KR20200000621U - Bubble generator - Google Patents

Abstract

The present invention relates to a device for generating fine bubbles in water, and in particular, to a device for generating fine bubbles in the form of fine bubbles through high-pressure steam discharged in water. A steam generator that generates steam by heating water, a steam discharge line connecting the steam generator and the washing tank, and a discharge connected to the steam discharge line and discharging steam into the washing tank to generate fine bubbles in the cleaning solution A device for generating fine bubble water including a nozzle is provided.

Description

Fine bubble water generator {Bubble generator}

The present invention relates to a device for generating fine bubbles in water, and particularly to a device for generating fine bubble water through high pressure steam discharged in water.

Microbubbles, called microbubbles or nanobubbles, are ultra-fine-sized bubbles, which rise at a very slow rate in water to stay for a long period of time. It is said to be.

These micro-bubbles have physical and chemical functions such as gas dissolving effect, self-pressing effect, and charging effect, and thus are widely used in medical and environmental fields.

When used for cleaning purposes, the principle of separating contaminants that are charged with the positive electrode and adhere to the object to be cleaned is electrically neutralized by the microbubbles charged with the negative electrode to separate them from the contaminants.

On the other hand, ultrasonic cleaners operate by oscillating high-frequency ultrasonic waves in water to vibrate water molecules and transfer vibration energy to the object to be cleaned to escape foreign substances, and micro bubbles are generated by repeated action of positive pressure and negative pressure of ultrasonic waves. , Use the energy from the explosion of fine bubbles.

The ultrasonic cleaner takes a long time to remove contaminants of a hard object to be cleaned, such as a dish, and has a disadvantage in that it disagrees depending on the user due to the unique ultrasonic noise. In addition, the cost of the ultrasonic generating unit is high, and there is also a disadvantage in that replacement work is not easy after the end of life.

Republic of Korea Registered Patent No. 10-1525955 (2015.05.29) Republic of Korea Patent Publication No. 10-2013-0047999 (2013.05.09)

The present invention intends to present a device for generating fine bubble water in which fine bubbles are smoothly generated in various immersion type washing devices.

In addition, the detailed purpose of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below.

In order to solve the above problems, the present invention is a washing tank capable of containing a cleaning solution, a steam generating unit for generating steam by heating supplied water, a steam discharge line connecting the steam generating unit and the washing tank, and the steam discharge. It is connected to a line and discharges steam into the washing tank, and a device for generating fine bubble water including a discharge nozzle for generating fine bubbles in the cleaning liquid is provided.

Furthermore, the discharge nozzle is connected to the steam discharge line to discharge the steam, and the nozzle nozzle is fixed to one end on the inner wall of the washing tank while airtightly enclosing the tip of the spray nozzle body and the steam discharge line, and the nozzle mounting part It may include a first bracket that is rotatably gripped in the vertical direction and a second bracket that is rotatably gripped on the plane and fixed to the sidewall of the washing tank.

According to the present invention, by generating micro-bubbles through high-temperature and high-pressure steam, there is an effect of significantly improving the activity of the detergent mixed with the washing liquid in addition to the cleaning effect by the physical and chemical properties of the micro-bubbles. Furthermore, the natural temperature rise of the cleaning liquid by the supply of steam is accompanied, thereby further increasing the cleaning effect.

In addition, the effects of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below or during the process of implementing the present invention.

1 is a view showing a schematic configuration of a fine bubble water generating apparatus according to an embodiment of the present invention.
2 is a schematic perspective view of a discharge nozzle employed in the embodiment of FIG. 1;
Figure 3 is a perspective view of the rotary nozzle of the discharge nozzle shown in Figure 2 separated.
Figure 4 is a cross-sectional view of the discharge nozzle shown in Figure 2;

Hereinafter, the configuration, function, and operation of the micro-bubble water generating apparatus according to the present invention will be described with reference to the accompanying drawings. However, reference numbers for the same or similar elements will be used throughout the drawings.

The accompanying drawings show an embodiment to which the present invention is applied, and the technical spirit of the present invention should not be interpreted limitedly through the attached drawings. From the standpoint of experts belonging to this technical field, if it can be interpreted that some or all of the figures shown in the drawings are not necessarily the shape, shape, and order required for the implementation of the design, this does not limit the technical characteristics of the design described in the claims. No.

1 to 4 is related to the apparatus for generating fine bubble water according to an embodiment of the present invention.

The fine bubble water generating apparatus 100 according to the embodiment of the present invention includes a washing tank 10, a steam generator 20, and a discharge nozzle 31.

1 shows the main components of the fine bubble water generating apparatus 100 including these components.

The washing tank 10 is a water tank containing the object to be washed, and can take various shapes. For example, it can be a sink at home or a large water tank at a restaurant or production plant.

The washing tank 10 may store a washing liquid, and a drain 11 for draining the washing liquid is provided at the bottom. In addition, one side of the washing tank is provided with a side drainage hole 12 through which water of a certain level or more is discharged to the outside, so that it is possible to prevent the water level in the washing tank 10 from rising above a certain level. In addition, various additional equipment commonly used may be further provided in the washing tank.

The cleaning liquid may be pure water or water mixed with a detergent. At this time, the detergent may be adjusted to mix 40 cc to 90 cc of surfactant with respect to 100 liters of water. For example, if there is a detergent containing 50 volumes of surfactant, and 80 liters of water is contained in the washing tank, approximately 65 cc to 145 cc of detergent can be administered to the washing tank.

The steam generator 20 discharges high-pressure steam into the washing tank 10, and includes a water pump 21, a steam converter 22, a heater 23, and a steam controller 24.

In the embodiment of the present invention, steam can be obtained immediately at the initial stage of operation, and an instantaneous heating method capable of providing continuous steam is used.

The water pump 21 receives water supplied from a water pipe or a separate water storage tank to increase the pressure and provides it to the steam converter 22. The operation of the water pump 21 is controlled by the steam control unit 24.

The water supplied to the water pump 21 may be a washing liquid contained in the washing tank 10. The cleaning solution may be pure water or water mixed with a detergent.

By supplying the cleaning solution contained in the washing tank 10 to the water pump in the case of water or pure water in which a suitable level of detergent is generated to generate steam, there is an advantage that there is no need to worry about raising the water level in the washing tank while continuously supplying steam. .

The steam converter 22 may be made of a metal pipe 221 connected to the water pump 21 and a casting body 222 on which the heater 23 is mounted. At least one heater 23 is mounted to the steam converter 22, and the casting body 222 and the metal pipe 221 are rapidly heated by a heater 23 that generates heat with power applied from the steam controller 24. do.

The metal pipe 221 provided inside the steam converter 22 is wound a plurality of times, and is easily heated by the heat of the casting body 222. At this time, the metal pipe 221 may be arranged in a form wrapped several times along the outer circumferential surface of the heater 23 so that the heat of the heater 23 is transferred to the metal pipe 221 more quickly.

On the other hand, the steam conversion unit 22 may be manufactured by assembling both of the casting body up and down and then assembling both. At this time, the flow path is created on the contact surface of each casting body divided up and down to form metal pipes. You may.

In the illustrated embodiment, the water flowing along the inside of the metal pipe 221 is rapidly heated to phase change into water vapor. The generated steam is discharged through a discharge nozzle 30 as if it is shot into a washing tank containing a cleaning solution.

The discharge nozzle 30 is connected to the end of the steam discharge line 201 of the steam generator 20 and is mounted on the bottom or bottom of the side wall of the washing tank 10.

2 to 4 are related to the discharge nozzle 31 of the improved structure to adjust the discharge angle of the steam. On the other hand, in another embodiment in which the illustration is omitted, the discharge nozzle may be used in such a way that only the injection nozzle body 31 penetrates the side wall of the washing tank 10 and is fixed.

In the illustrated embodiment, the discharge nozzle 31 is connected to the steam discharge line 301, the tip portion of the steam discharge line 201 with respect to the side wall of the spray nozzle body 31 and the washing tank 10 for high-pressure injection of steam. The nozzle mounting portion 32 to be free to move freely, the first bracket 33 and the first bracket 33 holding the nozzle mounting portion 32 to be rotatable in the vertical direction are rotatably held on a plane, and It includes a second bracket 34 fixed to the side wall.

The injection nozzle body 31 is fitted to the steam discharge line 201, and is a member that strongly shoots steam into the cleaning liquid. Here, the injection nozzle body 31 may be replaced with various gas injection nozzles.

The nozzle mounting portion 32 is one end fixed to the inner wall of the washing tank while enclosing the tip portion of the injection nozzle body 31 and the steam discharge line 201, the mounting ring 321, the bellows 322, the first and second It includes fastening members 323 and 324 and a gripping portion 325.

The mounting ring 321 has a donut shape, and a thread is formed on its outer circumferential surface. In the state in which the hole in the center of the mounting ring 321 is aligned with the opening hole 13 of the side wall of the washing tank 10, the mounting ring is fixed to the washing tank 10 by welding or the like.

The first fastening member 323 is screwed to the outer circumferential surface of the mounting ring 321 to fix it by asking one end of the bellows 322.

The bellows 322 may be made of an elastic member that allows bending and stretching, and may be provided in a plurality of corrugated tube shapes as shown.

The gripping portion 325 is a cylindrical member that seals the tip of the steam discharge line 201 and is hermetically sealed, and a stepped portion 325a for gripping the other end of the bellows is formed on the outer circumferential surface through the second fastening member 324. The engagement of the stepped portion 325a and the second fastening member 324 adopts a screw fastening method as in the mounting ring 321 and the first fastening member 323.

On each of the left and right sides of the grip portion 325, a horizontal bar 325b having a thread formed on its outer circumferential surface is extended.

In the inner space formed by the mounting ring 321, the bellows 322, and the gripping portion 325, the tip of the steam discharge line 201 and the injection nozzle body 31 are positioned. Since the inner space is hermetically sealed to the outside, there is no fear of leakage from the nozzle mounting portion 32.

On the other hand, the first bracket 33 has a “c” shape, and through holes 331a are formed at both side portions 331 in parallel, and horizontal bars 325b of the gripping portion 325 are formed in each through hole 331a. Combined to pass. The butterfly nut 332 is fastened to the horizontal rod 325b protruding through the through hole 331a of the side portion 331.

Meanwhile, one end of the second bracket 34 is fixed to the outside of the side wall of the washing tank by welding or the like. A long hole 342 is formed in the length piece 341 extending horizontally from the second bracket 34, and the butterfly bolt 343 in a state where the holes formed on the upper part of the long hole 342 and the first bracket 33 are aligned. ) And the nut are fastened.

After loosening the left and right butterfly nuts 332 slightly, the injection angle of the steam can be changed up and down by rotating the gripping portion 325 about the horizontal rod 325b as a rotation axis.

In addition, after slightly loosening the butterfly bolt 343 fixed to the second bracket 34, the gripping portion 325 including the first bracket 33 is rotated by rotating the longitudinal direction of the butterfly bolt 343 on a rotating shaft to steam on a flat surface. The injection angle can be adjusted. Furthermore, the gripping part 325 including the first bracket 33 may be moved back and forth along the long hole 342 of the second bracket 34.

After adjusting the injection direction of the steam in this way, the set injection direction can be maintained by tightening the butterfly bolt 343 and the butterfly nut 332 again.

Changing the angle of the gripping portion 325 brings about an angle change of the injection nozzle body 31, and has an effect of finely adjusting the direction of the steam injected into the washing tank 10. There is an advantage in that a specific flow pattern of the cleaning liquid can be formed by controlling the steam injection direction in the washing tank.

For example, the injection of steam inclined to one side may cause the cleaning liquid to rotate slowly inside the washing tank.

Furthermore, the up and down direction control of steam affects the cleaning effect. By allowing the steam to be discharged in an upwardly rising direction toward the water surface, the cleaning liquid at the bottom of the washing tank can be quickly moved to the top. In addition, if a foreign object is collected in a bubble and then removed by floating, it may induce a rapid rise of the bubble.

On the other hand, by adjusting the injection direction so that steam is injected into the bottom of the washing tank, bubbles can be kept in the cleaning solution as long as possible. Thereby, the cleaning effect by fine bubbles can be further increased.

The forward-backward movement of the gripping portion causes the injection nozzle body 31 to stay inside the nozzle mounting portion 32, or moves the position so that it protrudes more than the inner wall of the washing tank 10. In the state in which the injection nozzle body 31 is moved into the nozzle mounting portion 32, the discharge port 311 of the injection nozzle body 31 is located inside the nozzle mounting portion 32. The discharged steam collides with the inside of the nozzle mounting portion 32, so that the flow rate is relaxed, and the water flow in the washing tank is lowered to allow fine air bubbles to remain longer. In addition, since the spray nozzle body does not protrude into the cleaning tank, there is no fear that the object to be cleaned collides with the spray nozzle body.

On the other hand, when the gripping portion 325 advances, and the injection nozzle body 31 protrudes into the washing tank 10 or the discharge port 311 is aligned with the inner wall of the washing tank 10, steam is directly shot into the washing liquid to steam. The formation of fine bubbles by is actively made.

In the embodiment of the present invention, a large amount of fine air bubbles are generated inside the cleaning solution by steam discharged as if it is fired into the cleaning solution. Accordingly, it is possible to enjoy a washing effect by fine bubbles, and when a detergent is included in the washing liquid, the chemical washing effect of the detergent can be further activated to increase the washing effect.

In addition, in the embodiment of the present invention, by providing the steam generating unit 20 of the instantaneous steam method, it is possible to rapidly generate fine air bubbles by obtaining steam from the beginning of operation, and intermittent generation of fine air bubbles as the intermittent operation of the steam generating unit is possible. Operation is possible.

In addition, by using high-temperature steam, it is possible to seek a natural temperature rise of the new cleaning liquid in the washing tank 10. Most of the detergent in the cleaning liquid tends to have a higher cleaning effect as the temperature of the cleaning liquid increases, so there is an advantage in that the temperature of the cleaning liquid can be properly increased even if hot water is not separately supplied.

100: generating device
DESCRIPTION OF SYMBOLS 10 Washing tank 11 Drain hole 12 Side drain hole 13 Opening hole
20: steam generator
21: water pump 22: steam conversion unit 221: metal piping 222: casting body
23: heater 24: steam control unit 201: steam discharge line
30: discharge nozzle
31: spray nozzle body 311: discharge port
32: nozzle mounting portion
321: Mounting ring 322: Bellows 323: First fastening member
324: second fastening member 325: gripping portion 325a: stepped portion 325b: horizontal bar
33: first bracket 331: side 331a: through hole 332: butterfly nut
34: second bracket 341: length piece 342: long hole 343: butterfly bolt

Claims (2)

Washing tank that can contain cleaning solution,
Steam generating unit that generates steam by heating the supplied water,
A steam discharge line connecting the steam generator and the washing tank, and
And a discharge nozzle connected to the steam discharge line and discharging steam into the washing tank to generate fine bubbles in the cleaning liquid.
Fine bubble water generating device.
The discharge nozzle
It is connected to the steam discharge line injection nozzle body for discharging steam,
The nozzle mounting portion is fixed to one end on the inner wall of the washing tank, while airtightly enclosing the distal end of the spray nozzle body and the steam discharge line,
A first bracket for rotatably gripping the nozzle mounting portion in the vertical direction and
The first bracket is rotatably gripped on a plane, and includes a second bracket fixed to the side wall of the washing tank.
Fine bubble water generating device.

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