KR101959780B1 - Apparatus for oxygen supply for water treatment - Google Patents

Abstract

The present invention relates to an oxygen supply device for improving water quality, comprising a housing (15) for allowing water to flow through an inlet (12) and being discharged through a discharge port, And a venturi tube portion 30 for allowing water to flow through the housing by a pressure difference between the outside and the flow path generated by the flow of compressed air supplied through the supply pipe 11 as a flow path portion, A bubble generating unit 10 for generating bubbles by mixing the bubbles generated by the bubbles generating unit 10 and the bubbles generated by the bubbles generating unit 10, 40, the vertical position of the bubble generator 10 can be easily adjusted, and the maintenance of the bubble generator can be performed on the water surface, which is very easy , The pressure is lowered by the Venturi action when the compressed air is supplied and the seawater is introduced. Therefore, compared with the conventional motor in which the impeller is rotated, the installation cost and the maintenance cost can be greatly reduced. The bubbles can be generated in a nano-scale by collapsing, and the bubbles can be maintained in water for a long time, so that the dissolved oxygen amount can be greatly increased, and the organic matter in the aquaculture can be decomposed and purified.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an oxygen supply device for improving water quality,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oxygen supply device for improving water quality, and more particularly, to an improved oxygen supply device for efficiently supplying oxygen by supplying bubbles for supplying oxygen to lower the BOD for improving water quality in a reservoir, a river, And an oxygen supply device.

Generally, various sludge and industrial wastewater and livestock wastewater (hereinafter referred to as o / wastewater) from various domestic wastewater and manure wastewater contain a large amount of organic substances and coloring matters that pollute rivers or coasts, A large amount of pesticide sprayed for cultivating grass is introduced into the surrounding pond. When the wastewater and the polluted water are introduced into the river without being treated for purification, and further introduced into the sea, In order to prevent such environmental pollution, the crops that are used are also contaminated. To prevent such environmental pollution, they are constantly treated to limit the BOD (biological oxygen demand) to a minimum level. For this purpose, In apartment complexes, o / wastewater treatment facilities must be installed mandatory.

Industrial wastewater discharged from these various sewage, livestock wastewater and dyeing factories must be purified and discharged, and the functionality and efficiency of the treatment apparatus is determined by how quickly and continuously the aerobic microorganisms that lower the BOD of the wastewater in the contact oxidation tank Cultivating the aerobic microorganisms. If the efficiency of cultivation of aerobic microorganisms is increased, it is possible to more quickly and efficiently remove suspended matters, impurities and chromaticity contained in the waste water / wastewater. An aeration device is installed in the treatment tank of the wastewater treatment device to supply the necessary oxygen for the biological treatment of the wastewater or to supply water to the water to activate the water.

In addition, various fishes and fisheries are cultivated in the offshore fisheries, and in recent years, due to the rise of sea water temperature, red tides frequently occur in offshore fisheries, resulting in a great loss. The greatest cause of red tide is the eutrophication of water, that is, when there are too many organic nutrients in the water.

When red tide occurs, the concentration of dissolved oxygen in the water is lowered, so that many fish and fishes that breathe with oxygen in the water suffocate and die. In addition, there are some cases where plankton is physically suffocated by fish gills, and there are some algae that are toxic among the plankton causing red tides, which are dead due to this toxicity. Because of this, if red tide occurs, it may not only hurt fishery, especially aquaculture, but may also cause addiction by ingesting fish and shellfish accumulated in toxic substances

In order to minimize such red tide damage, the oxygen supply device is used to increase the concentration of oxygen in the aquaculture, since the sea water temperature can not be lowered although much efforts have been made, such as spraying yellow clay to the sea.

As an example of such an aeration device in the conventional patent art, in the domestic registered patent No. 10-0512089 (registered on Aug. 26, 2005), the introduced liquid is mixed with air at a high speed and circulated, A fast aeration device capable of fermentation is disclosed.

As an example of another oxygen supply device, Korean Utility Model Registration No. 20-0166750 (filed on October 28, 1999), the water in the aquaculture tank is passed through a pressure water tank when it is recirculated by a pump, An air (oxygen) supply device is disclosed in which intake air passes through an active air passage in a suction path and a connection pipe is connected to the active air passage in a pressure water tank.

Such a conventional aeration device or oxygen supply device mainly uses a motor to rotate a propeller or an impeller to inject air into water to dissolve oxygen in water. The power consumption is very large as the impeller is rotated using a motor. Cost and maintenance cost.

Korean Registered Patent No. 10-0512089 (registered on Aug. 26, 2005) Domestic Utility Model Registration No. 20-0166750 (Registration date October 28, 1999)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an oxygen supply apparatus for improving water quality, which is capable of effectively generating and injecting air into rivers, softwoods or seawater.

According to an aspect of the present invention, there is provided an oxygen supply device for improving the quality of water, comprising: a housing through which water flows in through an inlet port and is discharged through a discharge port;

And a venturi tube portion for allowing water to flow through the housing by a pressure difference between the outside and the flow channel generated by the flow of the compressed air supplied through the supply pipe to the flow passage portion coupled to the discharge port side of the housing to reduce the flow path diameter, A bubble generator for generating and discharging bubbles by mixing water and compressed air,

Moving means for moving the bubble generator in the vertical direction while supporting the bubble generator,

And a frame for supporting the moving means in a partially submerged state in the sea.

The venturi tube portion includes a discharge tube having a swirl generating member for guiding the flow of the inflow water into a swirl state on the inlet side and enlarged in diameter.

The pressure collapse portion is provided to communicate with the discharge port side formed on the side portion of the housing and is provided to the discharge port side of the housing at the front of the venturi tube portion, And may include at least one pressure-reducing member having a perforated plate for causing the pressure plate to collapse step by step.

Wherein the compression member includes at least one compression member and the inner diameter of the compression member is larger than the inner diameter of the vortex generating member disposed in the venturi tube portion and the inner diameter of the discharge tube is larger than the diameter of the passage in the vortex generating member So that water can be introduced into the pressure collapse portion from the housing due to the difference in pressure between the vortex generating member and the pressurized portion.

The pressure collapse member includes a plurality of pressure collapse members for gradually collapsing the inflowing water particles into small particles of small size, and the pressure collapse member is attached to the discharge port side of the housing at one end thereof, A second extrusion member having one end connected to the outside of the perforated plate at the other open end of the first extrusion member and having a perforated plate at the other end, a first extrusion member having a tubular shape with a stencil, And a third extrusion member having a perforated plate disposed at a jaw formed at the other end of the perforated plate, the end of which is connected to the outer end of the perforated plate and whose diameter is reduced.

The discharge pipe is formed with a compressed air passage communicating with the compressed air inlet concentrically with the vortex generating member provided on the inlet side, and the passage is communicated with the flow passage formed in the vortex generating member to the discharge side whose diameter gradually expands have.

Wherein the moving means includes a screw rod having a lower end rotatably disposed at the upper portion of the housing of the bubble generator, an adjusting block adapted to be vertically moved by rotating the screw while being meshed with the upper end of the screw rod, And a guide member for supporting the housing and guiding the up and down movement of the housing together with the screw rod.

The adjustment block may be configured to be meshed with the screw rod to adjust the height of the bubble generator so that the screw rod is moved up and down

The frame supporting the moving means includes upper support members connected to the adjustment block, lower support members disposed at a downwardly spaced position, and a vertical support member connecting and supporting the upper and lower support members, Buoyancy generating means is provided for each of the vertical support members so that the adjustment block is maintained on the sea surface.

The oxygen supply device for improving the quality of water according to the present invention can easily adjust the vertical position of the bubble generator which generates bubbles in the form of minute bubbles in rivers, reservoirs and the sea against the water surface, The pressure is lowered by the venturi action when the compressed air is supplied and the water flows in. Therefore, compared to rotating the impeller with the conventional motor, installation cost and maintenance cost can be greatly reduced, The bubbles can be generated in a smaller size by collapsing the water particles in a multistage manner. The bubbles having a smaller size can be kept in water for a long time to greatly increase the amount of dissolved oxygen, So that the water quality improvement effect is improved.

1 is a schematic perspective view of an oxygen supply device for water quality improvement according to the present invention;
FIG. 2 is a perspective view showing the bubble generator shown in FIG. 1 in an exploded state; FIG.
3 is an enlarged perspective view of the disassembled bubble generator of FIG.
4 (a) and 4 (b) are cross-sectional views for explaining the action in the bubble generating portion of FIG. 2;
FIG. 5 is a schematic usage state showing the state in which the oxygen supply device of FIG. 1 is installed in a reservoir, a river, or the sea and the bubble generator is disposed in the water and used.
FIG. 6 is a schematic use state showing the state in which the oxygen supply device of FIG. 1 is installed in a reservoir, a river, or the sea and the bubble generator is disposed on the water surface and used.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown.

1, the oxygen supply device 1 for improving the quality of water according to the present invention is characterized in that the flow of the compressed air supplied through the compressed air supply pipe 11 sucks water by a pressure difference generated in the flow path due to a change in the flow path diameter A bubble generator 10 for generating and discharging bubbles to the bubble generator 10 and a moving unit 40 for moving the bubble generator 10 in the vertical direction while supporting the bubble generator 10, And a frame 50 for supporting the frame 50.

As shown in FIGS. 2 and 3, the bubble generator 10 includes a housing 15 provided with an inlet 12 on the bottom surface thereof to allow water to flow downward, a housing 15 provided on the side of the housing, And a venturi tube portion 30 for mixing and discharging the water to be supplied through the inlet with the generated low pressure and the compressed air to be supplied.

Optionally, the venturi tube portion 30 may further include a pressing portion 20 for pressing the water particles to be inflated and dispersed in a smaller particle size. The pressurized portion 20 pressurizes the incoming water in several steps, in the embodiment shown in the drawing, in three steps, so that the pressurized portion 20 collapses to a nanoparticle size with smaller fine particles.

The pressurizing portion 20 has an open end which is screwed to a discharge port 16 formed at a side portion of the housing 15 and has an enlarged diameter and a tubular first pressure- A second pressure-reduction member 23 having one end thereof screwed to the outside of the perforated plate 22 at the open end of the first compression member 21 and having a perforated plate 24 at the other end thereof, A third pressing member 27 having a perforated plate 26 having a perforated plate 24 disposed at a proximal portion 25 formed at the other end of the second pressurizing member 23, ).

The Venturi tube portion 30 allows the water to flow from the housing into the pressurized portion 20 by a pressure difference in the flow path generated when the compressed air flows due to a change in the inner diameter of the passage communicating with the pressurized portion, And a vortex generating member (31) for guiding the flow of the water particles pressed by the pressure-reducing members of the water particles to the nanoparticle size into a vortex state is built in the inlet side, and the vortex generating member The compressed air passage 33 is formed at one end of the third compression member 27 so that the compressed air passage 32 is formed in the compressed air passage 32. The diameter of the compressed air passage 33, Shaped discharge pipe 35 which gradually expands.

The inner diameters of the first to third compression members 21, 23 and 27 of the pressing portion 20 are larger than the inner diameter of the vortex generating member 31 disposed in the venturi tube portion 30, ) Is larger than the inner diameter of the vortex generating member (31) and is gradually enlarged, whereby the pressure in the vortex generating member is the lowest and the flow velocity is the fastest, while the flow rate of the water particles in the discharge pipe (30) The venturi pipe effect is generated as a whole, and water is introduced into the pressure collapse portion from the housing due to the pressure difference in the vortex generating member 31 and the pressurized portion 20. [

The holes of the perforated plates 22, 24, 26 provided in the first to third pressing members disposed in the pressing portion 20 are arranged so as not to be aligned with each other so that the pressure difference between the Venturi tube portion and water As the water hits the wall of the perforated plate, it collapses stepwise into smaller particles, resulting in nano-sized particles.

In the discharge pipe (35), compressed air is mixed in a vortex flow state to form a bubble in the vortex flow of water particles flowing from the vortex generating member. As described above, in the present invention, the conventional impeller is driven by a motor, while water is introduced into the pressure difference due to the venturi pipe effect generated by inflow of compressed air only, and the water is passed through the plurality of perforated plates, It is possible to generate bubbles in an energy efficient manner.

Although it is illustrated and described that the pressure mass 20 is provided in the embodiment shown in the drawing, the pressure mass 20 can be selectively used in consideration of the water quality improvement environment and efficiency, the pressure of the compressed air to be supplied, It should be noted that it may not be used. Also, the number of the perforated plates in the pressure collapse portion may be selected as needed.

The moving means 40 includes a screw rod 41 having a lower end rotatably disposed on the upper portion of the housing 15 of the bubble generator 10 and a screw rod 41 screwed on the upper end of the screw rod, Both ends of the adjusting unit 41 and both sides of the housing 15 are coupled to each other to support the housing 15 and the upper and lower ends of the housing 15 together with the screw rod 41 And a guide member 45 for guiding movement.

In addition, the adjustment block 44 is provided with adjustment means, which in the illustrated embodiment is constituted by an adjustment handle 46 and a worm gear, not shown in the figure, is mounted on the axis of the adjustment handle, The screw rod 41 is moved downward from the adjustment handle as shown in FIG. 5 when the adjustment handle 46 is rotated in the fastening direction by rotating the adjustment handle in the release direction, The screw rod 41 is moved upward to move the housing 15 of the bubble generator 10 coupled to the lower end of the screw rod upward or downward to adjust the height of the bubble discharge pipe . The adjusting means may be configured to rotate the worm gear with an electric motor instead of the adjusting handle 46 to move the screw rod.

The frame 50 supporting the moving means has upper and lower support members 51 connected to the adjustment block 44 in a triangular shape in a polygonal shape in the illustrated embodiment and a lower support member 52 and a vertical support member 53 for connecting and supporting the upper and lower support members 51, 52. The vertical support members 52 are each provided with buoys as buoyancy generating means, (54) is provided to allow the oxygen supply device of the present invention to position the adjustment block (44) above the sea level.

In the illustrated embodiment, the frame 50 is in the form of a triangular prism, but it is not limited thereto and the frame shape may also be formed in another polygonal shape, for example, a square pillar shape.

The oxygen supply device according to the present invention can adjust the height from the position where the bubble generator 10 is submerged below the water surface to the position above the water surface so that maintenance of the oxygen supply device can be performed very easily without depending on the diver And the water particles are compressed into smaller sizes and mixed with the compressed air while passing through the perforated plates arranged in a multistage manner by introducing water into the housing by the pressure difference caused by the venturi pipe effect using compressed air It is possible to efficiently generate the bubbles, to shorten the driving energy, and to adjust the bubble particle size easily by adjusting the number of the pressing members including the perforated plates.

The time and surface area of oxygen contact with water can be increased by the microbubbles generated according to the present invention to efficiently increase the amount of dissolved oxygen and accelerate the decomposition of the organic matter introduced into the water by the microbubbles, It is possible to reduce necrosis of microorganisms such as fishes and fishes, so that occurrence of loss due to red tide can be greatly reduced.

The present invention can be applied to an oxygen supply device for increasing the dissolved oxygen amount of water so as to reduce red tide phenomenon generated in water.

1: oxygen supply device 10: bubble generator
11: compressed air supply pipe 12: inlet
15: housing 16:
20: Pressurized portion 21, 23, 27:
22, 24, 26: Perforated plate 30: Venturi tube
31: vortex generating member 32: passage
33: Inlet port 35:
40: moving means 41: screw rod
44: adjustment block 50: frame
51, 52, 53:

Claims (9)

A housing 15 which is connected to a discharge port side of the housing 15 so as to discharge water through an inlet 12 and to be discharged through a discharge port; And a venturi tube portion 30 having a discharge pipe 35 whose diameter is enlarged to allow water to flow through the housing by a pressure difference between the outside and the flow channel generated by the flow of air to mix the inflow water with the compressed air flow A bubble generator 10 for generating and discharging bubbles, a moving means 40 for moving the bubble generator 10 in the vertical direction while supporting the bubble generator 10, and a moving means 40 for partially submerging the bubble generator 10 (50) for supporting a water quality, characterized in that:
The venturi tube portion 30 has a vortex generating member 31 for guiding the flow of the inflow water into a vortex state,
The pressurizing section 20 further includes a pressurizing section 20 which is provided on the outlet side of the housing 15 in front of the Venturi tube section 30 and is adapted to pressurize the incoming water particles, And at least one pressure-decomposing member (21, 23, 27) provided so as to communicate with the side of the discharge port (16) formed on the side of the discharge port and having a perforated plate (22) Wherein the water quality improving oxygen supply device comprises: delete delete The method according to claim 1,
The inner diameter of the compression member 21 is larger than the inner diameter of the vortex generating member 31 disposed in the Venturi tube portion 30 and the inner diameter of the discharge tube 35 is larger than the inner diameter of the vortex generating member 31 And the water is introduced from the housing into the pressure collapse due to a pressure difference between the vortex generating member 31 and the pressure mass 20. [ The method according to claim 1,
The pressurizing portion 20 is provided with a perforated plate 22 at an open end portion of which one end is joined to the discharge port side of the housing 15 and whose diameter is enlarged so as to collapse the inflowing water particles into smaller- A first pressing member 21 having a tubular shape and a second pressing member 21 having one end connected to the outside of the perforated plate 22 at the other open end of the first pressing member 21, And a perforated plate 26 disposed at a jaw portion 25 formed at the other end of the second extruded member 23 which is coupled to one end of the perforated plate 24 at an outer side thereof and whose diameter is reduced, And a third pushing member (27). The method according to claim 1,
The discharge pipe 35 is formed with a compressed air passage 32 communicating with the compressed air inlet 33 concentrically with the vortex generating member 31 provided on the inlet side, 31) is communicated with the discharge side gradually increasing in diameter. The method according to claim 1,
The moving means 40 includes a screw rod 41 whose lower end is freely rotatably disposed at the upper portion of the housing 15 of the bubble generator 10 and a screw rod 41 which is engaged with the upper end of the screw rod to rotate the screw rod. Both ends of the adjustment block 44 and both sides of the housing 15 are coupled to each other to support the housing 15 and move the housing 15 up and down together with the screw rod 41 And a guide member (45) for guiding the water. 8. The method of claim 7,
The adjustment block 44 is provided with an adjustment means for gearing with the screw rod 41 to adjust the height of the bubble generator 10 so that the screw rod 41 is moved up and down. For oxygen supply. 8. The method of claim 7,
The frame 50 supporting the moving means includes upper support members 51 connected to the control block 44, lower support members 52 disposed in a downwardly spaced apart position and upper and lower support members And a vertical support member (53) for connecting and supporting between the vertical support members (51, 52), wherein the vertical support members (52) are each provided with buoyancy generating means so that the adjustment block (44) Wherein the oxygen supply device is a water supply device.

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