CN209922991U - Ozone nanometer bubbling machine - Google Patents

Abstract

The utility model discloses an ozone nanometer bubble machine, which comprises a floating seat and a shell; the floating seat is arranged below the shell and is hemispherical, the bottom of the inner side of the floating seat is provided with a balance weight, and foam is arranged above the balance weight; the water inlet pipe and the water outlet pipe with the filtering ports are connected to the left lower part inside the shell of the booster pump, and the water outlet pipe of the booster pump is communicated with the water inlet pipe of the gas-liquid vortex device; the gas-liquid vortex device is arranged below the middle part of the shell and is provided with a check valve; the ozone generating device is arranged at the upper position of the seat in the shell and is provided with an electromagnetic valve; the stirring device is arranged on the right side inside the shell, the stirring device penetrates through the stirring tank through an output shaft of the variable frequency motor and is connected with the stirring shaft, the top of the stirring tank is provided with a flow sensor, and a discharge port is welded below the stirring tank; the utility model discloses dismantle simply, application scope is wide, during operation on the surface of water, keeps its stability, does not receive river velocity of water or wind speed influence, and the gas-liquid mixture degree is high, and the bubble is even, and ozone concentration is high.

Description

Ozone nanometer bubbling machine

Technical Field

The utility model relates to a apparatus for producing field of ozone bubble especially relates to an ozone nanometer bubbling machine.

Background

At present, the ozone disinfection technology has been widely used in the fields of water treatment, air purification, food processing, medical treatment, medicine, aquaculture and the like, the specific use mode is mostly to dissolve ozone in water to form bubbles, when ozone receives shearing action in gas, bubbles with different shapes and sizes can be formed, when the bubble diameter is between 1um-1nm, the bubble is called as a nano bubble, because the nano bubble has a large specific surface area, the nano bubble can stay in water for a long time, and the self-supercharging performance is added, the mass transfer efficiency of a gas-liquid interface can be continuously enhanced, and the nano bubble has electrification performance, and can be better used for treating river pollution.

In the prior art, the technical scheme of adopting ozone for disinfection comprises the following steps:

chinese patent application 201620017507.2 discloses an ozone sterilization jar, ozone sterilization jar includes ozone water pitcher, ozone sterilization jar and ozone concentration detection appearance, the ozone water pitcher includes deionized water input tube, ozone water output tube and ozone generator, deionized water input tube one end with the ozone water pitcher is connected, ozone input tube intercommunication ozone generator reaches the ozone water pitcher, ozone water output tube intercommunication the ozone water pitcher reaches the ozone sterilization jar, the ozone sterilization jar includes the culture medium input tube, culture medium input tube one end with the ozone sterilization jar is connected, ozone concentration detection appearance is located the ozone water pitcher reaches the ozone sterilization jar. The ozone sterilization tank of the technical scheme adopts ozone to sterilize and disinfect the culture medium, has good sterilization effect, simple structure, convenient use and time and labor saving, and is integrated.

Chinese patent application 95227794.8 discloses an ozone water purification sterilizer, which produces ozone by corona discharge in the gap between the outer ozone tube and the inner ozone tube, uses tap water pressure, produces jet flow in the injection cavity through the jet hole, and injects to form negative pressure, so that the air containing ozone is sucked and mixed with water, so that ozone is dissolved in water, ozone water with strong oxidation sterilization is generated, the inner ozone tube is cooled by water, and the outer ozone tube wall is cooled, thereby the ozone sterilizer can continuously work for a long time.

However, the ozone sterilization device in the prior art has uneven gas-liquid stirring and mixing, a single use environment, cannot meet the requirement that the device is used in a complicated environment, the generated ozone bubbles have large particles and small contact surface area with a water body, and the residence time of the large bubbles in the water is too short due to rapid rise, so that the ozone dissolution rate is low, and the ideal ozone dissolving effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims at providing an ozone nanometer bubbling machine solves among the prior art gas-liquid mixture inequality, and service environment is single, and the ozone dissolves the technical problem such as the low time of rate, can be applicable to the environment of surface of water operation to can not receive the influence of river velocity of water and wind direction, improve its service environment's unicity, increase its stability in use, and increase dissolved oxygen rate, gas-liquid mixture is more even, and is safe high-efficient.

The utility model provides a following technical scheme:

the utility model provides an ozone nanometer bubbling machine, is including floating seat and shell, it is in to float the seat and is the hemisphere setting shell below position is connected through the threaded rod that runs through on the connection piece of the outside left and right sides bottom of shell through the welding, floats the seat upper plane end design have four and threaded rod assorted screw, floats the inside below of seat and is provided with the counter weight, and the light section bar is filled to the counter weight top, the inside left side below fixed mounting of shell has the booster pump, and the booster pump rigid coupling has the inlet tube, and the inlet tube runs through the end that absorbs water of shell and installs the filter, the top position of booster pump is installed ozone generating device.

Preferably, ozone generating device sets up and sits top position and install the solenoid valve inside the shell, agitating unit sets up the right side inside the shell, and agitating unit runs through the agitator tank by inverter motor output shaft and connects the (mixing) shaft, and flow sensor is installed at the agitator tank top, and the below welds the discharge gate.

Preferably, a gas-liquid vortex device is fixedly mounted on the right side of the booster pump, and the output ends of the booster pump and the ozone generating device are connected with the input end of the gas-liquid vortex device through a pipeline.

Preferably, the ozone generating device output is built-in to have the solenoid valve, the gas-liquid vortex device output is built-in to have the check valve with flow sensor, the inside right side fixed mounting of shell has agitator tank, the input at agitator tank top passes through the output fixed connection of pipeline with gas-liquid vortex device, and the input pipeline of agitator tank runs through irritates body top and welding together.

Preferably, the input pipeline penetrates into the interior of the stirring shaft through the rotating block and is movably connected with the stirring shaft, the stirring shaft is cylindrical, the interior of the stirring shaft is hollow, and hollow penetrating cylindrical stirring teeth are welded on the outer side of the stirring shaft.

Preferably, the stirring tooth is four directions from the top evenly distributed in the outside of (mixing) shaft, inside the penetrating intercommunication agitator tank of stirring tooth cavity and the stirring tooth, agitator tank bottom fixed mounting have inverter motor, the inverter motor output shaft runs through agitator tank rigid coupling (mixing) shaft.

Preferably, the position welding of agitator tank right side below has the discharging pipe, the discharging pipe runs through the shell extends to the shell outside, and the welding of discharging pipe tip has the nanometer shower nozzle.

Preferably, a pressure sensor is installed in the discharge pipe, and the electric leakage protector is fixedly installed on the left side of the top end in the shell.

Preferably, the floating seat is made of hard rubber, a lead block counterweight is fixedly arranged at the bottom end inside the floating seat, and a foam material light section bar filled with foam material is designed above the lead block.

Preferably, the shell is the cuboid structure, and the outside left side position of shell is inlayed and is had cooling fan, cooling fan top shell wall has been seted up the bar heat dissipation window and has been disposed dustproof filter screen, the articulated quick-witted door in the positive upper end of shell, it has the DSP controller that has LCD to inlay on the machine door.

Preferably, the DSP controller is electrically connected with the booster pump, the gas-liquid vortex device, the ozone generating device, the variable frequency motor, the cooling fan, the electromagnetic valve, the check valve, the flow sensor, the pressure sensor, the regulating valve and the leakage protector through leads respectively.

Preferably, a gas-liquid mixing tower is installed inside the gas-liquid swirling device, and a turbine driven by a motor is installed inside the gas-liquid mixing tower.

Preferably, the inner surface of the discharge pipe is provided with a blade for spiral feeding, a pressure sensor is arranged at the terminal of the spiral blade, a baffle is arranged inside the nanometer spray head, a through hole is formed in the middle of the baffle, the regulating valve is installed at the through hole, and an output through hole is formed in the outer surface of the nanometer spray head.

Preferably, the water inlet pipe of the booster pump and the discharge hole of the stirring tank can be externally connected with an extension pipeline.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model discloses a float seat can solve the operational environment unicity of ozone nanometer bubbling machine, and the equipment is simple, can realize freely dismantling, is applicable to amphibian, and when using on the surface of water, the lead counter weight of design can reduce the influence of river velocity of flow and wind speed, keeps its stability.

(2) The utility model discloses use the booster pump can effective control get into the water pressure among the hydraulic pressure vortex device, cooperate the more effectual gas-liquid intensive mixing that makes of hydraulic pressure vortex device.

(3) The utility model discloses a solenoid valve, check valve, pressure sensor, flow sensor's use, integrated control increases the security performance of this equipment, effectively prolongs the life of equipment.

(4) The utility model discloses a cavity integration design of (mixing) shaft and stirring tooth makes the gas-liquid mixture let in the (mixing) shaft and is stirred by the stirring tooth dispersion, drives the stirring tooth by inverter motor simultaneously, makes the gas-liquid mixture more even, increases the dissolution rate of ozone, effectively reduces the emergence volume of bubble.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a longitudinal sectional view of the present invention.

Fig. 3 is a sectional view of the nano-showerhead of the present invention.

Fig. 4 is a schematic view of the stirring shaft of the present invention.

Fig. 5 is a schematic view of the floating seat of the present invention.

In the figure: 1. a housing; 2. a floating seat; 201. a screw hole; 3. lead blocks; 4. foaming; 5. a fixing plate; 6. a threaded rod; 7. a water inlet pipe; 8. a filter; 9. a booster pump; 10. a gas-liquid vortex device; 11. an ozone generating device; 12. a heat dissipation window; 13. a stirring tank; 14. a stirring shaft; 15. stirring teeth; 16. rotating the block; 17. a variable frequency motor; 18. a discharge pipe; 181. a helical blade; 19. a nano-sized nozzle; 191. a baffle plate; 192. adjusting a valve; 193. a pressure sensor; 20. a check valve; 21. a flow sensor; 22. an electromagnetic valve; 23. a leakage protector; 24. a heat radiation fan; 25. a machine door; 26. and a DSP controller.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, an ozone nano bubble machine includes a floating seat 2 and a housing 1, and is characterized in that: float seat 2 and be the hemisphere setting and be in 1 below position of shell, through welding 6 connections of threaded rod that run through on the connecting piece of 1 outside left and right sides bottom of shell, float 2 upper plane end designs of seat have four and 6 assorted screws 201 of threaded rod, float 2 inside below of seat and be provided with the counter weight, and light section bar is filled to the counter weight top, 1 inside left side below fixed mounting of shell has booster pump 9 booster pump model to be 40SG5-8, and the booster pump 9 rigid coupling has inlet tube 7, and inlet tube 7 runs through the end that absorbs water of shell 1 and installs filter 8, the top fixed position of booster pump 9 installs ozone generating device 11, booster pump 9 right side fixed mounting has gas-liquid vortex device 10, and booster pump 9 and ozone generating device 11's output all passes through the input fixed connection of pipeline and gas-liquid vortex device 10.

The electromagnetic valve 22 is arranged in the output end of the ozone generating device 11, the check valve 20 and the flow sensor 21 of the gas-liquid vortex device 10 are arranged in the output end of the gas-liquid vortex device 10, the model of the flow sensor is DCT1188i-BR ultrasonic flowmeter, the stirring tank 13 is fixedly arranged on the right side in the shell 1, the input end at the top of the stirring tank 13 is fixedly connected with the output end of the gas-liquid vortex device 10 through a pipeline, the input pipeline of the stirring tank 13 penetrates through the top of the tank body and is welded together, the input pipeline penetrates into the stirring shaft 14 through the rotating block 16 and is movably connected with the stirring shaft 14, the stirring shaft 14 is cylindrical and hollow in the stirring shaft 14, hollow and cylindrical stirring teeth 15 are welded on the outer side of the stirring shaft 14, the stirring teeth 15 are uniformly distributed outside the stirring shaft 14 from top to bottom in four directions, and the stirring, the bottom of the stirring tank 13 is fixedly provided with a variable frequency motor 17, the variable frequency motor is IMB3H63-180, and an output shaft of the variable frequency motor 17 penetrates through the stirring tank 13 and is fixedly connected with a stirring shaft 14.

The discharge pipe 18 is welded at the lower right position of the stirring tank 13, the discharge pipe 18 penetrates through the shell 1 and extends to the outside of the shell 1, the nano-spray head 19 is welded at the end part of the discharge pipe 18, the pressure sensor 193 is installed inside the discharge pipe 18, the pressure sensor is PT500-702 high-pressure sensor, the leakage protector 23 is fixedly installed on the left side of the top end inside the shell 1, the leakage protector is DZL18-20, and electrical equipment is powered by 220V alternating current.

The floating seat 2 is made of hard rubber, a lead block 3 balance weight is fixedly arranged at the bottom end inside the floating seat, and a foam 4 light section bar filled with foam is designed above the lead block 3.

Shell 1 is the cuboid structure, and 1 outside left side position of shell is inlayed and is had cooling fan 24, bar cooling window 12 has been seted up and has been configured dustproof filter screen to cooling fan 24 top shell 1 wall, the articulated quick-witted door 25 in positive upper end of shell 1, it is TMS320LC240x LF240x to inlay the DSP controller model that has LCD 26 on the quick-witted door 25.

The DSP controller 26 is electrically connected with the booster pump 9, the gas-liquid vortex device 10, the ozone generating device 11, the variable frequency motor 17, the heat radiation fan 24, the electromagnetic valve 22, the check valve 20, the flow sensor 21, the pressure sensor 193, the regulating valve 192 and the leakage protector 23 through leads respectively.

The gas-liquid vortex device 10 is internally provided with a gas-liquid mixing tower, and the gas-liquid mixing tower is internally provided with a turbine driven by a motor.

The inner surface of the discharge pipe 18 is provided with a blade for spiral feeding, the terminal of the spiral blade 181 is provided with a pressure sensor 193, the inside of the nanometer spray head 19 is provided with a baffle 191, the middle position of the baffle 191 is provided with a through hole, the regulating valve 192 is installed at the through hole, and the outer surface of the nanometer spray head 19 is provided with an output through hole.

The water inlet pipe 7 of the booster pump 9 and the discharge hole of the stirring tank 13 can be externally connected with an extension pipeline.

The working principle is as follows: when the device is used on water surface, a floating seat 2 is installed and put into the sewage to be treated, a water inlet pipe 7 is inserted into the sewage, a power supply is introduced, a booster pump 9 and an ozone generator are controlled by a DSP controller 26, the sewage and ozone which pass through a filter 8 are respectively input into a hydraulic vortex device, then a mixed solution is filled into a stirring tank 13 by a gas-liquid vortex device 10, then the solution is filled into a stirring shaft 14 and is dispersedly injected into the stirring tank 13 by a hollow stirring tooth 15, simultaneously a variable frequency motor 17 drives the stirring shaft 14 to operate, the gas and the liquid are fully mixed and then are output into the sewage again by a nanometer spray nozzle 19, the aim of purifying the sewage is achieved, in the use of the device, the DSP controller 26 controls the generation rate of the ozone by an electromagnetic valve 22, and controls the flow rate by controlling a pressure sensor 193 and a regulating valve 192 in the nanometer spray nozzle 19, the safety, stability and high efficiency of the equipment are achieved while the bubble amount is ensured.

The device obtained by the design can basically meet the requirement of an ozone nano bubble machine, has wide application range, keeps the stability when working on water, is not influenced by river water flow velocity or wind speed, has high gas-liquid mixing degree, uniform bubbles, high ozone concentration, safety and high efficiency, but is further improved by designers according to the aim of further improving the functions of the device.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an ozone nanometer bubbling machine, includes and floats seat (2) and shell (1), its characterized in that: float seat (2) and be the hemisphere setting and be in shell (1) below position is connected through welding threaded rod (6) that runs through on fixed plate (5) of shell (1) outside left and right sides bottom, floats seat (2) inside below and is provided with the counter weight, and light section bar is filled to the counter weight top, shell (1) inside left side below is provided with booster pump (9), and booster pump (9) are connected with inlet tube (7), and inlet tube (7) run through the end that absorbs water of shell (1) and be provided with filter (8), the top position of booster pump (9) is provided with ozone generating device (11) and gas-liquid vortex device (10).

2. The ozone nano-bubble machine according to claim 1, characterized in that the ozone generating device (11) is arranged in an upper position inside the housing and is provided with an electromagnetic valve (22); agitating unit sets up on the inside right side in the shell, and agitating unit runs through agitator tank (13) by inverter motor (17) output shaft and connects (mixing) shaft (14), and flow sensor (21) are installed at agitator tank (13) top, below welding discharge gate.

3. The ozone nano-bubble machine according to claim 1, wherein the floating seat (2) is made of hard rubber, a lead block (3) counterweight is arranged at the bottom end inside the floating seat, and a light section bar filled with foam (4) is designed above the lead block (3).

4. The ozone nanometer bubble machine of claim 1, wherein the housing (1) is a cuboid structure, the heat dissipation fan (24) is embedded at the left side position outside the housing (1), a strip-shaped heat dissipation window (12) is formed in the wall of the housing (1) above the heat dissipation fan (24) and is provided with a dustproof filter screen, the front upper end of the housing (1) is hinged with a machine door (25), and a DSP controller (26) with a liquid crystal display is embedded on the machine door (25).

5. The ozone nano bubble machine according to claim 1, wherein the DSP controller (26) is electrically connected with the booster pump (9), the gas-liquid vortex device (10), the ozone generating device (11), the variable frequency motor (17), the heat dissipation fan (24), the electromagnetic valve (22), the check valve (20), the flow sensor (21), the pressure sensor (193), the regulating valve (192) and the leakage protector (23) through leads respectively.

6. The ozone nano bubble machine according to claim 5, wherein a gas-liquid mixing tower is installed inside the gas-liquid swirling device (10), and a turbine driven by a motor is installed inside the gas-liquid mixing tower.

7. The ozone nano-bubble machine according to claim 1, wherein the inner surface of the discharging pipe (18) is provided with a spiral feeding blade, and the terminal end of the spiral blade (181) is provided with a pressure sensor (193).

8. The ozone nano bubble machine according to claim 1, wherein the water inlet pipe (7) of the booster pump (9) and the discharge port of the agitator tank (13) are externally connected with an extension pipeline.

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