CN109985541B

CN109985541B - Instant mixing device of ozone water

Info

Publication number: CN109985541B
Application number: CN201910426673.6A
Authority: CN
Inventors: 张志勇; 李愉; 王莉; 孟常伟; 张爱霞
Original assignee: Shenzhen Shanyuan Medical Technology Co ltd
Current assignee: Shenzhen Shanyuan Medical Technology Co ltd
Priority date: 2019-05-22
Filing date: 2019-05-22
Publication date: 2024-05-28
Anticipated expiration: 2039-05-22
Also published as: CN109985541A

Abstract

The invention discloses an instant mixing device for ozone water, which comprises a shell, an ozone generator, a gas-liquid mixing mechanism and an arc-shaped disc, wherein the shell is provided with a gas inlet and a gas outlet; the shell is of a cuboid box-shaped structure, at least one high-pressure air pump is arranged in the shell, one end of the first high-pressure air pump is connected with an air inlet, the other end of the first high-pressure air pump is connected with an ozone generator through a high-pressure air pipe, a second high-pressure air pump is arranged between the ozone generator and the arc-shaped disc, and a one-way valve is arranged at the lower end of the high-pressure air pump; the arc-shaped disc is connected with the gas-liquid mixing mechanism through a hollow pipe; the gas-liquid mixing mechanism is cylindrical, the top is provided with a water inlet, and the bottom is provided with a discharge hole; a rectangular water pipe is arranged in the gas-liquid mixing mechanism, and a plurality of atomizing nozzles are arranged on the water pipe; the hollow pipe is connected with a plurality of aeration rings, and a plurality of aeration holes are formed in the aeration rings; the invention has the advantages of smart structure, convenient control, instant control of the mixing of ozone and water and great improvement of the rate of ozone dissolved in water.

Description

Instant mixing device of ozone water

Technical Field

The invention relates to the field of ozone water mixing equipment, in particular to an instant mixing device for ozone water.

Background

The ozone water has extremely strong oxidizing property, is a broad-spectrum disinfection bactericide, can kill bacteria and viruses on the surfaces of objects and remove residual pesticides on fruits and vegetables, has high killing rate and high speed on microorganisms such as bacteria and viruses in the water, thoroughly removes pollutants such as organic compounds and has no secondary pollution; in reality, a plurality of examples exist, whether an ozone water faucet is used for washing dishes or an ozone water spraying bath device is adopted, although the sterilization of ozone water is simply realized, pesticide residues are removed, and the health of a human body is ensured to a certain extent; however, in the existing ozone-water instant mixing sterilization equipment, most of the existing ozone-water instant mixing sterilization equipment has insufficient mixing of water and ozone, has poor sterilization and disinfection effects, and is likely to have water flowing backward into an ozone generator.

In the prior art, the technical scheme of adopting the instant mixing of ozone water comprises the following steps:

Chinese patent application 201820157842.1 discloses an ozone water mixing device. The ozone water mixing equipment comprises a jet mixer and a spiral pipe mixer which are connected, the jet mixer comprises a jet device, an ozone air inlet, a water inlet and an ozone water outlet, wherein the ozone air inlet is arranged on the jet device and used for being connected with an ozone generator, the water inlet is used for being connected with a water supply pipeline, the ozone water outlet is connected with the water supply pipeline, the spiral pipe mixer comprises a coiled pipe type mixing pipe, one end of the coiled pipe type mixing pipe is communicated with the ozone water outlet, the other end of the coiled pipe type mixing pipe is communicated with the ozone water outlet, and ozone water mixed by the jet mixer enters the coiled pipe type mixing pipe to be further mixed.

Chinese patent application 201721645480.2 discloses an ozone water mixing and preparing device comprising a deaeration replacement ozone water dissolver, a pressurized ozone generating device and a closed stirring tank; the deaeration replacement ozone water dissolver is provided with a water inlet connected with a water source, a water outlet and a pressurizing ozone generating device of the deaeration replacement ozone water dissolver are respectively communicated with the inside of a closed stirring tank through a water pipe and an air pipe, the closed stirring tank is also provided with an ozone water outlet, and the water pipe, the air pipe and the ozone water outlet are respectively provided with a first water outlet valve, an air inlet valve and a second water outlet valve; therefore, the mixing speed of ozone and water can be greatly improved through the device, high-concentration ozone water is prepared, the ozone solubility in water can meet the requirement of complete sterilization, the application range is wide, the device is particularly suitable for household product sterilization, medical sterilization and the like, and the device is simple in structure and easy to produce and process.

However, in the prior art, a jet mixer and a spiral pipe mixer are used, so that the design is complex, the use cost is high, the mixing efficiency of ozone and water is low, and the operation is inconvenient; meanwhile, the water and ozone are not fully mixed, the sterilization effect is poor, and water flows back into the ozone generator to damage equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an instant mixing device for ozone water, which realizes high-efficiency mixing of ozone and water by arranging a high-pressure air pump, an ozone generator and a gas-liquid mixing mechanism, achieves good sterilization and disinfection effects, and simultaneously is provided with an arc-shaped disc and a one-way valve to prevent water from flowing backwards into the ozone generator, so that the safety of equipment is ensured.

The invention provides the following technical scheme:

An instant mixing device for ozone water comprises a shell, an ozone generator, a gas-liquid mixing mechanism and an arc-shaped disc; the shell is of a cuboid box-shaped structure, a first high-pressure air pump is arranged in the shell, one end of the first high-pressure air pump is connected with an air inlet, the other end of the first high-pressure air pump is connected with an ozone generator through a high-pressure air pipe, a second high-pressure air pump is arranged between the ozone generator and the arc-shaped disc, and a one-way valve is arranged at the lower end of the second high-pressure air pump; the arc-shaped disc is connected with the gas-liquid mixing mechanism through a hollow pipe; the gas-liquid mixing mechanism is cylindrical, the top is provided with a water inlet, and the bottom is provided with a discharge hole; a rectangular water pipe is arranged in the gas-liquid mixing mechanism, and a plurality of atomizing nozzles are arranged on the water pipe; the hollow tube is connected with a plurality of aeration rings, and a plurality of aeration holes are formed in the aeration rings.

Preferably, the discharging hole is provided with a bubbler, the number of the bubbler is denoted by A, and the sterilization and disinfection effects of the ozone water are directly affected by the number of the bubbler; the foaming quantity is influenced by the concentration C of the ozone water and the water flow speed V, wherein the concentration C of the ozone water is equal to the dissolution rate S of the ozone water in unit time t multiplied by the water flow speed V;

preferably, the foaming quantity A, the ozone water concentration C, the water flow speed V and the dissolution rate S of the ozone water satisfy the following relation:

preferably, the foaming amount is required to be increased, and only the dissolution rate S of ozone water is required to be increased or the water flow speed V is required to be reduced.

Preferably, two high-pressure air pumps are optimally arranged, the model of each high-pressure air pump is 2BH1100-7AH06, and at least one section of each high-pressure air pipe is vertical to the ground.

Preferably, the one-way valve is arranged at a high-pressure air pipe vertical to the ground, so that water can be secondarily prevented from flowing backwards into the ozone generator.

Preferably, the aeration ring is connected to the cylindrical inner side wall of the gas-liquid mixing mechanism at the position close to the bottom through a T-shaped fixing frame.

Preferably, the two T-shaped fixing frames are optimal.

Preferably, the bottom end inside the shell is provided with a diversion trench, and the liquid mixture leaked from the liquid leakage port flows out of the shell through the diversion trench.

Preferably, the aeration ring is arranged on the inner side of the rectangular water pipe and is in five hollow annular bodies distributed from top to bottom, and the aeration ring is connected through the hollow pipe; at least one row of aeration holes are uniformly formed in the aeration ring.

Preferably, the water pipe and the fixing frame are made of stainless steel.

Preferably, the rectangular water pipe is connected with the water inlet and is arranged at a position close to the inner side wall of the cylindrical gas-liquid mixing mechanism, and the position close to the bottom below the water pipe is connected with the inner side wall of the gas-liquid mixing mechanism through the fixing frame; two rows of atomizing nozzles are symmetrically arranged on the water pipe, and each atomizing nozzle is communicated with the water pipe.

Preferably, the arc-shaped disc consists of two semi-arc-shaped high-pressure air pipes; the arc-shaped disc comprises an upper half disc and a lower half disc, the upper half disc is communicated with the air inlet pipe and the air outlet pipe, and the lower half disc is only communicated with the air outlet pipe; at least one liquid leakage port is formed in the arc-shaped bottom of the lower half disc, and a liquid seal pipe is arranged in the lower half disc.

Preferably, the liquid seal pipe is of a hollow structure and is in a transverse S shape, two ends of the pipe diameter are different in size, one large end of the liquid seal pipe is connected with the air outlet pipe, and the other small end of the liquid seal pipe is communicated with the liquid leakage port.

Preferably, the separator is connected with above the discharge port, the separator is circular, and fine micropores in a grid shape are formed in the separator, so that bubbles are effectively divided, the volume of the bubbles is reduced, the viscosity of the bubbles is increased, and the effects of sterilization, decontamination and disinfection are greatly improved.

Preferably, a bubbler is arranged below the discharge port, and the bubbler is connected with the discharge port through threads.

Preferably, the device is powered by a 22V alternating current power supply.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the instant ozone water mixing device, the multi-layer aeration ring is arranged, the aeration holes are formed in the aeration ring for aeration, and meanwhile, the rectangular water pipe is provided with the plurality of atomizing nozzles, so that ozone and water can be fully mixed, the dissolution rate of the ozone in the water is greatly increased, efficient mixing is achieved, and the sterilization and disinfection effects are enhanced.

(2) The invention relates to an instant mixing device for ozone water, which adopts two high-pressure air pumps, wherein one of the two high-pressure air pumps ensures the air suction amount and is used for an ozone generator to generate enough ozone, and the other one of the two high-pressure air pumps ensures that the ozone is pressed into a gas-liquid mixing mechanism, so that the ozone generation rate is improved.

(3) According to the instant mixing device for ozone water, the arc-shaped plate is arranged, the arc-shaped bottom of the lower half plate is provided with the at least one liquid leakage port, and the liquid sealing pipe is arranged in the lower half plate, so that on one hand, the liquid sealing pipe prevents ozone from leaking, and on the other hand, water is prevented from flowing backwards into the ozone generator, and the safety of equipment is effectively ensured.

(4) According to the instant ozone water mixing device, the grid-shaped tiny micropores are formed in the arranged spacer, so that the bubbles are effectively divided, the volume of the bubbles is reduced, the number of generated bubbles is increased by the aid of the arranged bubbler, the viscosity of the bubble is improved, and the effects of sterilization, decontamination and disinfection are greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

Fig. 2 is a plan view of the gas-liquid mixing mechanism of the present invention.

FIG. 3 is a schematic view of the structure of an aeration ring according to the present invention.

Fig. 4 is a schematic longitudinal section of an arcuate disk of the present invention.

Fig. 5 is a schematic plan view of a spacer of the present invention.

In the figure: 1. a housing; 2. an ozone generator; 3. a gas-liquid mixing mechanism; 4. a first high-pressure air pump; 5. an air inlet; 6. a second high-pressure air pump; 7. a one-way valve; 8. an arc-shaped disc; 801. an air inlet pipe; 802. an air outlet pipe; 803. a working disc; 804. a shift plate; 805. a liquid leakage port; 806 liquid seal tube; 9. a water inlet; 10. a water pipe; 11. an atomizing nozzle; 12. a hollow tube; 13. an aeration ring; 14. aeration holes; 15. a fixing frame; 16. a spacer; 17. a discharge port; 18. a bubbler.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, of the embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Referring to fig. 1-5, an instant mixing device for ozone water comprises a shell 1, an ozone generator 2, a gas-liquid mixing mechanism 3 and an arc-shaped disc 8; the shell 1 is of a cuboid box-shaped structure, a first high-pressure air pump 4 is arranged in the shell 1, one end of the first high-pressure air pump 4 is connected with an air inlet 5, the other end of the first high-pressure air pump is connected with an ozone generator 2 through a high-pressure air pipe, a second high-pressure air pump 6 is arranged between the ozone generator 2 and the arc-shaped disc 8, and a check valve 7 is arranged at the lower end of the second high-pressure air pump 6; the arc-shaped disc 8 is connected with the gas-liquid mixing mechanism 3 through a hollow tube 12; the gas-liquid mixing mechanism 3 is cylindrical, the top is provided with a water inlet 9, and the bottom is provided with a discharge hole 17; a rectangular water pipe 10 is arranged in the gas-liquid mixing mechanism 3, and a plurality of atomizing nozzles 11 are arranged on the water pipe 10; the hollow pipe 12 is connected with a plurality of aeration rings 13, and a plurality of aeration holes 14 are formed in the aeration rings 13.

In the technical scheme, two high-pressure air pumps are optimally arranged, the model of each high-pressure air pump is 2BH1100-7AH06, and at least one section of each high-pressure air pipe is vertical to the ground; the one-way valve 7 is arranged at a high-pressure air pipe vertical to the ground, so that water can be secondarily ensured not to flow backwards into the ozone generator 2; the aeration ring 13 is connected to the cylindrical inner side wall of the gas-liquid mixing mechanism 3 near the bottom through a T-shaped fixing frame 15; the two T-shaped fixing frames 15 are optimal.

The aeration ring 13 is arranged on the inner side of the rectangular water pipe 10 and is in five hollow annular bodies distributed from top to bottom, and the aeration ring 13 is connected through the hollow pipe 12; at least one row of aeration holes 14 are uniformly formed in the aeration ring 13; the water pipe 10 and the fixing frame 15 are made of stainless steel; the rectangular water pipe 10 is connected with the water inlet 9 and is arranged at a position close to the inner side wall of the cylindrical gas-liquid mixing mechanism 3, and a position close to the bottom below the water pipe 10 is connected with the inner side wall of the gas-liquid mixing mechanism 3 through the fixing frame 15; two rows of atomizing nozzles 11 are symmetrically arranged on the water pipe 10, and each atomizing nozzle 11 is communicated with the water pipe 10.

The arc-shaped disc 8 consists of two semi-arc-shaped high-pressure air pipes; the arc-shaped disc 8 comprises an upper half disc 803 and a lower half disc 804, the upper half disc 803 is communicated with the air inlet tube 801 and the air outlet tube 802, and the lower half disc 804 is only communicated with the air outlet tube 802; at least one liquid leakage port 805 is formed in the arc-shaped bottom of the lower half disc 804, and a liquid seal tube 806 is arranged in the lower half disc 804; the liquid seal tube 806 is a hollow structure with a transverse S-shaped structure, the two ends of the tube diameter are different in size, one large end of the liquid seal tube is connected with the air outlet tube 802, and the other small end of the liquid seal tube is communicated with the liquid leakage port 805.

The upper part of the discharge hole 17 is connected with a spacer 16, the spacer 16 is round, and the spacer 16 is provided with grid-shaped tiny micropores, so that bubbles are effectively divided, the volume of the bubbles is reduced, the viscosity characteristic of the bubbles is increased, and the effects of sterilization, decontamination and disinfection are greatly improved; a bubbler 18 is arranged below the discharge hole 17, and the bubbler 18 is connected with the discharge hole 17 through threads.

The discharging port is provided with a bubbler 18, the number of bubbles of the bubbler 18 is denoted by A, and the number of bubbles of the bubbler 18 directly influences the sterilization effect of the ozone water; the foaming quantity is influenced by the concentration C of the ozone water and the water flow speed V, wherein the concentration C of the ozone water is equal to the dissolution rate S of the ozone water in unit time t multiplied by the water flow speed V;

The foaming quantity A, the ozone water concentration C, the water flow speed V and the dissolution rate S of the ozone water satisfy the following relation:

From this, it is understood that the amount of foaming needs to be increased by increasing the dissolution rate S of ozone water or by decreasing the water flow rate V.

Working principle: when the device specifically works, 220V alternating current is connected, a water inlet pipe 10 is connected, and a first high-pressure air pump 4 and an ozone generator 2 are opened to generate ozone; at the moment, the second high-pressure air pump 6 is opened, the one-way valve 7 is opened, and ozone enters the gas-liquid mixing mechanism 3 through the high-pressure air pipe and the arc-shaped disc 8; at least one liquid leakage port 805 is formed in the arc bottom of the lower half disc 804 of the arc disc 8, and a liquid seal tube 806 is arranged in the lower half disc 804, so that on one hand, the liquid seal tube 806 prevents ozone leakage, and on the other hand, water is prevented from flowing backwards into the ozone generator 2, and the safety of equipment is effectively ensured; then ozone enters an aeration ring 13 from a hollow pipe 12, the aeration ring 13 is provided with aeration holes 14 for aeration, and meanwhile, the rectangular water pipe 10 is provided with a plurality of atomizing nozzles 11, so that the ozone and water can be fully mixed, the dissolution rate of the ozone in the water is greatly increased, the efficient mixing is achieved, and the sterilization and disinfection effects are enhanced; the liquid mixed by the gas-liquid mixing mechanism 3 downwards passes through the bubbler 18 arranged on the discharge port 17, so that the generation amount of ozone bubbles is increased, the volume of the bubbles is reduced, the characteristics of the bubbles are enhanced, and the ozone sterilization effect is enhanced.

In a specific operation, the one-way valve 7 is opened, the ozone generator 2 is opened to operate, ozone is manufactured, then water flow is opened, and the ozone and the water are mixed; when the device is stopped, the water flow is firstly closed, then the ozone generator 2 is closed, and finally the one-way valve 7 is closed, and the power supply is closed; the bottom end inside the shell 1 is provided with a diversion trench, and the liquid mixture leaked from the liquid leakage port 805 flows out of the shell 1 through the diversion trench to prevent water accumulation inside the shell; the instant mixing device of the ozone water achieves the purpose of mixing the ozone water immediately after use, has simple operation flow, flexible structure and convenient control, and greatly improves the rate of dissolving ozone in water.

The device that obtains through above-mentioned technical scheme is the instant mixing arrangement that provides an ozone water, has realized the high-efficient mixing of ozone and water through setting up high-pressure air pump, ozone generator 2, gas-liquid mixing mechanism 3, reaches good disinfection effect of disinfecting, is provided with arc dish 8 and check valve 7 simultaneously and prevents that water from flowing backward into ozone generator 2, has guaranteed equipment safety, and this device can effectively improve ozone water dissolution rate simultaneously to improve the foaming volume of foamer 18, reach better disinfection decontamination effect.

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

Claims

1. An instant mixing device for ozone water comprises a shell (1), an ozone generator (2), a gas-liquid mixing mechanism (3) and an arc-shaped disc (8); the novel high-pressure air pump is characterized in that the shell (1) is of a box-shaped structure with a cuboid, a first high-pressure air pump (4) is arranged in the shell (1), one end of the first high-pressure air pump (4) is connected with an air inlet (5), the other end of the first high-pressure air pump is connected with an ozone generator (2) through a high-pressure air pipe, a second high-pressure air pump (6) is arranged between the ozone generator (2) and the arc-shaped disc (8), and a one-way valve (7) is arranged at the lower end of the second high-pressure air pump (6); the arc-shaped disc (8) is connected with the gas-liquid mixing mechanism (3) through a hollow tube (12); the gas-liquid mixing mechanism (3) is cylindrical, the top is provided with a water inlet (9), and the bottom is provided with a discharge hole (17); a rectangular water pipe (10) is arranged in the gas-liquid mixing mechanism (3), and a plurality of atomizing nozzles (11) are arranged on the water pipe (10); the hollow pipe (12) is connected with an aeration ring (13), and aeration holes (14) are formed in the aeration ring (13);

The arc-shaped disc (8) consists of two semi-arc-shaped high-pressure air pipes; the arc-shaped disc (8) comprises an upper half disc (803) and a lower half disc (804), the upper half disc (803) is communicated with the air inlet tube (801) and the air outlet tube (802), and the lower half disc (804) is only communicated with the air outlet tube (802); at least one liquid leakage port (805) is formed in the arc-shaped bottom of the lower half disc (804), and a liquid seal pipe (806) is arranged in the lower half disc (804);

the liquid seal pipe (806) is of a hollow structure and is in a transverse S shape, the pipe diameter two ends are different in size, the large opening end is connected with the air outlet pipe (802), and the small opening end is communicated with the liquid leakage opening (805);

a bubbler (18) is arranged below the discharge hole (17), and the bubbler (18) is connected with the discharge hole (17) through threads;

The foaming quantity of the bubblers is expressed by A, and the sterilization and disinfection effects of the ozone water are directly affected by the foaming quantity of the bubblers; the foaming amount is affected by the ozone water concentration C equal to the dissolution rate s×the water flow velocity V of the ozone water per unit time t and the water flow velocity V.

2. An instant mixing device for ozone water according to claim 1, characterized in that the aeration ring (13) is connected to the cylindrical inner side wall of the gas-liquid mixing mechanism (3) by a T-shaped fixing frame (15) near the bottom.

3. The instant mixing device of ozone water according to claim 1 or 2, characterized in that the aeration ring (13) is arranged at the inner side of the rectangular water pipe (10) and is five hollow annular bodies distributed from top to bottom, and the aeration ring (13) is connected through the hollow pipe (12); the aeration ring (13) is uniformly provided with at least one row of aeration holes (14).

4. The instant mixing device of ozone water according to claim 1, wherein the water pipe (10) is connected with the water inlet (9) and is arranged at a position close to the inner side wall of the cylindrical gas-liquid mixing mechanism (3), and the position close to the bottom below the water pipe (10) is connected with the inner side wall of the gas-liquid mixing mechanism (3) through the fixing frame (15); two rows of atomizing nozzles (11) are symmetrically arranged on the water pipe (10), and each atomizing nozzle (11) is communicated with the water pipe (10).

5. The instant mixing device for ozone water according to claim 1, wherein a spacer (16) is connected above the discharge port (17), the spacer (16) is circular, and fine micropores in a grid shape are formed in the spacer (16).