KR20130054090A - Micro bubble generator using water supply pressure - Google Patents

Abstract

PURPOSE: A microbubble generator capable of using constant pressure is provided to continuously generate minute microbubbles without periodically ejecting water out of the inside of the microbubble generator. CONSTITUTION: A microbubble generator(200) comprises a water supplying pipe(201) which is a pipe shape, an inlet port(202), a drain(203), a bubble nozzle, an air supplying unit(204), and an air check valve. The inlet port is formed in an upper part of the water supplying pipe and constantly receives water. The bubble nozzle is formed on the drain in a form in which an inner diameter is suddenly narrowed and gradually widened. The air supplying unit is formed in a pipe type in one side of the water supplying pipe. The air check valve is formed in an end of the air supplying unit and induces the air to flow in through only the air supplying unit from the outside.

Description

Micro bubble generator using water pressure {Micro bubble generator using water supply pressure}

The present invention can be used for various purposes such as showering, washing water, agriculture and fishing with water containing micro bubbles by generating micro bubbles in water by using a constant pressure, can save water and detergent, and separate power There is no need to use the present invention relates to a micro bubble generating means using only a constant pressure.

Generally, water is used for various purposes in various fields such as homes, businesses, factories, and farms.

As described above, if the water discharged from the water supply is used as it is, a large amount of water is unnecessarily used. For example, in order for the water to be discharged at a high pressure from the head of the shower, the water supply must be fully opened to increase the pressure. In this case, the water can be discharged at a high pressure from the head of the shower. There is a problem that is consumed.

In addition, in order to use water for washing, a problem arises in that a large amount of cleaning agent must be used for effective cleaning.

In recent years, many micro bubble generators which generate fine micro bubbles in water have been widely used.

The use of microbubbles in water not only saves water but also improves washing power. In addition, free radicals such as OH ^- are generated in the process of extinction due to the self-pressurizing effect of microbubbles to sterilize bacteria in water. There is.

In particular, when showering with water containing micro bubbles, negative ions are generated by the instantaneous crushing of the water, so when applied to a shower or a bathtub, a forest bath effect can be obtained. Ultrasonic waves generated by micro-vibration gently stimulate the whole body to Fatigue can be quickly restored by promoting relaxation and metabolism, improve atopic dermatitis and have skin moisturizing effect.

Due to the various effects as described above, the microbubble spawning device has been widely used in recent years, and the conventional microbubble generating device has to be supplied with a separate electric motor for forced supply of air to generate microbubbles. Therefore, there is a risk of electric shock, the amount of microbubbles is small, the proper effect is not seen, or after a certain period of use, the water inside the shower is filled with water, the microbubble is no longer generated, so microbubbles through a separate drain valve There was a problem such as restarting after discharging all the water inside the generator.

The present invention has been made to solve the above problems, does not require an electric motor for forced supply of air, it is possible to generate fine micro bubbles than the conventional micro bubble generator, the water inside the micro bubble generator It is an object of the present invention to provide a microbubble generating device capable of continuously generating microbubbles without having to periodically discharge them.

In order to achieve the above object, the microbubble generating device using the constant pressure according to the present invention includes a water supply pipe 201 in the form of a pipe; a water supply port 202 formed at an upper portion of the water supply pipe 201 and receiving constant water; A drain port 203 formed at a lower portion of the water supply pipe 201 to discharge water; a bubble nozzle 209 formed at the drain port 203 in a form in which the inner diameter suddenly narrows and gradually widens; and the water supply pipe 201 It is configured to include a pipe-shaped air supply port 204 formed on one side of, the air check valve is formed at the end of the air supply port 204 to allow air to flow only from the outside to the air supply port 204; .

In addition, the micro-bubble generating device using the constant pressure according to the present invention is formed on one side of the water supply pipe 114 and the water supply pipe 114, the air check valve to allow the air flow only from the outside to the air supply port ( 115 and a case in which a discharge pipe 112 for discharging water is formed; And a bubble bath inserted into the case to be spaced apart from the inner wall of the case through a supporting means. The first tank 110 consisting of, the water supply pipe 134 is connected to the discharge pipe 112 of the first tank 110, and formed on one side of the water supply pipe 134, the air from the outside only to the air supply port 151 A case having an air check valve 135 and a discharge pipe 132 for discharging water; And a bubble bath 145 inserted into the case to be spaced apart from the inner wall of the case through supporting means. It is configured to include; a second tank 130 composed of.

At this time, the air check valve is composed of a cover (142,208) covering a predetermined number of holes (143,207) to cover the air supply holes (151,204), and the membrane (141,206) in close contact with the inside of the cover (142,208). It features.

In addition, the axis of the air supply port (151,204) and the axis of the water supply pipe is characterized in that configured to form an acute angle (銳角).

In addition, the reverse flow prevention ports 152 and 210 are formed at the end portions of the water supply pipes 134 and 201 of the air supply ports 151 and 204.

In addition, the inner peripheral surface of the water supply pipe (134, 201) is characterized in that the screw (116, 211) for inducing the rotation of the water protrudes.

In addition, the two micro-bubble generating device 100 is characterized in that it is configured in series connected vertically.

In addition, the hose 212 is fastened to the drain port 203, characterized in that the bubble nozzle 209 is formed at the end of the hose (212).

In addition, the inside of the hose 212 is characterized in that the bubble nozzle 209 is formed that the inner diameter is rapidly reduced and gradually widened.

In addition, the case is separated into a lid and the case (111,131) to which the lid (113,133) is fastened so as to be opened and closed through the fastening means, the water supply pipe (114,134) and the air check valve (115,135) is provided on the lid (113,133) And discharge pipes 112 and 132 formed at lower portions of the cases 111 and 131.

In addition, the support means protrudes radially outwardly of the bubble tank 145 so that the overflow hole 148 is formed, the end of the support 146 in the upper end of the case 131 It is characterized by consisting of a support 147 to be seated.

In addition, the lower portion of the bubble tank 145 is characterized in that the drain hole 149 is formed.

In addition, the first tank 110 and the second tank 130 is characterized in that configured in series in the vertical direction.

In addition, the discharge pipe 132 of the second tank 130 is connected to the discharge pipe 105, the inner end of the discharge pipe 105 has a narrow narrow bubble nozzle 107 is gradually expanded Characterized in that formed.

In addition, the inside of the discharge pipe 105 is characterized in that the bubble nozzle of the form that the inner diameter is rapidly narrowed and gradually widened.

In addition, a drain pipe 137 is formed at a lower portion of the second tank 130 to communicate with the inside of the second tank 130 to discharge the water in the first tank 110 and the second tank 130. The lower portion of the second tank 130 is characterized in that the direction switching valve 136 for selectively discharging water through the discharge pipe 132 or drain pipe 137 is installed.

In addition, the water supply pipe 201 is characterized in that the water pump is installed to supply high pressure water to the water supply pipe (201).

The present invention configured as described above can generate microbubbles using a constant pressure discharged from the faucet without the need for an electric motor for forced supply of air, it can generate a microbubble than conventional microbubble generating device For example, it is possible to generate microbubbles continuously for a long time without having to periodically discharge water inside.

In addition, the microbubble generating device according to the present invention can reduce the production cost because of the simple structure, the construction and installation is simple, and the maintenance is very easy because the volume is small.

1 is a perspective view showing a micro bubble generating apparatus according to an embodiment of the present invention.
2 is a cross-sectional view showing a micro bubble generating apparatus according to an embodiment of the present invention.
Figure 3 is an embodiment of the present invention formed in the backflow prevention port in the air inlet.
Figure 4 is an embodiment of the present invention a screw is formed inside the water supply pipe.
5 is a perspective view showing a state in which the micro bubble generator is connected in series.
6 is a sectional view showing another embodiment of the present invention.
7 is a perspective view showing another embodiment of the present invention.
8 is a block diagram of another embodiment of the present invention.
9 is an exploded perspective view showing a second tank of another embodiment of the present invention.
10 is a cross-sectional view of a second tank according to another embodiment of the present invention.
11 is a view showing a state in which microbubbles are generated according to another embodiment of the present invention.
12 is an enlarged cross sectional view showing a main part of another embodiment of the present invention;
Figure 13 illustrates another embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a micro bubble generating apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a micro bubble generating apparatus according to an embodiment of the present invention, Figure 3 is a countercurrent flow in the air inlet An embodiment of the present invention formed on the earth, Figure 4 is an embodiment of the present invention is a screw formed inside the water supply pipe, Figure 5 is a perspective view showing a state in which the micro bubble generator is connected in series, Figure 6 7 is a cross-sectional view showing another embodiment of the present invention, FIG. 7 is a perspective view showing another embodiment of the present invention, FIG. 8 is a configuration diagram of another embodiment of the present invention, and FIG. 9 is another embodiment of the present invention. An exploded perspective view showing a second tank of an example, Figure 10 is a cross-sectional view of a second tank according to another embodiment of the present invention, Figure 11 shows a state in which micro bubbles are generated by another embodiment of the present invention. One 12 is an enlarged cross-sectional view of a main part of still another embodiment of the present invention, and FIG. 13 is a view showing another embodiment of the present invention.

Microbubble generating apparatus using a constant pressure according to an embodiment of the present invention is a water supply pipe 201 is formed with a water supply port 202 in the upper portion and a drain hole 203 in the lower portion as shown in Figs. It is composed of an air supply port 204 in the form of a pipe protruding on one side of the water supply pipe 201.

An air check valve is formed at the end of the air supply port 204 to allow air to flow in only one direction, so that the air inside the air supply port 204 does not flow out to the outside and the outside air is supplied to the air supply port 204. It can only flow inside.

The air check valve formed at the end of the air supply port 204 covers the cover 208 in which a predetermined number of holes 207 are formed to seal the end of the air supply port 204. In this case, the membrane 206 in the form of a thin film is installed inside the cover 208 to be in close contact with the inner surface of the cover 208.

Since the membrane 206 is elastic and adheres to the inner surface of the cover 208, air may flow from the outside into the air supply port 204, but the air of the air supply port 204 is covered by the cover 208. It does not leak to the outside through the hole 207.

In addition, a bubble nozzle 209 is installed in the drain hole 203 under the water supply pipe 201. The bubble nozzle 209 suddenly decreases the inner diameter and gradually widens the inner diameter so that the bubble nozzle 209 induces high pressure injection of water to generate micro bubbles more abundantly.

In one embodiment of the present invention configured as described above is connected to the water supply to the water inlet 202 and open the faucet, the water flows through the water supply port 202 by the constant pressure, the air supply port ( The negative pressure acts on the 204 to deflect the membrane 206 of the air check valve and introduce air through the hole 207 of the cover 208 to flow the water supply pipe 201 through the air supply port 204. Together flows into drain 203.

The water flowing with the air reaches the bubble nozzle 209 formed in the drainage hole 203. The bubble nozzle 209 has a bubble nozzle (209) since the inner diameter is rapidly narrowed and the inner diameter is gradually widened as described above. At 209, the water and the air are strongly injected, and micro bubbles are generated and discharged through the drain 203.

As shown in FIG. 3, by installing the non-return valve 152 at the end of the air supply port 204 in contact with the water supply pipe 201, the high pressure water flowing through the water supply pipe 201 is supplied to the air supply port 204. To prevent backflow.

In addition, as shown in FIG. 4, a spiral screw 211 is formed on the inner circumferential surface of the water supply pipe 201 so that water flowing in the water supply pipe 201 forms a rotational flow by the screw 211, thereby rotating the flow. By the water is configured to be sprayed more strongly through the bubble nozzle (209).

And, as shown in Figure 5 by connecting the two bubble generator 200 in series, it is possible to generate a finer and richer microbubble by generating bubbles again the water generated bubbles.

6 is a view showing a micro bubble generating apparatus using a constant pressure according to another embodiment of the present invention.

As shown in FIG. 6, another embodiment of the present invention removes the bubble nozzle 209 from the drain port 203 and the drain port 203 in the microbubble generator according to the embodiment of the present invention shown in FIG. 2. ) Is connected to the flexible hose 212, and the bubble nozzle 209 is formed in the end of the hose 212, the inner diameter is rapidly narrowed and gradually widened.

Another embodiment of the present invention configured as described above is the water and air is discharged through the drain 203 through the water supply pipe 201 and the air supply port 204 flows through the hose 212 to the end of the hose 212 Micro bubbles are generated in the water and discharged through the formed bubble nozzle 209.

At this time, by forming one or more bubble nozzles 209 whose inner diameters are rapidly narrowed and gradually widened inside the hose 212, more fine and rich micro bubbles can be generated.

7 is a view showing a micro bubble generating apparatus 100 according to another embodiment of the present invention.

In the microbubble generating device 100 according to another embodiment of the present invention, the first tank 110 and the second tank 130 are installed inside the housing 101, as shown in FIG. Water is supplied to the water supply pipe 114 of the first tank 110 through the water supply pipe 104, the water passes through the first tank 110 and the second tank 130, and micro bubbles are generated to discharge the pipe 105 It is connected to the place of use, such as shower head through the outlet (106) of.

A drain pipe 9103 is formed below the microbubble generator 100, and the water is discharged to the discharge pipe 105 of the microbubble generator 100 by operating a knob 102 formed on the front surface of the housing 101. It may be selected to discharge, or to discharge to the drain pipe (103).

Inside the outlet 106 of the discharge pipe 105, as shown in Figure 7 by the installation of a bubble nozzle 107 of the form that the inner diameter is rapidly narrowed and gradually widened to form a micro bubble discharged to the outlet 106 When the discharged water is discharged to the outlet 106, the bubble nozzle 107 may be configured to generate micro bubbles again.

At this time, by installing at least one bubble nozzle (not shown) of the same configuration as the bauble nozzle 107 in the discharge pipe 105 is configured to generate more fine and rich micro bubbles while passing through the discharge pipe 105 do.

As illustrated in FIG. 8, the first tank 110 and the second tank 130 installed in the housing 101 are configured by connecting the first tank 110 and the second tank 130 in series. . That is, the discharge pipe 112 of the first tank 110 is connected to the water supply pipe 134 of the second tank 130 is configured.

The first tank 110 and the second tank 130 have the same internal configuration, except that only the discharge pipe 112 is formed below the case 111 of the first tank 110, while the second tank ( The lower portion of the case 131 of the 130 through the drain pipe 137 for discharging the water inside to the outside in addition to the same discharge pipe 132 as the first tank 110, and through the discharge pipe 132 and the drain pipe 137 There is a further configured difference between the directional valve 136 to selectively operate to discharge the water.

A configuration of the second tank 130 will be described in detail with reference to FIGS. 9 and 10.

The second tank 130 covers the case 131, the bubble tank 145 inserted into the case 131, and a lid 133 that seals the inside of the case 131 by covering and fastening the upper portion of the case 131. It is composed of

As shown in FIG. 9, a discharge pipe 132 and a drain pipe 137 communicating with the inside of the case 131 are formed at a lower portion of the case 131, and through the drain pipe 137 and the discharge pipe 132. A divert valve 136 is formed for selectively discharging water.

The directional valve 136 is formed with a shaft 138 and the knob 102 is coupled to the shaft 138 by the user to operate the knob 102 to operate the directional valve 136.

Since the direction switching valve is a known technique, a detailed description thereof will be omitted.

In addition, a bubble bath 145 is inserted into the case 131, and the bubble bath 145 is inserted into and fixed in the case 131 so as to have a predetermined distance from the inner wall of the case 131 through fixing means. do.

As shown in FIG. 9, as shown in FIG. 9, the support bar 146 protrudes radially from the upper portion of the bubble bath 145, and the support port 147 is formed at the end of the support bar 146. When the jaw 145 is inserted into the case 131, the support 147 is caught on the top of the case 131. When the lid 133 is bolted in the state, the bubble bath 145 is inserted into the case (Fig. 10). 131) It is fixed at a predetermined distance from the inner wall.

And the lid 133 is bolted to the case 131, it is preferable to insert the sealing 144 for waterproof on the fastening surface of the lid 133 and the case 131.

A water supply pipe 134 through which water is supplied into the case 131 is formed at an upper portion of the lid 133, and air is supplied from the outside into the case 131 to generate micro bubbles on one side of the water supply pipe 134. An air supply port 151 is formed, an air check valve 115 is formed at an end of the air supply port 151, and an inner diameter of the water supply pipe 134 is rapidly narrowed and gradually widens. Bubble nozzle 150 is formed.

The configuration of the bubble nozzle 150 at the bottom of the water supply pipe 134, the air supply port 151, the air check valve 115, and the water supply pipe 134 formed on the lid 133 is illustrated in FIGS. 1 and 2. The same configuration as in the embodiment of the.

The operation of the microbubble generating device according to the present invention configured as described above will be described in detail.

When the user opens the faucet to supply water to the water supply pipe, the water flows into the water supply pipe 114 of the first tank 110, and the air supply port communicated with the water supply pipe 114 while the water flows through the water supply pipe 114. It is injected into the case 111 in a state of high pressure through (not shown).

Air and water injected at a high pressure into the case 111 strongly collide with the lower portion of the bubble tank (not shown) to generate micro bubbles in the water. At this time, the water continuously sprayed from the nozzle of the lid 113 collides strongly with the water sprayed earlier, and finer micro bubbles are generated as shown in FIG. 11 (FIG. 11 is a cross-sectional view of the second tank or the internal structure of the first tank is the same. It is overflowed through the overflow hole formed between the support bar of the bubble tank, the water in which the micro bubble is generated is introduced into the water supply pipe 134 of the second tank 130 through the discharge pipe (112).

As described above, the water introduced into the water supply pipe 134 of the second tank 130 flows through the water supply pipe 134, and a negative pressure is applied to the air supply port 151 communicating with the water supply pipe 134 of the second tank 130. Air is again injected at a strong pressure from the nozzle 150 together.

Water sprayed strongly into the case 131 of the second tank 130 collides strongly with the bottom of the bubble tank 145 of the second tank 130 to generate finer micro bubbles in the water, and the second tank 130. It overflows through the overflow hole 148 formed on the bubble tank 145 of the).

As described above, the water containing the fine micro bubbles overflowing the bubble tank 145 of the second tank 130 is discharged through the discharge pipe 132 of the second tank 130, and discharged through the discharge pipe 105. 106 is used for injection.

All operations, including the supply of air, is performed by the water pressure injected from the tap, so no external power source is required.

When the user locks the faucet and turns the knob 102, the water in the bubble tank of the first tank 110 is drained through the drain hole formed in the lower part of the bubble tank, and the water is discharged through the discharge pipe 112 together with the water in the case 111. It flows into the water supply pipe 134 of the second tank 130 and flows into the bubble tank 145 of the second tank 130.

Water introduced into the bubble tank 145 of the second tank 130 is discharged through the drain hole 149 formed at the lower portion of the bubble tank 145 of the second tank 130 to drain the pipe of the second tank 130. It is discharged to the outside through 137.

When the shower is finished as described above, by discharging all the water inside the microbubble generating device, it is possible to prevent the generation of the scale and the growth of bacteria in the bacteria.

As described above, abundantly generated microbubbles having a size less than 10 are passed through the first tank 110 and the second tank 130 in which water is connected in series, thereby saving water, and generating less noise. Excellent cleaning power by bubbles.

In addition, anion is generated by the instantaneous crushing of water in the microbubble generator, which can produce a forest bath effect when applied to a shower or a bathtub, and free radicals such as OH ^- are generated during the extinction process due to the self-pressurization effect of the microbubble. To sterilize the bacteria in the water.

In addition, when the microbubble generator of the present invention is applied to the shower, the ultrasonic waves generated by the micro-vibration gently stimulate the whole body to promote muscle relaxation and metabolism, thereby quickly recovering fatigue, improving atopic skin disease, and improving skin. Moisturizing effect.

And since the present invention uses only a constant pressure and does not use electric power, there is no risk of electric shock, and installation and maintenance costs are saved.

In the above, the embodiment in which the drain pipe 103 and the directional valve 136 are configured under the second tank 130 of the present invention has been described.

However, as shown in FIG. 13, the microbubble generating device can be configured without forming the drain pipe 103 and the direction switching valve 136 under the second tank 130.

That is, as shown in FIG. 13, the second tank 130 is configured in the same configuration as the first tank 110, and the water supply pipe 104 is provided with an on / off valve in the water supply pipe 114 of the first tank 110. ), The water supply pipe 134 of the second tank 130 is fastened to the discharge pipe 112 of the first tank 110, and the discharge pipe 132 of the second tank is fastened to the discharge pipe 105.

According to the present invention configured as described above, when the user opens the valve of the water supply pipe 104, water containing microbubbles may be discharged and used through the outlet 106, and when the user locks the valve of the water supply pipe 104, the outlet ( The water containing the micro bubbles discharged from 106) is cut off.

At this time, since all the water inside is discharged through the discharge pipe 105 by the drain hole 149 formed in the bubble tank 145 of the first tank 110 and the second tank 130 as described above. All of the water inside can be drained without the drain pipe or the directional valve.

7 to 13, the present invention is configured by connecting the first tank and the second tank in series, but by adding a third tank (not shown) having the same configuration as the first tank connected three tanks in series It can also be configured.

And the present invention is a device for generating a micro bubble using a daily constant pressure, where the high pressure, such as high ground by installing a water pump (not shown) in the water supply pipe 114 of the first tank 110 high pressure It is preferable to supply the water to the water supply pipe 114 of the first tank (110).

And in the embodiment of the present invention shown in Figures 1 to 13, the bubble nozzle can be formed in plurality in parallel form according to the size of the inner diameter.

The microbubble generating device according to the present invention has been described above.

It will be understood by those skilled in the art that the technical features of the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the appended claims rather than the foregoing description, and the meanings of the claims and All changes or modifications derived from the scope and the equivalent concept shall be construed as being included in the scope of the present invention.

100: micro bubble generator
101: housing
102 knob
103: drain pipe
104: water supply pipe
105: discharge pipe
106: outlet
107: bubble nozzle
110: first tank
111: Case
112: discharge pipe
113: lid
114: water supply pipe
115: air check valve
116 screw
130: second tank
131: case
132: discharge pipe
133: lid
134: water supply pipe
135: air check valve
136: direction switching valve
137: drain pipe
138: axis
139: membrane fitting
140: hall
141: membrane
142: cover
143: hall
144: sealing
145 bubble tank
146: support
147: support
148: overflow hole
149: drain hole
150: bubble nozzle
151: air supply port
152: backflow prevention
200: micro bubble generator
201: water pipe
202: water inlet
203: drain
204: air supply port
205: hall
206: membrane
207: hall
208: cover
209: Bubble Nozzle
210: backflow prevention
211: screw
212 hose

Claims (17)

Water pipe 201 in the form of a pipe ;,
A water supply port 202 formed at an upper portion of the water supply pipe 201 to receive constant water;
A drain 203 formed in the lower portion of the water supply pipe 201 to discharge water;
A bubble nozzle 209 formed in the drain hole 203 in a form in which the inner diameter is suddenly narrowed and gradually widened;
An air supply port 204 having a pipe shape formed at one side of the water supply pipe 201;
And an air check valve formed at an end of the air supply port 204 to allow air to flow only from the outside to the air supply port 204.
A case in which a water supply pipe 114 to which water is supplied, an air check valve 115 formed at one side of the water supply pipe 114 to allow air to flow only from the outside to the air supply port, and a discharge pipe 112 to discharge water ; And a bubble bath inserted into the case to be spaced apart from the inner wall of the case through a supporting means.
The first tank 110, consisting of;
An air check valve 135 formed on one side of the water supply pipe 134 and the water supply pipe 134 connected to the discharge pipe 112 of the first tank 110 to allow air to flow only from the outside to the air supply port 151. And, the case is formed with a discharge pipe 132 for discharging water; And a bubble bath 145 inserted into the case to be spaced apart from the inner wall of the case through supporting means.
Micro bubble generator, comprising: a second tank (130) consisting of.
The method according to claim 1 or 2,
The air check valve,
A predetermined number of holes 143 and 207 are drilled to cover the air supply holes 151 and 204, and the microbubble generating device, characterized in that it is composed of a membrane (141, 206) in close contact with the inside of the cover (142,208) and elasticity .
The method according to claim 1 or 2,
The axis of the air supply port (151,204) and the axis of the water supply line is microbubble generating device, characterized in that configured to form an acute angle (銳角).
The method according to claim 1 or 2,
Water supply pipes (134, 201) end of the air supply port (151,204) microbubble generating device using a constant pressure, characterized in that the backflow prevention port (152, 210) is formed.
The method according to claim 1 or 2,
Microbubble generating device using a constant pressure, characterized in that the screw (116,211) for inducing the rotation of the water protrudes on the inner peripheral surface of the water supply pipe (134,201).
The method of claim 1,
Microbubble bubble generator using a constant pressure, characterized in that the two micro-bubble generating device (100) is connected in series in the vertical.
The method of claim 1,
The hose (212) is fastened to the drain port (203), the microbubble generating device using a constant pressure, characterized in that the bubble nozzle (209) is formed at the end of the hose (212).
9. The method of claim 8,
The inside of the hose (212) is a microbubble bubble generator using a constant pressure, characterized in that the inner diameter of the bubble nozzle is rapidly reduced and gradually widened.
The method of claim 2,
The case is divided into a lid and a case (111,131) to which the lid (113,133) is fastened so as to be opened and closed through a fastening means, wherein the water supply pipes (114,134) and air check valves (115,135) are formed on the lid (113,133). , Micro bubbles generating device using a constant pressure, characterized in that the discharge pipes (112, 132) formed in the lower case (111,131).
The method of claim 2,
Wherein the support means comprises:
The support bar 146 protrudes outward from the bubble tank 145 so that the overflow hole 148 is formed, and the support bar 147 seated at the upper end of the case 131 at the end of the support bar 146. Micro bubble generator using a constant pressure, characterized in that consisting of.
The method of claim 2,
A microbubble generating device using a constant pressure, characterized in that the drain hole 149 is formed below the bubble tank (145).
The method of claim 2,
The first tank 110 and the second tank 130 is a micro bubble generator using a constant pressure, characterized in that configured in series in the vertical direction.
The method of claim 2,
The discharge pipe 132 of the second tank 130 is connected to the discharge pipe 105, the end of the discharge pipe 105 is formed in the end of the bubble nozzle 107 of the form that the inner diameter is rapidly narrowed and gradually widened Micro bubble generator using a constant pressure characterized in that.
15. The method of claim 14,
The inside of the discharge pipe 105 is a microbubble generating device using a constant pressure, characterized in that the inner diameter is rapidly narrowed and then gradually expands the bubble nozzle.
The method of claim 2,
A drain pipe 137 is formed at a lower portion of the second tank 130 to communicate with the inside of the second tank 130 to discharge water in the first tank 110 and the second tank 130.
The lower portion of the second tank 130, the micro-bubble generating device using a constant pressure, characterized in that the switching valve 136 for selectively discharging water through the discharge pipe 132 or drain pipe 137 is installed.
The method according to claim 1 or 2,
The water supply pipe 201 is a micro bubble generator using a constant pressure, characterized in that the water pump is installed to supply high-pressure water to the water supply pipe (201).

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