KR20190090517A - Air bubble shattering device in the micro-bubble generating appratus - Google Patents

Abstract

The present invention relates to a bubble crushing device of a microbubble generating device, which is capable of improving compression efficiency in a compressing room and minimizing noise and vibration generation due to large irregular bubbles by installing a bubble crushing device finely crushing through vortex the large irregular bubbles generated by mixing gas and water sucked in a microbubble generating device of a gas suction structure. A gas automatic suction device (10) for automatically sucking gas to generate microbubbles comprises: a water receiving unit (11) which receives water to generate the microbubbles; a gas mount controlling unit (12) which controls the amount of gas received to generate the microbubbles; a gas sucking unit (13) which automatically sucks the gas received through the gas amount controlling unit (12); a vortex generating unit (14) which finely crushes, through vortex, large bubbles generated by mixing the gas sucked through the gas sucking unit (13) and the water received through the water receiving unit (11), into a constant size; a pressure increasing unit (15) which is installed in a back end of the vortex generating unit (14) and finely bubbles, through pressure, gas crushed to be regular and small by passing the vortex generating unit (14); and a water discharging unit (16) which is positioned in a back end of the pressure increasing unit (15) and discharges the finely crushed bubbles.

Description

Bubble crusher of micro bubble generator {AIR BUBBLE SHATTERING DEVICE IN THE MICRO-BUBBLE GENERATING APPRATUS}

The present invention relates to a bubble pulverizing device of the microbubble generating device, and more particularly, the irregular and lumpy large bubbles generated by mixing the gas and water sucked in the microbubble generating device of the gas suction type through the vortex The bubble pulverizer of the micro bubble generator which improves the compression efficiency in the compression chamber by minimizing the fine pulverization and minimizes the noise and vibration caused by the irregular and lumpy large bubbles. It is about.

Micro bubbles usually refer to ultra-bubbles that cannot be seen with less than 1 ~ 50um eyes. Bubbles (bubbles / droplets) in the water usually rupture at the surface of the water after rising to the surface of the water, but the microbubbles are reduced by pressure in the water and disappear while generating various energy.

Microbubbles are utilized in various areas due to physical and chemical properties such as gas dissolution effect, self-pressurization effect, and charging effect. In everyday life, it is provided in a washing tank to improve washing power, to clean contaminated water, or to be used in a shower, a bidet, and a bath to remove germs that are parasitic in the nozzle of a product in which water is used. In recent years, it has been used in many fields such as massage, health promotion, and fatigue recovery.

Such micro bubble generators are roughly divided into ultrasonic wave and water-air collision. The latter method is widely used.

As such, in order to continuously generate micro bubbles in the microbubble generating device based on the mutual collision of water and air, it is necessary to continuously replenish the gas consumed when the microbubbles are generated. Then, the gas is sucked by using the automatic suction gas suction device using the fluid flow.

However, according to the conventional automatic suction gas suction device, when the gas consumed when the micro bubble is continuously supplied to the compression chamber of the diaphragm pump, the gas flowing into the automatic suction gas suction device is mixed with the liquid sucked while irregularly flowing. In the process, agglomerated large bubbles are discontinuously mixed with the liquid.

Therefore, when the irregular supply and the resulting discontinuously mixed liquid is compressed in the compression chamber of the diaphragm pump, a large lump of air bubbles caused a decrease in the compression efficiency of the diaphragm pump.

In addition, the large amount of gas entering the compression chamber of the diaphragm pump due to the discontinuously mixed and agglomerated bubbles caused irregular vibration and noise during operation of the pump.

Republic of Korea Patent Publication No. 10-2017-0044275 (published on April 25, 2017)

Accordingly, the present invention has been made to solve the above problems, the main object of which is a large bubble of irregular and agglomerated form formed by mixing the gas and water sucked in the micro bubble generating device of the gas suction structure through the vortex Micro bubble generator that improves the compression efficiency of the diaphragm pump's compression chamber by minimizing the crushing of the bubble pulverizer and minimizes noise and vibration caused by large irregular bubbles It is to provide a bubble crusher of.

The present invention to solve the above object,

In the gas automatic suction device for automatically inhaling gas for the production of micro bubbles,

An inlet unit into which water for generating micro bubbles is introduced;

Gas amount adjusting means for adjusting an amount of gas introduced to generate micro bubbles;

A gas suction unit configured to automatically suck the gas introduced through the gas amount adjusting means;

A vortex generating unit for pulverizing a large lump of large bubbles generated by mixing the gas sucked through the gas suction unit and the water flowing through the inlet unit into a fine and constant size through the vortex;

A pressure riser installed at the rear end of the vortex generating unit and passing through the vortex generating unit to pulverize the gas pulverized into a regular small lump through a pressure;

It is located at the rear end of the pressure rise portion for the discharge portion for discharging the bubble pulverized in a fine form; consists of.

At this time, the gas inlet unit for automatically inhaling the gas flowing through the gas amount control means to automatically suck the gas introduced through the pressure generated as the pipe is narrowed in comparison with the inlet portion.

In addition, the vortex generating unit for pulverizing a large lump of air bubbles into a fine and uniform size through the vortex is formed in a screw shape is rotated by the pressure of the water and gas flowing in, irregular and lumped state generated by mixing water and gas The bubbles of crushed to a fine and constant size are regenerated into a more regular and smaller mass of gas.

In addition, the pressure rise unit is to cause the bubble pulverized into a regular small lump passing through the vortex generating unit to be crushed into a form as small as a mist through the pressure increase through the expansion of the pipe.

In addition, the water outlet portion is formed to have a pipeline gradually expanding toward the end so that the air bubbles discharged through the water outlet portion of the expanded form to be naturally discharged in a finely divided state.

Applying the present invention as described above has the following effects.

Compression efficiency in the compression chamber by installing a bubble pulverizing device that can finely pulverize large bubbles formed by mixing the gas and water sucked in the gas bubble-type micro bubble generating device through the vortex It has the advantage of improving noise reduction and minimizing noise and vibration caused by large gas bubbles.

1 is a perspective view schematically showing the configuration of the bubble crushing device of the microbubble generating device according to the present invention.
Figure 2 is a cross-sectional view schematically showing the configuration of the bubble crushing device of the microbubble generating device according to the present invention.

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

As shown in FIGS. 1 and 2, the bubble crusher of the microbubble generating device according to the present invention includes a gas automatic suction device 10 which automatically sucks gas for the generation of the microbubble.

At this time, one side of the automatic gas inlet device 10 forms an inlet 11 through which water is introduced to generate micro bubbles.

Subsequently, a gas amount adjusting means 12 is installed at the rear end of the water inlet 11 in the direction in which water is introduced from the gas automatic suction device 10 to adjust the amount of gas to be sucked.

Subsequently, a gas suction part 13 is formed at the rear end of the gas amount adjusting means 12 to automatically suck the gas introduced through the gas amount adjusting means 12.

At this time, the gas inlet 13 to automatically suck the gas flowing through the gas amount adjusting means 12 is the gas introduced through the pressure generated as the pipe is narrowed compared to the inlet 11 Inhalation should be done.

Subsequently, a vortex generating unit 14 is installed at the rear end of the gas suction unit 13 so that the gas sucked through the gas suction unit 13 and the water introduced through the inlet unit 11 are mixed with a large lump. Bubbles are pulverized through the vortex to a fine, uniform size.

At this time, the vortex generating unit 14 for pulverizing a large agglomerated bubbles into a fine and constant size through the vortex is formed in a screw shape and rotated by the pressure of the incoming water and the gas, and the irregularity generated by mixing the water and the gas And agglomerated bubbles are pulverized to a fine and constant size to be regenerated into a more regular and smaller mass of gas.

Subsequently, a pressure riser 15 is installed at the rear end of the vortex generator 14 to pass through the vortex generator 14 so that the gas pulverized into a regular and small lump is crushed in a fine form through pressure.

At this time, the pressure rise unit 15 is to cause the bubble pulverized into a regular small lump passing through the vortex generating unit 14 to be crushed into a form as small as a fog through the pressure rise through the expansion of the pipe.

Subsequently, at the rear end of the pressure riser 15, a water outlet 16 for discharging bubbles pulverized into a fine shape is formed.

At this time, the water outlet portion 16 allows the air bubbles discharged through the water outlet portion 16 of the expanded form formed to have a duct gradually expanding toward the end portion naturally discharged in a finely divided state.

Although all elements constituting the embodiments of the present invention have been described as being combined or operating in combination, the present invention is not necessarily limited to the embodiments. In other words, all of the components may be selectively combined to operate within one or more of the scope of the present invention.

The bubble crushing device of the microbubble generating device according to the present invention having such a configuration is to crush large chunks of air generated by mixing the gas and water sucked when generating the microbubble, and the gas is automatically suctioned to generate the microbubble. When driving the diaphragm pump installed on one side of the device 10, the inlet portion formed on one side of the tubular gas automatic suction device 10 while the pressure is generated inside the suction device 10 by the drive of the pump Water is introduced through (11).

In addition, the gas is automatically inhaled in the tubular shape through the gas inlet adjusting unit 12 installed at the rear end of the inlet unit 11 to adjust the amount of gas introduced therein and the gas inlet 13 to automatically inhale the inlet gas. It will be sucked into the device 10.

At this time, the gas inlet 13 to automatically suck the gas introduced through the gas amount adjusting means 12 is the gas introduced through the pressure generated as the pipe is narrowed compared to the inlet 11 Will be inhaled.

The water introduced through the inlet 11 and the gas sucked through the gas inlet 13 and the gas amount adjusting means 12 at the rear end of the inlet 11 are mixed with each other to generate micro bubbles. Bubbles enter the compression chamber of the diaphragm pump.

At this time, the bubble generated in the mixing process is formed by a large ingot bubble due to the intake of irregular and discontinuous gas, the large bubble is formed in the vortex generating unit 14 at the rear end of the gas inlet (13) The vortices are pulverized to a fine and constant size.

That is, through the vortex generating unit 14 formed in a screw shape and rotated by the pressure of the incoming water and the gas, the bubbles in the irregular and agglomerated state are pulverized to a fine and constant size so as to be regenerated into a more regular and small lump of gas. do.

The gas pulverized into a regular and fine size through the vortex generated by the vortex generating unit 14 is crushed again in a fine form through the pressure in the pressure riser 15 installed at the rear end of the vortex generating unit 14. .

That is, the crushed into regular, small lumps that passed through the vortex generating unit 14 through the pressure rise through the expansion of the conduit in the pressure rise unit 15 having a pipe enlarged than the duct on which the vortex generating unit 14 is installed. Bubbles are crushed back into small shapes like fog.

Subsequently, the bubbles pulverized into a small shape as fog while passing through the pressure increase part 15 are diaphragm pulverized in a fine form through a water outlet part 16 having an expanded pipe having a pipe gradually expanding toward the end. As it moves into the compression chamber of the pump, it produces microbubbles.

Therefore, the compression of the diaphragm pump reduced by the large agglomerated bubbles by installing a bubble pulverizer that can finely crush the irregular and agglomerated big bubbles generated by mixing the inhaled gas and the water through the vortex This improves the compression efficiency in the seal and minimizes the occurrence of irregular vibrations and noise caused by large, irregular bubbles.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and / or modifications without departing from the essential characteristics of the present invention. .

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted only by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10 gas automatic suction device 11 inlet
12 gas control means 13 gas inlet
14: vortex generation unit 15: pressure rise unit
16: water outlet

Claims (5)

In the gas automatic suction device 10 for automatically inhaling gas for the generation of micro bubbles,
An inlet 11 through which water for generating micro bubbles is introduced;
Gas amount adjusting means (12) for adjusting the amount of gas introduced to generate micro bubbles;
A gas suction part 13 to automatically suck the gas introduced through the gas amount adjusting means 12;
Vortex generating unit 14 for pulverizing a large chunk of large bubbles generated by mixing the gas sucked through the gas suction unit 13 and the water introduced through the inlet unit 11 to a fine and constant size through the vortex Wow;
A pressure riser 15 installed at the rear end of the vortex generating unit 14 and pulverizing the gas pulverized into a regular and small mass through the vortex generating unit 14 in a fine form through pressure;
Bubble extraction device of the micro-bubble generating device, characterized in that consisting of; a water outlet (16) located at the rear end of the pressure rise (15) for discharging the bubbles pulverized in a fine form.
The method of claim 1,
The gas suction unit 13 is a bubble crushing device of the micro-bubble generating device, characterized in that the gas is automatically sucked through the pressure generated as the pipe is narrowed compared to the inlet (11).
The method of claim 1,
The vortex generating unit 14 is formed in a screw shape and the pulverization of the micro-bubble generating device, characterized in that to crush the large bubble agglomerated into a fine and constant size through the vortex generated while being rotated by the pressure of the incoming water Device.
The method of claim 1,
The pressure rise unit 15 is a micro bubble generation, characterized in that the bubbles pulverized into a regular, small lumps passing through the vortex generating unit 14 through the pressure increase through the expansion of the pipe to be crushed into a form as small as a mist Bubble crusher of the device.
The method of claim 1,
The water outlet portion 16 is formed to have a pipeline gradually expanding toward the end and the micro bubble generation, characterized in that the air bubbles are naturally discharged in a fine form crushed state through the water outlet portion 16 of the expanded form Bubble crusher of the device.

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