KR102590196B1 - Bubble reneration apparatus - Google Patents

Abstract

The present invention relates to a bubble generating device. The upper part is closed, the inside is empty, and the upper part is vertical to the ground, and one end is coupled to the lower part of the upper part, the inner part is empty, the other end is open, and the lower part is horizontal to the ground, and the upper and lower parts are distributed. a formed body; a pressure water inlet member installed on the outer surface of the main body to communicate with the upper part at a position spaced a predetermined distance from the upper end of the main body; a collision cap installed on the outer surface of the main body at a position opposite to the pressurized water intake member and in communication with the upper portion; a water outlet member installed at the other open end of the lower part; A bubble generating device including an air vent member installed on the upper side of the lower portion spaced a predetermined distance from the water outlet member to communicate with the lower portion from the outer surface of the main body is presented.

Description

Bubble generation apparatus

The present invention relates to a bubble generating device. More specifically, the incoming liquid is pulverized by impact to generate bubbles, but large-sized bubbles are separated to facilitate the flow of fine bubbles, and ultimately, fine bubbles of the desired size are discharged, and the structure is simple. This relates to a bubble generating device that can be easily applied to any bathtub.

Bubble generators are known to have a sterilizing and massage effect by converting water obtained from a bathtub into fine bubbles, and the negative ionized air generated when the bubbles burst in the bathtub due to the air contained in the bubbles.

Various methods for generating bubbles are known. Representative methods include a method of splitting the incoming water into small pieces by installing a mesh on the water outlet nozzle, a method of splitting the incoming water into small pieces as it hits a shock plate, or a method of making water clusters small by irradiating microwaves to the water flowing inside the pipe. This is known.

As an invention that generates bubbles by causing water to hit a shock plate, an oxygen microbubble supply device for a bathtub is disclosed in Republic of Korea Patent Publication No. 10-2008-0092750 (publication date: October 16, 2008).

In the disclosed invention, as shown in FIG. 7, one to three orifice inlets 232a of the micro nozzle unit 130 of the disclosed invention may be formed in the center of the inlet plate 232, and the outlet 234 A plurality of is formed around the outer peripheral surface on the opposite side of one side where the orifice inlet 232a is formed and connected to the inner space of the micro nozzle unit 230. Additionally, on the opposite side of the micro nozzle unit 230 where the orifice inlet 232a is formed, a plane 233 facing the orifice inlet 232a is formed on the inner surface. The mixed water of water and oxygen is sprayed into the internal space 231 of the micro nozzle unit 230 while passing through the orifice inlet 232a of the micro nozzle unit 230, and the inner surface of the opposite side formed to face the orifice inlet 232a. It collides with the negative plane 233, and as a result, the oxygen bubbles in the mixed water are split into finer pieces.

The disclosed invention is configured to generate microbubbles by causing the introduced mixed water of water and oxygen to collide with the plane of the inner surface. However, the mixed water hitting the flat surface generates bubbles of various sizes, resulting in a mixture of large-sized bubbles and fine bubbles. In this case, the flow of the generated bubbles is not smooth due to the buoyancy of the large-sized bubbles. , there is a problem in that large-sized bubbles burst before being drained, preventing the discharge of small-sized bubbles.

In addition, a microbubble generating device registered in Korea Utility Model No. 20-0450938 (registration date: November 5, 2010) has been disclosed.

The injection nozzle body of the registered design has a male thread formed around the outer edge so that one side is coupled to the end of the discharge pipe formed long in the longitudinal direction, and a female thread is formed on the inner edge of the other side so that a fine bubble generating filter member, which will be described later, is screwed, The fine bubble generating filter member is screwed to the female thread formed on the inner edge of the spray nozzle body, and is configured to generate a large amount of fine bubbles by rupturing the external air mixed water sprayed through the discharge pipe to the inside. The fine bubble generating filter member is made of a mesh-like material and is installed on the lower side of the rupture filter and the rupture filter, which is composed of a disc-shaped fine mesh that breaks water into small pieces when water passes through it, so that the water ruptured in the rupture filter is secondary. It is a configuration that includes a spherical rupture filter with a hole formed to rupture.

The registered design is a structure that generates bubbles by performing primary rupture with a plurality of rupture filters made of mesh and secondary rupture with a spherical rupture filter with holes formed on the curved surface. It has a complex structure and is composed of a nozzle installed in a bathtub. , there is a problem that it is difficult to apply it as a bubble generator for various purposes.

Therefore, it is a microbubble generating device applied to inject microbubbles into bathtubs for various purposes. It generates bubbles by crushing the incoming liquid by impact, and separates large-sized bubbles to facilitate the flow of microbubbles. There is a need for an invention that not only allows fine bubbles of the desired size to be discharged, but also has a simple structure so that it can be easily applied to any bathtub.

Republic of Korea Patent Publication No. 10-2008-0092750 (Publication Date: October 16, 2008) Republic of Korea Registered Utility Model No. 20-0450938 (Registration date: November 5, 2010)

The present invention is to solve the problems of the prior art, and the purpose of the present invention is to generate bubbles by impacting the fluid and prevent the flow of fine bubbles of the desired size among the generated bubbles from being interrupted by large-sized bubbles. The aim is to provide a bubble generating device that can be used to drain water without removing the water.

Another object of the present invention is to provide a bubble generating device with a simple structure without any internal parts.

As a technical solution for achieving the object of the present invention, in the first aspect of the present invention, there is a cylindrical upper part with a predetermined length and a predetermined diameter in a direction perpendicular to the ground and the upper end is closed, and a length of the upper part. a main body that is short and has the same diameter and includes a cylindrical lower part with one end integrally formed with the lower part of the upper part so that it flows with the upper part in a horizontal direction on the ground from the lower part of the upper part; It is installed on the outer surface of the main body at a position spaced downward at a predetermined distance from the top of the main body, and is installed in a water inlet hole formed from the outside to the inside of the main body, and a pressure hole of a predetermined diameter is formed in the center to increase the pressure of the fluid supplied to the main body. a pressurized water inlet member that sprays fluid into the interior; a collision cap installed in a collision hole formed on the outer surface of the main body at a position opposite the pressurized water inlet member to cause the fluid sprayed from the pressurized water inlet member to collide and split the fluid into small pieces; an air vent member installed on the upper surface of the lower part at a predetermined distance from the end of the lower part of the main body in the upper direction and installed in an air hole formed from the outside to the inside of the main body to discharge air separated from the bubbles; It includes a water outlet member installed in a water outlet hole formed at an end of the lower part of the main body to discharge air bubbles;

The main body includes an air buffer unit filled with air formed in a closed space above the upper inlet hole and the collision through hole; It is formed on the lower side of the upper water intake hole and the collision hole, and the fluid and air finely divided from the collision hole meet to form mixed fluid bubbles of various sizes and fall, but the large-sized bubbles are separated from the fine-sized bubbles by buoyancy and fall. A first bubble separation unit for the mixed fluid positioned to move to the air buffer unit; a separate bubble buffer part formed at a lower part of the first bubble separator and at a location where the upper and lower parts of the main body meet, and where fine bubbles of the mixed fluid separated by the first bubble separator are located; It is the lower part of the main body connected to the separator bubble buffer part, and large-sized bubbles mixed in the fine bubbles of the mixed fluid in the separator bubble buffer part are separated and discharged into the air through the air hole on the upper side, and only the fine bubbles are discharged into the water outlet hole. A bubble generating device including a second bubble separation unit for discharge is presented.

In addition, in a second aspect of the present invention, a cylindrical upper part having a predetermined length and a predetermined diameter in a direction perpendicular to the ground and a closed top, and a predetermined diameter shorter than the length of the upper part and smaller than the diameter of the upper part are provided. a first lower part of a cylindrical shape, one end of which is integrally formed with the lower part of the upper part, so as to communicate with the upper part in a horizontal direction on the ground from the lower part of the upper part; a second lower part installed at a lower end of the upper part opposite to the first lower part and having the same shape as the first lower part; a main body including a partition member that protrudes upward from the bottom of the upper part by a predetermined length and separates the first lower part and the second lower part within the upper part; It is installed on the outer surface of the main body at a position spaced downward at a predetermined distance from the top of the main body, and is installed in a water inlet hole formed from the outside to the inside of the main body, and a pressure hole of a predetermined diameter is formed in the center to increase the pressure of the fluid supplied to the main body. a pressurized water inlet member that sprays fluid into the interior; a collision cap installed in a collision hole formed on the outer surface of the main body at a position opposite the pressurized water inlet member to cause the fluid sprayed from the pressurized water inlet member to collide and split the fluid into small pieces; First air is installed on the upper surface of the first lower part at a predetermined distance from the end of the first lower part of the main body in the upper direction and is installed in the first air hole formed from the outside to the inside of the main body to discharge air separated from the bubbles. a vent member; a first water outlet member installed in the first water outlet hole formed at the end of the first lower part of the main body to discharge air bubbles; A second air is installed on the upper surface of the second lower part at a predetermined distance from the end of the second lower part of the main body in the upper direction and is installed in a second air hole formed from the outside to the inside of the main body to discharge air separated from the bubbles. a vent member; It includes a second water outlet member installed in the second water outlet hole formed at the end of the second lower part of the main body to discharge air bubbles;

The main body includes an air buffer unit filled with air formed in a closed space above the upper inlet hole and the collision through hole; It is formed on the lower side of the upper water intake hole and the collision hole, and the fluid and air finely divided from the collision hole meet to form mixed fluid bubbles of various sizes and fall, but the large-sized bubbles are separated from the fine-sized bubbles by buoyancy and fall. A first bubble separation unit for the mixed fluid positioned to move to the air buffer unit; a first bubble buffer unit formed below the first bubble separator and at a location where the upper part of the main body and the first lower part meet, and in which fine bubbles of the mixed fluid separated by the first bubble separator are located; It is the first lower part of the main body connected to the first separator bubble buffer part, and large-sized bubbles mixed in the fine bubbles of the mixed fluid in the first separator bubble buffer part are separated and discharged into the air through the first air hole on the upper side. a second bubble separator for discharging only fine bubbles through the first water outlet hole; a second bubble buffer unit below the first bubble separator, formed at a location where the upper part of the main body and the second lower part meet, and where fine bubbles of the mixed fluid separated in the first bubble separator are located; It is the second lower part of the main body connected to the second separator bubble buffer part, and large-sized bubbles mixed in the fine bubbles of the mixed fluid in the second separator bubble buffer part are separated and discharged into the air through the second air hole on the upper side. A bubble generating device including a third bubble separator for discharging only fine bubbles through the second water outlet hole is presented.

According to the present invention, the fluid is broken into small pieces by impact and bubbles of the mixed fluid mixed with air are generated, and among the generated bubbles, fine bubbles of the desired size can be discharged without the flow being interrupted by the large-sized bubbles. , it has the effect of being able to be implemented in a structure without any internal parts involved.

1 is a schematic cross-sectional diagram of an embodiment of the bubble generating device of the present invention.
Figure 2 is a plan view of Figure 2.
Figure 3 is a schematic cross-sectional diagram of an embodiment of the impact cap (a in Figure 1), which is the main part of the bubble generating device of the present invention.
Figure 4 is a schematic configuration diagram for explaining the operation of an embodiment of the bubble generating device of the present invention.
Figure 5 is a schematic cross-sectional diagram of another embodiment of the bubble generating device of the present invention.
Figure 6 is a plan view of Figure 5.
Figure 7 is a configuration diagram of a prior art bubble generating device.
Figure 8 is a schematic configuration diagram of a bathtub system to which the bubble generating device of the present invention is applied.

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

1 is a schematic cross-sectional diagram of an embodiment of the bubble generating device of the present invention. Additionally, Figure 2 is a plan view of Figure 2.

As shown in Figures 1 and 2, the bubble generating device 100 of the present invention includes a cylindrical upper part 100a with a predetermined length and a predetermined diameter in a direction perpendicular to the ground and a closed top, and the upper It is shorter than the length of (100a) and has the same diameter, and includes a cylindrical lower part (100b) whose one end is integrally formed with the lower part of the upper part (100a) so that it flows with the upper part in a horizontal direction on the ground at the lower end of the upper part (100a). a main body 110; It is installed on the outer surface of the main body 110 at a position spaced downward at a predetermined distance from the top of the main body 110, is installed in the water inlet hole 112 formed from the outside to the inside of the main body 110, and has a pressure hole 121 of a predetermined diameter in the center. ) is formed to increase the pressure of the supplied fluid and spray the fluid into the interior of the main body 110; It is installed in the collision hole 113 formed in the main body 110 at a position opposite to the pressurized water intake member 120, and the fluid injected from the pressure water intake member 120 enters through the collision hole 113 and collides with the fluid. a collision cap 130 having a flat or protruded closed surface for breaking into small pieces; The air hole 117 is formed to penetrate from the outside to the inside of the main body 110 on the upper surface of the lower part 100b at a predetermined distance from the end of the lower part 100b of the main body 110, and is installed so as to point upward. an air vent member 140 that discharges the air separated from; It is installed in the water outlet hole 118 formed at the end of the lower part 100b of the main body 110 and includes a water outlet member 150 for discharging air bubbles;

The main body 110 includes an air buffer unit 111 filled with air formed in the closed space above the inlet through hole 112 and the collision through hole 113 of the upper part 100a; It is formed on the lower side of the inlet hole 112 and the collision hole 113 of the upper part 100a, and the finely divided fluid and air meet from the collision hole 113, and mixed fluid bubbles of various sizes are formed and fall, but the size is large. a first bubble separation unit 114 of the mixed fluid positioned so that the bubbles are separated from fine-sized bubbles by buoyancy and move in the direction of the air buffer unit 111; It is formed at the lower part of the first bubble separator 114 and at a location where the upper part 100a and the lower part 100b of the main body 110 meet, and the fine bubbles of the mixed fluid separated from the first bubble separator 114 are formed. a separator buffer unit 115 located there; It is the lower part 100b of the main body connected to the separator buffer unit 115, and large-sized bubbles mixed in the fine bubbles of the mixed fluid in the separator bubble buffer unit 115 are separated and rise to the upper separation space. a second bubble separation unit 116; Large-sized bubbles separated from the second bubble separator 116 are discharged into the air through the upper air hole 117 and the air vent member 140, and only fine bubbles are discharged into the water outlet member through the water outlet hole 118. It is a configuration characterized by discharge to (150). The water discharge member 150 may further include a swirling flow forming nozzle 151 that swirls the discharged water to maintain bubbles or to form smaller bubbles.

In the embodiment of FIG. 2, the main body 110 is described as being cylindrical with a predetermined diameter, but it is not limited thereto. The upper part 100a and the lower part 100b of the main body 110 may each have a predetermined width and height and may be configured as polygons including a rectangular parallelepiped shape with an empty interior. In addition, the main body 110 may have a polygonal shape including a rectangular parallelepiped shape, and the internal through hole may be configured in a cylindrical shape.

In the embodiment of FIG. 2, the total external length of the upper part 100a of the main body 110 is 150 mm and the total external length of the lower part 100b is 120 mm, which causes the separation between the lower part of the upper part 100a and the end of the lower part 100b. The bubble buffer unit 115 has a width and height of 50 mm, respectively, and may be a part commonly included in the upper and lower parts. The outer diameter of the upper portion 100a and the lower portion 100b may be configured to have a ratio of 50 mm.

This is one example and is not limited to these values, and it is desirable to change the values of each part so that they have a ratio corresponding to the above-mentioned values.

Figure 3 is a schematic cross-sectional view of an embodiment of the collision cap (A in Figure 1), which is the main part of the bubble generating device of the present invention.

As shown in FIG. 3, FIG. 3 (a) is a cross-sectional view of an embodiment of the crash cap 130 of the present invention, and FIG. 3 (b) is a longitudinal cross-sectional view. As shown in Figure 3, the collision cap 130 of the present invention includes a cylindrical cap body portion 131 having a predetermined diameter and length with one end open and the other end closed, and a closed cap body portion 131. It is configured to include a collision wall portion 132 at the other end, and a fluid disruption portion 133 formed with one of a plurality of protrusions or various protrusion patterns formed on the inside of the collision wall portion 132.

Figure 4 is a schematic configuration diagram for explaining the operation of an embodiment of the bubble generating device of the present invention.

As shown in FIG. 4, the bubble generating device of the present invention is configured such that the fluid 10 flowing in the water supply pipe 170 for supplying fluid provided from a water pump (not shown) to the bubble generating device 100 is supplied to the main body 110. ), the water pressure of the fluid 10 increases while passing through the pressurizing hole 121 formed in the pressurized water inlet member 120 coupled to the water inlet hole 112, and the injection fluid 20 passes through the water inlet hole 112. The fluid passes through the collision hole 113 at a position opposite the water inlet hole 112 and collides with the fluid crushing portion 133 formed on the inner surface of the collision wall portion 132 of the collision cap 130, and the fluid is finely crushed, For example, if the fluid is water, the cluster size of the water is broken into small pieces and scattered into the upper space of the upper part 100a of the main body 110 through the collision hole 113. The finely divided and scattered fluid is mixed with the air in the air buffer unit 111 to generate bubbles 30 of various sizes. In addition, the injection fluid 20 is mixed with the air in the air buffer unit 111, and the mixed fluid passes through the collision hole 113, forming a fluid crushing portion 133 on the inner surface of the collision wall portion 132 of the collision member 130. ), the mixed fluid is finely crushed and generated into bubbles of various sizes, which are scattered into the upper space of the upper part 100a of the main body 110 through the collision hole 113. The generated bubbles 30 of various sizes pass through the space of the upper part 100a of the main body 110 to the lower first bubble separator 112. Large-sized bubbles 40 are directed upward by their buoyancy and their sizes are relative to each other. As a result, the small bubbles 50 are directed downward due to their mass, so that the bubbles 30 of various sizes are separated from the large bubbles 40 and the relatively small bubbles 50.

The relatively small size bubbles 50 separated from the first bubble separator 114 are temporarily stored in the separator buffer unit 115, which is a common space between the upper part 100a and the lower part 100b of the main body 110. Due to the separated bubbles 50 that are located and continue to fall from the top, they are pushed into the lower part 100b of the main body 110. The bubbles 50 that are pushed into the lower part 100b are mixed with large-sized bubbles that cannot be separated in the first bubble separator 114. A space is formed above the lower part 100b, so the bubbles 70 of relatively large sizes mixed in the bubbles 50 are separated by buoyancy and rise into the upper space, and the second bubbles in the lower part 100b The desired bubbles 60, which are relatively small in size, remain in the separation unit 116. The large-sized bubbles 70 that separate and rise to the upper side of the second bubble separator 116 are reduced to air and discharged through the air vent member 140 through the air hole 117. The small-sized bubbles 60 separated from the second bubble separator 116 are discharged to the water outlet member 150 through the water outlet hole 118 formed at the end of the lower part 100b.

As described above, according to the embodiment of the bubble generator of the present invention, only the desired fine bubbles can be separated and discharged without obstruction of the flow by bubbles of different sizes within the bubble generator with a simple and simple but unique physical structure. You can.

Figure 5 is a schematic cross-sectional diagram of another embodiment of the bubble generating device of the present invention. Additionally, Figure 6 is a plan view of Figure 5.

As shown in Figures 5 and 6, the bubble generating device 100 of the present invention includes a cylindrical upper part 100a with a predetermined length and a predetermined diameter in a direction perpendicular to the ground and a closed top, and the upper ( It has a predetermined diameter that is shorter than the length of the upper part (100a) and smaller than the diameter of the upper part (100a), and one end is connected to the lower end of the upper part (100a) so that it flows with the upper part (100a) in a horizontal direction from the lower part of the upper part (100a) to the ground. a cylindrical first lower part (100b) formed integrally; a second lower part (100c) installed at the lower end of the upper part (100a) opposite the first lower part (100b) and having the same shape as the first lower part (100b); Main body 110 including a partition member 160 that protrudes upward from the bottom of the upper part 100a by a predetermined length and separates the first lower part 100b and the second lower part 100c within the upper part 100a. )and; It is installed on the outer surface of the main body 110 at a position spaced downward at a predetermined distance from the top of the main body 110, is installed in the water inlet hole 112 formed from the outside to the inside of the main body 110, and has a pressure hole 121 of a predetermined diameter in the center. ) is formed to increase the pressure of the supplied fluid and spray the fluid into the interior of the main body 110; A collision cap ( 130) and; A first air hole 117a is installed on the upper surface of the first lower part 100b at a predetermined distance from the end of the first lower part 100b of the main body 100b and formed from the outside to the inside of the main body 110. ) and a first air vent member (140a) installed to discharge air separated from the bubbles; a first water outlet member (150a) installed in the first water outlet hole (118a) formed at the end of the first lower part (100b) of the main body to discharge air bubbles; A second air hole 117b is installed on the upper surface of the second lower part 100c at a predetermined distance from the end of the second lower part 100c of the main body 100c and formed from the outside to the inside of the main body 110. ) and a second air vent member (140b) installed to discharge air separated from the bubbles; It is installed in the second water outlet hole (118b) formed at the end of the second lower part (100c) of the main body and includes a second water outlet member (150b) for discharging air bubbles;

The main body 110 includes an air buffer unit 111 filled with air formed in the closed space above the inlet through hole 112 and the collision through hole 113 of the upper part 100a; It is formed on the lower side of the inlet hole 112 and the collision hole 113 of the upper part 100a, and the finely divided fluid and air meet from the collision hole 113, and mixed fluid bubbles of various sizes are formed and fall, but the size is large. a first bubble separator 114 of the mixed fluid positioned so that the bubbles are separated from fine-sized bubbles by buoyancy and move toward the air buffer unit 111; It is formed on the lower side of the first bubble separator 114 and at a location where the upper body 100a and the first lower part 100b meet, and the fine bubbles of the mixed fluid separated in the first bubble separator 114 are located. A first separator bubble buffer unit 115a; It is the first lower part 100b of the main body connected to the first separator bubble buffer part 115a, and large-sized bubbles mixed in the fine bubbles of the mixed fluid in the first separator bubble buffer part 115a are separated and moved to the upper side. a second bubble separator (116a) for discharging only fine bubbles into the air through the first air through hole (117a) and discharging only fine bubbles into the first water outlet through hole (118a); It is formed on the lower side of the first bubble separator 114 and at a location where the upper body 100a and the second lower part 100c meet, and the fine bubbles of the mixed fluid separated in the first bubble separator 114 are located. a second separator buffer unit 115b; It is the second lower part 100c of the main body 110 connected to the second separator bubble buffer part 115b, and large-sized bubbles are mixed in the fine bubbles of the mixed fluid in the second separator bubble buffer part 115b. It is separated and discharged into the air through the second air hole 117b on the upper side, and includes a third bubble separator 116b for discharging only fine bubbles through the second water outlet hole 118b.

Figure 8 is a schematic configuration diagram of a bathtub system to which the bubble generating device of the present invention is applied.

As shown in Figure 8, a bathtub 1 including a bathtub for a foot bath, a water supply pipe 2 for sucking and supplying water from the bathtub 1, and water moving through the water supply pipe 2. An air mixing unit (3) for mixing air and a pump (4) for sucking water in the bathtub (1) through the water supply pipe (2) and supplying water to the bubble generator (100) at a predetermined water pressure, A configuration comprising a water supply pipe (5) for supplying water to the bubble generator (100) and a bubble supply pipe (6) for supplying fine bubbles generated in the bubble generator (100) to the bathtub (1). am. In addition, although not shown, a bubble injection nozzle connected to the end of the bubble supply pipe 6 to spray bubbles into the bathtub 1 may be further included.

The embodiments of the bubble generating device of the present invention described above are only a few of various embodiments. For example, in the embodiment of FIGS. 5 and 6, a configuration in which the upper body and two lower bodies form a “ㅗ” shape has been described, but in another embodiment, three, four, and five upper bodies are used. Of course, an embodiment in which the lower part of the dog is coupled is also possible.

Therefore, the present invention includes a main body with an empty interior, which is coupled to an upper part in a vertical direction with respect to the ground and a lower end of the upper part, and a lower part in a horizontal direction with respect to the ground is formed to communicate with the upper part, and a pressurized water inlet formed on the upper side of the main body. A bubble generating device in which a collision portion is formed at a portion opposite to this, a water outlet portion is formed at an end of the lower portion, and an air vent portion is formed on an upper side spaced a predetermined distance from the water outlet portion, and the length of the upper portion is longer than the length of the lower portion. It is natural that various embodiments included in the technical idea fall within the scope of protection of the present invention.

100: Bubble generator
110: body
100a: upper part
100b: lower part
120: Pressurized water intake member
130: crash cap
140: Air vent member
150: Absence of water discharge

Claims (10)

A cylindrical upper part having a predetermined diameter perpendicular to the ground with a closed upper end, an empty interior, and an open lower end, coupled to the lower end of the upper part, an empty interior, a predetermined diameter, and a horizontal orientation with respect to the ground. a main body including a cylindrical lower part and formed integrally so that the upper and lower parts communicate with each other in an 'ㄴ'shape; a pressurized water inlet member installed on the outer surface of the main body to circulate with the inside of the upper part at a predetermined distance from the upper end of the main body and spraying fluid into the main body; It is installed to protrude from the outer surface of the main body at a position opposite to the pressurized water inlet member, but is installed to circulate with the upper interior and the pressurized water inlet member, and has a means for generating bubbles therein. The fluid sprayed from the pressurized water inlet member collides with various sizes. A collision cap that generates bubbles; a water outlet member installed at an end of the lower part of the main body at a position distant from the upper lower part of the main body to release air bubbles; An air vent member of a predetermined diameter is disposed on the upper side of the lower part spaced a predetermined distance away from the water discharge member, protrudes from the outer surface of the main body by a predetermined length, and is installed to circulate with the inner part of the lower part to discharge air separated from the air bubbles inside the lower part;
The main body is,
An air buffer unit formed in a closed internal space from the inside of the upper upper part to the location where the collision cap is installed to temporarily store air in the main body, and the size of air bubbles of various sizes generated in the collision cap below the air buffer unit. Large bubbles are separated by buoyancy and move in the direction of the air buffer unit, and small-sized bubbles are separated and sent downward, a first bubble separator of a predetermined length formed inside the upper portion, and the first bubble separator. A separator buffer unit formed inside the lower part of the main body from the position where the upper and lower parts of the main body meet at the lower side and where small-sized bubbles separated from the first bubble separator are located, and a main body connected to the separator buffer unit. It is at the bottom of the and includes a second bubble separation unit that separates large-sized bubbles mixed from small-sized bubbles in the separator bubble buffer unit and causes them to rise to the upper separation space;
A bubble generating device, wherein large-sized bubbles separated from the second bubble separator are converted to air and discharged to the outside through the air vent member on the upper side, and small-sized bubbles are discharged through the water outlet member. In claim 1,
A bubble generating device, characterized in that the upper part of the main body is longer than the lower part. In claim 1,
A bubble generating device, wherein the pressurized water inlet member has a pressurized hole formed in the central portion to increase the pressure of the incoming fluid. In claim 1,
The collision cap is a bubble generator, characterized in that the collision wall portion where the pressurized and injected fluid collides is formed. In claim 4,
A bubble generating device, characterized in that a protrusion is formed on the inner surface of the collision wall portion to finely crush the colliding fluid. delete delete In claim 1,
A bubble generator, characterized in that the main body has two or more lower parts coupled to the lower part of the upper part. In claim 1,
A bubble generating device, characterized in that the upper and lower parts of the main body have cross-sections of a cylindrical shape, an elliptical cylinder shape, a rectangular cylinder shape, and a polygonal shape of 4 or more angles. delete