KR102209694B1 - Fine bubble generator - Google Patents

Abstract

The present invention relates to a device for generating microbubbles, and more specifically, to a device for generating microbubbles, which has a length-adjustable bubble discharge tube. According to the present invention, the device for generating microbubbles comprises: a water inflow passage into which water is introduced; a gas inflow passage into which gas is introduced; a pump which enables water and air to be sucked in through the water inflow passage and the gas inflow passage, respectively; a mixing tank which mixes the gas with the water introduced by the pump; a nozzle which is connected to the mixing tank, and coverts a gas-liquid mixture obtained by mixing the gas with the water into bubbles; a bubble transport tube which is connected to the nozzle; and a bubble discharge tube which is connected to the bubble transport tube in a direction crossing a lengthwise direction of the bubble transport tube, and discharges the bubbles converted at the nozzle, wherein a bubble discharge tube is movably inserted into a bubble discharge tube adjacent to a plurality of bubble discharge tubes having different diameters. The present invention comprises the bubble transport tube which transports the bubbles discharged from the nozzle to the water; and the bubble discharge tube which is provided in the bubble transport tube, and has a length that is adjustable, and thus, a size of a bubble discharge area in the water can be easily adjusted.

Description

Fine bubble generator {FINE BUBBLE GENERATOR}

The present invention relates to a device for generating microbubbles, and in particular, to a device for generating microbubbles having a bubble discharge tube capable of adjusting the length.

Bubbles are bubbles created by water and air. These bubbles are generated by a bubble generating device that generates bubbles, and the bubble generating device sucks water and air by a pump, supersaturates them, and generates bubbles by collision or the like.

However, the conventional bubble generator has a structure in which bubbles are discharged into water by a small nozzle, and there is a problem in that it is not possible to discharge bubbles in a wide range or control the bubble discharge range.

Korean Registered Patent Publication No. 10-1332370 (2013.11.18.)

It is an object of the present invention to provide a bubble generating apparatus capable of increasing the bubble discharge range and adjusting the bubble discharge range.

The object of the present invention is not limited to the above-mentioned object, and other objects and advantages of the present invention not mentioned can be understood by the following description, and will be more clearly understood by the examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

The microbubble generator according to the present invention includes a water inlet through which water is introduced, a gas inlet through which gas is introduced, a pump that allows water and air to be sucked through the water inlet and the gas inlet, respectively, and introduced by the pump. A mixing tank that mixes air and water, a nozzle connected to the mixing tank that converts a gas-liquid mixture of air and water into bubbles, a bubble transfer pipe connected to the nozzle, and a bubble transfer in the direction crossing the longitudinal direction of the bubble transfer pipe And a bubble discharge pipe connected to the pipe to discharge the air bubbles converted by the nozzle, and the bubble discharge pipe is movably inserted into the interior of the adjacent bubble discharge pipe having a plurality of bubble discharge pipes having different diameters.

The plurality of bubble discharge pipes includes a stopper, the stopper includes a base plate in the form of a leaf spring and a protrusion protruding on one surface of the base plate, and a coupling hole into which the protrusion is inserted is formed in the bubble discharge pipe, and the base plate has a plurality of It is provided on the outer surface of the moving bubble discharge pipe among the bubble discharge pipes.

The bubble discharge pipe is directly connected to the bubble transfer pipe and is provided with a first bubble discharge hole through which bubbles are discharged and a first coupling hole through which a protrusion is formed, and is provided to reciprocate the inside of the first bubble discharge pipe. The second bubble discharge pipe is provided so as to reciprocate the inside of the second bubble discharge hole and the second coupling hole to which the protrusion is coupled, and the second bubble discharge pipe, and a third bubble discharge hole through which bubbles are discharged is formed. 3 It includes a bubble discharge pipe, and the stopper is provided on the outer surface of the second bubble discharge pipe and the first stopper is provided on the outer surface of the first coupling hole, and the projection is provided on the outer surface of the third bubble discharge pipe and the projection is coupled to the second coupling hole It includes a second stopper that becomes.

The microbubble generating device according to the present invention has a bubble transfer pipe for transferring bubbles discharged from the nozzle to water, and a bubble discharge pipe provided in the bubble transfer pipe and the length thereof is adjustable, so that the size of the bubble discharge area in the water can be easily adjusted. have.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a conceptual diagram of a microbubble generating device according to the present invention.
2 is a schematic perspective view of a bubble discharge pipe of the microbubble generator according to the present invention.
3 is a schematic cross-sectional view of FIG. 2.
4 is a schematic cross-sectional view of a bubble discharge pipe provided with a stopper in the microbubble generator according to the present invention.
5 is a schematic cross-sectional view of a bubble discharge pipe provided with a stopper in a microbubble generating device according to a modification of the present invention.
6 is a schematic cross-sectional view of a bubble discharge pipe of a fine bubble generating device according to another modified example of the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

1 is a conceptual diagram of a microbubble generating apparatus according to the present invention.

As shown in FIG. 1, the microbubble generator according to the present invention includes a gas inlet path 100 through which gas is introduced, a water inlet path 200 through which water is introduced, a water inlet path 200 and a gas inlet path. A pump 300 for inhaling water and gas through 100, a mixing tank 400 for mixing gas and water introduced by the pump 300, and a mixture of gas and water in the mixing tank 400 It includes a nozzle 500 for generating bubbles from the gas-liquid mixture, and a discharge pipe 600 for discharging the bubbles generated by the nozzle 500 into water.

The gas inlet path 100 introduces gas required for bubble generation and supplies it to the mixing tank 400 through the connection path 700.

The water inlet path 200 introduces water to be used for generating air bubbles. Here, when water flowing into the water inlet path 200 is used for the purpose of purifying a natural water system, water of a corresponding natural water system may be used. Of course, the present invention is not limited thereto, and purified water may be supplied to the water inlet path 200 instead of natural water.

The pump 300 allows water and carbon dioxide to flow into the water inlet path 200 and the gas inlet path 100, respectively. To this end, the pump 300 is directly connected to the water inlet passage 200 and the gas inlet passage 100, and the water and carbon dioxide introduced through the pump 300 are between the pump 300 and the mixing tank 400. It is transferred to the mixing tank 400 through the connected connection path 700.

The mixing tank 400 mixes water and carbon dioxide introduced into the water inlet passage 200 and the gas inlet passage 100 through the pump 300. In addition, the mixing tank 400 may be formed with a plurality of plates spaced apart from each other by opening a partial region. Here, it is preferable that the plurality of plates are formed to be offset so that some open regions do not face each other, and the spacing between the plurality of plates is the same. However, the present invention is not limited thereto, and the spacing between a plurality of plates may be different from each other.

The water tank 600 is for storing the water required for pump operation, and may be supplied with water by the water tank connection path 210 branched from the water inlet path 200. Of course, when the water tank 600 is provided, the water inlet path 200 also branches off the mixing tank connection path 220 so that water can be supplied to the mixing tank 400.

2 is a schematic perspective view of a bubble discharge pipe of the microbubble generator according to the present invention, and FIG. 3 is a schematic cross-sectional view of FIG. 2.

The bubble discharge pipe 600 discharges bubbles generated by the nozzle 500. To this end, the bubble discharge pipe 600 includes a bubble transfer pipe 610 and a bubble discharge pipe 620 as shown in FIG. 2.

The bubble transfer pipe 610 is for transferring the bubbles generated by the nozzle 500, and this embodiment illustrates that the bubble transfer pipe 610 has a hollow circular tube shape. Of course, the present invention is not limited thereto, and the bubble transfer pipe 610 may be a hollow oval tube, a polygonal tube shape including a triangle or a square. In addition, the bubble transfer pipe 610 exemplifies that it is provided vertically with respect to the water surface in order to transfer the bubbles generated by the nozzle 500 into the water.

The bubble discharge pipe 620 discharges the bubbles transferred from the bubble transfer pipe 610 into the water. This is performed through the bubble discharge hole formed in the bubble discharge pipe 620, and accordingly, at least one bubble discharge hole 621a, 622a, 623a is formed in the bubble discharge pipe 620, and if a plurality of bubbles is formed, a plurality of bubbles The discharge holes may be formed at equal intervals from each other. However, the present invention is not limited thereto, and since the area of the bubble discharge pipe 620 directly connected to the bubble transfer pipe 610 has a high water pressure, the distance between the bubble discharge holes may decrease as the distance from the bubble transfer pipe 610 increases May be. Further, the bubble discharge pipe 620 of the present invention may be formed such that the diameter of the bubble discharge hole increases as the distance from the bubble transfer pipe 610 increases. Of course, it may be formed such that the distance between the bubble discharge holes decreases as the distance from the bubble transfer pipe 610 increases, and the diameter of the bubble discharge holes increases. By the above-described structure, the amount of air bubbles discharged from the bubble discharge pipe 620 may be uniform in the entire bubble discharge pipe 620. The bubble discharge pipe 620 is illustrated to include a first bubble discharge pipe 621, a second bubble discharge pipe 622 and a third bubble discharge pipe 623 having different diameters for length adjustment. Of course, the bubble discharge pipe 620 according to the present invention may be provided with only two bubble discharge pipes, that is, the first bubble discharge pipe 621 and the second bubble discharge pipe 622, and three or more bubble discharge pipes, that is, the first It may include a bubble discharge pipe 621, a second bubble discharge pipe 622, a third bubble discharge pipe, and a fourth bubble discharge pipe or more. However, this embodiment illustrates that the bubble discharge pipe 620 includes a first bubble discharge pipe 621, a second bubble discharge pipe 622, and a third bubble discharge pipe 623 for convenience of description. In addition, a first bubble discharge hole 621a is formed in the first bubble discharge pipe 621 and a second bubble discharge hole 622a is formed in the second bubble discharge pipe 622. In addition, a third bubble discharge hole 623a is formed in the third bubble discharge pipe 623. Meanwhile, the second bubble discharge hole 622a and the third bubble discharge hole 623a of the second bubble discharge pipe 622 and the third bubble discharge pipe 623 described above are formed to be inclined in the direction of the bubble transfer pipe 610. Thus, it is effective to allow the second bubble discharge pipe 622 and the third bubble discharge pipe 623 to receive a force separated from the first bubble discharge pipe 621 by the water pressure of the injected bubbles.

The first bubble discharge pipe 621 is directly connected to the bubble transfer pipe 610 to receive bubbles from the bubble transfer pipe 610 and discharge them to the outside. In addition, since it has been illustrated that the above-described bubble transfer pipe 610 is vertically provided on the water surface, the first bubble discharge pipe 621 is provided in a direction intersecting the length direction of the bubble transfer pipe 610. The first bubble discharge pipe 621 has a central portion connected to the bubble transfer pipe 610, and one side and the other side are open. In addition, the open ends of the first bubble discharge pipe 621 and the other end are bent inward so that the second bubble discharge pipe 622 to be described later does not deviate from the first bubble discharge pipe 621.

The second bubble discharge pipe 622 is provided in the same direction as the first bubble discharge pipe 621. In addition, the second bubble discharge pipe 622 is movably inserted into the first bubble discharge pipe 621, and for this purpose, the diameter of the second bubble discharge pipe 622 is formed smaller than the diameter of the first bubble discharge pipe 621. Here, the second bubble discharge pipe 622 is a hollow tube shape with one side and the other side open, and one end of the first bubble discharge pipe 621 is bent outwardly and is caught by one side or the other side that is bent inward of the first bubble discharge pipe 621 and does not escape. . In addition, two second bubble discharge pipes 622 are provided and are coupled to one side and the other side of the first bubble discharge pipe 621, respectively. Accordingly, the second bubble discharge pipe 622 inserted and coupled to both ends of the first bubble discharge pipe 621 may freely reciprocate inside and outside the first bubble discharge pipe 621.

The third bubble discharge pipe 623 is coupled to the second bubble discharge pipe 622 to discharge bubbles that have not been discharged from the first bubble discharge pipe 621 and the second bubble discharge pipe 622. In addition, the third bubble discharge pipe 623 is inserted into the second bubble discharge pipe 622 to communicate with the second bubble discharge pipe 622, and the third bubble discharge pipe 623 is inserted into the second bubble discharge pipe 622 In order to be, the diameter of the third bubble discharge pipe 623 must be smaller than the diameter of the second bubble discharge pipe 622. Here, since the third bubble discharge pipe 623 must also be inserted into the two second bubble discharge pipes 622, two third bubble discharge pipes 623 are provided. Of course, one end of the third bubble discharge pipe 623 in the direction of being inserted into the second bubble discharge pipe 622 is bent to the outside so as not to be separated from the second bubble discharge pipe 622. Meanwhile, the diameter of the first bubble discharge pipe 621 described above is larger than the diameter of the second bubble discharge pipe 622, and the diameter of the third bubble discharge pipe 623 is smaller than the diameter of the second bubble discharge pipe 622.

Meanwhile, an O-ring made of a rubber material may be provided between the first bubble discharge pipe 621, the second bubble discharge pipe 622, and the third bubble discharge pipe 623 to prevent leakage of air bubbles.

By the above-described structure, the present embodiment reduces the size of the bubble discharge pipe 620 when transporting the microbubble generator, and when using the second bubble discharge pipe 622 and the third bubble discharge pipe 623 by the water pressure of the bubbles. ) Is unfolded from the first bubble discharge pipe 621 to maximize the bubble discharge range.

In addition, the present embodiment may include a stopper for fixing after adjusting the length of the bubble discharge pipe 620.

4 is a schematic cross-sectional view of a bubble discharge pipe provided with a stopper in the microbubble generating apparatus according to the present invention, and FIG. 5 is a schematic cross-sectional view of a bubble discharge pipe provided with a stopper in the microbubble generator according to a modification of the present invention. .

The stoppers 622b and 623b fix the second bubble discharge pipe 622 to the first bubble discharge pipe 621 when adjusting the length of the bubble discharge pipe 620, or fix the third bubble discharge pipe 623 to the second bubble discharge pipe 622 It is used to fix on. To this end, the stoppers 622b and 623b include a first stopper 622b provided in the second bubble discharge pipe 622 and a second spotter 623b provided in the third bubble discharge pipe 623. In addition, the first stopper 622b and the second stopper 623b have a base plate provided on the surfaces of the second bubble discharge pipe 622 and the third bubble discharge pipe 623, respectively, and a protrusion protruding from one surface of the base plate. Include.

The base plate is formed in the form of a leaf spring, and the further away from the bubble transfer pipe 610, the further away from the bubble discharge pipe 622 is preferable. With this structure, even if the base plate is pressed by external pressure, due to the restoring force, the second bubble discharge pipe 622 is fixed to the first bubble discharge pipe 621, or the third bubble discharge pipe 623 is the second discharge pipe 622 Can be fixed to

Meanwhile, the base plate according to the present invention may have a shape other than the above-described shape, which, for example, may have a dome spring shape, as shown in FIG. 5. Of course, even in this case, the first bubble discharge pipe 621, the second bubble discharge pipe 622, and the third bubble discharge pipe 623 are mutually rigid by being pressurized by the water pressure of the bubbles flowing from the coupling groove formed in the bubble discharge pipe 622. To be fixed.

Here, the base plate is the lower end of the second bubble discharge pipe 622 or the third bubble discharge pipe 623, that is, a position that can be pressed by the bubbles discharged from the bubble transfer pipe 610 to the first bubble discharge pipe 621 It is preferable to be provided in. In addition, for this purpose, the base plate includes a first base plate provided in the second bubble discharge pipe 622 and a second base plate provided in the third bubble discharge pipe 623. In addition, since two second bubble discharge pipes 622 and three third bubble discharge pipes 623 are provided, each of the first base plate and the second base plate is also provided.

The protrusion is formed to protrude from one surface of the base plate and may be coupled to a first coupling hole formed in the first bubble discharge pipe 621 and a first coupling hole formed in the second bubble discharge pipe 622. Of course, it is inserted into the first bubble discharge hole 621a of the first bubble discharge pipe 621 and the second bubble discharge hole 622a of the second bubble discharge pipe 622 without the first coupling hole and the second coupling hole. The 2 bubble discharge pipe 622 may be fixed to the first bubble discharge pipe 621 or the third bubble discharge pipe 623 may be fixed to the second bubble discharge pipe 622. Here, it is preferable that the protrusion is in the form of a dome spring.

As described above, the present embodiment includes a bubble transfer pipe that transfers the bubbles discharged from the nozzle to the water, and a bubble discharge pipe provided in the bubble transfer pipe and the length thereof is adjusted, so that the size of the bubble discharge area in the water can be easily adjusted. have.

On the other hand, in this embodiment, a thread is formed inside the bubble discharge pipe so that the second bubble discharge pipe 622 is fixed to the first bubble discharge pipe 621, or the third bubble discharge pipe 623 is fixed to the second bubble discharge pipe 622. It can also be fixed.

6 is a schematic cross-sectional view of a bubble discharge tube of a fine bubble generating device according to another modified example of the present invention.

In this embodiment, the above-described leaf spring type stopper may not be used, or a screw thread type stopper may be used together with the leaf spring type stopper. As shown in FIG. 6, a first thread 621b is formed on a part of the inner periphery of the first bubble discharge pipe 621, and a second bubble discharge pipe 622 inserted into the inside of the first bubble discharge pipe 621 A second external thread 622c corresponding to the first thread 621b formed on a part of the inner circumference of the first bubble discharge pipe 621 is formed at one end of the outer circumference. In addition, a second internal thread 622d is formed on a part of the inner circumference of the second bubble discharge pipe 622, and is formed at one end of the outer circumference of the third bubble discharge pipe 623 inserted into the inside of the second bubble discharge pipe 622. 2 A third thread 623c corresponding to the second internal thread 622d formed on a part of the inner periphery of the bubble discharge pipe 622 is formed. Accordingly, when the second bubble discharge pipe 622 is rotated in one direction while being inserted into the first bubble discharge pipe 621, the second bubble discharge pipe 622 is coupled to the first bubble discharge pipe 621, and the other direction When rotated to, the second bubble discharge pipe 622 coupled to the first bubble discharge pipe 621 is disengaged from the first bubble discharge pipe 621. In addition, when the third bubble discharge pipe 623 is rotated in one direction while being inserted into the second bubble discharge pipe 622, the third bubble discharge pipe 623 is coupled to the second bubble discharge pipe 622, and in the other direction. When rotated, the third bubble discharge pipe 623 coupled to the second bubble discharge pipe 622 is disengaged from the second bubble discharge pipe 622. As described above, in this embodiment, the length of the bubble discharge pipe can be adjusted with a thread formed inside the bubble discharge pipe.

As described above with reference to the drawings illustrated for the present invention, the present invention is not limited by the embodiments and drawings disclosed in the present specification, and various by a person skilled in the art within the scope of the technical idea of the present invention. It is obvious that transformation can be made. In addition, even if not explicitly described and described the effects of the configuration of the present invention while describing the embodiments of the present invention, it is natural that the predictable effects of the configuration should also be recognized.

100: gas inlet passage 200: water inlet passage
300: pump 400: mixing tank
500: nozzle 600: bubble discharge pipe

Claims (3)

A water inlet through which water flows,
Gas inlet path through which gas flows,
A pump to suck water and air through the water inlet passage and the gas inlet passage,
A mixing tank for mixing air and water introduced by the pump,
A nozzle connected to the mixing tank to convert the gas-liquid mixture of air and water into bubbles,
A bubble transfer pipe connected to the nozzle,
It includes a bubble discharge pipe connected to the bubble transfer pipe in a direction crossing the longitudinal direction of the bubble transfer pipe to discharge the air bubbles converted from the nozzle,
The bubble discharge pipe is movably inserted into a bubble discharge pipe in which a plurality of bubble discharge pipes having different diameters are adjacent to each other,
The plurality of bubble discharge pipes include a stopper,
The stopper includes a leaf spring-shaped base plate and a protrusion protruding from one surface of the base plate,
A coupling hole into which the protrusion is inserted is formed in the bubble discharge pipe,
The base plate is a fine bubble generating device provided on an outer surface of a moving bubble discharge pipe among the plurality of bubble discharge pipes.
delete The method of claim 1,
The bubble discharge pipe is directly connected to the bubble transfer pipe, and a first bubble discharge pipe formed with a first bubble discharge hole through which bubbles are discharged and a first coupling hole through which the protrusion is coupled,
A second bubble discharge pipe provided to reciprocate the inside of the first bubble discharge pipe and having a second bubble discharge hole through which bubbles are discharged and a second coupling hole through which the protrusion is coupled, and
And a third bubble discharge pipe provided to reciprocate the inside of the second bubble discharge pipe and having a third bubble discharge hole through which bubbles are discharged,
The stopper is provided on an outer surface of the second bubble discharge pipe and a first stopper is provided on an outer surface of the third bubble discharge pipe to which a protrusion is coupled to the first coupling hole. 2 Fine bubble generating device including a stopper.

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