KR100883802B1 - The oxygen molting apparatus for a raising water tank of fishes - Google Patents

Abstract

An oxygen smelting apparatus for the fish nursery cistern is provided to prevent the disease of the cultured fish by sterilization of the blend water. An oxygen smelting apparatus for the fish nursery cistern comprises: a pump(3) in which a water inlet is connected to a return duct(2) of the water tub(1); an oxygen supply pipe(5) connected to a water outlet of the pump; a connection pipe(6) supplying the liquid oxygen through an oxygen supply pipe from a liquid oxygen tank(4); a return pipe(7) and a nozzle(8) for refurnishing the mixing-processed water to the inside tank; and a mixing system(10) for mixing the water and liquid oxygen.

Description

Oxygen Dissolver for Fish Aquaculture Tanks {THE OXYGEN MOLTING APPARATUS FOR A RAISING WATER TANK OF FISHES}

The present invention is applied to a tank for farming various kinds of fish such as eel and circulating to the tank after raising the dissolved oxygen rate in the water to the set value through the re-treatment to add and mix the liquid oxygen to the water recovered from the tank using a pump The present invention relates to an oxygen dissolving device for supplying, and more specifically, a horizontal volume of mixed induction pipes is laid out in multiple stages, and a joint pipe connected to upper and lower adjacent mixing induction pipes is provided at the front and rear ends of each of the mixed induction pipes. The zigzag shape extends the length of the passage as much as possible, and also has a mixed derivative that resists the fluid passing through it and gives frequent changes in collisions, vortices, and movement trajectories. At the exit of the mixed induction pipe located at the multistage installed to have a zigzag passage To be hayeoseo ever dudoe a sterile tube interior of each tube is provided with a sterilizing ultraviolet lamp, to promote the sterilization of a number of mixing the mixing process,

By prolonging the oxygen residence time and reducing the size of oxygen particles, the oxygen mixing rate can be maximized to increase the dissolved oxygen rate of the mixed water, and the water quality can be improved through sterilization of the treated water and disease prevention of farmed fishes. It is to be able to.

The role of dissolved oxygen in large fish tanks is to increase fish's resistance to disease and grow faster with smaller feeds.

On the other hand, in the above water tank, eutrophication phenomenon occurs in which the amount of nutrients nitrogen or phosphorus in the water increases in the water trapped in a certain place. This is because the oxygen dissolved in the water, that is, the dissolved oxygen, is insufficient, that is, when the biochemical decomposition of the organic material consumes a lot of oxygen in the water or when the water contains too much organic material, the oxygen in the water may be depleted or eliminated. As a result, water decays, causing eutrophication.

This eutrophication causes algae coatings and rots on the water surface, odors and causes fading, and increases the circumference of dissolved oxygen and reduces dissolved oxygen to very low concentrations at night, threatening fish survival. As a result, the oxygen demand is increased to reduce the dissolved oxygen and there is a problem of generating toxic algae.

On the other hand, the easiest way to solve the eutrophication of the water in the tank is to circulate the water through the pump to supply liquid oxygen to the water to increase the dissolved oxygen amount or to purify the water by adding ozone or chlorine gas. All.

One of the existing methods for supplying liquid oxygen to the water in the tank, as described above, is to install oxygen tank or oxygen generator outside the tank and diffuse oxygen into the water through an acid pipe piped to the oxygen tank. There is this.

In view of the problems of the above-described method, one of the more improved structures using a separate admixture is as follows.

As shown in FIG. 6, a water tank using a pump 3 installed in the recovery pipe 2 and a connecting pipe 6 supplied with liquid oxygen from the liquid oxygen tank 4 installed from the outside through the oxygen supply pipe 5. It is known that the water in (1) is supplied to the mixing device, and the mixed water that has passed through the mixing device is circulated and re-supplied into the water tank 1 through the conveying pipe 7 and the nozzle 8.
Conventional mixing apparatus 100 applied to the apparatus as described above has a plurality of mixing holes 103 in the tubular housing 101 is connected to the connecting pipe 6 and the conveying pipe 7 in the upper and lower, respectively Perforated miscible induction plate 102 by installing in multiple stages,

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When the pump 3 is driven, the water in the water tank 1 is introduced into the housing 101 of the admixture device 100 through the recovery pipe 2 and the connection pipe 6. Oxygen of the liquid oxygen tank 4 is mixed with water and supplied into the housing 101 through the oxygen supply pipe 5 connected to 6), and the supplied water and oxygen are sequentially mixed with the multistage mixing induction plate 102. As it collides with (103), it is diffused and mixed in a small particle state, and the mixed water mixed with oxygen is designed to be re-introduced into the water tank 1 through the conveying pipe 7.

In the case of supplying oxygen using the former diffuser, oxygen is injected at high pressure from the bottom of the tank. Therefore, additional equipment such as a compressor for supplying oxygen at high pressure is necessary and continuously operated for 24 hours. However, maintenance costs are quite necessary.

Further, even when oxygen is supplied into the water through the acid nozzle, the rate of dissolving oxygen in the water is low, resulting in a problem of insufficient oxygen dissolution rate and severe waste of oxygen compared to the oxygen supply amount.

On the other hand, the structure using the latter conventional admixture 100 was to cause the following problems.

⊙ The mixing induction plate 102 is a simple structure in which the mixing hole 103, which is a plurality of circular through holes, on the plate-like material, so that the length of the passage through which the water passes is very short, so that the water is mixed with the induction plate relatively quickly. By passing through the 102, the contact residence time with the miscation inducing plate 103 is short, and in the process of passing through, there is little effect of causing factors such as vortex, impact, and fluctuation of the oxygen effectively, so that oxygen mixing does not occur. The harmony rate is low,

⊙ In addition, the mixed water that has passed through the mixed induction plate 103 is directly introduced into the water tank 7 through the return pipe 7 without undergoing a separate sterilization or purification process, so that various pathogenic bacteria or fungi may be included in the mixed water. Etc., the dissolved oxygen rate of the tank is drastically lowered, leading to deterioration of the water quality early or adversely affecting the cultured fish, thereby increasing the mortality rate of the fish, thereby lowering productivity.

The present invention has been made to solve the problems as described above, the object of the present invention is to increase the dissolved oxygen rate of the mixed water by maximizing the oxygen mixing rate by extending the oxygen residence time and reducing the size of oxygen particles In addition, it is to provide an oxygen dissolving apparatus for fish tanks that can improve water quality and prevent disease of farmed fish through sterilization of mixed water.

In order to achieve the above object,

The present invention proposes a plurality of mixed induction pipes installed in multiple stages to have a zigzag passage through a joint pipe in a state where the lowermost pipe is connected to a connection pipe connected to the outlet port side of the pump.

In another aspect, the present invention proposes a miscible derivative having a plurality of fluid delayed wings and fluid through-holes fixedly installed in the miscible induction pipe and repeated in the longitudinal direction.

In addition, the present invention provides a multi-stage sterilization tube connected to the outlet of the mixing induction pipe located at the top and the ultraviolet lamp is installed therein.

As described above, the present invention provides an extension of oxygen residence time and oxygen particles through a miscation induction tube having a multistage induction pipe installed in multiple stages and a plurality of fluid delayed wings and fluid through-holes so as to have a zigzag passage so that the length of the passage is maximized. By reducing the size, the oxygen mixing rate is maximized to increase the dissolved oxygen rate of the mixed water, and the mixed mixed water is further sterilized by an ultraviolet lamp to improve the water quality of the tank and It is effective to prevent disease.

Hereinafter, the configuration of the present invention in detail based on the accompanying drawings.

Figure 1 is a front view showing an example of the configuration of the present invention, Figure 2 is a perspective view showing the configuration of the mixing inductor is installed in the mixing induction pipe of the present invention,

The present invention is a pump (3) is connected to the inlet side is installed in the recovery pipe (2) of the water tank (1), the liquid oxygen tank (4) connected to the outlet side of the pump and installed from the outside through the oxygen supply pipe (5) In a known structure comprising a connecting pipe 6 for allowing liquid oxygen to be supplied from) and a conveying pipe 7 and a nozzle 8 for resupplying the mixed mixed water into the water tank 1,

It is integrally connected between the connecting pipe 6 and the conveying pipe 7 to constitute a mixing device 10 for mixing water and liquid oxygen,

 The admixture 10,

Multi-stage having a zigzag fluid passageway 11A as a whole through a plurality of joint pipes 12 configured in each pipe so that the inlet of the lowermost pipe is connected to each other in a state where they are connected to the connecting pipe 6. A mixing induction pipe 11;

A mixing conductor 13 fixedly installed in each of the mixing induction pipes 11 and having a plurality of fluid delay blades 13A and a fluid through hole 13B that are repeatedly zigzag in the longitudinal direction;

A plurality of zigzag fluid passages 14A are provided through the plurality of joint tubes 16 in a state of being connected to the outlet side of the mixing induction pipe 11 located at the top thereof, and both ends of the caps are formed inside the fluid passages 14A. Ultraviolet lamp 15 supported by 15A is provided, and the exit side includes the multistage sterilization tube 14 connected to the said conveyance tube 7, respectively.

※ Unexplained code in the drawing ※

(20) is a control valve for controlling the inflow of the tank of mixed water through the sterilization tube,

(21) shows the pressure gauge of the mixing guide tube.

Referring to the operation of the present invention configured in this way in detail as follows.

The ultraviolet lamp 15 is supported through a cap 22 screwed to both ends of the sterilization tube 14 and is configured to be sealed in the fluid passage 14A in the sterilization tube 14.

The miscible inductor 13 is configured to simultaneously form a fluid delaying wing 13A and a fluid through hole 13B through a notching process of a plate-shaped metal material, and is tightly fitted and fixed to an inner surface of the miscible induction pipe 11. To be supported.

On the other hand, when the pump 3 is operated while the liquid oxygen having a predetermined pressure is supplied from the liquid oxygen tank 4 installed from the outside through the oxygen supply pipe 5 to the connecting pipe 6, the water in the water tank 1 After being drawn out through the recovery pipe (2) and through the pump (3) through the connecting pipe (6) is introduced into the mixed induction pipe (11) of the lowermost layer in the state of being mixed with the mixed liquid oxygen,

Water and liquid oxygen introduced at high pressure into the mixing induction pipe 11 have a zigzag form in the flow direction as shown by the arrow as shown in FIG. Due to the conduit 12 in which the passage formed by the pipe is located in a zigzag form, the length of the passage can be extended as much as possible because it is also configured in a zigzag form, thereby extending the contact time between water and liquid oxygen.

In addition, in the process of passing through the mixing induction pipe, water and oxygen collide with the edge of the fluid delay wing 13A and the fluid through hole 13B of the mixing conductor 13, as shown in FIG. This allows the particles of liquid oxygen to be effectively converted into fine particles.

In addition, the flow direction becomes zigzag in the process of the fluid exiting to the next fluid through hole (13B) to give the repetitive change of the vortex generation and the movement trajectory to delay the progress speed as much as possible so that the water and liquid oxygen during the passage The contact time can be maximized to increase the oxygen dissolution rate by increasing the oxygen miscibility.

Meanwhile, the mixed water that is properly mixed while passing through the mixing induction pipe 11 flows into the sterilization pipe 14 at the bottom and is exposed to various pathogenic bacteria present in the mixed water through ultraviolet rays emitted from the ultraviolet lamp 15 installed therein. And sterilization of various molds and the like.

Ultraviolet rays emitted from the ultraviolet lamp 15 have excellent sterilization effect, but no harmful substances are generated or remain, the method of use is simple, convenient maintenance, and does not have resistance to various germs and molds. .

Meanwhile, the mixed water that has been sterilized while passing through the sterilization pipe 14 is introduced into the water tank 1 through the conveying pipe 7 and the nozzle 8 in a state in which the discharge amount thereof is properly controlled through the control valve 20. It is coming back.

Although the embodiments of the present invention have been described above, it is obvious that those skilled in the art to which the present invention pertains have changed and modified without departing from the technical spirit of the present invention.

1 is a front view showing an example of the configuration of the present invention.

Figure 2 is a perspective view showing the configuration of the miscible inductors installed in the miscible induction pipe of the present invention.

Figure 3 is an exemplary cross-sectional view of FIG.

4 is a side view of FIG. 2.

Figure 5 is an enlarged cross-sectional view showing the main portion showing an application example of the ultraviolet lamp to be applied to the present invention.
Figure 6 is a view showing an oxygen dissolving device for a conventional fish culture tank.

<Description of the reference numerals for the main parts of the drawings>

1: water tank 2: collection pipe

3: pump 4: liquid oxygen tank

5: oxygen supply pipe 6: connector pipe

7: Carrier 8: Nozzle

10: mixing device 11: mixing induction pipe

11A: Fluid passage 12: Joint pipe

13: admixture derivative 13A: fluid delayed wing

13B: fluid through 14: sterilization tube

14A: Fluid passage 15: Ultraviolet lamp

16: joint pipe

Claims (1)

A pump 3 having an inlet side connected to the recovery pipe 2 of the water tank 1 and a liquid from the liquid oxygen tank 4 connected to the outlet side of the pump and installed externally through an oxygen supply pipe 5. In a known structure comprising a connecting pipe 6 for allowing oxygen to be supplied and a conveying pipe 7 and a nozzle 8 for resupplying mixed water into the water tank 1, It is integrally connected between the connecting pipe 6 and the conveying pipe 7 to constitute a mixing device 10 for mixing water and liquid oxygen,  The admixture 10, Multi-stage having a zigzag fluid passageway 11A as a whole through a plurality of joint pipes 12 configured in each pipe so that the inlet of the lowermost pipe is connected to each other in a state where they are connected to the connecting pipe 6. A mixing induction pipe 11; A mixing conductor 13 fixedly installed in each of the mixing induction pipes 11 and having a plurality of fluid delay blades 13A and a fluid through hole 13B that are repeatedly zigzag in the longitudinal direction; A plurality of zigzag fluid passages 14A are provided through the plurality of joint tubes 16 in a state of being connected to the outlet side of the mixing induction pipe 11 located at the top thereof, and both ends of the caps are formed inside the fluid passages 14A. An oxygen dissolving apparatus for fish culture tanks, characterized in that the ultraviolet lamp 15 supported by 15A is provided, and the outlet side comprises a multi-stage sterilization tube 14 connected to the conveying tube 7.

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