KR101154058B1 - The micro-bubble creating device of the vacuum clethe micro-bubble creating device of the vacuum cleaner aner - Google Patents

Abstract

The present invention is the water inlet pipe (1) and the inlet pipe to which water is introduced to improve the efficiency of microbubble by generating a microbubble by simultaneously absorbing the air and water in a vacuum and forcibly stirring the absorbed air and water A pump chamber (5) having an air inlet pipe (2) in which air is introduced in connection with (1), an inlet port (3) to which the inlet pipe (1) is connected, and an outlet port (4) through which air and water are introduced; And a plurality of compartments formed in an isosceles triangle which are wider toward the outside and narrower toward the inside from the center in which the shaft of the motor is fitted and coupled to the shaft of the motor 6 in the pump chamber 5. An impeller (7) is provided to be pumped while mixing the air and water by the vacuum suction input generated by the rotation of the impeller (7), and the discharge port (4) of the vacuum ferromagnetic suction pump (8) Associated with) The inlet pipe 10 is connected in communication with the inlet 11 to receive the mixed water mixed with air and water and the stirring chamber 13 is provided with an outlet 12 for discharging the mixed water and the stirring chamber (13) is a vacuum rotor made of a stirring pump (16) provided with a plurality of stirring wings (15) to be stirred while hitting the mixed water introduced into the stirring chamber 13 while being rotated on the shaft of the stirring motor (14) Provided is a micro bubble generator equipped with a suction pump.

Description

MICRO-BUBBLE CREATING DEVICE OF THE VACUUM CLEANER

The present invention relates to a microbubble generating device for generating microbubbles of microbubbles having a diameter of 50 μm or less, and more particularly, a vacuum ferromagnetic suction pump proposed by the present cause (Korean Patent Application No. 10-2009-114339). It is provided with a vacuum absorbing air and water at the same time and by forcibly stirring the absorbed air and water to generate a micro bubble, to provide a micro bubble generating apparatus having a vacuum ferromagnetic absorption pump to improve the efficiency of the production of micro bubbles will be.

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 bubbles finer than 25 μm of pores of skin with 1 / 2,000 size of ordinary bubbles. 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.

And such micro bubbles are mainly generated when the water and air are violently rotated into 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.

However, the conventional devices for generating the micro bubble as described above have a problem in that the efficiency of generating the micro bubble is low and thus the micro bubble cannot fully perform the function of the micro bubble.

That is, when generating microbubbles by mixing and stirring air and water, there is an inefficient problem due to the increase in cost due to the enlargement and complexity of the device as well as the low mixing and stirring efficiency of air and water.

The present invention has been proposed to solve the above conventional problems, the object of the present invention is to provide a vacuum magnetic induction pump (Korean Patent Application No. 10-2009-114339) proposed by the cause of air and water Simultaneously absorbing the vacuum and by forcibly stirring the absorbed air and water to generate a micro bubble, to provide a micro bubble generator equipped with a vacuum ferromagnetic pump to improve the efficiency of the production of micro bubbles.

Microbubble generating field equipped with a vacuum ferromagnetic suction pump of the present invention for achieving the object of the present invention as described above, the water inlet pipe, the air inlet pipe associated with the inlet pipe and the inlet, The pipe is connected to the pump chamber is provided with a suction port for the air and water inlet and the discharge port is discharged, the pump chamber is coupled to the rotation of the shaft of the motor coupled to the wider toward the outside from the center where the shaft of the motor is fitted An impeller formed with a plurality of compartments of narrow isosceles triangles is provided, which is connected to the discharge port of the vacuum ferroelectric suction pump, which is pumped while mixing air and water by a vacuum suction input generated by the rotation of the impeller. The inlet pipe is coupled in communication with the inlet and the inlet receiving the mixed water mixed with air and water It has a stirring chamber provided with a discharge port for discharging water, characterized in that the stirring chamber consists of a stirring pump provided with a plurality of agitating wings to be stirred while striking the mixed water introduced into the stirring chamber while being rotated on the shaft of the stirring motor I am doing it.

The microbubble generating device equipped with the vacuum ferromagnetic suction pump of the present invention made as described above is forcibly mixed with the vacuum suction pressure while the air and water are vacuum-absorbed through the remnant ferromagnetic suction pump. Of course, it is forcibly hit by the stirring pump has the effect of improving the generation efficiency of the micro bubble by activating the second generation of micro bubbles.

Figure 1 is a schematic illustration showing a micro bubble generator equipped with a vacuum ferromagnetic pump according to an embodiment according to the present invention.
Figure 2 is a schematic illustration of the state of use of the micro bubble generating device equipped with a vacuum ferromagnetic pump of the present embodiment shown in FIG.

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

1 and 2 is a view showing a micro bubble generator with a vacuum ferromagnetic pump according to an embodiment of the present invention, the micro bubble generator with a vacuum ferromagnetic pump according to the present embodiment is water is introduced Inlet pipe (1), the air inlet pipe (2) in which air is introduced in relation to the inlet pipe (1), and the inlet pipe (1) is connected to the inlet (3) and the air and water inlet is discharged An impeller (7) having a pump chamber (5) provided with a discharge port (4), the pump chamber (5) having a plurality of compartments of an isosceles triangular shape having a wide outer side and a narrow inner side coupled to the shaft of the motor (6) to be rotated. ) Is provided with a vacuum magnetic induction pump 8 to be pumped while mixing the air and water by the vacuum suction input generated by the rotation of the impeller (7).

The air inlet pipe 2 is connected to the oxygen generator 9 is preferably the oxygen generated in the oxygen generator 9 is introduced.

Therefore, the air and water are forced into the vacuum through the inlet pipe (1) and the air inlet pipe (2) through the vacuum ferromagnetic suction pump (8) and at the same time by the vacuum suction pressure of the vacuum ferromagnetic suction pump (8) Mixing produces microbubbles first.

In addition, the microbubble generating device equipped with the vacuum ferromagnetic suction pump of the present embodiment is coupled to the inlet pipe 10 connected to the discharge port 4 of the vacuum ferromagnetic suction pump 8 to communicate the mixed water mixed with air and water. It has a stirring chamber 13 is provided with an inlet 11 receiving the inlet 11 and the discharge port 12 for discharging the mixed water and the stirring chamber 13 is installed on the shaft of the stirring motor 14 while rotating the stirring chamber ( 13 has a stirring pump 16 is provided with a plurality of stirring blades 15 to be stirred while hitting the mixed water introduced into.

That is, the mixing chamber by forcibly mixing by the vacuum suction pressure of the vacuum ferromagnetic suction pump 8 to force the mixed water generated microbubbles by the stirring blade 15 of the stirring pump 16 forcibly The generation of secondary microbubbles occurs as the generation of microbubbles in (13) is activated.

Therefore, the generation efficiency of the micro bubble is significantly improved.

In addition, as the oxygen generated through the oxygen generator 9 is introduced to generate micro bubbles, the oxygen solubility of the mixed water may be enhanced and used effectively in various fields.

1: inlet pipe, 2: air inlet pipe,
3: suction port, 4; Outlet,
5: pump room, 6: motor,
7: impeller, 8: vacuum magnetic suction pump,
9: oxygen generator, 10: inlet pipe,
11: inlet, 12: outlet,
13: stirring chamber, 14: stirring motor,
15: stirring blade, 16: stirring pump.

Claims (2)

Water inlet pipes,
An air inlet pipe into which air is introduced in association with the inlet pipe;
The inlet pipe is connected to have a pump chamber having an air inlet and air inlet and a discharge port is discharged, the pump chamber is coupled to the rotation of the shaft of the motor is coupled to rotate and widen toward the outside from the center where the shaft of the motor is fitted An impeller formed with a plurality of compartments of an isosceles triangle shape narrowing toward the vacuum ferrite suction pump, which is pumped while mixing air and water by a vacuum suction input generated by the rotation of the impeller;
The inlet pipe connected to the discharge port of the vacuum ferromagnetic pump is connected in communication with the inlet for receiving the mixed water mixed with air and water and the stirring chamber provided with an outlet for discharging the mixed water, the stirring chamber in the stirring motor Micro bubble generator equipped with a vacuum ferromagnetic suction pump, characterized in that consisting of a stirring pump provided with a plurality of stirring blades to be stirred while hitting the mixed water introduced into the stirring chamber while being rotated on the axis of the shaft The method of claim 1;
The air inlet pipe is connected to the oxygen generator micro bubble generator equipped with a vacuum ferromagnetic pump, characterized in that the oxygen generated in the oxygen generator is introduced

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