KR200449923Y1 - Micro air bubble producer - Google Patents

Abstract

The present invention relates to a micro-bubble generating device, and more specifically, the first housing 10 having a built-in sterena 15 for filtering the foreign matter therein, the supply water is introduced and discharged, and is connected to the primary housing Supply water is introduced and discharged, and comprises a secondary housing 20 is installed with an impeller 25 is driven by the motor (M) therein, the secondary housing 20 is an air supply port for supplying air to the inside Protruding and forming a plurality of wedges (40) on the inner surface of the 30 and the microbubbles collide with the plurality of wedges while rotating at a high speed by the impeller driving the motor together with the air, the feed water filtered out of the foreign matter by the stereta Since it occurs effectively, it is useful to use in various fields such as drinking water, medical water, industrial water, and so on.

Micro Bubble, Generator, Purification, Motor Driven

Description

Motor driven micro bubble generator {Micro air bubble producer}

The present invention relates to a microbubble generating device, and more particularly, the microbubble is generated by colliding with a plurality of triple wedges while rotating at a high speed by means of an impeller driving a motor together with air. The present invention relates to a motor-driven microbubble generating device which is effectively used for various fields such as drinking water, medical water, industrial water, and the like.

In the modern society, water pollution is a serious problem. Especially, since many foreign substances contained in the water are oxidized by dissolved oxygen and exist in a positive ionization state, the pollution of water is getting serious day by day.

Such water pollution can no longer be drunk as drinking water supplied to each household from the water supply, and also has a bad effect on other medical water and industrial water. Is being developed.

That is, in the conventional water purification system proposed to purify drinking water and other medical water, industrial water and the like supplied to each home, a purification method using microorganisms was mainly used.

For example, when the foreign matter contained in the fluid (water) is physically excluded by the screen, and ammonia generated from organic matter, which is the main source of water pollution, is activated and changed to nitrite back to nitrite by the action of aerobic microorganisms. To oxidatively decompose (nitride).

In addition, if only the above-mentioned nitrification process is carried out, nitrate in the water increases the acidity of the water and causes eutrophication, so that the nitrogen component is removed in the form of nitrogen gas by the activity of anaerobic microorganisms to perform a more advanced purification process. It was to be.

However, the above-mentioned conventional purification system using microorganisms requires a lot of facilities and maintenance costs of the purification system because the conditions contrary to the nitriding and denitrification processes are continuously performed in the same facility. There were many problems, such as inevitably.

On the other hand, in addition to the water purification method using the above-mentioned microorganisms, a water purification method using an air bubble generator was used, which was to supply air to the fluid to generate air bubbles to purify the fluid.

However, the conventional air bubble generator is not only complicated in structure but also does not sufficiently supply air bubbles to the fluid, so the purification efficiency is lowered, and thus has a limitation that cannot be used in a wide range of fields.

The present invention is designed to solve the problems of the prior art described above, after filtering foreign matters in the feed water, the feed water and air collide with a plurality of triple wedges to generate micro bubbles, drinking water, medical water, industrial water, etc. Its purpose is to provide useful use in various fields.

The present invention aims to increase the efficiency of use by effectively generating micro bubbles because it collides with a plurality of triple wedges while rotating at a high speed by the impeller driving the feed water and air.

The present invention, the inlet and discharge the feed water, but the inside of the primary housing with a built-in sterena for filtering the foreign matter contained in the feed water, the inlet, discharge the feed water passed through the primary housing In the secondary housing built-in impeller driven by the motor is configured to be coupled, the air is supplied to the secondary housing through the air supply port to generate micro bubbles in the supply water by the high-speed rotation of the impeller,
The secondary housing is to form a discharge port in the horizontal direction of the impeller in the direction of the impeller centrifugal force action direction of the impeller, the discharge port is formed in a vial bottle to form a narrower than the inside of the circular secondary housing, the inner wall surface of the secondary housing There is a feature in that to form a plurality of wedges protruding.

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This invention devises a microbubble by colliding with a plurality of triple wedges while rotating the feed water supplied to the primary housing by filtering the foreign material by the sterena and then supplied to the secondary housing by a high speed by the impeller driving the motor together with the air Since it is effectively generated and supplied, it can maximize the purification efficiency and can be usefully used in various fields such as drinking water, medical water, industrial water, etc., thereby providing an effect of increasing efficiency.

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

1 to 3, the microbubble generating device of the present invention, the inlet and outlet, but the primary housing having a built-in sterena (15) for filtering the foreign matter contained in the supply water therein ( 10) coupled to the secondary housing 20, the impeller 25 for driving the motor (M) is installed therein inlet and discharge the feed water passed through the primary housing, the secondary housing (20) In the air supply through the air supply port 30 to generate micro bubbles in the supply water by the high-speed rotation of the impeller,
The secondary housing 20 forms an outlet 22 in an upward direction in a horizontal direction of the impeller 25, which is a centrifugal force action direction of the impeller 25, wherein the outlet port is narrower than the inside of the circular secondary housing. Form in the form,

The inner wall surface of the secondary housing 20 is formed by protruding a plurality of wedges (40).

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At this time, the wedge 40 is formed by the triple wedge with three wedges 42 protruding from the center bar 41 is effective for microbubble generation, which is double wedge or quadruple, 5 depending on the degree of microbubble generation. Of course, the wedge and the like can be selected and applied.

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As the reference numerals, 5 denotes a base, and 50 denotes a fastening member by connecting the primary housing 10 and the secondary housing 20.

Next will be a look at the operation and action of the subject innovation configured as described above.

The present invention is characterized by having an effective effect of generating micro bubbles because it impinges on the wedge while supplying air to the feed water to rotate at high speed.

In more detail, when the feed water is supplied through the inlet 11 of the primary housing 10, foreign substances included in the feed water are filtered while passing through the internal sterena 15.

As such, the supply water filtering the foreign matter while passing through the sterena 15 is discharged through the outlet 12 of the primary housing 10, and is connected to the outlet 12 of the primary housing 10. It is supplied into the secondary housing 20 through the inlet 21 of the (20).

At this time, the impeller 25 is rotated by the motor M to the front of the feed water introduced through the inlet 21 in the secondary housing 20.

 The secondary housing 20 supplies air through the air supply port 30.

Therefore, the supply water flowing through the inlet 21 of the secondary housing 20 is rotated at high speed by the impeller 25 together with the air supplied through the air supply port 30, the secondary housing 20 While colliding with a plurality of protruding wedges 40 formed on the inner wall surface of the micro bubbles will be generated effectively.

In addition, since the wedge 40 is formed as a triple wedge with three wedges 42 protruding from the center bar 41, it will generate micro bubbles more effectively.

As such, the feed water effectively generating the micro bubbles is discharged through the outlet 22 of the secondary housing 20, which is discharged upward from the centrifugal force acting direction of the impeller 25, that is, horizontally with the impeller 25. It is formed so that the supply water and air is discharged to the upper side after effectively generating micro bubbles in the secondary housing.

As such, the present invention maximizes the purification efficiency by effectively generating microbubbles in the feed water, which is usefully used in various fields such as drinking water, medical water, and industrial water.

1 is a front configuration diagram of the present invention.

2 is an enlarged view illustrating main parts of FIG. 1;

Figure 3 is a side view of the main part of the present invention.

Figure 4 is an operating state of the present invention.

** Description of the symbols for the main parts of the drawings **

10: primary housing 11, 21: inlet

12,22 outlet 15: sterena

20: secondary housing 25: impera

30: air supply port 40: wedge

Claims (3)

delete delete The inlet and outlet of the feed water, but the inside of the primary housing 10 having a built-in sterena 15 for filtering the foreign matter contained in the feed water, and the inlet and outlet of the feed water passing through the primary housing The secondary housing 20 is installed coupled to the impeller 25 driven by the motor (M) in the combined configuration, the air supply through the air supply port 30 into the secondary housing 20 to supply the impeller In the microbubble generating device which generates microbubbles in the feed water by high speed rotation, The secondary housing 20 forms an outlet 22 in an upward direction in a horizontal direction of the impeller 25, which is a centrifugal force action direction of the impeller 25, wherein the outlet port is narrower than the inside of the circular secondary housing. Form in the form, Motor-driven micro-bubble generating device, characterized in that the inner wall surface of the secondary housing 20 is formed by protruding a plurality of wedges (40).

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