KR20120008919A - A creating vacuum cleaner of the zinc-water with micro-bubble - Google Patents

Abstract

PURPOSE: A self-priming vacuum pump is provided to generate zinc water having micro bubbles using a zinc plate that is ionized with a supplied voltage. CONSTITUTION: A vacuum self-priming pump comprises a pump chamber(4) and an impeller(6) which is installed in the pump chamber. The pump chamber comprises a water inlet(1) for letting water in, an air supply hole(2) for supplying air, and an outlet(3). The impeller is rotated by being axially coupled to the shaft of a motor(5) in order to create a vacuum suction force in the pump chamber.

Description

Vacuum ferromagnetic pump for generating zinc water with microbubble {A CREATING VACUUM CLEANER OF THE ZINC-WATER WITH MICRO-BUBBLE}

The present invention relates to a microbubble vacuum ferromagnetic pump for generating microbubbles, which are micro bubbles having a diameter of 50 μm or less, and more specifically, to vacuum and simultaneously absorb air and water and forcibly absorb the absorbed air and water. The present invention relates to a vacuum ferromagnetic pump for generating zinc water having a micro bubble that is capable of generating zinc water containing zinc ions, as well as generating micro bubbles by stirring.

In general, microbubbles are microscopic bubbles that cannot be seen with eyes smaller than 5 μm (micrometer, or micron, 1 μm = 0.001 mm). They are air particles that are 1 / 2,000 of normal bubbles and finer than 25 μm of skin pores. When extinguished, 1) 40KHz ultrasonic wave generation, 2) high sound pressure of 140db, 3) instantaneous high temperature of 4,000 ~ 6,000 degrees.

In other words, general bubbles rise in water and rupture at the surface, but microbubbles are reduced by pressure in water and generate various energy and disappear.

In addition, such micro bubbles are mainly generated when the water and air are violently rotated with ultra-fine bubbles.

Such microbubbles are utilized in various fields due to physical and chemical properties such as "gas dissolution effect, self-pressurization effect, and charging effect". In recent years, microbubbles are used in various aquaculture and hydroponics in the fishing and agricultural sectors. It is used for precision diagnosis in the medical field, and is used for physical therapy, high purity water treatment, and environmental devices in various fields.

In other words, it is widely used in hot spring baths and cancer diagnosis.

Zinc is one of the representative inorganic substances that form cells and regulate physiological functions in the human body. It is necessary for the activity of enzymes that synthesize insulin, nucleic acids, and proteins. It is contained in meat and algae. Lack of ingestion can lead to birth defects or low birth weight, which can lead to growth and development problems. However, it is one of the important minerals that cause problems such as mineral imbalance even when overdose.

The zinc is a component of the enzyme sod, which removes harmful free radicals generated in plants, and activates enzymes such as manganese and magnesium. When zinc is deficient, protein synthesis is inhibited, causing the development of grana in chloroplasts. At the same time, vacuoles develop, small brown spots appear on plant leaves and growth is inhibited as the leaves become smaller.

And zinc-ion containing zinc ions (Zinc-water) can be kept clean because foreign substances such as when the water on the inner circumferential surface of the reservoir when used in the reservoir, such as sewage treatment plant.

However, in the related art, the microbubbles and the zinc water as described above are generated or formed separately in separate devices, and there is a problem in that the zinc water containing the microbubbles cannot be obtained.

That is, the situation in which the micro-bubble containing water or zinc water are formed separately and used separately, there is a problem that the micro-bubble and the zinc water can cause synergies with each other inadequate to use effectively.

The present invention has been proposed in order to solve the above conventional problems, the object of the present invention is to absorb the air and water at the same time vacuum and forcibly stirring the absorbed air and water to generate micro bubbles, as well as zinc ions in particular The present invention provides a vacuum ferromagnetic pump for generating zinc water having a microbubble capable of generating zinc water.

In order to achieve the object of the present invention as described above, the vacuum ferromagnetic pump for generating zinc water having the microbubble of the present invention has a pump inlet having a water inlet through which water is introduced, an air supply port through which air is supplied, and a discharge port through which the air is discharged. The pump chamber is axially coupled to the shaft of the motor to generate a vacuum suction input to the pump chamber to force the suction and pumping water and air to the discharge port through the water inlet and air supply port to the vacuum ferromagnetic pump equipped with an impeller In; The pump chamber is provided between the water inlet and the air supply port and the discharge port, the rotary disk and the rotating disk having a plurality of induction holes are inserted into the shaft of the motor and the water introduced through the water inlet and the air supply port is guided A plurality of stirring pieces provided to be in close contact with the direction of movement of water and air and protruding in the direction of the rotating disk to agitate the water and air guided through the guide hole to the outside direction and agitate the water and air according to the rotation of the rotating disk. Micro bubble generating means consisting of a fixed disk having a; It is characterized in that it further comprises a zinc plate is provided in the pump chamber and is ionized by receiving power to form water in the pump chamber with zinc water.

The surface of the rotating disk in the direction of the fixed disk side is made of an inclined surface with the center recessed inwardly than the outer peripheral surface, the surface of the rotating disk side of the fixed disk is inclined surface protruding from the outer surface so as to be in close contact with the rotating disk In the surface of the fixed disk side of the rotating disk and the inlet grooves to communicate the induction hole with each other, the width is gradually increased so as to induce water and air to the outer periphery from the indentation groove to diffuse Characterized in that the fan-shaped moving groove is provided.

The stirring pieces of the fixed disk are formed so that the number of intervals gradually increases as well as narrow gradually from the center to the outside, and the stirring pieces of the fixed disk are eccentric in the eccentric position when the center is the center. Characterized in that arranged in.

The vacuum bubble magneto-optical pump for generating zinc water having the microbubble of the present invention made as described above allows water and air discharged to the discharge port from the inside of the pump chamber to be forcibly stirred while passing between the rotating disk and the fixed disk. As a result, the microbubble can be efficiently generated as well as zinc water can be formed by the zinc plate which is supplied with power and ionized, and finally, zinc water having a microbubble can be obtained.

Therefore, it is able to perform the elevated function by having both the characteristics of zinc water and micro bubble, so it is used in various fields (for example, in aquaculture, hydroponics in the fields of fishing and agriculture, in precision diagnosis in the medical field, Physiotherapy, high-purity water purification, environmental equipment) in the field of the present invention.

1 is a schematic illustration showing a vacuum ferromagnetic pump for generating zinc water having a microbubble according to an embodiment of the present invention.
Figure 2 is a schematic cross-sectional view showing a pump chamber of the vacuum ferromagnetic pump for generating zinc water having a microbubble of the present embodiment shown in FIG.
Figure 3 is a schematic illustration showing the bottom of the rotating disk of the vacuum ferromagnetic pump for generating zinc water having a microbubble of the present embodiment shown in FIG.
Figure 4 is a schematic illustration showing the upper surface of the fixed disk of the vacuum ferromagnetic pump for zinc water generation having a microbubble of the present embodiment shown in FIG.

Hereinafter, with reference to the accompanying drawings, a vacuum ferromagnetic pump for generating zinc water having a microbubble according to a preferred embodiment of the present invention will be described in detail.

1 to 3 is a view showing a vacuum ferromagnetic pump for generating zinc water having a micro bubble according to an embodiment of the present invention, the vacuum ferromagnetic pump for generating zinc water having a micro bubble of the present embodiment is water It has a pump chamber (4) having a water inlet (1) to be introduced, an air supply port (2) to which air is supplied, and a discharge port (3) to be discharged. By rotating to generate a vacuum suction input to the pump chamber (4) is provided with an impeller (6) for forcibly sucking and pumping water and air through the water inlet (1) and the air supply port (2) to the discharge port (3). .

Accordingly, as the impeller 6 rotates as the motor 5 is driven, a vacuum suction input is generated in the pump chamber 4 so that air and water are forcibly absorbed by the vacuum and the water is forced by the vacuum suction pressure of the pump chamber 4. And air are mixed to generate microbubbles.

In the vacuum ferromagnetic pump for generating zinc water having microbubbles according to the present embodiment, the pump chamber 4 is provided between the water inlet 1 and the air supply port 2 and the discharge port. The rotating disk 8 and the water of the rotating disk 8 having a plurality of guide holes 7 through which water and air introduced through the water inlet 1 and the air supply port 2 are inserted and rotated on the shaft. The rotating disk 8 is provided to be in close contact with the moving direction of the air and to branch the water and air guided through the guide hole 7 outward and to agitate the water and air according to the rotation of the rotating disk 8. Microbubble generating means consisting of a fixed disk 10 is provided with a plurality of stirring pieces (9) protruding in the direction is provided.

In the above, the fixed disk 10 is fixed to the pump chamber 4 and is fixed while having a gap between the inner peripheral surface of the pump chamber (4).

That is, water flows through the space between the inner circumferential surface of the pump chamber 4 and the fixed disk 10 and is discharged to the discharge port 3.

Accordingly, the water and air introduced into the pump chamber 4 through the water inlet 1 and the air supply port 2 pass through the induction hole 7 of the rotary disk 8 and the fixed disk 10. When passing through, the micro-bubbles are generated by forcibly rubbing against the stirring pieces 9 of the fixed disk 10 as the rotary disk 8 rotates.

And when water and air are stirred between the rotating disk 8 and the fixed disk 10, it is rubbed while passing through the jig jacks between the stirring pieces 9, so that water and air are crushed by a kind of millstone. While stirring vigorously, it is compressed.

This significantly increases the generation of microbubbles.

In addition, the surface of the rotating disk 8 in the direction of the fixed disk 10 side is made of an inclined surface in which the center is recessed inward than the outer peripheral surface, the surface of the fixed disk 10 in the direction of the rotating disk 8 side is The center is made of an inclined surface protruding from the outer surface to be in close contact with the rotating disk (8).

In addition, the surface of the rotating disk 8 in the direction of the fixed disk 10 side of the inlet groove 11 to communicate the guide holes 7 with each other, water and air in the outer periphery in the inlet groove 11 To guide the diffusion is provided with a fan-shaped moving groove 12 is gradually increased in its width.

That is, the water and air passing between the rotating disk 8 and the fixed disk 10 through the guide hole 7 slide like the outer periphery of the fixed disk 10 and at the same time spread widely and evenly so that stagnation does not occur. .

In addition, the stirring pieces 9 of the fixed disk 10 are formed such that the number of intervals gradually increases as well as narrows gradually from the center to the outside, and the stirring pieces 9 of the fixed disk 10 as well. They are arranged outward in an eccentric position when centered about the center.

Therefore, when water and air move between the stirring pieces 9, the stirring is made more actively according to the frequent branching, as well as the friction is denser and the water and the air are tightly pressed, and the generation efficiency of the micro bubbles becomes higher.

As a result of the rotation of the impeller 6, a vacuum suction input is generated in the pump chamber 4 to forcibly introduce water and air, and is forcibly stirred in the pump chamber 4 by the vacuum suction input to generate micro bubbles. Water and air guided between the rotating disk 8 and the fixed disk 9 are forcibly rubbed, and stirring is promoted to generate micro bubbles more remarkably.

In addition, the pump chamber 4 is provided with a zinc plate 13 to be ionized by receiving power to form water in the pump chamber 4 with zinc water.

The voltage of the power source applied to the zinc plate 13 is most preferably made of 2 ~ 30V.

Therefore, the water discharged through the discharge port 3 finally contains zinc ions and microbubbles are formed so that both the characteristics of the zinc water and the microbubble can perform an elevated function. It is used in various forms, hydroponic cultivation, precision diagnosis in the medical field, and useful in the field of physiotherapy, high purity water treatment, and environmental devices in various fields.

1: water inlet, 2: air inlet,
3: discharge port, 4: pump chamber,
5: motor, 6: impeller,
7: guide hole, 8: rotating disk,
9: stirring piece, 10: fixed disk,
11: concave groove, 12: moving groove,
13: zinc plate.

Claims (3)

The pump chamber is provided with a water inlet for water, an air supply port for supplying air, and a discharge port for discharging. In the vacuum ferromagnetic pump provided with an impeller to force suction and pump water and air through the discharge port;
The pump chamber is provided between the water inlet and the air supply port and the discharge port, the rotary disk and the rotating disk having a plurality of induction holes are inserted into the shaft of the motor and the water introduced through the water inlet and the air supply port is guided A plurality of stirring pieces provided to be in close contact with the direction of movement of water and air and protruding in the direction of the rotating disk to agitate the water and air guided through the guide hole to the outside direction and agitate the water and air according to the rotation of the rotating disk. Micro bubble generating means consisting of a fixed disk having a;
It is provided in the pump chamber is ionized by the power supply vacuum ionizer vacuum pump for generating zinc water having a micro-bubble, characterized in that it further comprises a zinc plate to form the water in the pump chamber with zinc water The method of claim 1;
The surface of the rotating disk in the direction of the fixed disk side is made of an inclined surface with the center recessed inwardly than the outer peripheral surface, the surface of the rotating disk side of the fixed disk is inclined surface protruding from the outer surface so as to be in close contact with the rotating disk In the surface of the fixed disk side of the rotating disk and the inlet grooves to communicate the induction hole with each other, the width is gradually increased so as to induce water and air to the outer periphery from the indentation groove to diffuse Vacuum ferromagnetic pump for generating zinc water having micro bubbles, characterized in that a fan-shaped moving groove is provided The method of claim 1;
The stirring pieces of the fixed disk are formed so that the number of intervals gradually increases as well as narrow gradually from the center to the outside, and the stirring pieces of the fixed disk are eccentric in the eccentric position when the center is the center. Vacuum ferromagnetic pump for the generation of zinc water having a micro bubble, characterized in that arranged in

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