KR200496109Y1 - oxygen dissolving apparatus for aquatic tank - Google Patents

Abstract

According to the present invention, there is provided an oxygen dissolving device for a water tank to increase the dissolved oxygen rate by injecting oxygen into the water tank, the apparatus comprising: a device body installed vertically on one side of the water tank; an inlet pipe connected to the upper end of the device body to guide water sucked from the water tank into the device body; a suction pump provided in the inlet pipe so that water is sucked from the water tank and introduced into the device body; an oxygen supply unit connected to one side of the device body to supply oxygen to the inside of the device body; a discharge pipe provided horizontally on the other side of the device body to guide the oxygen-dissolved water in the device body to be supplied back to the water tank; a guide tube provided in the shape of an 'L' to communicate with the discharge tube in the inner center of the device body; and a spiral stirring blade provided in a spiral shape inside the guide tube and the discharge tube to activate the dissolution of oxygen into the water by agitation of water and oxygen rising through the guide tube. do.
Thereby, the contact area and time are increased while oxygen is stirred with water, so that the water is finely broken and the dissolution of oxygen into the water is activated, so that the dissolved oxygen rate of the water tank can be effectively increased, and it is convenient with a relatively simple structure It is possible to provide an oxygen dissolving device for a water tank that can be manufactured to reduce manufacturing costs.

Description

Oxygen dissolving apparatus for aquatic tank

The present invention relates to an oxygen dissolving device for a water tank, and more specifically, the contact area and time are increased while oxygen is stirred with water, so that the water is finely broken and the dissolution of oxygen into the water is activated, so that the dissolved oxygen rate of the water tank is increased. It relates to an oxygen dissolving device for a water tank that can be effectively increased, and can be conveniently manufactured with a relatively simple structure to reduce manufacturing costs.

In general, in fish farms such as freshwater or seawater, as well as tanks of vehicles transporting farmed live fish, or tanks for storing and displaying live fish, oxygen required in the tank is supplied to promote growth by maintaining the health of the input live fish for a long period of time. A device is used to supply

A device for supplying oxygen to a fish farm or transport tank, a fish tank, an aquarium, etc. used in the prior art is generally directly connected to an oxygen tank, or the oxygen supplied from the oxygen generator by electrical or mechanical means is transferred to the pressure inside the oxygen tank or the oxygen generator itself. A device by a method of supplying oxygen only with a pressure of

An example of an oxygen dissolving device for a water tank according to the prior art is disclosed in Korean Patent Registration No. 10-0883802 (registered on February 09, 2009, hereinafter referred to as 'Patent Document 1').

However, in the conventional oxygen dissolving device as described above, oxygen supplied to a tank or a fish farm is injected into the water in a state in which it is directly ejected through the aeration tube, and the oxygen bubble particles ejected from the aeration tube are ejected from the water in a state in which the oxygen bubble particles are considerably large. Therefore, there is a problem that the dissolved amount in which oxygen is dissolved in water is reduced, so that the oxygen dissolution efficiency may be lowered.

In addition, the conventional oxygen dissolving apparatus has a complicated structure, so that the process required for manufacturing is greatly increased, and there is a problem that the manufacturing cost may be increased.

Republic of Korea Patent Registration No. 10-0883802 (Registered on February 09, 2009)

The present invention has been devised to solve the above problems, and the contact area and time are increased while oxygen is stirred with water, so that the water is finely broken and the dissolution of oxygen into the water is activated to increase the dissolved oxygen rate in the water tank. An object of the present invention is to provide an oxygen dissolving device for a water tank that can be effectively increased and is conveniently manufactured with a relatively simple structure to reduce manufacturing costs.

According to the present invention, in order to achieve the above object, there is provided an oxygen dissolving device for a water tank for increasing the dissolved oxygen rate by injecting oxygen into the water tank, comprising: a device body installed vertically on one side of the water tank; an inlet pipe connected to the upper end of the device body to guide water sucked from the water tank into the device body; a suction pump provided in the inlet pipe so that water is sucked from the water tank and introduced into the device body; an oxygen supply unit connected to one side of the device body to supply oxygen to the inside of the device body; a discharge pipe provided horizontally on the other side of the device body to guide the oxygen-dissolved water in the device body to be supplied back to the water tank; a guide tube provided in the shape of a 'L' to communicate with the discharge tube in the inner center of the device body; and a spiral stirring blade provided in a spiral shape inside the guide tube and the discharge tube to activate the dissolution of oxygen into the water by agitation of water and oxygen rising through the guide tube. do.

Here, it is preferable that the device body has a conical appearance in which the inner space is gradually expanded from the upper part to the lower part.

The device body is preferably provided to achieve the appearance of a hexagonal pyramid.

And, it is preferable that the spiral stirring blade is provided by twisting a plurality of vortex forming pins formed by being alternately cut to the left and right sides along the longitudinal direction in a spiral shape.

According to the present invention, the contact area and time are increased while oxygen is stirred with water, so that the water is finely broken, the dissolution of oxygen into the water is activated, so that the dissolved oxygen rate of the water tank can be effectively increased, and a relatively simple structure It is possible to provide an oxygen dissolving device for a water tank that can be conveniently manufactured with a reduced manufacturing cost.

1 is a perspective view of an oxygen dissolving device for a water tank according to the present invention;
2 is a side view of the oxygen dissolving device for the water tank of FIG. 1;
3 is a partially cut-away perspective view of the oxygen dissolving device for the water tank of FIG. 1;
4 is a cross-sectional view showing the internal configuration of the oxygen dissolving device for a water tank according to the present invention;
5 is a perspective view of a spiral stirring blade according to the present invention;
Figure 6 is a view showing a plate material before processing for producing the spiral stirring blade of Figure 5;
7 is a cross-sectional view showing the internal configuration of an oxygen dissolving device for a water tank according to another embodiment of the present invention;
8 is a view showing an example in which the oxygen dissolving device for a water tank according to the present invention is installed on one side of the water tank.

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

The oxygen dissolving device for a water tank according to the present invention, as shown in FIGS. 1 to 4, is to increase the dissolved oxygen rate by injecting oxygen into the water tank 10, vertically and vertically on one side of the water tank 10 The device main body 100 installed upright, the inlet pipe 110 connected to the upper end of the device body 100 and guiding the water sucked from the water tank 10 to flow into the device body 100 , and the inlet pipe A suction pump 200 provided in 110 to allow water to be sucked from the water tank 10 to flow into the inside of the device body 100, and connected to one side of the device body 100, the inside of the device body 100 The oxygen supply unit 300 for supplying oxygen to the furnace, and a discharge provided horizontally on the other side of the device body 100 to guide the water in which oxygen is dissolved in the device body 100 to be supplied back to the water tank 10 . The tube 120 and the guide tube 130 provided in the shape of an 'L' to communicate with the discharge tube 120 at the inner center of the device body 100, the guide tube 130 and the discharge tube 120 It includes a spiral stirring blade 400 provided in the form of a spiral therein so that the dissolution of oxygen into the water is activated by the stirring of water and oxygen rising through the guide tube 130 .

Accordingly, the contact area and time are increased while oxygen is stirred with water, so that the water is finely broken and the dissolution of oxygen into the water is activated, so that the dissolved oxygen rate of the water tank 10 can be effectively increased, and relatively simple It is possible to provide an oxygen dissolving device for a water tank that can be conveniently manufactured with a structure to reduce manufacturing costs.

As shown in FIGS. 1 to 4 , the device body 100 is preferably provided to form a conical exterior in which the inner space is gradually expanded from the top to the bottom.

Accordingly, the inner diameter of the upper end of the device body 100 to which the inlet pipe 110 is connected is narrowly reduced and gradually expanded toward the lower part of the water continuously flowing into the upper end of the device body 100 through the inlet pipe 110 . The pressure is introduced in a state higher than the pressure sucked by the suction pump 200 , and the amount of impact that collides with the lower bottom plate from the inside of the device body 100 is also increased, and it rises smoothly into the guide pipe 130 and rises to the discharge pipe It may be supplied back to the water tank 10 through 120 .

In addition, since the external appearance of the device body 100 is provided to form a cone shape, oxygen drops that have not been dissolved are levitated again inside the device body 100 and actively contact with the falling water, so that only water in which oxygen is sufficiently dissolved is slow It can be discharged to the water tank 10 through the discharge pipe 120 at a speed.

More specifically, as shown in FIGS. 1 and 3 , the device body 100 is preferably provided to have a hexagonal pyramid shape.

Accordingly, the appearance of the device body 100, which gradually expands from the upper part to the lower part, can be manufactured more easily, and it is introduced through the inlet pipe 110 and then flows from the inside of the device body 100 to the lower part. The cycle of water, which collides with the bottom plate and rises up again, can be smoothly performed with minimal resistance.

On the other hand, as shown in Figure 1, the portion connected from the inlet pipe 110 to the upper end of the device body 100, the water pressure measuring unit 111 that measures and displays the pressure of water flowing in through the inlet pipe 110 is provided It is preferable to be provided.

As shown in FIGS. 3 and 4 , the guide tube 130 is preferably provided such that the lower end thereof extends to be spaced apart from the inner lower bottom of the device body 100 by about 100 mm.

Here, it is preferable that a tube support 140 extending horizontally to the guide tube 130 and fixed by welding or the like is provided on the inner surface of the apparatus body 100 . At this time, it is preferable that one side of the tube support 140 is fixed to the inner surface of the device body 100 by welding and the other side is fixed to the lower portion of the guide tube 130 by welding.

Accordingly, even if the lower end of the guide tube 130 is spaced apart from the inner lower bottom of the apparatus body 100, it is firmly supported by the tube support 140 to the weight and impact of water flowing into and falling into the apparatus main body 100, etc. Vibration caused by vibration can be minimized and damage can be safely prevented.

On the other hand, as shown in FIGS. 3 and 4 , the lower bottom of the device body 100 has a hexagonal shape corresponding to the outer perimeter shape of the device body 100 in plan view, and is divided into 6 equal parts at the center. It is preferable that the water flow reflector 150 provided to have a gradient gradually inclined downward toward the center is provided.

Accordingly, water flowing into the upper part of the device body 100 through the inlet pipe 110 and being poured down is reflected by hitting the water flow reflecting plate 150 and guided to enter the center upper guide pipe 130 without loss. can do.

As shown in FIGS. 1 to 3 , the suction pump 200 increases the suction force by rotating so that the water in the water tank 10 is sucked through the inlet pipe 110 and introduced into the device body 100 . It consists of a motor to provide.

Here, the suction pressure of water by the suction pump 200 is preferably about 2 kgf/cm 2 .

As shown in FIG. 2 , the oxygen supply unit 300 includes an oxygen tank or an oxygen generator connected to the apparatus body 100 from the outside through an oxygen hose 310 .

In this case, the oxygen hose 310 may be connected to one side of the inlet pipe 110 connected to the upper end of the device body 100 .

On the other hand, as shown in FIG. 1 , in a portion of the oxygen hose 310 to which the oxygen supply unit 300 is connected, the oxygen supplied from the oxygen supply unit 300 to the inside of the device body 100 through the oxygen hose 310 . It is preferable that the oxygen pressure measuring unit 320 for measuring and displaying the pressure is provided.

As an embodiment of the present invention, oxygen is supplied so that the pressure of oxygen supplied to the apparatus body 100 by the oxygen supply unit 300 is displayed within the range of about 2 to 3 kgf/cm 2 by the oxygen pressure measuring unit 320 . It is preferable to make

Spiral stirring blade 400, as shown in FIGS. 3 and 4, is provided to be fixedly inside the inside of the guide pipe 130 and the inside of the discharge pipe 120 in the remaining vertical pipe part except for the elbow curved pipe part. Thus, the flow direction of water and oxygen flowing along the inside of the guide tube 130 and the discharge tube 120 is interfered and oxygen is smoothly dissolved in the water.

At this time, it is preferable that the fixing of the spiral stirring blade 400 inside the guide tube 130 and the discharge tube 120 is made by welding.

As an embodiment of the present invention, as shown in Figs. 5 and 6, the spiral stirring blade 400 is formed by being alternately cut in both left and right sides along the longitudinal direction. A plurality of vortex forming pins 410 are spirally formed. It is preferable to be twisted in the form of.

Accordingly, by alternately cutting the left and right sides of a long plate having a certain length to form a plurality of vortex forming pins 410, the spiral stirring blade 400 is easily manufactured with one plate, so that the manufacturing cost is greatly reduced. In the guide tube 130 and the discharge tube 120, a plurality of vortex-forming fins 410 in the transverse direction to the flow direction of water as a whole form a spiral shape, so that a vortex is actively generated, and the contact area of water and oxygen This can be greatly increased to activate the dissolution of oxygen by stirring of water and oxygen.

Meanwhile, as another embodiment of the present invention, as shown in FIG. 7 , the water flow reflecting plate 150 may be provided to form a concave curved surface rather than a planar body divided into 6 equal parts at the center.

At this time, it is preferable that the water-repellent coating layer 151 is formed on the upper surface of the water-flow reflector 150 with a water-repellent coating treatment with a component containing fluororesin, silicone oil, or Teflon.

Accordingly, when the water flowing in and falling into the inside of the device body 100 through the inlet pipe 110 collides with the water flow reflecting plate 150, it bounces off the water repellent coating layer 151 and is reflected very effectively in the guide pipe 130. can be entered into

Here, a plurality of water-repellent coating layers 151 formed on the upper surface of the water flow reflecting plate 150 are formed to form concentric circles on a plane, and the water colliding with the water flow reflecting plate 150 is spaced apart from the center of the guide tube 130 . ), it is desirable to smoothly guide the inflow toward the lower opening.

On the other hand, even when the water flow reflecting plate 150 is provided as a planar body divided into 6 equal parts at the center, the water repellent coating layer 151 can be formed on the upper surface, and a plurality of water repellent coating layers 151 are formed to form a concentric circle in plan view. Of course it can be done.

8 is a view showing an example in which the oxygen dissolving device for a water tank according to the present invention is installed on one side of the water tank (10).

Although the present invention has been described in detail only with respect to the specific embodiments described, it is natural for those skilled in the art that various modifications and changes can be made within the scope of the technical spirit of the present invention, and such modifications and modifications fall within the scope of the attached utility model registration claims. It is natural.

100: device body 110: inlet pipe
111: water pressure measuring unit 120: discharge pipe
130: guide tube 140: tube support
150: water flow reflector 200: suction pump
300: oxygen supply 310: oxygen hose
320: oxygen pressure measuring unit 400: spiral stirring blade
410: vortex forming pin

Claims (4)

In the oxygen dissolving device for a water tank, in which oxygen is added to the water tank 10 to increase the dissolved oxygen rate,
The device body 100 installed vertically up and down on one side of the water tank 10;
an inlet pipe 110 connected to the upper end of the device body 100 and guiding water sucked from the water tank 10 to be introduced into the device body 100;
a suction pump 200 provided in the inlet pipe 110 so that water is sucked from the water tank 10 and introduced into the device body 100;
an oxygen supply unit (300) connected to one side of the device body (100) to supply oxygen to the inside of the device body (100);
a discharge pipe 120 provided horizontally on the other side of the device body 100 to guide the oxygen-dissolved water in the device body 100 to be supplied back to the water tank 10;
a guide tube 130 provided in the shape of an 'L' to communicate with the discharge tube 120 in the inner center of the device body 100; and
A spiral stirring blade provided in a spiral shape inside the guide tube 130 and the discharge tube 120 to activate the dissolution of oxygen into the water by agitation of water and oxygen rising through the guide tube 130 . (400);
including,
The device body 100 is provided to form a cone-shaped exterior in which the inner space gradually expands from the top to the bottom,
The device body 100 is provided to achieve the appearance of a hexagonal pyramid,
The spiral stirring blade 400 is provided by twisting a plurality of vortex forming pins 410 formed by alternately cutting both left and right sides along the longitudinal direction in a spiral shape,
The device body 100 has a hexagonal shape on the bottom bottom to correspond to the outer periphery shape of the device body 100 in plan view, and is divided into 6 equal parts from the center. A water flow reflecting plate 150 is provided,
Oxygen dissolving device for a water tank, characterized in that the water-repellent coating layer 151 is formed on the upper surface of the water flow reflecting plate 150 with a water-repellent coating treatment with a component containing fluororesin, silicone oil, or Teflon. .


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