KR200450938Y1 - A micro-bubble generator - Google Patents

Abstract

The present invention relates to a micro-bubble generating device, the main body housing 100 is formed with the inlet port 102 and the outlet port 104 in the front; A pump (110) provided to suck and discharge the water (W) of the tub in the body housing (100); A water supply pipe 120 formed between the suction port 102 of the main body housing 100 and the pump 110 to move the water (W) toward the pump 110; An air supply pipe 130 connected to one side of the water supply pipe 120 so that outside air is supplied to the water (W) flowing into the pump 110 through the suction port 102 to form an outdoor mixed water; A pressure tank 140 provided with one side of the pump 110 to temporarily store the outdoor mixed water supplied through the air supply pipe 130 to be temporarily stored in the pump 110; A drain pipe (150) formed at one side of the pressure tank (140) and communicating with an outlet (104) of the body housing (100); A suction pipe (160) connected to the suction port (102) of the main body housing (100); It is coupled to the end of the suction pipe 160 is located submerged in the water contained in the bath, and removes foreign substances contained in the water contained in the bath is filtered so that always clean water is supplied to the inlet 102 of the main body housing 100 A suction nozzle (200) provided with means (230); A discharge tube 170 connected to an outlet 104 of the main body housing 100; It is coupled to the end of the discharge tube 170 is located in the water immersed in the bath, the outdoor air mixed water supplied from the discharge tube 170 through the pressure tank 140 is ruptured with passing through a large amount of fine bubbles It relates to a micro-bubble generating device characterized in that the injection nozzle 400 is provided with a rupture filter (429a) in multiple layers.

Microbubbles, Bubbles, Microbubbles.

Description

Micro bubble generator {A micro-bubble generator}

The present invention relates to a micro-bubble generating device, and more particularly to a micro-bubble generating device to generate micro-bubble of the micro unit having a variety of functions such as cleaning effect, cosmetic effect in the bath water. will be.

Recently, bathing culture is an area that many people are interested in under the theme of well-being and health. Recently, among these bathing cultures, microbubbles (hereinafter referred to as “Miseonpo”) excellent in the action of washing, beauty, heat, massage, anion, etc. in hot water are generated, and the bathing culture using them is spreading.

Such micro-bubbles are included in the water of the bath with a diameter of 50 μm or less and are not visually discernible. Then, when a large amount of microbubbles are ejected in the water, the water of the bath looks cloudy and milky.

On the other hand, in brief, the characteristics and action of the microbubble, there is a cleaning action first. The microbubble cleansing action helps the micropore to be easily penetrated into the pores due to its smaller size than the pores, helping to clean up the wastes and debris in the pores. Decreases the old keratin of, the microbubbles are attached to the negatively charged (-) charged residues slowly rise to the surface of the water, easy to remove, and does not use soap or bath towel, so it does not irritate It is safe for people with weak skin.

On the other hand, the microbubble has excellent skin cosmetic action to remove old dead skin cells of skin and remove wastes that are clogging pores, so that moisture can penetrate more, and microbubbles of microbubble gently stimulate skin and make elasticity. It helps to nourish and shine your skin.

In addition, the microbubble is contracted by the surface tension and the pressure and temperature inside the bubble rises, and the heat is transferred deeply into the pores. have.

Furthermore, the microbubbles are reduced by the surface tension and the vibrations are generated due to the increasing pressure and the force to return the microbubbles to their original state, and the generation of the ultrasonic wave due to the rupture and the resulting micro-vibration gently massage the whole body. By releasing muscles and helping to improve blood circulation, the massage is excellent.

And the levard effect that occurs around the waterfall (the phenomenon that the air molecules generate negative anions with negative currents while the water molecules cause instantaneous crushing, and the water droplets themselves carry positive electricity; Lenard Anion is generated by the effect and when the water evaporates, the microbubble water generates much more anions than ordinary water. In addition to the various beneficial effects of such microbubbles, microbubbles help to break down body fat and provide psychological stability.

Accordingly, various micro bubble generators (hereinafter, referred to as micro bubble generators) for contacting the effects of micro bubbles are disclosed. However, such a conventional microbubble generating device has a weak nozzle configuration for generating micro bubbles, and thus the size of bubbles generated by the microbubbles does not maintain the size of micro bubbles. There was a problem that can not properly enjoy the effects, such as anion.

Therefore, by improving the nozzle structure of the conventional micro bubble generator such that the micro-bubble excellent in the action of cleaning, beauty, heat, massage, anion, etc. are generated, the nozzle structure of the nozzle structure to be exposed to the various effects of the micro bubble generation There is a need for improvement.

Therefore, the present invention has been devised to solve the problems described above, and by sucking and circulating the hot water stored in the bathtub to generate a large amount of micro-bubbles with the hot water in the bathtub, cleaning, beauty, heat, An object of the present invention is to provide a micro bubble generator having excellent effects such as massage and anion.

In addition, the present invention provides a microbubble generating device that can always be hygienic and clean, and maintenance costs can be improved by improving the structure to simplify replacement and maintenance of the filter provided in the nozzle of the microbubble generating device. There is another purpose.

The micro-bubble generating device according to the present invention for solving the object as described above and the main body housing 100 is formed with the inlet port 102 and the outlet port 104 in the front; A pump (110) provided to suck and discharge the water (W) of the tub in the body housing (100); A water supply pipe 120 formed between the suction port 102 of the main body housing 100 and the pump 110 to move the water (W) toward the pump 110; An air supply pipe 130 connected to one side of the water supply pipe 120 so that outside air is supplied to the water (W) flowing into the pump 110 through the suction port 102 to form an outdoor mixed water; A pressure tank 140 provided to one side of the pump 110 to temporarily store the outdoor mixed water supplied through the air supply pipe 130 to be temporarily stored in the pump 110; A drain pipe (150) formed at one side of the pressure tank (140) and communicating with an outlet (104) of the body housing (100); A suction pipe (160) connected to the suction port (102) of the main body housing (100); It is coupled to the end of the suction pipe 160 is located submerged in the water contained in the bath, and removes foreign substances contained in the water contained in the bath is filtered so that always clean water is supplied to the inlet 102 of the main body housing 100 A suction nozzle (200) provided with means (230); A discharge tube 170 connected to an outlet 104 of the main body housing 100; It is coupled to the end of the discharge tube 170 is located in the water immersed in the bath, the outdoor air mixed water supplied from the discharge tube 170 through the pressure tank 140 is ruptured with passing through a large amount of fine bubbles It is characterized in that the injection nozzle 400 is provided with a rupture filter 429a in a double layer.

Here, the suction nozzle 200 is immersed in a bath containing water is located, the male screw 212 is formed along the outer edge so that one side is coupled to the end of the suction pipe 160, the female screw 214 along the other inner edge Is formed suction nozzle body 210; It is formed in a cylindrical shape, the male screw 222 is formed along the outer edge to be screwed to the female screw 214 formed into the suction nozzle body 210 inside, the filtering means coupling member formed with a flow path 224 to the inner center ( 220); A filtering means 230 fitted to the distribution channel 224 formed on the front surface of the filtering means coupling member 220 to filter foreign substances upon suction of the water W in the tub and to be transferred to the pump 110; Characterized in that formed.

Further, the filtering means 230 has a cylindrical flow path tube 232 of which one side is fitted to the flow path 224 of the filtering means coupling member 220 and a plurality of through holes 232a are formed along the outer edge thereof; A strainer net 234 having a plurality of meshes formed to wrap around the outer circumference of the flow pipe 232; The fitting hole 236a to which the flow path tube 232 to which the strainer 234 is coupled is fitted is formed at the center, and a plurality of through holes 232a of the flow path tube 232 are filtered by foreign substances of water (W). A filtration filter 236 provided to introduce water; Located between the outer edge of the flow path tube 232 to which the strainer 234 is coupled and the inner edge of the fitting hole 236a of the filtration filter 236, when the water is sucked in, the filtration filter 236 is connected to the flow path tube. An interval coil spring 238 provided to prevent the adsorption into the through hole 232a of the front wall 232; A “ㅗ” shaped suction cover 239 fitted to the other side of the flow pipe 232 such that the filtration filter 236 and the gap coil spring 238 are prevented from being separated from the flow pipe 232; Characterized in that formed.

On the other hand, the injection nozzle 400 is immersed in the bath containing the water is located, the male screw 412 is formed around the outer edge so that one side is coupled to the end of the discharge pipe 170, the female screw 414 to the other inner edge The injection nozzle body 410 is formed; A microbubble generating filter member 420 screwed to an inner edge of the injection nozzle main body 410 and provided with a large amount of microbubbles by rupturing the outside mixed water injected through the discharge tube 170 inwardly; The injection cover 430 is screwed to the outer edge of the other end of the injection nozzle body 410, a plurality of discharge holes 432 are formed to supply the micro-bubbles generated from the micro-bubble generating filter member 420 to the water contained in the bathtub It is characterized in that it is formed.

Here, the microbubble generating filter member 420 is formed in a multi-stage, the male screw 422a is formed so that one side is screwed to the female screw 412 formed at the inner edge of the injection nozzle body 410 with an outer edge, one end of the outer edge A plurality of through holes 422b are formed in the filter housing, and the filter housing portion 422c is formed from one end to the other end side thereof, and the filter housing has a release hole 422d formed through the other end outer surface of the filter accommodation portion 422c. 422; It is coupled to the filter accommodating portion 422c, is formed in a multi-stage and is placed on one end is formed 424a, a plurality of micro-bubble discharge hole 424b is formed on the other end, the release through the filter housing 422 A filter release port 424 formed with a release protrusion 424c protruding from the other end surface to be coupled to 422d; On the settle surface 424a formed at one end of the filter release port 424 coupled to the filter accommodating portion 422c of the filter housing 422 so that the injection pressure of the outdoor mixed water sprayed through the discharge tube 170 is maintained. O-ring 426 is hermetically coupled; A filter fixing ring 428 positioned between the O-rings 426 in a plurality of layers and having a filter fitting groove 428a formed therein; The original plate is coupled to the filter fitting groove 428a formed inside the filter fixing ring 428 and ruptures the outdoor mixed water injected through the discharge pipe 170 so that a large amount of fine bubbles are formed in the center of the fine mesh. A plurality of rupture filters 429a having a shape; Coupled to the inside of the filter release port 424 directly below the O-ring 426 located on the settled surface 424a, and the first bursting of the outdoor air mixed water through the rupture filter 429a is ruptured secondary to a large amount of fine bubbles It characterized in that it is provided; spherical rupture filter (429b) provided to occur.

The present invention inhales and circulates the hot water stored in the bathtub to generate a large amount of micro bubbles with the hot water in the bathtub, thereby having excellent effects such as washing, beauty, heat, massage, and anion by the micro bubbles.

In addition, the present invention has the advantage that the hygienic clean, and maintenance costs can be always reduced by improving the structure to simplify the replacement, maintenance of the filter provided in the nozzle of the microbubble generating device.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the micro-bubble generating device according to the present invention.

1 is an overall perspective view of a microbubble generating device according to the present invention, Figure 2 is an exploded perspective view of the suction nozzle of the microbubble generating device according to the present invention, Figure 3 is a suction nozzle of the microbubble generating device according to the present invention 4 is an exploded perspective view of a jet nozzle of the microbubble generator according to the present invention, FIG. 5 is a cross-sectional view of the jet nozzle of the microbubble generator according to the present invention, and FIG. 6 is a microbubble generation according to the present invention. 7A and 7B are diagrams illustrating a dismantling process of the spray nozzle of the microbubble generating device according to the present invention.

As shown in Figure 1, the micro-bubble generating device according to the present invention is composed of a main body housing 100, the suction nozzle 200, the injection nozzle 400 and the like. Here, the main body housing 100 is provided with a suction port 102 and the discharge port 104 to the outside to induce fine bubbles by sucking and discharging water at a high pressure. The body 110 is provided with a pump 110, a water supply pipe 120, a supply pipe 130, a pressure tank 140, a drain pipe 150, and a suction port 102 to generate fine bubbles. The water (W) of the suction pipe 160 that is sucked and moved is coupled. In addition, the discharge port 104 is coupled to the discharge tube (170).

The pump 110 is provided on one side of the main body housing 100 to suck and discharge the water (W) of the tub. In addition, the water supply pipe 120 is formed in communication between the suction port 102 and the pump 110 of the main body housing 100 is a pipe in which water flowing through the suction port 102 is moved to the pump 110 side.

On the other hand, the air supply pipe 130 is the water supply pipe 120 so that the outside air is supplied to the water (W) flowing into the pump 110 through the suction port 102 of the body housing 100 described above to form an outside air mixed water On one side of the connection is provided. In addition, the pressure tank 140 is provided to one side of the pump 110 to be temporarily stored to be discharged by the pump 110, the outdoor mixed water supplied through the air supply pipe 130.

In addition, the drain pipe 150 is formed at one side of the pressure tank 140 described above, and is provided in communication with an outlet 104 formed outside the main body housing 100. That is, the outdoor air mixed water temporarily stored by the high pressure from the pump 110 is temporarily stored in the pressure tank 140, and is then provided to discharge the outdoor air mixed water through the outlet 104 while maintaining the pressure through the drain pipe 150. will be.

The suction pipe 160 is connected to one end of the suction port 102 of the body housing 100 described above, the suction nozzle 200 to be described later is provided to be connected to the other end, the water (W) of the tub will be described later The suction nozzle 200 is immersed to form a long to smoothly suck the water (W).

Further, the discharge pipe 170 is provided so that one end is connected to the discharge port 104 of the main body housing 100, the injection nozzle 400 to be described later is connected to the other end. Here, the outdoor air-mixed water discharged from the pressure tank 140 through the discharge tube 170 maintains the desired pressure of the fine bubble generation is discharged to the injection nozzle 400 which will be described later, the fine bubbles in the water (W) of the tub It is formed long in the longitudinal direction to be supplied.

The suction nozzle 200 is immersed in the water (W) of the tub is provided to discharge the water contained in the tub to the outlet 104 via the pressure tank 140 by a pump provided in the body housing (100). Here, the suction nozzle 200, as shown in Figure 2 and 3, the suction nozzle body 210, the filtering means coupling member 220, and the filtering means 230.

The suction nozzle body 210 is a male screw 212 is formed along the outer edge so that one side is coupled to the end of the suction pipe 160 described above. Then, the female thread 214 is formed so that the filtering means coupling member 220 which will be described later along the other inner edge is screwed.

The filtering means coupling member 220 is formed in a cylindrical shape, the male screw 222 is formed along the outer periphery so as to be screwed to the female screw 214 formed inside the suction nozzle body 210 described above. In addition, the flow path 224 is formed to move the water (W) sucked to the inner center.

The filtration means 230 is fitted to the flow path 224 formed on the front surface of the filtration means coupling member 220 is a pump provided in the main body housing 100 by filtering foreign substances when inhaling the water (W) of the tub It is provided to be discharged to the discharge port 104 via the pump 110 and the pressure tank 140 by (110). Here, the filtering means 230 includes a flow path tube 232, the strainer 234, the filtration filter 236, the gap coil spring 238, the suction cover 239 of the "ㅗ" shape.

The flow path tube 232 is formed to have a long cylindrical shape, a plurality of through-holes (232a) is formed so that the water (W) sucked in the outer edge passes through and moves. Here, one end of the flow path pipe 232 is fitted into the flow path 224 of the above-described filtration means coupling member 220, the other end is coupled to the suction cover 239 of the "ㅗ" shape to be described later.

The strainer 234 is provided to surround the outer periphery of the aforementioned cylindrical flow path tube 232. Here, the strainer 234 is preferably formed of stainless steel having a plurality of meshes.

The filtration filter 236 is provided to filter the foreign matter contained in the water (W), is provided in a cylindrical shape with a hollow fitting hole 236a through the upper and lower, the flow path pipe combined with the filter net 234 described above 232 is fitted to the fitting through the fitting hole (236a). Here, the filtration filter 236 is preferably formed of a synthetic resin material having a plurality of micropores. That is, the filtration filter 236 filters the foreign substances contained in the water when the water is first sucked into the suction nozzle 200 according to the operation of the pump 110 while the suction nozzle 200 is submerged in water. Water is provided to flow through the plurality of through holes (232a) of the flow pipe (232).

The gap coil spring 238 is located between the outer edge of the flow path tube 232 to which the strainer 234 is coupled and the inner edge of the fitting hole 236a of the filtration filter 236, and is provided inside the main body housing 100. When the water is sucked in accordance with the operation of the pump 110, the filtration filter 236 is adsorbed into the through hole 232a of the flow path tube 232 to prevent the pressure load from increasing as the suction pressure is increased.

The suction cover 239 of the "ㅗ" shape is fitted to the other end side of the flow path pipe 232 as described above so that the filtration filter 236 and the gap coil spring 238 are prevented from being separated from the flow path pipe 232. It is provided to be combined.

The injection nozzle 400 is coupled to the distal end of the discharge pipe 170, one end of which is connected to the outlet 104 of the main body housing 100 is immersed in the water contained in the bath, the water introduced through the pump 110 The outdoor air mixed water supplied from the discharge pipe 170 is ruptured while being mixed with the outside air and temporarily stored in the pressure tank 140, and the micro air bubbles are generated in a large amount. Here, the injection nozzle 400, as shown in Figure 4 and 5, the injection nozzle body 410, microbubble generating filter member 420, the injection cover 430.

The injection nozzle body 410 is formed with a male screw 412 around the outer periphery so that one side is coupled to the end of the discharge tube 170 formed long in the longitudinal direction. Then, the female screw 414 is formed so that the microbubble generating filter member 420, which will be described later, on the other side of the internal combustion screw.

The microbubble generating filter member 420 is screwed to the female screw 414 formed on the inner edge of the injection nozzle body 410 described above, and ruptures the outside air mixed water injected through the discharge pipe 170 to the inside of the large amount. Microbubbles are provided to generate. Here, the microbubble generating filter member 420 is a filter housing 422, filter release port 424, O-ring 426, filter fixing ring 428, rupture filter 429a, spherical rupture filter 429b, etc. It is composed.

The filter housing 422 is formed in a multi-stage, the diameter is formed to one side, the diameter is reduced to the other side, so that one side is screwed to the female screw 412 formed on the inner edge of the injection nozzle body 410 described above with one outer edge. Male thread 422a is formed. Then, a plurality of through holes 422b through which micro bubbles generated on one side of the outer edge are discharged are formed.

Further, the filter housing portion 422c is formed from one end of the filter housing 422 to the other end side. Then, a release through hole 422d penetrated to the other end outer front surface of the filter accommodating part 422c is formed.

The filter release port 424 has a large diameter is formed on one side, the diameter is reduced to the other side is provided in a multi-stage, one side is provided with a settled surface 424a so that the O-ring 426 to be described later is settled, the other side The fine bubble discharge hole 424b is formed on the outer edge. Then, a release protrusion 424c is formed to protrude to the front of the other end to be fitted into the release hole 422d of the filter housing 422. That is, the filter release port 424 is coupled to the other end of the inner side of the filter accommodating portion 422c formed inside the filter housing 422 described above, and the release protrusion 424c protruding from the front of the other end is coupled to the release hole 422d. It is provided.

The O-ring 426 is formed at one end of the filter release port 424 coupled to the filter accommodating portion 422c of the filter housing 422 so that the injection pressure of the outdoor mixed water sprayed through the discharge tube 170 is maintained. It is hermetically coupled to the tooth surface 424a. Here, the O-ring 426 is preferably laminated with the filter fixing ring 428 to be described later to maintain the airtightness.

The filter fixing ring 428 is positioned in a plurality of layers between the above-described O-ring 426, the filter fitting groove 428a is formed on the inner side so that the rupture filter 429a to be described later is fitted. Here, the filter fixing ring 428 is made of a soft synthetic resin material is in close contact with the inner edge of the filter accommodating portion 422c to be hermetically coupled to maintain the pressure of the outside air mixed water discharged through the discharge pipe 170.

The rupture filter 429a is fitted into the filter fitting groove 428a formed inside the filter fixing ring 428 described above and ruptures the outdoor air mixed water injected through the discharge pipe 170 to generate a large amount of fine bubbles. The fine mesh is formed in the shape of a disk formed in the center. Here, the rupture filter 429a is preferably formed of stainless steel.

The spherical rupture filter 429b is coupled into the filter release port 424. That is, the outside air-mixed water which is located directly under the O-ring 426 located on the settled surface 424a of the filter release port 424 and is firstly ruptured through the above-described rupture filter 429a is secondly ruptured so that a large amount of fine bubbles It is provided to generate.

On the other hand, the injection cover 430 is screwed to the outer edge of the other end of the above-described injection nozzle body 410, the outside air mixed water from the rupture filter 429a and the spherical rupture filter 429b of the microbubble generating filter member 420 A plurality of discharge holes 432 are formed on the front surface to supply the micro bubbles generated by the rupture due to contact by the high pressure to the water contained in the bathtub.

The function of the micro-bubble generating device according to the present invention configured as described above is as described below, the embodiment according to the use state will be described.

As shown in Figure 6, the pump 110 and the pressure tank 140 of the microbubble generating device according to the present invention in the longitudinal direction to the suction port 102 provided on the outside of the main body housing 100 provided therein One end of the elongated suction pipe 160 is coupled, and the other end is coupled to the suction nozzle 200 provided with the filtering means 230. Then, one end of the discharge tube 170 formed in the longitudinal direction is coupled to the discharge port 104 provided to the outside of the main body housing 100, and the injection nozzle 400 is coupled to the other end.

As such, in order for the user to bathe the body housing 100 in which the suction nozzle 200 and the injection nozzle 400 are coupled to the user by generating a micro bubble in the bathtub, the suction nozzle 200 coupled to the end of the suction pipe 160 is first. ) And the injection nozzle 400 coupled to the distal end of the discharge tube 170 is immersed in the water (W) accommodated in the bath.

Subsequently, when power (not shown) is applied to the main body housing 100, the pump 110 provided inside the main body housing 100 pumps the tub, and the tub through the suction nozzle 200 according to the pumping operation. Water (W) is inhaled.

Here, the water (W) of the bathtub is sucked while the foreign matter is filtered through the filtration filter 236 of the first filtering means (230). The suctioned water W passing through the filtration filter 236 is moved to the fitting hole 236a of the filtration filter 236. Thereafter, the water W passing through the filtration filter 236 by the suction force of the pump 110 passes through the filter net 234 coupled to the outer edge of the flow path tube 232 and is formed around the outer edge of the flow path tube 232. Go through 232a.

Thereafter, the water (W) to the male screw 212 of the suction nozzle body 210 through the flow passage 224 of the filtering means coupling member 220 provided to couple the suction nozzle body 210 and the filtering means 230. Suction is moved to the combined suction pipe (160). On the other hand, the interval coil spring 238 is preferably located to prevent the filtration filter 236 is adsorbed to the through-hole 232a of the flow path tube 232 by the suction force according to the pumping operation of the pump 110.

Next, the water (W) is sucked and moved to the suction port 102 of the main body housing 100 through the suction pipe 160 is moved to the pressure tank 140 by the pumping operation of the pump 110. At this time, the movement of the water (W) to the pressure tank 140 is moved through the water supply pipe 120 is provided so that the pump 110 and the pressure tank 140 is in communication, where, through the water supply pipe 120 ) Is moved, the water (W) and the outside air is mixed through the air supply pipe 130 provided on one side of the water supply pipe 130 is moved to the pressure tank 140. That is, the water W stored in the pressure tank 140 stores the outdoor air mixed water mixed with the outside air.

Next, the outdoor mixed water stored in the pressure tank 140 is connected to one side of the pressure tank 140 to the pumping operation of the pump 110 continuously to the drain pipe 150 connected to the outlet 104 of the main body housing 100. Move along.

Next, the outdoor air mixed water moved through the drain pipe 150 transfers the outdoor air mixed water while maintaining high pressure to the discharge pipe 170 having one end connected to the outlet 104. Thereafter, the external air mixed water moves to a state where the external air mixed water maintains a high pressure inwardly in which the male screw 412 of the injection nozzle body 410 of the injection nozzle 400 coupled to the discharge tube 170 is formed.

Next, the outside air mixed water is discharged through the fine bubble generating filter member 420 coupled to the female screw 414 formed on the other inner edge of the injection nozzle body 410 to generate fine bubbles. At this time, the generation of the micro bubbles are generated by the first air burst mixed with the fine mesh formed in the center of the rupture filter (429a) coupled to the filter housing 422 of the micro-bubble generation filter member 420, the micro-bubbles are generated.

Thereafter, after the primary microbubbles are generated by the burst filter 429a, the outdoor air-mixed water having the microbubbles is moved to the spherical burst filter 429b coupled to the inside of the filter release port 424, and with the secondary burst. A lot of microbubbles are generated.

Next, the outside air mixed water generates a large amount of fine bubbles through the burst filter 429a and the spherical burst filter 429b, and discharge them through the fine bubble discharge hole 424b of the filter release port 424, and the fine bubble discharge hole. The microbubbles discharged through the 424b are discharged toward the injection cover 430 screwed to the other end of the injection nozzle body 410 through the through holes 422b formed at the outer edge of the filter housing 422.

Thereafter, the outside air mixed water containing the microbubbles discharged to the injection cover 430 is supplied with a large amount of microbubbles into the water (W) of the bath through the discharge holes 432 formed in front of the injection cover 430. By bathing the user according to the micro-bubble, you can experience the action of washing, beauty, heat, massage, anion and the like of the microbubble.

Meanwhile, as illustrated in FIGS. 7A and 7B, in order for a user to clean the injection nozzle 400 of the microbubble generating device, the female screw 414 and the filter housing 422 formed on the other inner edge of the injection nozzle body 410 are first formed. Release the screwing of the male screw 422a formed at the outer edge of one side).

Next, the user simply pushes the release protrusion 424c of the filter release port 424, which is fitted into the release hole 422d of the filter housing 422, from the outside to the inside by hand.

Thereafter, the filter release port 424 is pushed by the user's external force into the filter accommodating part 422c of the filter housing 422. As described above, when the filter release port 424 is pushed outward from the filter accommodation part 422c, the O-ring 426 located at the settled surface 424a formed at one end of the filter release port 424 becomes the filter accommodation part ( The filter holding ring 428, which is sequentially moved to the outer ring 426, is moved outward from the filter housing 422 c to the O ring 426 and the filter fixing ring 428. ) Is easy to clean as it is disassembled.

In addition, the rupture filter 429a fitted to the filter fitting groove 428a of the filter fixing ring 428 released from the filter housing 422 may also be easily dismantled to facilitate washing. That is, when pushing the release protrusion 424c by the external force of the user, the filter release port 424 is sequentially in the order of the outermost O-ring-filter fixing ring-O-ring-filter fixing ring-O-ring-spherical rupture filter-filter release mechanism. It is released and can be cleaned. In addition, the suction nozzle 200 by the screw (not shown) of the suction nozzle body 210 and the filter means coupling member 220 is released (not shown), it is apparent that it can be easily washed.

On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, those skilled in the art that various modifications are possible without departing from the scope of the present invention, such modifications are claimed It is in the range of a range description.

1 is a perspective view of the microbubble generating device according to the present invention.

2 is an exploded perspective view of the suction nozzle of the micro-bubble generating device according to the present invention.

3 is a cross-sectional view of the suction nozzle of the micro-bubble generating device according to the present invention.

4 is an exploded perspective view of the jet nozzle of the micro-bubble generating device according to the present invention.

5 is a cross-sectional view of the jet nozzle of the micro-bubble generating device according to the present invention.

6 is a schematic diagram showing a state of use of the micro-bubble generating device according to the present invention.

7a and 7b is a view showing the dismantling process of the injection nozzle of the micro-bubble generating device according to the present invention.

* Description of the major symbols in the drawings *

100: main body housing 102: suction port

104: outlet 110: pump

120: water supply pipe 130: air supply pipe

140: pressure tank 150: drain pipe

160: suction pipe 170: discharge pipe

200: suction nozzle 210: suction nozzle body

212: external thread 214: internal thread

220: filtering means coupling member 222: male thread

224: distribution channels

230: filtering means 232: flow path tube

232a: through hole 234: strainer

236: filtration filter 236a: fitting hole

238: Coil spring 239: Suction cover of "ㅗ" shape

400: injection nozzle 410: injection nozzle body

412: Male thread 414: Female thread

420: micro bubble generation filter member 422: filter housing

422a: Male thread 422b: Through hole

422c: filter housing 422d: release hole

424: filter release 424a: if not

424b: fine bubble discharge hole 424c: release protrusion

426: O-ring 428: filter fixing ring

428a: filter fitting groove 429a: rupture filter

429b: spherical burst filter 430: spray cover

432: discharge hole W: water

Claims (5)

delete delete A main body housing 100 having a suction port 102 and a discharge port 104 formed thereon; A pump (110) provided to suck and discharge the water (W) of the tub in the body housing (100); A water supply pipe 120 formed between the suction port 102 of the main body housing 100 and the pump 110 to move the water (W) toward the pump 110; An air supply pipe 130 connected to one side of the water supply pipe 120 so that outside air is supplied to the water (W) flowing into the pump 110 through the suction port 102 to form an outdoor mixed water; A pressure tank 140 provided with one side of the pump 110 to temporarily store the outdoor mixed water supplied through the air supply pipe 130 to be temporarily stored in the pump 110; A drain pipe (150) formed at one side of the pressure tank (140) and communicating with an outlet (104) of the body housing (100); A suction pipe (160) connected to the suction port (102) of the main body housing (100); It is coupled to the end of the suction pipe 160 is located submerged in the water contained in the bath, and removes foreign substances contained in the water contained in the bath is filtered so that always clean water is supplied to the inlet 102 of the main body housing 100 A suction nozzle (200) provided with means (230); A discharge tube 170 connected to an outlet 104 of the main body housing 100; It is coupled to the end of the discharge tube 170 is located in the water immersed in the bath, the outdoor air mixed water supplied from the discharge tube 170 through the pressure tank 140 is ruptured with passing through a large amount of fine bubbles An injection nozzle 400 having a rupture filter 429a is formed as a double layer, and the suction nozzle 200 is located in a bath submerged in a bath in which water is accommodated, so that one side is coupled to the end of the suction pipe 160. A suction nozzle body 210 having a male screw 212 formed therein and a female screw 214 formed along the other inner edge thereof; It is formed in a cylindrical shape, the male screw 222 is formed along the outer edge to be screwed to the female screw 214 formed into the suction nozzle body 210 inside, the filtering means coupling member formed with a flow path 224 to the inner center ( 220); A filtering means 230 fitted to the distribution path 224 of the filtering means coupling member 220 to filter foreign substances upon suction of the water W in the tub and to be transferred to the pump 110; Is formed, the injection nozzle 400 is immersed in the bath containing the water is located, the male screw 412 is formed around the outer periphery so that one side is coupled to the end of the discharge pipe 170, the other side internal thread ( An injection nozzle body 410 having a 414 formed therein; A microbubble generating filter member 420 screwed to an inner edge of the injection nozzle main body 410 and provided with a large amount of microbubbles by rupturing the outside mixed water injected through the discharge tube 170 inwardly; The injection cover 430 is screwed to the other end of the injection nozzle body 410, a plurality of discharge holes 432 are formed so that the micro-bubbles generated from the micro-bubble generating filter member 420 is supplied to the water contained in the bath. Is formed, The filtration means 230 is a cylindrical flow path tube 232 of which one side is fitted to the flow path 224 of the filtration means coupling member 220, a plurality of through-holes (232a) is formed along the outer edge; A strainer net 234 having a plurality of meshes formed to wrap around the outer circumference of the flow pipe 232; The fitting hole 236a to which the flow path tube 232 to which the strainer 234 is coupled is fitted is formed at the center, and a plurality of through holes 232a of the flow path tube 232 are filtered by foreign substances of water (W). A filtration filter 236 provided to introduce water; Located between the outer edge of the flow path tube 232 to which the strainer 234 is coupled and the inner edge of the fitting hole 236a of the filtration filter 236, when the water is sucked in, the filtration filter 236 is connected to the flow path tube. An interval coil spring 238 provided to prevent the adsorption into the through hole 232a of the front wall 232; A “ㅗ” shaped suction cover 239 fitted to the other side of the flow pipe 232 such that the filtration filter 236 and the gap coil spring 238 are prevented from being separated from the flow pipe 232; Microbubble generating device, characterized in that formed. delete The method of claim 3, wherein The fine bubble generation filter member 420 is A male screw 422a is formed so that one side is screwed to the female screw 412 formed at the inner edge of the injection nozzle body 410 at an outer edge, and a plurality of through holes 422b are formed at one end of the other end of the outer edge. A filter housing 422 having a filter accommodation portion 422c formed at one end from the inside to the other end, and having a release hole 422d penetrating through the other end outer front surface of the filter accommodation portion 422c; It is coupled to the filter accommodating portion 422c, is formed in a multi-stage and is placed on one end is formed 424a, a plurality of micro-bubble discharge hole 424b is formed on the other end, the release through the filter housing 422 A filter release port 424 formed with a release protrusion 424c protruding from the other end surface to be coupled to 422d; On the settle surface 424a formed at one end of the filter release port 424 coupled to the filter accommodating portion 422c of the filter housing 422 so that the injection pressure of the outdoor mixed water sprayed through the discharge tube 170 is maintained. O-ring 426 is hermetically coupled; A filter fixing ring 428 positioned between the O-rings 426 in a plurality of layers and having a filter fitting groove 428a formed therein; The original plate is coupled to the filter fitting groove 428a formed inside the filter fixing ring 428 and ruptures the outdoor mixed water injected through the discharge pipe 170 so that a large amount of fine bubbles are formed in the center of the fine mesh. A plurality of rupture filters 429a having a shape; Coupled to the inside of the filter release port 424 directly below the O-ring 426 located on the settled surface 424a, and the first bursting of the outdoor air mixed water through the rupture filter 429a is ruptured secondary to a large amount of fine bubbles And a spherical burst filter (429b) provided so as to generate.

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