KR100988361B1 - apparatus for dissolving oxygen - Google Patents

Abstract

The oxygen dissolving device of the present invention includes a first housing portion having a first passage having an air inlet formed at an upper portion thereof, a driving motor installed on the first housing portion and positioned on the first passage, and the first housing. A nozzle unit having a second passage extending from the unit to communicate with the first passage and having a plurality of injection holes for supplying oxygen to an outer circumferential surface thereof, a drive shaft connected to the rotating shaft of the motor and passing through the nozzle unit; A stirring unit having a stirring blade installed at an end of the drive shaft, and rotated by the motor and installed at an air inlet side of the first passage to inject air through the injection hole of the nozzle unit through the first passage; Blowing means is provided.

This oxygen dissolving apparatus can dissolve oxygen in liquid ratio etc. using air.

Oxygen dissolution, air, motor, cover member

Description

Oxygen dissolving device {apparatus for dissolving oxygen}

The present invention relates to an oxygen dissolving device, and more particularly, to an oxygen dissolving device capable of increasing dissolved oxygen by dissolving oxygen in water, nutrient solution for hydroponic cultivation, and wastewater for purification.

Gas dissolving devices are typically used to treat wastewater to increase dissolved oxygen (DO) content in water. In order not only to preserve the life of fish or other aquatic organisms, but also to suppress the formation of odorants or organic substances, the amount of dissolved oxygen needs to be kept above a predetermined value. The biochemical oxygen demand (BOD) is determined by the amount of oxygen used in the biological process of destroying organic matter in water, which means that the higher the biochemical oxygen demand, the greater the amount of organic matter in the water and the greater the amount of dissolved oxygen needed. .

Gas-dissolving devices are extremely useful for increasing the amount of dissolved oxygen, particularly in the case of high biochemical oxygen demand.

The gas dissolving device is a device used to dissolve gas such as oxygen or ozone in a liquid such as waste water or water in a wastewater treatment plant, a water treatment plant, a water purifier, a nutrient solution for hydroponics, aquaculture farm, etc., which is a liquid such as water or wastewater. It is mainly used for the purpose of improving gas dissolution rate, such as oxygen and ozone.

Such gas dissolving devices are roughly classified into two types: air diffusion type and mechanical type. The air diffusion type gas dissolving device has a structure in which air or pure oxygen is introduced into the water through a submersible porous diffusion member or a nozzle, and the mechanical gas dissolving device has a structure in which water is dissolved in the air by disturbing water. The mechanical gas dissolving unit is further subdivided into a water gas dissolving unit and a turbine gas dissolving unit. The water gas dissolving device is designed to drastically change the contact area between air and water by introducing air into the water vapor by disturbing water with a submerged or partially submerged impeller. In addition, the turbine gas dissolving device uses a rotary impeller installed at a constant depth below the surface of the treated water, and a vent pipe is supported on the coaxial with the impeller to supply external air to the water around the impeller.

Patent Utility Model No. 0305788 discloses a high concentration oxygen water dissolving device. The disclosed oxygen water dissolving device injects purified water into the oxygen tank or oxygen generator at the same time through the oxygen water suction line to be sucked from the circulation pump configured in parallel and flows in the rear end of each oxygen dissolver. The control valve is installed in order to control the flow rate and pressure.

Patent Utility Model No. 0265964 discloses an oxygen water dissolving device.

The disclosed oxygen water dissolving device is formed with an outer wall having a discharge port on the outside, an upper block plate on the inside, and a cover plate having an inlet for supplying water with liquefied oxygen in the center, and an inner wall on the inside, and having a lower portion on the outside. A bottom plate is formed and the top plate of the cover plate is coupled between the bottom plate to be positioned between the lower plate, the bottom plate coupled to the inlet of the cover plate and installed between the inner wall of the bottom plate and the bottom plate in the form of a whirlpool It has a configuration with a twist pipe to be sprayed to the side, and the swirling wing is installed inclined in the water flow direction and installed in multiple stages inside the upper blocking plate and the lower blocking plate.

In addition, a gas dissolving device is disclosed in Registered Utility Model No. 0297470, Registered Patent No. 0420097, and Registered Utility Model No. 0384685, and a gas dissolving device for wastewater treatment of United States Patent Nos. 4,240,990 and 4,308,221.

The oxygen dissolving device or gas dissolving device configured as described above dissolves oxygen in water by supplying water and oxygen at the same time to form a vortex, so it is not easy to set the degree of dissolution of oxygen, and bubbles are generated by oxygen. There is a problem. In particular, if oxygen is not atomized, the generation of bubbles is severe, there is a problem that can not dissolve the oxygen at a high concentration.

The present invention has been made in view of the above-described problems, and an object thereof is to provide an oxygen dissolving apparatus capable of dissolving oxygen in the air in the solution by supplying air in the atmosphere to the solution side during stirring.

Another object of the present invention is to provide an oxygen dissolving apparatus capable of increasing the solubility of oxygen by increasing the contact ratio of water and air and delaying the contact time.

Oxygen dissolving device of the present invention for achieving the above object,

A first housing portion having a first passage having an air inlet formed at an upper portion thereof, a driving motor installed on the first housing portion and positioned on the first passage, and extending from the first housing portion to extend the first housing portion; A nozzle unit having a second passage communicating with the passage, the nozzle unit having a plurality of injection holes for supplying oxygen to the outer circumferential surface thereof;

A stirring unit having a driving shaft connected to the rotating shaft of the driving motor and penetrating the nozzle unit, and a stirring blade provided at an end of the driving shaft;

It is rotated by the drive motor is installed on the air inlet side of the first passage characterized in that it comprises a blowing means for injecting air through the injection hole of the nozzle unit through the first passage.

In the present invention, the end of the nozzle unit is provided with a cover member for preventing the air hole is generated by the vortex when the liquid is stirred by the stirring unit.

The present invention is to solve the problems described above, it is possible to increase the amount of dissolved oxygen by supplying oxygen to a liquid such as hydroponic cultivation, aquaculture farm, wastewater treatment plant using air, furthermore, the cost to increase the amount of dissolved oxygen in the liquid Can reduce the cost.

Oxygen dissolving apparatus according to the present invention is to increase the dissolved oxygen by dissolving oxygen using air in purified purified water, river water, nutrient solution for hydroponic culture, wastewater for purification, an embodiment thereof is shown in FIG. Seemed.

Referring to the drawings, the oxygen dissolving device is installed in the first housing part 13 and the first housing part 13 having the first passage 12 having an air inlet 11 formed with an open upper portion, It includes a drive motor 20 located on one passage (12). The diameter of the first passage 12 of the first housing portion 13 is formed to be larger than the diameter of the drive motor 20 to the outer peripheral surface of the drive motor 20 and the inner peripheral surface of the first housing portion 13 Air can flow between them.

In addition, a blower fan 30 as a blowing means is installed at one end of the driving shaft 20, that is, at the end of the rotating shaft 21 at the inlet 11. The blowing fan 30 is preferably inserted into the end side of the first housing portion 13 so that the end portion of the first housing portion 13 can serve as a shroud.

The blowing means is not limited to the above-described embodiment and may drive the blowing fan 30 by a separate motor. In addition, it may be provided with a blower for cooling the drive motor through the inlet 11 and separately blows air for supplying oxygen to the liquid.

The first housing 13 includes a nozzle unit 40 having a second passage 41 in communication with the first passage 12. The nozzle unit 40 is formed in a conical shape which is tapered downward from the first housing part 13, and a plurality of injection holes 42 are formed on an outer circumference thereof to supply air blown from the blowing means to the liquid side. do. The injection holes 42 are formed on the outer circumferential surface of the nozzle unit 40, and the injection holes 42 have a lower distribution density from the lower end side to the upper end side of the nozzle unit 40. This is preferably such that the air flowing through the second passage 41 of the nozzle unit 40 can be concentrated in the end side, that is, inside the liquid.

And the rotating shaft of the drive motor 20, that is, the lower rotating shaft is connected to the drive shaft 51 penetrating through the nozzle unit 40, the end of the drive shaft 51, the stirring portion having agitating blades (52) ( 50). The stirring blade 52 is radially installed at the end of the drive shaft 51, and has a structure that can be immersed in the liquid to be stirred to generate a vortex in the liquid. The drive shaft 51 may further include an axis bearing portion 54 extending from the drive motor or the first housing portion 13.

On the other hand, a cover member 60 is installed on the end circumferential surface of the nozzle unit 40 to prevent the air hole from being generated while the liquid rotates during the stirring by the stirring unit 50. The cover member 60 is preferably formed so that the lower surface is curved to form a spherical surface to guide the rising water back to the lower side when stirring.

Using the oxygen dissolving device according to the present invention configured as described above to increase the amount of dissolved oxygen by supplying oxygen to water such as liquid fertilization, sewage or wastewater treatment plant for hydroponic cultivation, the oxygen dissolving device may be a liquid storage tank or dissolved oxygen amount. The nozzle unit 40 is immersed in the tank in which the liquid for raising is stored, and the air inlet 11 of the first housing 13 is exposed to the atmosphere.

In this state, the drive motor 20 is rotated to rotate the blowing fan 30 and the drive shaft 51 installed on the rotary shaft 21 thereof. In this way, outside air is introduced into the first passage 12 by the blowing fan 30. As described above, the air flowing into the first passage 12 is cooled, and the air cooled by the motor is injected into the liquid contained in the storage tank through the injection hole 42 of the nozzle unit 40. In this process, since the stirring blade 52 is installed at the end of the drive shaft 51 driven by the drive motor 20, the air and the liquid injected into the liquid are strongly stirred. Therefore, oxygen in the liquid and thus in the air is dissolved in the liquid in the tank, that is, liquid rain or water for sewage treatment, thereby increasing the amount of dissolved oxygen. As described above, the oxygen dissolving device may increase the amount of dissolved oxygen by discharging the air blown by the blower through the injection holes of the first housing and the nozzle unit, and then stirring the same to increase the amount of dissolved oxygen in the liquid ratio or water. Cost can be reduced and installation is very easy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is an exploded perspective view of an oxygen dissolving device according to the present invention;

Figure 2 is a cross-sectional view showing an installation state of the oxygen dissolving device according to the present invention,

Figure 3 is a bottom view of the oxygen dissolving device according to the present invention.

Claims (2)

A first housing part 13 having a first passage 12 having an air inlet 11 formed at an upper portion thereof,  A drive motor 20 installed in the first housing 13 and positioned on the first passage 12;  A nozzle unit 40 extending from the first housing 13 and communicating with the first passage 12 is formed, and has a plurality of injection holes 42 for supplying oxygen to the outer circumferential surface thereof. )Wow, An agitator 50 having a drive shaft 51 connected to the rotating shaft of the drive motor 20 and penetrating the nozzle unit 40, and a stirring blade 52 provided at an end of the drive shaft; A blowing means rotated by the drive motor 20 and installed at an air inlet side of the first passage 12 to inject air through the injection hole 42 of the nozzle unit 40 through the first passage; Equipped, A cover member 60 is installed on an end circumferential surface of the nozzle unit 40 to prevent the air hole from being generated by the vortex when the liquid is stirred by the stirring unit, and the injection hole formed in the nozzle unit 40. (42) is the oxygen dissolving apparatus, characterized in that the distribution density is lowered from the lower end side toward the upper end side. delete

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