KR20100072483A - Aeration apparatus - Google Patents

Abstract

PURPOSE: An aerator for deep aeration is provided to prevent contamination of water collected in a marine farming area, dam, river or a sewage disposal plant etc by producing fresh air, and to minimize maintenance costs of the aerator. CONSTITUTION: An aerator for deep aeration includes an opening and closing valve opened and closed corresponding to a first and a second water tanks(10,20) and a buoy floating by the water amount supplied to the water tank. The opening and closing valve controls floating of the buoy and easily fills the tank with fresh air and water produced by correct operation and smooth operation.

Description

Aeration device for deep aeration {AERATION APPARATUS}

The present invention relates to an aeration apparatus for deep aeration for generating and providing fresh air in order to prevent the contamination of stagnant water such as farms, dams, rivers or sewage treatment plants.

Household sewage and manure discharged from homes and buildings, industrial wastewater discharged from factories and workplaces, livestock wastewater and livestock manure discharged from livestock facilities, runoff from agricultural land and forests during rainfall, oil, sewage, and food waste from water facilities · Luxury, perishables and toxic substances, such as untreated water at sewage treatment plants where various polluted water is collected along with various wastes and agricultural pesticides and fertilizers. The water quality is contaminated enough to flow into the river, making it unusable for various types of water or causing serious damage to the habitat.

In the decayed waters of farms, dams, and rivers, eutrophication occurs, oxygen deprivation causes rotting water and odors, and harmful red tide occurs, resulting in deterioration of sewage such as fish and aquatic life.

In other words, sewage, surface sewage, factory and agricultural and livestock wastewater are continuously introduced into lakes, such as dams, lakes and reservoirs. Increasingly, nutrients including nitrogen compounds and phosphates among pollutants promote the growth and growth of microorganisms that cause organic decomposition and cause eutrophication in fresh water.

As it is well known, eutrophication refers to a phenomenon in which abnormal growth of algae occurs because nutrients such as nitrogen and phosphorus are increased in fresh water due to decomposition of organic substances by microorganisms.

This eutrophication causes severe damage to the appealing ecosystem, such as deterioration of fresh water turbidity, odor caused by decay, and severe death of fish in the water.

Therefore, it is important that the appeal is balanced so that the amount of nutrients such as nitrogen and phosphorus contained in the aquatic ecosystem in the fresh water does not exceed its own purification ability, and especially the organic substances or heavy metals that sink by increasing the dissolved oxygen of water. It is very important to make oxidation work smoothly.

However, many appeals in Korea are increasing due to the large amount of pollutants and the formation of dense layers according to long-term freshwater despite the increase of upstream wastewater purification facilities. The problem is that fish cannot survive, causing aquaculture.

In order to improve this problem, various methods are used to improve the water quality, and one of them is a method of artificially injecting air into the lower layer of the body of water to increase the dissolved oxygen concentration in the water.

However, the method using aberration of this method is to operate the motor driven by electric power and the aberration rotating by the power of the motor to radiate water surface to dissolve oxygen in the air to increase the amount of oxygen, but it is uneconomical due to power consumption. There is a problem that the effect is very insignificant and otherwise there is a method to increase the amount of oxygen by forcibly injecting the air generated by the power into the water, but as described above, there is a lot of power consumption and the effect is very minimal.

In another method, there is a technique for solving the stratification using upflow. This is because the density layer resolution technology using the upstream water flows the water from the lower layer to the surface layer by installing a large propeller in the lower water body of the stagnant water and rotating the propeller to cause the upward water flow, or by blowing compressed air to cause the upward water flow. It is a way to raise and circulate.

In this way, when the upstream flow method is adopted to resolve the density layer of the lake, the organic matter concentration is high and the lower layer water, which lacks dissolved oxygen, rises to be mixed with the surface layer water, and organic matter, iron, and manganese are oxidized. It is used as a nutrient source for teal algae in the surface layer water, and it is likely to cause the adverse effect of excessive reproduction of teal algae.

That is, the conventional method for solving the density layer of the lake using the upstream flow adopts a method of oxidizing the organic material and heavy metals of the lower layer to the surface layer and is used as a nutrient source of the teal algae where some of the organic material lives in the surface layer water. Accordingly, there was a problem causing another problem of water pollution due to excessive reproduction of the teal algae.

In addition, the method using the upward flow as described above has a relatively low effect of scraping the water of the lower layer (horizontal movement), and also has a problem in that the density layer solution is limited and the maintenance cost is excessive.

In other words, to rotate a large screw at high speed or to blow compressed air into the water, it requires an enormous installation cost and power, which is uneconomical. This is just an inefficient method.

As mentioned above, various methods for supplying oxygen to water have been known, but since they use electric power or wind power and hydraulic power, many cost and effects are insignificant in the construction of a device for generating the driving force. have.

In view of such a problem, the inventors of the present invention have previously invented the air generating method and apparatus of the prior application No. 10-2008-014511.

The above-mentioned invention is that the buoy floating on both sides of the tank and the amount of water in the tank controls the float, and the floating interlocking member linked to the float as the float floats by the control operates the opening / closing valves up and down to supply the water into the tank and the water in the tank. The method for producing an air and a device for providing air to the tank by water drainage in the tank and raising the air in the tank according to the water supply again are performed alternately.

This prior art has disadvantages such as the complexity of the device and the failure and incomplete operation.

The present invention is directed to improving the problems in the applicant's prior invention as described above, in particular, to simplify the configuration and to facilitate the production and smooth operation.

According to the present invention, floating and floating floated by the control means of the buoys and buoys floating with the amount of water supplied to the opening and closing valves and the water tanks which are opened and closed corresponding to each other in the upper and lower sides of the first and second tanks and the first and second tanks divided from side to side It is to provide a deep aeration aeration device comprising an on-off valve that can control the buoy by interlocking interlock between the operation and the smooth operation and the supply of the generated air and the rapid filling of water.

The present invention is to control the valve by buoy and float (float) by the hydraulic pressure without a separate power means to minimize the maintenance cost and to be able to supply the generated air to contaminated lakes, rivers, fish farms.

Hereinafter, with reference to the accompanying drawings in accordance with an embodiment of the present invention will be described in detail aeration device for deep aeration according to the present invention.

1 is a perspective view showing the appearance of the present invention, Figure 2 (a) is a cross-sectional view of an embodiment for supplying water to the first tank of the present invention, (b) is a water supply to the first tank of the present invention It is sectional drawing of the Example to discharge.

3 is a perspective view showing a preferred on-off valve of the present invention.

1 and 3, the opening and closing valves are disposed at the upper and lower ends of the first and second tanks 10 and 20 and the first and second tanks 10 and 20, which are divided into left and right partitions as shown in FIGS. And configured to control the supply and discharge of water to the first and second tanks 10 and 20 and the introduction and discharge of air to 30,

Air to collect air generated from the storage tank 40 and the first and second tanks 10 and 20 to temporarily store the water supplied to the water supply line 41 above the first and second tanks 10 and 20. The recruitment hopper 42 and the air discharge line 43 are configured to generate and supply air, and an air supply line 51 is formed at the lower part together with the water discharge tank 50 for controlling the discharge.

And the first and second tanks (10, 20) by each main shaft 60 is installed in the shaft to configure the hinge (70) by the power shaft 61 fixed to the main shaft 60 in the tank It is configured to float with the water pressure supplied to the first and second tanks (10, 20) and the main shaft (60) is rotated by a predetermined angle in the shanghai east of the float (70).

In addition, the main shaft 60 is exposed to the outside of the first and second tanks (10, 20) Between operation 63, which is hinged by the upper and lower interlocking rod 62 and fixed to the main shaft 60, and the stopper 64 for controlling the operation 63 is elastically operated by the spring 68. It is configured to control the rise of the floatation 70 by the main shaft 60 and the power drive 61 by hinged to the upper part to control the rotation of the operation drive 63.

In addition, the main shaft 60 has an additional valve driving section 65 and a valve control section 67 hinged at an end extending vertically extending the valve linking section 66 hinged thereto. Since the valve is opened and closed by rotating the water, the water supply and discharge and the inlet and outlet of the air are configured so that the up and down valve 30 is interlocked with the water supply and discharge and the air into the first and second tanks 10 and 20. It is possible to alternately enter and exit

In addition, the first and second tanks 10 and 20 form a buoy 80 that moves up and down according to the water level, and the interlocking shaft 81 is exposed to the outside of the first and second tanks 10 and 20 together with the stopper. The inter-gear 63 is controlled to control the stopper 64 hinged to the outer wall portion by the wire 83.

In the present invention, the on-off valve 30 is composed of a gate 33 hinged to the valve body 32 by the valve shaft 31 and the valve shaft 31 controls the valve of the valve linkage 66 as described above. The first and second tanks 10 and 20 are respectively configured to be fastened to the liver 67 and manipulated by the liver 67.

Float 70 of the present invention is preferably a material that floats easily in water and quickly floats with water pressure, and is preferably composed of a tubular body having a through-hole formed in order to satisfy the effect of this action. The box is, of course, not limited to its shape.

The present invention can obtain the power using the rotational force by configuring a gear means not shown for using the rotational force of the main shaft 60 to rotate a predetermined angle in accordance with the continuous lifting operation of the float (70).

The present invention is configured by intersecting the same configuration in the first and second tanks (10, 20) and interlocked with the main shaft 60 to form an interlocking action and configuration, so that the first and second tanks (10, 20) alternate with each other. It is to be able to achieve repeated action.

The present invention connects the water flowing naturally in the valley, river, dam, etc. to the water supply line of the present invention to supply water, so there is no difficulty in supplying water, and ascend and descend the floating in the first and second tanks with the supplied water. By controlling the up and down opening and closing valves by raising and lowering, water filling and discharge into the first and second tanks are carried out, and the air generated by this is buoyant caused by lack of dissolved oxygen due to pollutants such as freshwater, fish farm, sewage treatment plant, etc. Creates pollution-free air that can be supplied with air to prevent aging and prevents water shortages and pollution in rivers by using and draining water without pollution, and reduces maintenance costs while improving water quality. It is possible to improve the habitat environment of fish in the appeal by reducing water purification costs and improving the water quality. You can see the effect.

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

1 is a perspective view showing the appearance of the present invention, Figure 2 (a) is a cross-sectional view of an embodiment for supplying water to the first tank of the present invention, (b) is a water supply to the first tank of the present invention 3 is a perspective view showing a preferred on-off valve of the present invention to discharge the natural flowing water in the valley, river, dam, etc. as shown in this connection to the water supply line 41 of the present invention Then, the water supplied is recruited to the storage tank (40).

Collected water is the first water tank 10, the top on-off valve 30 is open as shown in (a) of Figure 2 and the water supplied to the storage tank 40 by the on-off valve 30 is the first It is introduced into the water tank (10).

At this time, the air introduced into it is discharged in proportion to the amount of water filled into the empty space in the first water tank 10, and the discharged air is raised through the opened open / close valve 30 and air is recruited to the upper portion. Recruited to the hopper 42 is to be supplied to the desired fish farms, rivers and the like through the air discharge line (43).

As the amount of water supplied to the first water tank 10 is gradually filled, the float 70 in the first water tank 10 is stopped by the control by the stopper 64 controlled by the buoy 80 to be described later. Is in.

That is, the stopper 64 is controlled by blocking the movement of the operation 63 at the moving position of the operation 63 in the downward state, and the main shaft 60 and the power between the power 61 is controlled while being linked to the underwater I am under pressure to injure.

Then, the water level rises with the continuous water supply, thereby raising the buoy 80 and reaching the highest point of the buoy 80 that is raised, thereby rotating the interlocking shaft 81 of the buoy 80 in the same direction, and this rotation causes the interlock. The stopper interlocking period 82 exposed to the outside on the shaft 81 is moved upward.

With this movement, as shown in FIG. 2B, the stopper interlocking period 82 is controlled by the stopper 64 by the movement by pulling the stopper 64 upward by the wire 83. ) And the fastening force is lost and the operation (63) is in a free state.

At the same time, the floating 70 under the floating pressure in the first water tank 10 is interlocked with the power shaft 61 and the main shaft 60 while suddenly rising with water pressure in a free state interlocked with the operation 63. 45 degrees rotation is raised.

The rotation of the main shaft 60 is connected to the valve control section 67 by simultaneously interlocking the valve drive section 65 and the valve linkage 66 and the valve control 67 fixed to the main shaft 60. By rotating the valve shaft 31 by approximately 45 degrees, the upper opening and closing valve 30 of the first water tank 10 is closed and the lower opening and closing valve 30 is closed as the gate 33 of the valve rotates in the closing direction from the open state. By controlling the opening is to shut off the water supply of the first tank 10 and to discharge the water in the first tank (10).

Simultaneously with this, the second water tank 20 is the first water tank 10 in a state in which there is no water in the second water tank 20 with the lower side opening / closing valve 30 open as shown in FIG. The interlocking operation of the main shaft 60 and the up-and-down interlocking motion 62 in which the float 70 rotates rapidly increases and interlocks the operation 63 together, and the main shaft of the second tank 20 While the 60 is rotated together, the second tank 20 side operation period 63 moves back to the fastening position in a relaxed state with the stopper 64, and the stopper 64 is operated by the elastic force of the spring 68. While moving by the elasticity to move to the fastening position of the liver 63 is fastened to control the operation between the 63.

As the main shaft 60 of the second tank 20 rotates, the valve driving section 65, the valve linking section 66, and the valve control section 67 may be configured to open / close the valve 30 of the second tank 20. The upper side is converted into the open state of FIG. 2 (b) from the closed state of FIG. 2 (a) and the closed state is closed from the open side of the lower side, so that the water of the upper water storage tank 40 is converted into the second tank 20. ) Is switched to a state in which discharge is blocked at the same time.

As a result, the water supplied to the second tank 20 is gradually filled, and the above-described action is repeatedly performed as in the first tank 10 described above, so that the floating 70 of the second tank 20 is increased in pressure. Receiving and also to control the stopper 64 by the rise of the buoy 80, the above-mentioned water discharge from the second tank 20 and the water supply of the first tank 10 is continuous at this time.

As described above, since the water supply is alternately supplied to the first and second tanks 10 and 20 of the present invention, the float 70 in the first and second tanks 10 and 20 is alternately reciprocated up and down. According to the action taken, the main shaft 60 is continuously rotated at a constant angle.

In addition, the air supplied in the first and second tanks (10, 20) is discharged to the water filling by the water supply and is supplied to the predetermined place by the air discharge line 43 through the discharge and the air recruitment hopper 42 to the upper portion The process and the recruitment according to the water supply and discharge of the first and second tanks (10,20) is to generate a large amount of air.

The present invention recruits and recruits the air in the tank according to the cross-injection into the first and second tanks (10,20) and the water filling in the first and second tanks (10,20) by simply using the flowing water. It can be used to transfer to a predetermined place through the air discharge line.

The on-off valve 30 in the present invention is not limited to the shape of the on-off valve 30 shown to be carried out to have a water discharge effect and the characteristics of robustness and rust prevention.

In addition, the float 70 of the present invention is preferably made of a tubular body formed with a through-hole in order to satisfy the effects of this action as a material that is easily floated in water and quickly floated by water pressure, otherwise spherical or elliptical Naturalness is not limited to the shape because it is natural.

The present invention can obtain the power using the rotational force by configuring a gear means not shown for using the rotational force of the main shaft 60 to rotate a predetermined angle in accordance with the continuous lifting operation of the float (70).

The present invention is configured by intersecting the same configuration in the first and second tanks (10,20) and interlocked with the main shaft (60) to form an interlocking action and configuration, so that the first and second tanks (10,20) It is to be able to achieve alternatingly repeated actions.

Since the air according to the present invention is supplied to fresh water, polluted rivers, etc., the external fresh air is continuously supplied into the polluted water to purify the pollutants by circulating oxygen and supplying oxygen-rich water and supplying oxygen. Through the action of inhibiting the photosynthetic action of the will be greatly contributed to improve the water quality by eliminating the layer of appeal density.

The present invention can be used for purifying fresh water and contaminated water that requires air because the air is formed as air bubbles in the upper tank by dropping the upper part to the lower part and raising the air in the air supply chamber without a separate power source as described above. have.

The present invention is not limited to the above embodiments, and it is apparent to those skilled in the art that various modifications can be made without departing from the spirit of the present invention.

1 is a perspective view showing the appearance of the present invention.

Figure 2 (a) is a cross-sectional view of the embodiment for supplying water to the first tank of the present invention.

       (b) is a cross-sectional view of the embodiment for discharging the water supplied to the first tank of the present invention.

3 is a perspective view showing a preferred on-off valve of the present invention.

Description of the Related Art

10: first tank 20: second tank 30: on-off valve

31: valve shaft 32: valve body 33: gate

40: storage tank 41: water supply line 42: air recruitment hopper

43: air discharge line 50: water discharge tank 51: air supply line

60: main shaft 61: power between 62: up and down interlocking

63: between operation 64: stopper 65: valve driving period

66: valve interlocking 67: valve control 68: spring

70: floating 80: buoy 81: interlocking shaft

82: stopper linkage 83: wire 111: partition wall

Claims (3)

It is configured to control the supply and discharge of water and air by configuring the opening and closing valve 30 at the upper and lower ends of the first and second tanks 10 and 20 divided into the partition wall 111, Storage tank 40 having a water supply line 41 above the first and second tanks 10 and 20, an air recruitment hopper 42 having an air discharge line 43, and a water discharge tank 50 at the bottom thereof. ) And the air supply line (51), The float 70 is hinged by the power shaft 61 fixed to the main shaft 60 installed in the first and second tanks 10 and 20 to be floated by water pressure, The valve shaft 31 is fixed to the main shaft 60 exposed to the outside to operate the valve shaft 31 between the valve interlock 66 and the valve control 67 to achieve opening and closing of the valve. The stopper 64 for controlling the control section 63 fixed to the main shaft 60 is elastically installed by the spring 68 to rotate the operation section 63 in a hinged state on the upper section 63 of the control section 63. To control the The stopper 64 is a stopper (wire) 83 of the stopper interlocking period 82 fixed to the interlocking shaft 81 of the buoy 80 rising and falling in accordance with the water level of the first and second tanks 10 and 20. A deep aeration device for aeration, characterized in that for controlling the operation (63) by controlling the 63. The method of claim 1, The on-off valve 30 is composed of a gate 33 hinged to the valve body 32 to the valve shaft 31 and the valve shaft 31 and the valve interlocking period 65 interlocked with the main shaft 60 and Aeration device for deep aeration, characterized in that configured to interlock by the valve control between 66. The method of claim 1, The floating 70 is a material that rises easily in water and quickly rises with water pressure, aeration device for a deep aeration, characterized in that consisting of any one of a rectangular body or a cylindrical, elliptical through which a small load through the hole.

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