device of the present invention;

4 is an enlarged cross-sectional view taken along line Y-Y 'of FIG. 3;

Figure 5 is an enlarged cross-sectional view of the organic material discharge means according to the present invention.

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

100: bottom member 110: bubble induction pipe

111: ascending path 112: exit

120: inlet pipe 130: descending induction pipe

131: Descending 132: return pipe

140: organic matter discharge means 141: bubble outlet

142: bubble space 143: water outlet

200: ozone generator 220: bubble generator

1 is a configuration diagram showing a state in which the device of the present invention is installed, FIG. 2 is a perspective view of the device of the present invention, and FIG.

Referring to Figure 1, the device of the present invention is a live fish tank (w) of the live fish aquarium 20 is pumped into the inlet pipe 120 by the pump (10, 10 ') through the return pipe 132 again live fish aquarium ( 20) to be installed and used for return.

In addition, the present device is installed so that ozone air generated from the ozone generator 200 is supplied to the inside through the bubble generating port 220 connected to the hose 210.

Referring to Figure 2, the device of the present invention has a bottom member 100 for sealing the bottom, the bottom member 100 is to be fixed to the ground firmly such as an anchor bolt (not shown) The flange 101 and the plurality of holes 102 are provided.

Referring to FIG. 3, the device of the present invention forms the rising channel 111 by fixing the bubble induction pipe 110 to stand in the center of the bottom member 100.

Therefore, the water tank (w) is introduced through the inflow pipe 120 connected to the lower portion of the rising channel 111 to have a water flow rising.

In addition, a bubble generation port 220 connected to the hose 210 from the well-known ozone generator 200 is positioned below the ascending channel 111.

Therefore, the bubble (k) is generated while the ozone air is released through the bubble generation port 220. Since the bubble generation port 220 is a known component, detailed drawings and descriptions thereof will be omitted.

Bubble (k) generated in the bubble generation port 220 is generated innumerable bubbles (k) is raised in the upward direction of the rising channel 111 by buoyancy, at this time bubble (k) and tank water (w) The ozone component is dissolved in the water tank w.

As the ozone component is dissolved, the water tank w raised to the outlet 112 of the rising channel 111 is lowered by the induction pipe 130 installed outside the bubble induction pipe 110 so as to be fixed to the bottom member 100. It is lowered to the formed descent channel 131 is discharged to the return pipe 132 is returned to the live fish aquarium 20.

Accordingly, the tank water w of the live fish aquarium 20 is continuously supplied with the tank water w in which the ozone component required for bacterial sterilization is dissolved.

On the other hand, the water tank w raised to the outlet 112 of the rising channel 111 is in a state of maintaining the water surface wa drained to the falling channel 131 without rising above a certain threshold. Maintaining this wa state allows to adjust and maintain the pumping pressure of the pump 10.

That is, by adjusting the pumping pressure of the pump 10, the water tank (w) is raised only up to a slightly higher position at the outlet 112 of the ascending channel 111, and then descends to the descending channel 131.

Therefore, the organic material (g) that is present in the tank (w) with the bubble (k) to rise up along the ascending path (111) floats on the surface (wa) and then roams in place.

In addition, countless bubbles (k) also floats on the surface (wa) is overflowing because the bubbles (k) is the bubble outlet of the organic material discharge means 140 is installed in the upper end of the induction pipe 130 ( It is raised through the 141 is introduced into the bubble space 142.

At this time, as shown in Figure 5 the organic matter (g) floating on the surface (wa) is buried in the bubble (k) by the surface tension is discharged to the bubble outlet 141 is introduced into the bubble space portion 142.

That is, since the organic substance (g) is excreted from the live fish, it is released into small particles in the tank water (w), so that the organic substance (g) is in a state having a size of a very small particle size rather than the bubble (k) size.

Therefore, the organic material (g) is buried by the surface tension of the bubble (k) or is pushed by the numerous bubbles (k) to be introduced into the bubble space portion 142.

The bubble space portion 142 is configured to include a water outlet 143 through which bubbled water k made from broken water k becomes organic and organic material g are discharged.

Therefore, as the bubble (k) flowing into the bubble space portion 142 is gradually pushed upward and destroyed, it becomes bubble water (kg) and flows down to the bubble space portion 142 together with the organic matter (g). It is to be discharged through the drain 143 to be sewage treatment.

And since the above-described action proceeds continuously, the tank of water (w) of the live fish aquarium 20 is always kept clear and at the same time the tank of water dissolved in ozone (w) is continuously supplied to the live fish aquarium 20 Sterilization can be maintained at all times. On the other hand, since ozone has a characteristic of being converted back to oxygen after a certain time (20-30 minutes) has elapsed, the tank water in which the ozone component is dissolved may continue to be supplied.

According to the above description, it is possible to efficiently remove the organic matter present in the tank water by using the bubbles generated in order to dissolve the ozone component in the tank water of the live aquarium, thereby reducing the recovery of water in the aquarium At the same time, it provides an effect of preventing various diseases and fish deaths caused by the deterioration of water quality in the past.

In addition, since the ozone component having sterilizing power is continuously supplied, the tank water is sufficiently dissolved, thereby greatly reducing the occurrence of moss or mold and sterilizing various bacteria, thereby providing a homogeneous and fresh live fish.

Claims (1)

In which the tank water w of the live fish aquarium 20 is supplied by the pump 10; The tank water (w) is introduced into the lower portion of the rising channel 111 of the bubble induction pipe 110 fixed to stand in the central portion of the bottom member 100 to seal the lower portion through the inlet pipe 120 to rise. The bubble channel (k) generated while the ozone air is discharged by installing the bubble generating port 220 connected to the hose 210 from the well-known ozone generator 200 is positioned below the rising channel 111. Floating in the upper direction of the 111, the water tank (w) raised to the outlet 112 of the ascending channel 111 is installed downward induction pipe 110 outside the bubble guide pipe 110 to be fixed to the bottom member 100 The water surface (wa) of the water tank (w) is lowered to the descending water channel 131 formed by the 130 is discharged to the return pipe 132, and raised to the outlet 112 of the rising water channel (111) The surface of the bubble (k) floated up is buried in the organic material (g) by the surface tension is discharged to the bubble outlet 141, the bubble outlet portion 142 is formed on the top of the bubble outlet 141 In addition, an organic material discharging means 140 having a bubble water ka and a water discharge port 143 through which the bubble k is destroyed and the organic material g is discharged under one side of the bubble space part 142. Organic material removal and ozone administration device for a live fish aquarium, characterized in that configured to include.