CN215627016U - Ozone water treatment device - Google Patents

Abstract

The utility model discloses an ozone water treatment device, which comprises an ozone generator, a water tank, a dewatering condenser, a water injector, a three-way valve, a booster pump, an ozone destructor, a proportional valve, a controller and a detection mechanism, wherein the ozone generator is connected with the water tank; the water tank is provided with an opening, an upper outlet I, a lower outlet I and an upper outlet II which are respectively connected with a liquid outlet pipe of the water ejector, an inlet of the three-way valve and a liquid inlet of the water ejector; the ozone generator is connected with the water injector; the dewatering condenser is connected to the ozone generator; and a gas input port of the water removal condenser is connected to a first outlet of the three-way valve. The detection mechanism comprises a one-way check valve and a sampler, and the sampler is connected with the water tank; the one-way check valve is arranged on the sampler; the air inlet of the ozone destructor is connected to the second outlet of the three-way valve; two ends of the proportional valve are respectively connected to the water ejector and the pressure pump; the controller is respectively and electrically connected with the output end of the detection mechanism, the three-way valve and the proportional valve. The utility model can disinfect water and realize ozone recycling.

Description

Ozone water treatment device

Technical Field

The utility model relates to an ozone water treatment device, and belongs to the technical field of ozone circulation.

Background

The secondary water supply is a water supply mode that when a tap water supply network can not meet the requirements of users on water quantity and water pressure, the water is supplied to the users through facilities such as storage, pressurization and the like through pipelines. The water pressure of a pipe network in secondary water supply is wasted, and tap water is influenced by the water pipe network, so that secondary pollution of drinking water is easily caused by long-distance and long-time pipeline transportation.

At present, two schemes of ultraviolet direct injection and ozone aeration of an air jet device are mostly adopted in domestic two water supply purification systems. In the ultraviolet direct irradiation scheme, the contact of ultraviolet rays and water is less, and the efficiency cannot be ensured; according to the ozone aeration scheme of the air jet device, a large amount of compressed air is mixed in aeration gas, so that the concentration of ozone in contact with water is insufficient, and the disinfection efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide an ozone water treatment device which can utilize air to generate ozone so as to disinfect the water body in a water tank and can recycle gas overflowing from the water body, thereby saving resources.

In order to achieve the purpose, the utility model is realized by adopting the following technical scheme:

an ozone water treatment device comprises an ozone generator, a water tank, a dewatering condenser, a water ejector, a three-way valve and a pressure pump;

an opening is formed in the top end of the water tank; a liquid outlet pipeline of the water ejector extends into the water tank body through the opening and extends downwards to the bottom end of the water tank body;

an upper outlet I is formed in the upper end of the water tank; the upper outlet is connected to the inlet of the three-way valve;

the lower end of the water tank is provided with a first lower outlet; the first lower outlet is connected to the liquid inlet of the water ejector through a pressurizing pump;

the gas output end of the ozone generator is connected to the gas inlet of the water ejector;

the gas output port of the dewatering condenser is connected to the gas input end of the ozone generator; and a gas input port of the water removal condenser is connected to a first outlet of the three-way valve.

Furthermore, the ozone water treatment device also comprises an ozone destructor, a proportional valve, a controller and a detection mechanism;

an upper outlet II is formed in the upper end of the water tank;

the detection mechanism comprises a one-way check valve and a sampler;

the sampler extends into the water tank body through the upper outlet II and extends downwards to the lower end of the water tank body;

the one-way check valve is arranged on the sampler;

the air inlet of the ozone destructor is connected to the second outlet of the three-way valve;

the air outlet of the ozone destructor is connected to the external environment;

two ends of the proportional valve are respectively connected to the water ejector and the pressure pump;

the controller is respectively and electrically connected with the output end of the detection mechanism, the three-way valve and the proportional valve.

Further, the ozone generator comprises an ultraviolet lamp tube; the controller is electrically connected with the ultraviolet lamp tube.

Further, the ozone generator at least comprises 2 ultraviolet lamp tubes; the controller is electrically connected with each ultraviolet lamp tube.

Further, the ozone water treatment device comprises an interpersonal interaction mechanism; the controller comprises a GPRS unit; and data are transmitted between the controller and the interpersonal interaction mechanism through the GPRS unit.

Further, the ozone water treatment device comprises a water outlet pump; the lower end of the water tank is provided with a second lower outlet; the water outlet pump is connected to the second lower outlet.

Further, the ozone water treatment apparatus includes an air filter; one end of the air filter is connected to the gas input end of the ozone generator; the other end of the air filter is connected with the external environment. The air filter is used for filtering moisture and impurities in air.

Compared with the prior art, the utility model has the following beneficial effects: the ozone generator can convert air into ozone, so that the operation cost of the device is reduced; by arranging the water ejector and the pressure pump, ozone gas generated by the ozone generator can fully sterilize and disinfect the water body in the water tank; through setting up dewatering condenser and three-way valve for the ozone gas can be recycled to the device, thereby resources are saved.

Drawings

FIG. 1 is a schematic view showing an embodiment of an ozone water treatment apparatus of the present invention;

in the figure: 1. ozone generator, 2, water tank, 3, pressure pump, 4, proportional valve, 5, water injector, 6, three-way valve, 7, ozone destructor, 8, dewatering condenser, 9, water outlet pump, 10, air filter, 11, ultraviolet lamp tube, 12, controller, 13, detection mechanism, 31, GPRS unit, 41 and one-way check valve.

Detailed Description

The utility model is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

In order to sterilize the water in the secondary water supply tank, recycle the ozone and save resources, referring to fig. 1, the present embodiment provides an ozone water treatment apparatus, which includes an ozone generator 1, a water tank 2, a dewatering condenser 8, a water ejector 5, a three-way valve 6 and a pressure pump 3; the top end of the water tank 2 is provided with an opening; a liquid outlet pipeline of the water ejector 5 extends into the tank body of the water tank 2 through the opening and extends downwards to the bottom end of the tank body of the water tank 2; an upper outlet I is formed at the upper end of the water tank 2; the upper outlet is connected to the inlet of the three-way valve 6; the lower end of the water tank 2 is provided with a first lower outlet; the first lower outlet is connected to a liquid inlet of a water ejector 5 through a pressurizing pump 3; the gas output end of the ozone generator 1 is connected to the gas inlet of the water ejector 5; the gas output port of the dewatering condenser 8 is connected to the gas input port of the ozone generator 1; the gas input of the water removal condenser 8 is connected to a first outlet of the three-way valve 6.

In application, referring to fig. 1, the water level in the water tank 2 is 1/2 to 2/3 of the water tank 2, the pressure pump 3 is turned on, the water in the water tank 2 is pressed into the cavity of the water ejector 5, and the water suction force of the cavity is enhanced.

In the application of the utility model, referring to fig. 1, an ozone generator 1 converts an oxygen-containing gas into ozone gas, and the ozone gas enters a cavity of a water injector 5 through a gas inlet of the water injector 5 connected with a gas output end of the ozone generator 1 and is uniformly mixed with water in the cavity to form a premixed liquid.

The premixed liquid enters the bottom of the water body in the water tank 2 through the liquid outlet pipe of the water injector 5 and is gradually and uniformly mixed with the water in the water tank 2, so that the sterilization and disinfection effects (aeration) are achieved. When the ozone gas in the water body is supersaturated and the water body flows, the ozone gas in the water body overflows the water surface, leaves the water tank from the upper outlet of the water tank 2, passes through the inlet and the first outlet of the three-way valve 6, and enters the water removal condenser 8, referring to fig. 1.

After the moisture in the ozone gas is removed by the water removal condenser 8, the ozone gas enters the ozone generator 1 through a gas outlet of the water removal condenser 8 connected to a gas input end of the ozone generator 1, and then enters the next ozone water treatment cycle process with reference to fig. 1.

The embodiment can autonomously convert oxygen into ozone for water body disinfection, thereby greatly reducing the cost; ozone gas can enter the bottom of the water body in the water tank, so that the ozone and the water body are fully mixed, and the water in the water tank is fully sterilized and disinfected; the self-generated ozone gas can be recycled, and the cost is further saved.

Example 2

In order to realize the recycling of ozone and save resources on the premise that the concentration of ozone in the water body in the secondary water supply tank is within the standard range, referring to fig. 1, on the basis of embodiment 1, the ozone water treatment device provided by the embodiment further comprises an ozone destructor 7, a proportional valve 4, a controller 12 and a detection mechanism 13; an upper outlet II is formed at the upper end of the water tank 2; the detection mechanism 13 comprises a one-way check valve and a sampler, and the sampler extends into the tank body of the water tank 2 through the upper outlet II and extends downwards to the lower end of the tank body of the water tank 2; the one-way check valve 41 is mounted on the sampler; the air inlet of the ozone destructor 7 is connected to the second outlet of the three-way valve 6; the air outlet of the ozone destructor 7 is connected to the external environment; two ends of the proportional valve 4 are respectively connected to the water ejector 5 and the pressure pump 3; the controller is respectively and electrically connected with the output end of the detection mechanism, the three-way valve and the proportional valve. The ozone generator 1 comprises an ultraviolet lamp tube 11; the controller 12 is electrically connected with the ultraviolet lamp tube 11. The ozone generator 1 at least comprises 2 ultraviolet lamp tubes 11; the controller 12 is electrically connected with each ultraviolet lamp tube 11. The ozone water treatment device also comprises a human interaction mechanism, the controller 12 comprises a GPRS unit 31, and data are transmitted between the controller 12 and the human interaction mechanism through the GPRS unit 31. The ozone water treatment device also comprises a water outlet pump 9; the lower end of the water tank 2 is provided with a second lower outlet; and the water outlet pump 9 is connected to the second lower outlet. The ozone water treatment device also comprises an air filter 10, and one end of the air filter 10 is connected to the gas input end of the ozone generator 1; the other end of the air filter 10 is connected to the outside environment.

In application, a sampling liquid obtained by the sampler from the water tank 2 enters the detection unit of the detection mechanism 13 through the one-way check valve 41, the detection unit detects the concentration of ozone in the sampling liquid, and after detection is completed, the sampling liquid enters the waste liquid barrel through the waste liquid pipe of the detection mechanism 13.

When the embodiment is applied, a worker presets an ozone concentration threshold interval through the interpersonal interaction mechanism, the controller controls the three-way valve 6, the proportional valve 4 and the ultraviolet lamp tube 11 according to the preset ozone concentration threshold interval which is greater than or equal to or smaller than the ozone concentration data continuously output by the detection mechanism in the set time delay.

When the ozone concentration data continuously output by the detection mechanism in the set time delay is greater than or equal to the preset ozone concentration threshold interval:

the valve core of the three-way valve 6 blocks the first outlet, and ozone gas overflowing the water surface in the water tank 2 enters the ozone destructor 7 through the air inlet of the ozone destructor 7 connected with the second outlet of the three-way valve 6 to be converted into oxygen-containing gas and enters the atmosphere through the air outlet, namely the content of the ozone gas in the ozone water treatment cycle process is reduced;

adjusting the opening degree of the proportional valve 4, reducing the speed of water in the water tank 2 entering the water injector 5, thereby reducing the water suction force of the cavity of the water injector 5, reducing the speed of ozone gas in the ozone generator 1 entering the water injector 5, thereby reducing the ozone concentration of the premixed liquid, namely further reducing the ozone gas content entering the ozone water treatment cycle process;

by adjusting the lighting combination of the ultraviolet lamps and reducing the number of the ultraviolet lamps lit, the ozone generator 1 will reduce the ozone gas generation rate, i.e. reduce the ozone gas content entering the ozone water treatment cycle from the source.

When the ozone concentration data continuously output by the detection mechanism in the set time delay is smaller than the preset ozone concentration threshold interval:

the valve core of the three-way valve 6 blocks the second outlet, and ozone gas overflowing the water surface in the water tank 2 enters the dewatering condenser 8 through the gas inlet of the dewatering condenser 8 connected with the first outlet of the three-way valve 6; after water in the ozone gas is removed by the water removal condenser 8, the water enters the ozone generator 1 through a gas outlet of the water removal condenser 8 connected with a gas input end of the ozone generator 1, referring to fig. 1, and then enters the next ozone water treatment cycle process, so that the content of the ozone gas in the ozone water treatment cycle process can be ensured, the ozone gas can be recycled, and resources are saved;

the opening of the proportional valve 4 is adjusted, the speed of water in the water tank 2 entering the water injector 5 is increased, so that the water suction force of the cavity of the water injector 5 is improved, the speed of ozone gas in the ozone generator 1 entering the water injector 5 is increased, the ozone concentration in the premixed liquid is increased, namely, the content of the ozone gas entering the ozone water treatment circulation process is increased, and the effect of disinfecting and sterilizing the water in the water tank 2 is ensured;

the lighting combination of the ultraviolet lamp tubes is adjusted, and the ozone generator 1 can increase the ozone gas generation speed by increasing the lighting number of the ultraviolet lamp tubes, namely, the ozone gas content in the ozone water treatment circulation process is increased from the source, so that the effect of disinfecting and sterilizing the water in the water tank 2 is ensured.

In the embodiment, the detection mechanism is arranged, so that the ozone content of the water body in the water tank can be detected in real time and checked through the human-computer interaction mechanism; through setting up the controller, can in time regulate and control proportional valve, three-way valve and ultraviolet fluorescent tube according to the ozone content condition in the water, control the ozone content of premixed liquid, circulating device's ozone gas content and ozone gas's formation volume to the concentration of ozone in the effective control ozone water treatment cycle process, guarantee that the ozone concentration of water tank water accords with the standard promptly.

In conclusion, the utility model has high integration level and good disinfection effect on secondary supply water, can ensure the concentration of ozone in the water body to be within a standard range, can recycle ozone gas as much as possible, and saves resources.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (7)

1. An ozone water treatment device is characterized by comprising an ozone generator (1), a water tank (2), a dewatering condenser (8), a water ejector (5), a three-way valve (6) and a pressure pump (3);

an opening is formed in the top end of the water tank (2);

a liquid outlet pipeline of the water ejector (5) extends into the tank body of the water tank (2) through the opening and extends downwards to the bottom end of the tank body of the water tank (2);

an upper outlet I is formed in the upper end of the water tank (2); the upper outlet is connected to the inlet of a three-way valve (6);

the lower end of the water tank (2) is provided with a first lower outlet; the first lower outlet is connected to a liquid inlet of a water ejector (5) through a pressurizing pump (3);

the gas output end of the ozone generator (1) is connected to the gas inlet of the water ejector (5);

the gas output port of the dewatering condenser (8) is connected to the gas input port of the ozone generator (1); and a gas input port of the water removal condenser (8) is connected to a first outlet of the three-way valve (6).

2. An ozone water treatment apparatus according to claim 1, characterized by comprising an ozone destructor (7), a proportional valve (4), a controller (12) and a detection mechanism (13);

an upper outlet II is formed in the upper end of the water tank (2);

the detection mechanism (13) comprises a one-way check valve and a sampler;

the sampler extends into the tank body of the water tank (2) through the second upper outlet and extends downwards to the lower end of the tank body of the water tank (2);

the one-way check valve (41) is arranged on the sampler;

the air inlet of the ozone destructor (7) is connected to the second outlet of the three-way valve (6); the air outlet of the ozone destructor (7) is connected to the external environment;

two ends of the proportional valve (4) are respectively connected to the water ejector (5) and the pressure pump (3);

the controller (12) is respectively and electrically connected with the output end of the detection mechanism (13), the three-way valve (6) and the proportional valve (4).

3. The ozone water treatment apparatus according to claim 2, characterized in that the ozone generator (1) comprises an ultraviolet lamp tube (11); the controller (12) is electrically connected with the ultraviolet lamp tube (11).

4. An ozone water treatment apparatus according to claim 2 or 3, characterized in that said ozone generator (1) comprises at least 2 ultraviolet lamps (11); the controller (12) is electrically connected with each ultraviolet lamp tube (11).

5. The ozonated water treatment apparatus according to claim 2, comprising an interpersonal interaction mechanism; the controller comprises a GPRS unit (31); the controller (12) and the interpersonal interaction mechanism transmit data through the GPRS unit (31).

6. The ozone water treatment apparatus according to claim 1, characterized by comprising a water outlet pump (9); the lower end of the water tank (2) is provided with a second lower outlet; the water outlet pump (9) is connected to the second lower outlet.

7. The ozone water treatment apparatus according to claim 1, characterized by comprising an air filter (10); one end of the air filter (10) is connected to the gas input end of the ozone generator (1); the other end of the air filter (10) is connected with the external environment.

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