KR101000213B1 - Small bubble generating device - Google Patents

Abstract

The present invention relates to a microbubble generating device for a bathtub, by installing an electronic controller on one side of the suction hose on the water suction unit for sucking the water filled in the bathtub to detect the suction of the water sucked through the water suction unit for a predetermined time. If not, the purpose is to stop the operation of the circulation pump so that no idling occurs to prevent the overload of the pump. The present invention is configured for this purpose is a liquid suction unit consisting of a suction nozzle and a suction hose for sucking the water filled in the tub, a circulation pump for generating a power to suck the water filled in the bathtub through the liquid suction unit, the circulation pump, circulation pump A gas-liquid mixing tube for sucking and mixing air into the water sucked into the inside, a pressure tank for ejecting the gas-liquid transferred through the circulation pump by applying a constant pressure, and a gas-liquid moving tube in which the gas-liquid is moved by connecting the circulation pump and the pressure tank, In the microbubble generating device for a bath consisting of a microbubble generating unit which is configured on one side of the gas-liquid moving tube and connected to the pick-up bucket and the pressure tank to discharge the gas liquid to the bath to generate microbubbles, the liquid suction portion Installed on one side of the suction hose to detect the water sucked into the suction hose through the suction nozzle An electronic controller that turns off the driving of the purifying pump when the suction of the water is not performed for a predetermined time; And a check valve that is installed on the suction hose which is the rear end of the electronic controller, and prevents the backflow of the sucked water so that the water is always filled between the water passages even when the suction pressure stops due to the operation of the circulation pump. It consists of the included configuration.

Micro Bubble, Bubble Generator, Bath, Bathtub

Description

Small bubble generating device for bathtubs {Small bubble generating device}

The present invention relates to a microbubble generator for the micro-bubble of the water stored in the tub, more specifically, the suction of the external to the suctioned water in the process of forcibly sucking the water stored in the tub and circulating back to the tub The present invention relates to an ultra-fine foam generator for a bathtub, in which a large amount of micro bubbles are contained in the water ejected into the bathtub by allowing the air to be mixed to be ejected through the micro bubble generating nozzle.

In general, the microbubble generator for a bathtub is to inject the microbubble mixed water in which the microbubbles are mixed into the bath in the process of sucking water in the bath and circulating it back into the bath, so that the microbubbles are generated in the water of the bath. When the shower or bath through the bath water mixed with the microbubbles generated by the microbubble generator for the bath can obtain a massage effect can improve the effect of the bath.

On the other hand, generally used pumps are divided into self-priming pump and non-suction pump. At this time, the self-priming pump refers to a pump having a tank capable of storing and circulating water inside the pump. The self-priming pump has a large volume of the tank for storing water, so that the size of the pump is large. There is a problem that the user can not use the micro bubble generator in the residential bathroom.

In addition, in the case of the non-suction pump, the size is small and can be used in the home, but there is a problem in that the user needs to fill the water every time since the pump is not provided to store and circulate the water inside the pump. Of course, there is a problem that a large noise and vibration is generated by the pressure of the water and air discharged from the pump by the pressure operation of the pump. Therefore, in the case of a microbubble generator for a bath using such a non-suction pump, there is a problem in that a large noise and vibration are to be taken.

In order to solve the problems caused by the microbubble generating device for a bath using a non-suction pump as described above, a microbubble generating device for a bath is constructed and used, which is configured as a bucket for storing water in a non-suction pump. The microbubble generating process through the microbubble generating device for a bath according to the prior art, first, the water in the tub is sucked through the suction nozzle and the suction hose by the operation of the circulation pump is sucked into the gas-liquid mixing pipe, the gas-liquid mixing pipe The water sucked into is mixed with the air sucked through the air suction pipe and then transferred to the pressure tank through the gas-liquid moving pipe through the circulation pump. Subsequently, the gas liquid transferred to the pressure tank is bubbled through the microbubble generation nozzle at a constant pressure to generate bubbles in the bath.

However, the conventional microbubble generator for a bath as described above has a disadvantage that there may be a problem due to the overload of the pump because there is no means for stopping the operation of the circulation pump when the suction nozzle is separated from the bath. In addition, since the water is not filled between the suction nozzle and the gas-liquid mixing pipe during the initial suction of the water, there is a problem that large noise and vibration are generated while the suctioned water reaches the pumping tank through the circulation pump, as well as overloading the pump. There is a problem that occurs.

The present invention has been made to solve the problems of the prior art as described above, by installing an electronic controller on one side of the suction hose on the water suction portion for sucking the water filled in the tub to detect whether the water sucked through the water suction portion The purpose of the present invention is to provide a microbubble generator for a bath to prevent the pump overload by stopping the operation of the circulation pump when the suction of the water is not made for a certain period of time.

In addition, another object of the technology according to the present invention is to install a check valve at the rear end of the electronic controller installed on one side of the suction hose on the water suction part is closed when the suction pressure is stopped in accordance with the operation of the circulation pump is already suction on the water suction part The water is maintained between the bucket and the check valve so that the water is always filled, so that the empty space of the water suction part is minimized when the circulation pump is restarted to reduce noise or vibration.

The present invention configured to achieve the above object is as follows. That is, the microbubble generating device for a bathtub according to the present invention generates a power to suck the water filled in the bathtub through the liquid suction part, the liquid suction part consisting of a suction nozzle and suction hose for sucking the water filled in the bathtub, the electrical application. Circulating pump, a gas-liquid mixing tube for sucking and mixing air into the water sucked into the circulating pump, and a pressure tank for discharging the gas-liquid transferred through the circulating pump by applying a constant pressure, and connecting the circulating pump and the pressure tank to A gas bubble moving device which is configured to be moved to a gas-liquid moving tube and a gas-liquid moving tube that is connected to a water tank and a pressure tank to store water, and discharges gas to the bathtub, and generates a micro bubble in the bathtub. A suction suction hose is installed on one side of the suction hose of the liquid suction unit. An electronic controller that is off (off) the driving of the pump does not purify the water a certain amount of time the suction performed by detecting the water; And a check valve that is installed on the suction hose which is the rear end of the electronic controller, and prevents the backflow of the sucked water so that the water is always filled between the water passages even when the suction pressure stops due to the operation of the circulation pump. It consists of the included configuration.

On the other hand, in the technology according to the present invention configured as described above is filled in the nano-silver coated silver nano-ceramic ball inside the suction nozzle on the water suction portion is configured so that the water sucked through the suction nozzle can be sterilized by the silver nano-ceramic ball Can be done.

According to the technique according to the present invention by installing an electronic controller on one side of the suction hose on the water suction unit for sucking the water filled in the tub to detect the suction of the water sucked through the water suction unit circulating pump when the suction of the water is not made for a certain time By stopping the operation of the pump to prevent the idling occurs the effect that can prevent the overload of the pump.

In addition, according to the technology according to the present invention by installing a check valve at the rear end of the electronic controller installed on one side of the suction hose on the water suction unit is closed when the suction pressure is stopped by the operation of the circulation pump is closed water already sucked on the water suction unit By maintaining this, water is constantly filled between the bucket and the check valve, so that the empty space of the water suction part is reduced as much as possible when the circulating pump is restarted to reduce noise or vibration.

In addition, according to the technology according to the present invention by filling the nano-silver coated silver nano-ceramic ball inside the suction nozzle on the water suction portion, the water sucked through the suction nozzle is sterilized by the silver nano-ceramic ball to generate finer fine bubbles I can do it.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the microbubble generating device for a bath according to the present invention.

1 is a block diagram showing a microbubble generator for a bath according to the present invention, Figure 2 is a perspective view showing a configuration of a silver nano-ceramic ball filled in the suction nozzle in the configuration of the microbubble generator for a bath according to the present invention.

As shown in FIGS. 1 and 2, the microbubble generator 100 for a bath according to the present invention also has a liquid suction unit 110 in which water is filled in the bath B, and the bath B is electrically applied. Circulating pump 120 for generating power to suck the water filled through the liquid suction unit 110, the gas-liquid mixing pipe 130 for sucking and mixing air in the water sucked into the circulation pump 120, the circulation pump Pressure tank 140, the circulation pump 120 and the pressure tank 140 to connect the pressure gas 140 to be ejected by applying a predetermined pressure to the gas-liquid transferred through the (120), the gas-liquid moving tube 150, the gas-liquid moving tube ( It is composed of the configuration of the microbubble generating unit 170 is connected to the water tank 160 and the pressure tank 140, which is stored on one side of the 150, and generates microbubbles while discharging the gas liquid into the bath in general Micro bubble generator for bathtub A kind of cold.

However, the microbubble generating device 100 for a bath according to the present invention is the liquid suction unit 110, the circulation pump 120, the gas-liquid mixing tube 130, the pressure tank 140, the gas-liquid moving tube 150 as described above In addition to the configuration of the pick-up tank 160 and the microbubble generating unit 170 is installed on one side of the suction hose 114 of the liquid suction unit 110 is sucked into the suction hose 114 through the suction nozzle 112 If the suction of water is not made for a predetermined time by detecting the water to be installed on the electronic controller 180 and the suction hose 114 which is the rear end of the electronic controller 180 to turn off the operation of the purifying pump It is made of a configuration that includes a check valve 190 to prevent the back flow of water to maintain the state of constant water filled with the sump bucket 160 even when the suction pressure is stopped in accordance with the operation of the circulation pump 120 .

On the other hand, in the configuration of the microbubble generating device 100 for a bath according to the present invention configured as described above, the liquid suction unit 110 is a suction nozzle 112 and a suction hose 114 for sucking the water filled in the bathtub (B) ), The gas-liquid mixing tube 130 is composed of an air suction tube 132 is a suction of air, the micro-bubble generating unit 170 discharges the gas-liquid discharge hose 172 and the gas-liquid fine bubbles It consists of a configuration of generating micro-bubble nozzle 174.

In the configuration of the microbubble generating device 100 for a bath according to the present invention configured as described above, the electronic controller 180 is a liquid intake unit 110 in the process of generating bubbles in accordance with the operation of the circulation pump 120 When (B) is separated from the idle when the idle time is made by stopping the operation of the circulation pump 120 to prevent the overload of the circulation pump 120. That is, the electronic controller 180 stops the operation of the circulation pump 120 when the suction nozzle 112 of the liquid suction unit 110 is separated from the bathtub B and no further water is sucked from the bathtub B. Let's do it.

Therefore, in the configuration of the present invention as described above, the electronic controller 180 is configured with a detection sensor (not shown) which is sucked through the suction nozzle 112 to detect the water or pressure flowing through the suction hose 114. Of course it is. As such, the electronic controller 180 determines that the suction of the water is not made if the water or the pressure is not detected for a predetermined time through the detection of the flowing water or the pressure inside the suction hose 114 through the detection sensor. This prevents idling by stopping the operation.

On the other hand, the water or pressure is not sensed by the electronic controller 180, the time to stop the operation of the circulation pump 120 will be preferably set to a time of 5 to 30 seconds. This is because, even though water or pressure flowing through the suction hose 114 is not sensed by the electronic controller 180, when the idling of the circulation pump 120 is continuously performed, the circulation pump 120 is overloaded. .

In addition, in the configuration of the microbubble generator 100 for a bath according to the present invention, the check valve 190 is to prevent a back flow of the suction water, such a check valve 190 is the rear end of the electronic controller 180 It is installed on the suction hose 114 to prevent the back flow of the suction water. That is, the check valve 190 is opened by the suction pressure of the water in the direction in which the water of the bathtub (B) is sucked in, so that the suction of the water can be made, while the suction pressure is stopped according to the operation stop of the circulation pump (120). Even in the case where the water tank 160 and the check valve 190 is constantly filled with water is maintained.

Therefore, as described above, the check valve 190 is installed on the suction hose 114, which is the rear end of the electronic controller 180, even when the suction pressure is stopped in accordance with the stop of the operation of the circulation pump 120. By maintaining the state of the water is always filled between the check valve 190 and the constant water in the predetermined period of the inside of the microbubble generator 100 for the bathtub to minimize the rate of idling when the circulation pump 120 is restarted. Be sure to

In other words, the check valve 190 is installed on the suction hose 114, which is the rear end of the electronic controller 180, even when the suction pressure is stopped in accordance with the stop of the operation of the circulation pump 120, the check bucket 160 and the check valve By maintaining the state of water is always filled between the 190 so that when the water filled in the bath (B) through the suction nozzle 112 during the re-operation of the circulation pump 120, the normal operation to generate bubbles to be made quickly do. Accordingly, idling of the circulation pump 120 is minimized so that there is no fear of being exposed to the overload of the circulation pump 120.

Referring to the process of generating micro-bubbles through the microbubble generator 100 for a bath according to the present invention configured as described above, first, the water in the tub by the operation of the circulation pump 120 is suction nozzle 112 and the suction hose It is sucked through the 114 and is sucked into the gas-liquid mixing tube 130. As such, the water sucked into the gas-liquid mixing tube 130 is mixed with the air sucked through the air suction pipe 132 and then transferred to the pressure tank 140 through the gas-liquid moving tube 150 through the circulation pump 120. Lose. Subsequently, the gas liquid transferred to the pressure tank 140 is ejected into the bathtub while bubbles are generated through the microbubble generation nozzle 174 at a constant pressure inside the tank.

Meanwhile, as described above, the pressure inside the pressure tank 140 is maintained at a pressure of 10 ± 1 kg / cm ^{2 in} the process of generating microbubbles through the microbubble generator 100 for a bath according to the present invention. At this time, the pressure of the gas liquid ejected through the microbubble generating nozzle 174 of the microbubble generating unit 170 through the inside of the pressure tank 140 is ejected at a pressure of 4 ± 1 kg / cm ² . Therefore, it can be seen that the pressure tank 140 is for maintaining the pressure of the gas liquid to the microbubble generation nozzle 174 at a pressure of 4 ± 1 kg / cm ² .

In the configuration of the microbubble generating device 100 for a bath according to the present invention configured as described above, the water sucked through the suction nozzle 112 of the liquid suction unit 110 can be sterilized in the suction nozzle 112. The silver nano-ceramic ball 200 coated with silver on the nanoparticles is filled in the suction nozzle 112 on the liquid suction unit 110. By filling the silver nano-ceramic ball 200 in the suction nozzle 112, the water sucked through the suction nozzle 112 is sterilized by the silver nano-ceramic ball 200, thereby producing a finer bubble bath water of higher quality. You can get it.

Although not shown in the drawings of FIGS. 1 and 2 according to the present invention, the configuration of the microbubble generating nozzles 174 for generating microbubbles uses the microbubble generating nozzles 174 according to the related art. Looking at the example of the conventional conventional microbubble generating nozzle 174, the water mixed with air discharged to the tub through the microbubble generating nozzle 174 is a microbubble having a relatively smaller diameter than the gas-liquid discharge hose 172 One or more mesh nets (not shown) and water extraction holes (not shown) are formed through a pressure plate (not shown) formed with a strainer (not shown) and a pressure hole (not shown) of the generating nozzle 174. During the discharge process, a large amount of micro bubbles are generated.

As described above, in the process of discharging water mixed with air through the microbubble generation nozzle 174, the microbubbles are generated by the sieve and the pressure hole of the microbubble generation nozzle 174 from the gas-liquid discharge hose 172. Since the flow rate increases rapidly in the process of being discharged to one or more mesh meshes and water outlets through the formed pressure plate, bubbles generated in the circulation pump 120 pass through the strainer, the pressure hole and the mesh network, and become smaller microbubbles. to be.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, the technology according to the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the technical spirit of the present invention. It is apparent to those skilled in the art that the present invention is possible.

1 is a block diagram showing a microbubble generator for a bath according to the present invention.

Figure 2 is a perspective view showing the configuration of the nano-nano ceramic ball is filled in the suction nozzle in the configuration of the micro-bubble generator for the bath according to the present invention.

[Description of Symbols for Main Parts of Drawing]

100. Micro bubble generator 110. Liquid suction part

112. Suction nozzle 114. Suction hose

120. Circulation pump 130. Gas-liquid mixing pipe

132. Air suction line 140. Pressure tank

150. Gas-liquid transfer pipe 160. Pickup bucket

170. Microbubble generating unit 172. Gas-liquid discharge hose

174. Microbubble generating nozzle 180. Electronic controller

190. Check Valve 200. Silver Nano Ceramic Ball

Claims (2)

A liquid suction unit comprising a suction nozzle and a suction hose for sucking the water filled in the bathtub; A circulation pump configured to generate power for sucking water filled in the bathtub through the electrical suction through the liquid inlet; A gas-liquid mixing tube for sucking and mixing air into the water sucked into the circulation pump; A pressure tank for ejecting by applying a constant pressure to the gas liquid transferred through the circulation pump; A gas-liquid moving tube which connects the circulation pump and the pressure tank to move the gas-liquid; In the microbubble generating device for a bath consisting of a microbubble generating unit is configured on one side of the gas-liquid moving tube is connected to the water tank and the pressure tank is connected to the pressure tank to generate a microbubble while discharging the gas to the bath, An electronic controller installed at one side of the suction hose of the liquid suction part to sense the water sucked into the suction hose through the suction nozzle to turn off the driving of the circulation pump when the suction of the water is not performed for a predetermined time; It is installed on the suction hose, which is the rear end of the electronic controller, and prevents the backflow of the suctioned water so that the water is always filled between the receiving tanks even when the suction pressure is stopped by the operation of the circulation pump. With the valve, Silver nano-ceramic ball coated with nano-phase silver accommodated inside the suction nozzle on the liquid suction part so that water sucked through the suction nozzle can be sterilized. Bathtub microbubble generating device comprising a. delete

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