CN210410252U - Micro-nano bubble generating device - Google Patents

Abstract

The utility model discloses a micro-nano bubble generating device, including base, inlet tube, booster pump, overhead tank, outlet pipe and emulsification shower nozzle, advance water piping connection on the booster pump, the booster pump is installed on the base, and the exit of booster pump is equipped with the connecting pipe, be equipped with flow control supercharging device on the overhead tank, flow control supercharging device is connected with connecting pipe and pump respectively the bottom of overhead tank is equipped with the delivery port, delivery port and outlet pipe intercommunication, the other end of outlet pipe even have emulsification shower nozzle. The utility model discloses the micro-nano bubble generating device who obtains foams through the mode of feed liquor, mixture, atomizing, emulsification, has circulated water, the foaming is fast, bubble density is high, the advantage that the sustainable ability is strong, is applicable to multiple occasions such as cosmetic, skin makeup, sterilization.

Description

Micro-nano bubble generating device

Technical Field

The utility model relates to a bubble production facility, especially a micro-nano bubble generating device.

Background

The nano bubble water is a special water body rich in active oxygen which is several times of normal water, and each liter of nano bubble water contains 500 ten thousand of micro bubble water which is 5-20 times smaller than human body pores, so that the nano bubble water has high permeability, high adsorbability and high negative oxygen ions, can fully permeate the pores, removes various dirt and bacteria in the deep part of hair follicles, peels off aged cutin on skin, and effectively improves skin symptoms such as skin redness and swelling, acne, dermatophytosis and the like; meanwhile, the excellent cleaning effect of the cleaning agent is utilized, and the peculiar smell and the dirt in places such as a toilet, a urinal and the like can be thoroughly removed.

The existing nanometer bubble water generating device mostly has the problems of complex structure, substandard bubble size and poor continuous foaming capability.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a micro-nano bubble generating device that simple structure, foamability are strong in order to solve above-mentioned prior art not enough.

In order to realize the above-mentioned purpose, the utility model discloses a micro-nano bubble generating device, it includes base, inlet tube, booster pump, overhead tank, outlet pipe and emulsification shower nozzle, advance water piping connection on the booster pump, the booster pump is installed on the base, and the exit of booster pump is equipped with the connecting pipe, be equipped with flow control supercharging device on the overhead tank, flow control supercharging device is connected with connecting pipe and pump respectively the bottom of overhead tank is equipped with the delivery port, delivery port and outlet pipe intercommunication, the other end of outlet pipe even have the emulsification shower nozzle.

In order to further improve the foaming quality and the continuity, the junction of the booster pump and the water inlet pipe is also connected with an air inlet pipe, the air inlet pipe is provided with a one-way air inlet valve, and the junction of the air inlet pipe and the booster pump is provided with an air quantity regulating valve.

In order to avoid the fault caused by the impurities entering the foaming device and facilitate the recycling of the bubble water, the water inlet end of the water inlet pipe is connected with a water inlet joint, and the water inlet joint comprises a water inlet upper main body, a water inlet lower main body, a filter element body, a front filter screen and a decorative ring; the water inlet upper main body is connected with the water inlet lower main body, and the filter element body, the front filter screen and the decorative ring are arranged in the water inlet upper main body and the water inlet lower main body; a front filter screen and a decorative ring are sleeved on the outer side of the filter element body from inside to outside in sequence; the filter element body and the water inlet upper main body can be provided with a first O-shaped ring, a second O-shaped ring is arranged between the filter element body and the front filter screen, and a third O-shaped ring is arranged between the filter element body and the water inlet lower main body so as to prevent leakage.

In order to ensure the foaming quality of the micro-nano bubbles, an emulsifying piece group is arranged in the emulsifying nozzle and consists of sealing rings and emulsifying pieces with micropores which are alternately arranged, and the total flow cross section area of the micropores is reduced along the flow direction of the fluid.

In order to guarantee the pressure of gas, water mixture in the overhead tank, be equipped with the reducing through-hole in the flow control supercharging device, the reducing through-hole can be divided into the input that the internal diameter is great and be connected with the connecting pipe, the internal diameter is less and with the output of overhead tank intercommunication and with the inlet end of pump intercommunication, the output internal diameter is d, 2.2mm is less than or equal to d and is less than or equal to 2.5mm, the maximum pressure that the lateral booster pump of input provided is 10.0 MPa.

In order to reduce the noise during water inflow, a silencing net is arranged at the joint of the flow control supercharging device and the pressure tank.

In order to reduce noise and vibration generated in practical use, a shock absorber is arranged at the joint of the base and the booster pump.

The utility model discloses the micro-nano bubble generating device who obtains foams through feed liquor, mixing, atomizing, emulsified mode, under definite water pump pressure and shower nozzle cooperation, has circulated water, the foaming is fast, bubble density is high, the advantage that the continuation ability is strong, is applicable to multiple occasions such as cosmetic, skin beautification, sterilization.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment 1 of the micro-nano bubble generating device of the present invention;

FIG. 2 is a schematic structural diagram of an emulsifying nozzle in an embodiment 1 of the micro-nano bubble generating device;

FIG. 3 is an enlarged schematic view of the emulsification sheet package of FIG. 2;

fig. 4 is a schematic structural diagram of the micro-nano bubble generating device of the present invention in embodiment 2;

FIG. 5 is a schematic structural view of a variable diameter through hole in the flow control pressurizing apparatus in example 2;

fig. 6 is a schematic structural view of a water inlet joint in embodiment 3 of the micro-nano bubble generation device of the present invention;

FIG. 7 is an exploded view of the water inlet joint in example 3;

fig. 8 is a schematic structural diagram of the micro-nano bubble generating device of embodiment 4 of the present invention.

In the figure: the device comprises a pressure tank 1, a booster pump 2, a water outlet pipe 3, a water inlet pipe 4, a one-way air inlet valve 5, an air inlet pipe 6, a shock absorber 7, an air quantity adjusting valve 8, a base 9, a connecting pipe 10, a flow control supercharging device 11, a silencing net 12, a water inlet joint 13, an emulsifying nozzle 14, an emulsifying plate group 15, a water outlet 16, an inflator pump 17, a micropore 101, a reducing through hole 110, an input end 111, an output end 112, a water inlet end 113, a water inlet lower main body 130, a filter element body 131, a front filter screen 132, a decorative ring 133, a water inlet upper main body 134, a first O-shaped ring 135, a second O-shaped ring 136, a third O-shaped ring 137, an emulsifying plate 150, a first emulsifying plate 151, a second emulsifying.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

the micro-nano bubble generating device of this embodiment description, as shown in fig. 1, it includes base 9, inlet tube 4, booster pump 2, inflator pump 17, overhead tank 1, outlet pipe 3 and emulsification nozzle 14, inlet tube 4 connects on booster pump 2, booster pump 2 installs on base 9, and the exit of booster pump 2 is equipped with connecting pipe 10, be equipped with flow control supercharging device 11 on overhead tank 1, flow control supercharging device 11 is connected with connecting pipe 10 and inflator pump 17 respectively the bottom of overhead tank 1 is equipped with delivery port 16, delivery port 16 and outlet pipe 3 intercommunication, the other end of outlet pipe 3 even has emulsification nozzle 14.

In order to ensure the foaming quality of the micro-nano bubbles, as shown in fig. 2 and fig. 3, an emulsifying plate group 15 is arranged in the emulsifying nozzle 14, the emulsifying plate group 15 is formed by alternately arranging a sealing ring 154 and emulsifying plates 150 with micro-pores 101, and the total flow cross-sectional area of the micro-pores 101 is reduced along the flow direction of the fluid.

In this embodiment, as shown in fig. 3, the emulsification sheet set 15 includes 3 emulsification sheets 150 in total, which are a first emulsification sheet 151, a second emulsification sheet 152, and a third emulsification sheet 153, and 4 sealing rings 154 alternately disposed with the emulsification sheets.

In actual work, the inflator pump 17 needs to be started first, liquid in the pressure tank 1 is emptied to be filled with air, the booster pump 2 is started, water and air are pumped into the booster pump 2 through the water inlet pipe 4 respectively, the water and the air are primarily mixed in the booster pump 2 and enter the pressure tank 1 through the connecting pipe 10 and the flow control booster device 11; adjusting a booster pump 2 to ensure that air and water are fully mixed in the pressure tank 1 and then enter an emulsifying nozzle 14 through a water outlet pipe 3, and the emulsifying nozzle 14 further divides and foams bubbles in the gas-liquid mixture to ensure that the gas-liquid mixture becomes nano bubble water meeting the requirements and then is discharged; after foaming for a period of time, the booster pump 2 is turned off, the inflator pump 17 is used again to rapidly charge air to the pressure tank 1, then the booster pump 2 is started again, and the foaming process is repeated.

The micro-nano bubble generating device that this embodiment provided foams through the mode of feed liquor, mixing, atomizing, emulsification, and the advantage that the foaming speed is fast and fine and smooth, the persistence ability is strong is applicable to multiple occasions such as cosmetic, disinfection.

Example 2:

the micro-nano bubble generating device that this embodiment described, as shown in fig. 4, except embodiment 1 the characteristic, in order to further improve foaming quality and continuation, booster pump 2 still even has intake pipe 6 with the junction of inlet tube 4, be equipped with one-way admission valve 5 on the intake pipe 6, intake pipe 6 is equipped with air quantity regulating valve 8 with booster pump 2 junction.

In order to ensure the pressure of the gas-water mixture in the pressure tank 1, as shown in fig. 5, a reducing through hole 110 is arranged in the flow control pressurizing device 11, the reducing through hole 110 can be divided into an input end 111 with a larger inner diameter and connected with the connecting pipe 10, an output end 112 with a smaller inner diameter and communicated with the pressure tank 1, and an air inlet end 113 communicated with the inflator 17, wherein the inner diameter of the output end 112 is d, d =2.4mm, and the maximum pressure provided by the pressurizing pump 2 on the input end 111 side is 10.0 MPa.

The micro-nano bubble generating device that this embodiment provided, in the in-service use process, because the water intake speed of inlet tube 5 is very fast, make intraductal pressure be less than external air pressure, through adjusting tolerance governing valve 8 and booster pump 2, can adjust its pressure differential, make 1 inside gas of overhead tank, water mixture pressure stabilize under the effect of above-mentioned device at 0.60 MPa ~0.70MPa, make the foaming stable, and the active time is long, its flow can reach 0.7m and manship/h simultaneously, foaming speed is very fast, the quality is better.

Example 3:

as shown in fig. 6 and 7, in the micro-nano bubble generating device described in this embodiment, in addition to the features described in embodiment 2, in order to avoid the impurities from entering the foaming device to cause a failure, and facilitate recycling of bubble water, the water inlet end of the water inlet pipe 4 is connected to a water inlet connector 13, and the water inlet connector 13 includes a water inlet upper main body 134, a water inlet lower main body 130, a filter element body 131, a front filter screen 132, and a decoration ring 133; the water inlet upper main body 134 is in threaded connection with the water inlet lower main body 130, and the filter element body 131, the front filter screen 132 and the decorative ring 133 are arranged inside the water inlet upper main body 134 and the water inlet lower main body 130; as shown in fig. 6, a front filter screen 134 and a decorative ring 133 are sleeved on the outer side of the filter element body 131 from inside to outside in sequence; filter core body 131 and intake and set up first O type circle 135 between the main part 134, be equipped with second O type circle 136 between filter core body 131 and the leading filter screen 132, filter core body 131 and intake are equipped with third O type circle 137 down between the main part 130, avoid impurity entering device, make the device can utilize the circulating water to foam.

The nanometer bubble generating device that this embodiment provided, except the advantage of embodiment 1, can also the recycle water, realize lasting foaming's function, reduced the waste of water resource, improved the portability and the practicality of equipment.

Example 4:

in the micro-nano bubble generating device described in this embodiment, in addition to the features described in embodiment 3, in order to reduce noise and vibration generated in actual use, as shown in fig. 8, a shock absorber 7 is disposed at a connection position of the base 9 and the booster pump 2 to reduce vibration and noise.

In order to reduce the noise when water is fed, as shown in fig. 8, a silencing net 12 is arranged at the connection position of the flow control pressurizing device 11 and the pressure tank 1.

In practical use, the silencing net 12 can perform preliminary deceleration and atomization on the gas-water mixture flowing into the pressure tank 1, so as to reduce the noise and impact of water flow.

The nanometer bubble generating device that this embodiment provided is equipped with shock attenuation, noise elimination mechanism, has improved the life and the use of device and has experienced.

Claims (10)

1. The utility model provides a micro-nano bubble generating device, it includes base (9), inlet tube (4), booster pump (2), pump (17), overhead tank (1), outlet pipe (3) and emulsification nozzle (14), characterized by inlet tube (4) are connected on booster pump (2), install on base (9) booster pump (2), and the exit of booster pump (2) is equipped with connecting pipe (10), be equipped with flow control supercharging device (11) on overhead tank (1), flow control supercharging device (11) are connected with connecting pipe (10) and pump (17) respectively the bottom of overhead tank (1) is equipped with delivery port (16), delivery port (16) and outlet pipe (3) intercommunication, the other end of outlet pipe (3) even has emulsification nozzle (14).

2. The micro-nano bubble generating device according to claim 1, wherein an air inlet pipe (6) is further connected to the joint of the booster pump (2) and the water inlet pipe (4), a one-way air inlet valve (5) is arranged on the air inlet pipe (6), and an air quantity regulating valve (8) is arranged at the joint of the air inlet pipe (6) and the booster pump (2).

3. The micro-nano bubble generating device according to claim 1 or 2, wherein the water inlet end of the water inlet pipe (4) is connected with a water inlet joint (13), and the water inlet joint (13) comprises a water inlet upper main body (134), a water inlet lower main body (130), a filter element body (131), a front filter screen (132) and a decorative ring (133); the water inlet upper main body (134) is connected with the water inlet lower main body (130), and the filter element body (131), the front filter screen (132) and the decorative ring (133) are arranged inside the water inlet upper main body (134) and the water inlet lower main body (130); a front filter screen (132) and a decorative ring (133) are sleeved on the outer side of the filter element body (131) from inside to outside in sequence; a first O-shaped ring (135) is arranged between the filter element body (131) and the water inlet upper main body (134), a second O-shaped ring (136) is arranged between the filter element body (131) and the front filter screen (132), and a third O-shaped ring (137) is arranged between the filter element body (131) and the water inlet lower main body (130).

4. The micro-nano bubble generating device according to claim 1 or 2, wherein an emulsifying sheet set (15) is arranged in the emulsifying nozzle (14), the emulsifying sheet set (15) is composed of sealing rings (154) and emulsifying sheets (150) with micropores (101) which are alternately arranged, and the total flow cross-sectional area of the micropores (101) is reduced along the fluid flow direction.

5. The micro-nano bubble generating device according to claim 3, wherein an emulsifying sheet set (15) is arranged in the emulsifying nozzle (14), the emulsifying sheet set (15) is composed of a sealing ring (154) and an emulsifying sheet (150) with micropores (101) which are alternately arranged, and the total flow cross-sectional area of the micropores (101) is reduced along the fluid flow direction.

6. The micro-nano bubble generating device according to claim 1 or 2, wherein a reducing through hole (110) is arranged in the flow control pressurizing device (11), the reducing through hole (110) can be divided into an input end (111) connected with the connecting pipe (10), an output end (112) communicated with the pressure tank (1) and an air inlet end (113) communicated with the inflator pump (17), wherein the inner diameter of the input end (111) is larger than that of the output end (112), the inner diameter of the output end (112) is d, and d is larger than or equal to 2.2mm and smaller than or equal to 2.5 mm.

7. The micro-nano bubble generating device according to claim 5, wherein a reducing through hole (110) is arranged in the flow control pressurizing device (11), the reducing through hole (110) can be divided into an input end (111) connected with the connecting pipe (10), an output end (112) communicated with the pressure tank (1) and an air inlet end (113) communicated with the inflator pump (17), wherein the inner diameter of the input end (111) is larger than that of the output end (112), the inner diameter of the output end (112) is d, and d is larger than or equal to 2.2mm and smaller than or equal to 2.5 mm.

8. The micro-nano bubble generating device according to claim 1 or 2, wherein a silencing net (12) is arranged at the joint of the flow control pressurizing device (11) and the pressure tank (1).

9. The micro-nano bubble generating device according to claim 7, wherein a silencing net (12) is arranged at the joint of the flow control pressurizing device (11) and the pressure tank (1).

10. The micro-nano bubble generating device according to claim 1 or 2, wherein a shock absorber (7) is arranged at the joint of the base (9) and the booster pump (2).

Images