JP3232657U - Water environment aeration purification device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water environment aeration purification device capable of controlling an aeration amount. A water environment aeration purification device includes a housing 1. A first motor 2 is provided in the middle of the bottom of the housing, a stirring rod 3 is provided in the top of the first motor, a water entry hole 4 is formed in the left top of the housing, and a water entry hole 4 is formed in the middle of the water entry holes. , The first valve 5 is provided, and an engaging groove 6 is formed at the bottom of the first valve. When the first valve is opened, water enters the water storage box 14, and when the set value is reached, the first motor rotates. Therefore, the water in the water storage box is sufficiently agitated, and the third motor 12 is turned on to turn on the air. Is sufficiently dissolved by inhaling with the impeller 11. Since the aerated water flows out from the valve, the effect of aeration can be obtained. If the aeration is under normal conditions, it is not necessary to close the first valve, but if it is necessary to control the degree of aeration, the first When one valve can be closed and air enters through the air inlet pipe 10 and is filled, when the second valve 13 is opened, the aerated water is discharged, and only the amount of the aeration box is aerated each time. [Selection diagram] Fig. 1

Description

The present invention relates to the field of water treatment technology, and particularly to a water environment aeration purification device.

Aeration is the process of forcibly converting oxygen in the air into a liquid. Its purpose is to obtain sufficient dissolved oxygen. The purpose of aeration is to prevent the sedimentation of the suspended matter in the pond and to strengthen the contact between the organic matter in the pond and the microorganisms and dissolved oxygen. Aeration is often used for industrial contaminated water treatment and is also used in ordinary aquaculture sites.

In water environment treatment, it becomes easier to perform water treatment by always using the principle of aeration. However, in general water environment treatment, the efficiency of aeration and the demand for aeration equipment do not match, and the utilization rate of aeration equipment cannot always be maximized. Therefore, water for solving the above problems. An environmental aeration purification device is required.

An object of the present invention is to provide a water environment aeration purification device capable of controlling the degree of aeration and further improving the efficiency of aeration in order to eliminate defects such as those in the prior art.

In order to realize the above-mentioned object, according to an aspect of the present invention, the water environment aeration purification device including the housing is provided with a first motor in the middle of the bottom of the housing, and the top of the first motor is provided. Is provided with a stirring rod, a water entry hole is formed in the left top of the housing, a first valve is provided in the middle of the water entry hole, and the bottom of the first valve is engaged. A groove is formed, a screw is movably connected to the right side of the first valve, a second motor is fixed to the bottom of the screw, and an auxiliary rod is provided to the left side of the screw. An air inlet tube is provided in the middle of the top of the housing, an impeller is provided in the middle of the air inlet tube, a third motor is provided on the left side of the impeller, and a second motor is provided on the left bottom of the housing. A valve is provided, a water storage box is provided on the right side of the water inlet hole, a third valve is provided on the bottom right side of the water storage box, and a screw rod is provided on the right side of the third valve. A valve sleeve is movably connected to the outside of the screw rod, a piston is provided on the outside of the bearing sleeve, a fourth motor is provided on the bottom of the screw rod, and the right side of the housing is provided. A drain is formed at the top.

In a preferred embodiment, the housing is made of a waterproof material having a sealing property. This makes it possible to prevent damage due to flooding of internal equipment.

In a preferred embodiment, the stirring rod rotates about an axis included in the first motor, and a sealing is provided between the first motor and the axis. This makes it possible to prevent water from entering the first motor.

In a preferred embodiment, the connection portion where the water inlet hole and the first valve are connected is sealed. Thereby, it can be guaranteed that water does not enter when the first valve is closed. Further, the first valve, the second valve and the third valve have the same configuration. As a result, the second valve is normally closed, but the second valve can be opened as needed to control the amount of aeration.

In a preferred embodiment, the air inlet is divided into two halves at the top of the water storage box, one half communicating with the water storage box and the other half at right angles between the fourth motor and the piston. Is placed in.

In a preferred embodiment, the wind direction of the impeller is directed into the water storage box, and the impeller is controlled by the third motor. Then, by introducing air into the water storage box by an impeller, oxygen can be dissolved in water.

In a preferred embodiment, the screw rod is subjected to a rust preventive treatment. This can ensure that the piston moves along the threaded rod.

In a preferred embodiment, the inner wall of the water storage box is subjected to a sealing treatment. This makes it possible to prevent the inner wall from being eroded by water for a long period of time.

In a preferred embodiment, the bearing sleeve is sealed. As a result, erosion due to rust can be prevented, so that the piston can be fixed to the bearing sleeve.

In a preferred embodiment, the inlet pipe and the top of the drain outlet are both located above the horizontal plane. As a result, air intake and drainage are performed above the horizontal plane.

The present invention has the following effects as compared with the prior art.
1. According to the present invention, when the first valve is opened, water enters the water storage box, and when the set value is reached, the first motor rotates together with the stirring rod, so that the water in the water storage box is sufficiently aerated. At the same time, the third motor is turned on and the air is sucked in by the impeller to sufficiently dissolve the air, and the water aerated by the pressure action flows out from the first valve, so that the aeration effect can be obtained, which is usually the case. If the aeration of the situation does not require closing the first valve, but if the degree of aeration needs to be controlled, the first valve can be closed and the air completely enters and fills through the air inlet tube. When the second valve is opened, the aerated water is discharged, and only the amount of the aeration box is aerated each time, so that the aeration amount can be controlled.
2. According to the present invention, when the first valve is opened, after the water storage box is filled with water, the first valve is closed in a state where the second valve is closed, and water is mixed with a stirring rod and an air inlet tube. After sufficient air exposure, open the 3rd valve, let water enter above the piston, and after a predetermined time, close the 3rd valve and turn on the 4th motor to move the bearing sleeve with the piston. To press the water above, water is ejected from the drain port, bubbles are generated on the water surface by the injected water, the amount of air exposure above the water is increased, and the fourth motor moves upward when the piston moves upward. Since an air inlet pipe is provided between the fourth motor and the piston so that a vacuum state is not generated between the piston and the piston, the piston can easily return to its original position, the piston reciprocates, and at the same time, the bottom and upper part of the water body. It is possible to improve the efficiency of the air exposure by exposing the air to the air.

It is a schematic diagram of the whole structure which concerns on this invention. It is the configuration enlarged schematic view of the part A in FIG. It is a block diagram of the 1st valve of this invention. It is a structural schematic diagram of the piston of this invention.

As shown in FIGS. 1 to 2, the water environment aeration purification device includes a housing 1. A first motor 2 is provided in the middle of the bottom of the housing 1, a stirring rod 3 is provided at the top of the first motor 2, and a water entry hole 4 is formed at the left top of the housing 1. A first valve 5 is provided in the middle of the water entry hole 4, an engagement groove 6 is formed at the bottom of the first valve 5, and a screw 7 moves to the right side of the first valve 5. A second motor 8 is fixed to the bottom of the screw 7, an auxiliary rod 9 is provided on the left side of the screw 7, and an air inlet tube 10 is provided in the middle of the top of the housing 1. Be done.

Further, the housing 1 is made of a waterproof material having a sealing property. This makes it possible to prevent damage due to flooding of internal equipment.

Further, the stirring rod 3 rotates around the shaft of the first motor 2, and a sealing is provided between the first motor 2 and the shaft. As a result, it is possible to prevent water from entering the first motor 2.

Further, the connection portion where the water inlet hole 4 and the first valve 5 are connected is sealed. Thereby, it can be guaranteed that water does not enter when the first valve 5 is closed. Further, the first valve 5, the second valve 13 and the third valve 15 have the same configuration. As a result, the second valve 13 is normally closed, but the second valve 13 can be opened as needed to control the amount of aeration.

Further, the air inlet pipe 10 is divided into two halves at the top of the water storage box 14, one half communicates with the water storage box 14, and the other half forms a right angle to the fourth motor 19 and the piston 18. Placed between.

As a specific implementation method, when the first valve 5 is opened, water enters the water storage box 14, and when the set value is reached, the first motor 2 rotates together with the stirring rod 3, so that the water in the water storage box 14 is used. At the same time, the third motor 12 is turned on and the air is sucked by the impeller 11 to sufficiently dissolve the air, and the water aerated by the pressure action flows out from the first valve 5, so that the air is aerated. It is not necessary to close the first valve 5 if the aeration is under normal conditions, but if the degree of aeration needs to be controlled, the first valve 5 can be closed and the air is completely air. When the second valve 13 is opened when the air is filled through the air inlet tube 10, the amount of aeration can be controlled each time.

As shown in FIGS. 1 to 4, according to the water environment exposure purification device, an impeller 11 is provided in the middle of the air inlet pipe 10, and a third motor 12 is provided on the left side of the impeller 11. A second valve 13 is provided on the left bottom of the housing 1, a water storage box 14 is provided on the right side of the water inlet hole 4, and a third valve 15 is provided on the bottom right side of the water storage box 14. A screw rod 16 is provided on the right side of the third valve 15, a bearing sleeve 17 is movably connected to the outside of the screw rod 16, and a piston 18 is connected to the outside of the bearing sleeve 17. A fourth motor 19 is provided at the bottom of the screw rod 16, and a drain port 20 is formed at the top of the right side of the housing 1.

Further, the wind direction of the impeller 11 is directed toward the inside of the water storage box 14, and the impeller 11 is controlled by the third motor 12. Then, by introducing air into the water storage box 14 by the impeller 11, oxygen can be dissolved in water.

Further, the screw rod 16 is subjected to a rust preventive treatment. This can ensure that the piston 18 moves along the thread rod 16.

Further, the inner wall of the water storage box 14 is subjected to a sealing treatment. This makes it possible to prevent the inner wall from being eroded by water for a long period of time.

Further, the bearing sleeve 17 is subjected to a sealing treatment. As a result, erosion due to rust can be prevented, so that the piston 18 can be fixed to the bearing sleeve 17.

Further, the tops of the air inlet pipe 10 and the drain port 20 are both located above the horizontal plane. As a result, air intake and drainage are performed above the horizontal plane.

The specific implementation method is that when the first valve 5 is opened during use, the water storage box 14 is filled with water, and then the first valve 5 is closed and the water is drained while the second valve 13 is closed. After sufficiently aerating with the stirring rod 3 and the air inlet pipe 10, the third valve 15 is opened, water is allowed to enter above the piston 18, the third valve 15 is closed after a predetermined time, and the fourth motor 19 is opened. By turning on, the bearing sleeve 17 is moved together with the piston 18 to press the water above, water is ejected from the drain port 20, and bubbles are generated on the water surface by the injected water, and the amount of air exposure above the water. Is increased, and an air inlet pipe 10 is provided between the fourth motor 19 and the piston 18 so that a vacuum state is not generated between the fourth motor 19 and the piston 18 when the piston 18 moves upward. The piston 18 can easily return to the original position, and the piston 18 reciprocates, so that the efficiency of air exposure can be improved.

1 Housing 2 1st motor 3 Stirring rod 4 Water inlet 5 1st valve 6 Engagement groove 7 Screw 8 2nd motor 9 Auxiliary rod 10 Air inlet pipe 11 Impeller 12 3rd motor 13 2nd valve 14 Water storage box 15 3rd motor 16 Screw rod 17 Bearing sleeve 18 Piston 19 4th motor 20 Drain port

Claims (10)

A water environment aeration purification device including a housing (1).
A first motor (2) is provided in the middle of the bottom of the housing (1).
A stirring rod (3) is provided on the top of the first motor (2).
A water entry hole (4) is formed in the left top of the housing (1).
A first valve (5) is provided in the middle of the water inlet hole (4).
An engaging groove (6) is formed at the bottom of the first valve (5).
A screw (7) is movably connected to the right side of the first valve (5).
A second motor (8) is fixed to the bottom of the screw (7).
An auxiliary rod (9) is provided on the left side of the screw (7).
An air inlet tube (10) is provided in the middle of the top of the housing (1).
An impeller (11) is provided in the middle of the air inlet tube (10).
A third motor (12) is provided on the left side of the impeller (11).
A second valve (13) is provided on the left bottom of the housing (1).
A water storage box (14) is provided on the right side of the water inlet hole (4).
A third valve (15) is provided on the right side of the bottom of the water storage box (14).
A screw rod (16) is provided on the right side of the third valve (15).
A bearing sleeve (17) is movably connected to the outside of the screw rod (16).
A piston (18) is provided on the outside of the bearing sleeve (17).
A fourth motor (19) is provided at the bottom of the screw rod (16).
A drainage port (20) is formed on the right top of the housing (1).
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The housing (1) is made of a waterproof material having a sealing property.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The stirring rod (3) rotates around the axis of the first motor (2), and the stirring rod (3) rotates.
A ceiling is provided between the first motor (2) and the shaft.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The connection portion where the water inlet hole (4) and the first valve (5) are connected is sealed.
The first valve, the second valve and the third valve have the same configuration.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The air inlet pipe (10) is divided into two halves at the top of the water storage box (14), one half communicates with the water storage box (14), and the other half is at a right angle to the fourth motor. Arranged between (19) and the piston (18),
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The wind direction of the impeller (11) is directed toward the inside of the water storage box (14).
The impeller (11) is controlled by the third motor (12).
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The screw rod (16) is subjected to a rust preventive treatment.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The inner wall of the water storage box (14) is sealed.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The bearing sleeve (17) is subjected to a sealing treatment.
A water environment aeration purification device characterized by this. The water environment aeration purification device according to claim 1.
The tops of the air inlet pipe (10) and the drainage port (20) are both located above the horizontal plane.
A water environment aeration purification device characterized by this.

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