KR101060526B1 - Oxygen dissolution apparatus - Google Patents

Abstract

PURPOSE: An oxygen dissolution machine is provided to improve dissolution efficiency of oxygen by increasing contact area of oxygen and water. CONSTITUTION: An oxygen dissolution machine comprises: a pump(100) pumping water in a cistern; a high pressure oxygen container(200) which is filled with high pressure oxygen; a first oxygen dissolution container(310) which is provided with oxygen and dissolves the oxygen; a second oxygen dissolution container(320) which is connected to the first oxygen dissolution container and continuously dissolves oxygen; a third oxygen dissolution container which is connected to the second oxygen dissolution container and continuously dissolves oxygen; and a spray nozzle(400) which is connected to the third oxygen dissolution container and sprays mixed water and oxygen to the inside of the cistern.

Description

Oxygen Dissolver {Oxygen Dissolution Apparatus}

The present invention relates to an oxygen dissolver, and more particularly, to an oxygen dissolver capable of effectively supplying oxygen to a tank requiring a large amount of dissolved oxygen as a large amount of fish is fished in a narrow space such as a circulating fish farm.

In general, a device for supplying oxygen to a fish tank for long-term survival of fish in a live fish state, as well as in fish tanks of freshwater or sea water, as well as in tanks of vehicles carrying farmed live fish, or tanks for storing and displaying live fish. I'm using.

BACKGROUND ART A device for supplying oxygen to a fish farm, a transportation tank, a fish tank, an aquarium, and the like, which is used in the related art, generally uses oxygen supplied from an oxygen cylinder, an electrical or mechanical oxygen generator only by the pressure inside the oxygen cylinder or the pressure of the oxygen generator itself. The apparatus of the method which supplies and supplies this supplied oxygen through a porous diffuser is used.

However, in the conventional oxygen supply device as described above, the oxygen supplied to the water tank or the fish farm is directly injected into the water while being supplied through the diffuser, so that the bubble particles of the oxygen emitted from the diffuser are significantly larger. Squirt.

In addition, immediately after the ejection, oxygen of a large bubble is discharged and bubbles are combined with each other to form a larger bubble. Therefore, not only the surface area of the entire oxygen bubbles in contact with water is reduced, but also the size of the bubbles is large, so that the rate of floating in the water is very fast, and the amount of oxygen dissolved in the water is reduced, so that the oxygen dissolution efficiency is not good. Such a conventional oxygen dissolver is a reality that the waste of oxygen is severe due to the low dissolved efficiency of oxygen.

As a result, a large amount of oxygen input is required for efficient fish tank operation, which is uneconomical.

Accordingly, the present invention is to solve the problems described above, an object of the present invention is to provide an oxygen dissolver that can reduce the oxygen supply amount by increasing the dissolved efficiency of oxygen by increasing the exposure area and the exposure time of oxygen. There is.

Another object of the present invention is to provide an oxygen dissolver which is easy to install and compact.

Still another object of the present invention is to provide an oxygen dissolving device that saves energy by reducing power scale in a water supply pump as the oxygen dissolution efficiency increases.

Oxygen dissolving device of the present invention for achieving the above object, the pump for pumping water of the tank; High pressure oxygen communication with high pressure filled oxygen; Directly connected to the pump and the water pipe is supplied with water, connected to the high-pressure oxygen communication and oxygen pipe, and supplied with the injected oxygen through the oxygen nozzle attached to the inside, the supplied water and oxygen is bent to flow and mix with each other and bump A first oxygen dissolving barrel for dissolving it; A second oxygen dissolving barrel connected to the first oxygen dissolving barrel and mixed with the first oxygen dissolving tank to allow the water and oxygen to bend again to continue to dissolve the oxygen while being mixed with each other and colliding with each other; A third oxygen dissolving barrel connected to the second oxygen dissolving barrel to continuously dissolve the oxygen while stirring and bumping the mixed water and the oxygen to bend again; It is connected to the third oxygen melting tank and the water pipe and comprises a spray nozzle for spraying into the tank.

Here, the first oxygen melting cylinder is a cylindrical with one side end is open in a plurality of vandal-shaped diaphragm in the left or right or up and down at a predetermined interval along the central axis, a plurality of injection plate or a plurality of holes formed on the water pipe side is mounted It is characterized by being.

The second oxygen melting cylinder has a cylindrical shape in which left and right sides are blocked, and a plurality of half moon-shaped diaphragms are installed at predetermined intervals along a central axis in a left, right, or up and down direction.

In addition, the third oxygen melting cylinder is characterized in that a plurality of half-moon-shaped diaphragm is installed at predetermined intervals along the central axis in the left and right or up and down in a cylindrical shape with one end open.

In addition, the oxygen melting tank is characterized in that connected in series with each other.

And, the second oxygen melting cylinder is characterized in that the plurality is connected in series.

Further, the second oxygen melting cylinder is provided with a pressure gauge for measuring and displaying the pressure inside.

In addition, the second oxygen melting cylinder is characterized in that the control valve for adjusting the pressure of the oxygen supplied from the high-pressure oxygen cylinder and the oxygen pressure gauge indicating the pressure of the supplied oxygen is provided.

In addition, it is preferable to increase the degree of diffusion by using an enlarged tube in the first oxygen melting cylinder and a reduction tube in the third oxygen melting cylinder to improve the pressing force.

In addition, the oxygen melting tank is characterized in that the heat is connected in a multi-layer.

As described above, the present invention has the effect of reducing the oxygen supply amount by improving the dissolved efficiency of oxygen by increasing the area and time (path) that oxygen is in contact with water.

In addition, there is an effect that can be increased by using the expansion tube on the inlet side and to increase the pressing force by using a reduction tube on the outlet side.

In addition, the present invention has the advantage of being compact, easy to install and requires less space by configuring a multi-layer multi-row.

In addition, it is also possible to save energy by reducing the power scale supplied from the water supply pump.

1 is a perspective view showing an oxygen dissolved in accordance with an embodiment of the present invention,
2 is a cross-sectional view showing each oxygen dissolving tank of the oxygen dissolving unit of FIG. 1;
3 is a view showing the water flow inside the oxygen melting tank,
Figure 4 is a perspective view showing a jet plate and a diaphragm structure mounted on the oxygen dissolving tank of the oxygen dissolving machine according to an embodiment of the present invention.

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

1 is a perspective view showing an oxygen dissolver according to an embodiment of the present invention, the oxygen dissolver according to an embodiment of the present invention is a pump 100, high pressure oxygen communication 200, oxygen dissolving tank (310, 320, 330), injection It is configured to include a nozzle (400).

The pump 100 pumps water from a tank (not shown) and supplies it to the oxygen dissolving tanks 310, 320, and 330, and circulates the water in the tank by spraying the dissolved oxygen again through the injection nozzle 400. Let's do it.

The high pressure oxygen cylinder 200 is filled with oxygen at a high pressure to supply oxygen to the oxygen melting tanks 310, 320, and 330 which will be described later.

Oxygen dissolving tank (310, 320, 330) is largely divided into the oxygen dissolving tank in series, the first oxygen dissolving tank 310 is directly connected to the pump 100 and the water pipe (P) to receive water It is connected to the high-pressure oxygen communication 200 and the oxygen pipe (P ') and receives the oxygen injected through the oxygen nozzle 410 attached to the inside, so that the supplied water and oxygen flows bent as shown in FIG. To mix and bump together to dissolve the oxygen.

The second oxygen dissolving barrel 320 is connected to the first oxygen dissolving barrel 310 and mixed with each other to allow the water and oxygen to be swept back so that the oxygen dissolves and mixes with each other.

The third oxygen dissolving barrel 330 is connected to the second oxygen dissolving barrel 320 and is mixed with each other to allow the water and oxygen to be swept back to mix and collide with each other to continuously dissolve the oxygen.

Finally, the injection nozzle 400 is connected to the third oxygen dissolution tank 330 and the water pipe (P) to increase the amount of dissolved oxygen in the water tank by spraying the mixed water and oxygen into the water tank.

2 is a cross-sectional view showing each oxygen dissolving tank (310, 320, 330) of the oxygen dissolving unit according to an embodiment of the present invention, each oxygen dissolving tank (310, 320, 330) is a cylindrical shape as a whole And, the connector 360 is formed to be connected to each other.

The first oxygen melting cylinder 310 has a cylindrical shape with one side end open, and a plurality of half moon-shaped diaphragms 303 are mounted at predetermined intervals along a central axis in a left-right or up-down direction, and a plurality of holes are formed in the water pipe P side. A circular spray plate 304 is mounted.

As shown, in the inlet space 313, the oxygen inlet pipe 311 and the water inlet 312 is formed and separated by the injection plate 304 is mixed with the incoming water and oxygen while a large oxygen bubble (Oxygen droplets) are formed, and large water droplets are crushed into the mixing space while water and oxygen pass through the injection plate 304.

The finely broken oxygen droplets moved to the mixing space will immediately clump together to form large oxygen droplets, so they must be crushed again to increase the contact area with water to increase the chance of oxygen dissolving in the water.

Accordingly, as shown in FIG. 3, the oxygen droplets are crushed again by hitting the diaphragm 303 and the inner wall by being swept by the various diaphragms 303, thereby increasing the total surface area of the oxygen droplets again, thereby increasing the amount of oxygen. Is dissolved in water. In other words, the oxygen droplets are crushed and aggregated repeatedly.

The same action as above also works in the second oxygen melting cylinder 320 and the third oxygen melting cylinder 330.

The second oxygen melting cylinder 320 has a cylindrical shape in which left and right sides are blocked, and a plurality of half moon-shaped diaphragms 303 are mounted at predetermined intervals along a central axis in a left-right or up-down direction.

The third oxygen melting cylinder 330 has a cylindrical shape with one side end open, and a plurality of half moon-shaped diaphragms 303 are mounted at predetermined intervals along the central axis in left or right directions.

As such, the oxygen dissolving device according to the present invention keeps the contact surface in contact with water wide because the injected oxygen is continuously broken into the diaphragm 303 and the inner wall surface in the oxygen dissolving tank (310, 320, 330), the path that oxygen droplets move Since the length of the contact with water becomes long. As a result, oxygen has more opportunities to dissolve in water, thereby increasing the amount of dissolved oxygen.

4 is a perspective view of the jet plate 304 and the diaphragm 303 mounted on the oxygen dissolution tanks 310, 320, and 330 of the oxygen dissolver according to the embodiment of the present invention. ) Is a circular plate body, and small holes are drilled innumerably, and the diaphragm 303 is a half moon-shaped plate body, and several are fixedly staggered at predetermined intervals up and down (or left and right) around the fixing rod 350. In addition, the injection plate 304 may be installed to increase the solubility by installing one or a plurality and can vary the number and size of the holes for the injection hole.

Accordingly, in the installation of the diaphragm 303, the diaphragm 303 is alternately welded to the fixing rod 350 at a predetermined interval to form a diaphragm structure, and then the diaphragm structure is pushed into the oxygen melting tanks 310, 320, and 330. Put it in and fix it.

As shown in FIG. 1, the oxygen dissolution tanks 310, 320, and 330 are connected in series with each other. In particular, since the plurality of second oxygen dissolution tanks 320 are connected in series, a movement path of the oxygen droplets is The longer it is, the longer the path and time the oxygen droplets come in contact with water, and more oxygen can be dissolved.

The amount of dissolved oxygen in water is generally affected by water temperature, pressure and temperature, and the higher the pressure, the better the dissolved oxygen. Therefore, it is necessary to measure the pressure inside the oxygen melting tanks 310, 320, and 330. To this end, the second oxygen melting cylinder 320 is provided with a pressure gauge 305 for measuring and displaying the internal pressure. Of course, it is also possible to consider installing a pressure gauge 305 in the first oxygen dissolution tank 310 or the third oxygen dissolution tank 330, but measures the pressure of the second oxygen dissolution tank 320 is installed by connecting a plurality of It is desirable to.

In addition, the second oxygen melting cylinder 320 is provided with a control valve 306 for regulating the pressure of oxygen supplied from the high pressure oxygen cylinder 200 and an oxygen pressure gauge 307 for indicating the pressure of the supplied oxygen. Accordingly, the amount of oxygen to be supplied can be adjusted according to the amount of dissolved oxygen in the tank. The control valve 306 may adjust the opening and closing and operating pressure by the remote control using the solenoid valve.

In addition, the first oxygen dissolution tank 310 to increase the degree of diffusion by using the expansion tube 301, the third oxygen dissolution tank 330 is to use the reduction tube 302 to improve the pressing force. have.

In addition, the oxygen dissolution tanks 310, 320, and 330 are connected in a multi-layered form of heat. Accordingly, the oxygen dissociation tanks 310, 320, and 330 can be manufactured in a smaller size in the oxygen dissolver. There are advantages to it.

It is to be understood that the above description is merely illustrative of one embodiment, and the present invention is not limited to the above-described embodiment, and various modifications may be made within the scope of the appended claims. For example, the shape and structure of each component specifically shown in the embodiments of the present invention can be modified and implemented.

Oxygen dissolving device of the present invention can be used for supplying oxygen to fish farms, aquariums, etc., in particular can be used for purified filtration fish farms that require high dissolved oxygen.

100 Pump 200 High Pressure Oxygen Communication
301 Loupe 302 Loupe
303 diaphragm 304 spray plate
305 Pressure gauge 306 Regulating valve
307 Oxygen Pressure Gauge 310 First Oxygen Dissolver
311 Oxygen inlet pipe 312 Water inlet port
313 Inlet Space 320 Second Oxygen Tank
330 Oxygen Dissolver 350
360 end connections
400 Injection nozzle 410 Oxygen nozzle
P water pipe P 'oxygen pipe

Claims (10)

A pump 100 for pumping water in the tank;
Oxygen high pressure oxygen cylinder 200 is filled with high pressure;
Directly connected to the pump 100 and the water pipe (P) to supply water and connected to the high-pressure oxygen cylinder 200 and oxygen pipe (P ') and receives the injected oxygen through the oxygen nozzle 410 attached to the inside A first oxygen dissolving barrel 310 for dissolving oxygen while mixing and bumping the supplied water and oxygen;
A second oxygen dissolution tank 320 connected to the first oxygen dissolution tank 310 and allowing the mixed water and oxygen to be bent again to be swept and mixed with each other to continue dissolving oxygen while being bumped together;
A third oxygen dissolving barrel 330 connected to the second oxygen dissolving barrel 320 and continuously dissolving oxygen while being mixed with and colliding with each other to allow the water and oxygen to be swept back and flow;
Is connected to the third oxygen dissolution tank 330 and the water pipe (P) comprises a spray nozzle 400 for spraying into the tank,
The second oxygen melting cylinder 320 has a cylindrical shape that is blocked left and right, a plurality of half-moon-shaped diaphragm 303 is mounted at predetermined intervals along the central axis in the left and right or up and down,
The second oxygen melting cylinder 320 is connected in plurality in series,
The second oxygen melting cylinder 320 is provided with a pressure gauge 305 for measuring and displaying the pressure inside,
The second oxygen melting cylinder 320 is provided with a control valve 306 for adjusting the pressure of the oxygen supplied from the high-pressure oxygen cylinder 200 and an oxygen pressure gauge 307 indicating the pressure of the supplied oxygen,
The expansion of the diffusion using the expansion tube 301 in the first oxygen melting tank 310, and the pressing force is improved by using the reduction pipe 302 in the third oxygen melting cylinder 330,
The first oxygen dissolving cylinder 310 is a cylindrical with one end open and a plurality of half-moon-shaped diaphragm 303 is mounted at predetermined intervals along the central axis in the left and right or up and down, a plurality of holes in the water pipe (P) side One or more formed jet plate 304 is mounted,
The third oxygen melting cylinder 330 is a cylindrical with one side end is open and a plurality of half-moon-shaped diaphragm 303 is mounted at predetermined intervals along the central axis in the left and right or up and down,
The oxygen melters 310, 320, 330 are connected in series with each other,
The oxygen melting tanks (310, 320, 330) is that the heat is connected in multiple layers,
The control valve 306 is an oxygen dissolver, it is possible to adjust the opening and closing and operating pressure by the remote control using the solenoid valve. delete delete delete delete delete delete delete delete delete

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