CN218539347U - Ozone water decomposer - Google Patents

Abstract

The utility model provides an ozone water decomposition device, the device includes that ozone water collects and the processing unit, the unit admits air, ozone destroys unit and sensing unit, through set up first level sensor and second level sensor on the lateral wall of ozone water collecting container, use opening and closing of first level sensor control air inlet valve, can save the gas quantity of carrying into ozone water collecting container, and the cost is reduced, use opening and closing of second level sensor control air outlet valve, can control the liquid level in the ozone water collecting container can not be too high, guarantee the effect that the ozone gas was taken out to the tympanic bulla; the ozone water collecting container is communicated with the ozone water collecting container through the air inlet unit, the ozone gas in the ozone water is taken out in a bubbling mode, the ozone gas in the ozone water can be quickly removed, and the ozone gas is discharged after being damaged by matching with the ozone gas destructor, so that air pollution is avoided. The ozone water decomposer of the utility model has simple structure, high reliability and low running cost.

Description

Ozone water decomposer

Technical Field

The utility model relates to an ozone water treatment technology field especially relates to an ozone water decomposition device.

Background

At present, ozone water decomposition is mostly carried out by methods such as UV (ultraviolet) irradiation, heating or adding chemicals to accelerate ozone decomposition. The UV method has low decomposition efficiency and high cost of the UV light source, and an additional power supply and control module is needed; the energy consumption of the heating method is increased linearly along with the increase of the water flow. In the photovoltaic industry, ozone basin body intermittent type nature carries out the tank liquor and discharges and supply, and the ozone liquid of emission just can discharge the exhaust pipe way after need handling, and above-mentioned several methods can increase device manufacturing cost by a wide margin under this kind of operating mode.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defect of high cost of ozone water liquid treatment in the prior art and providing an ozone water decomposition device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an ozone water decomposition device comprises an ozone water collecting and processing unit, an air inlet unit, an ozone destruction unit and a sensing unit; the ozone water collecting and treating unit comprises an ozone water collecting container, one side wall of the ozone water collecting container is provided with an ozone water inlet, the other side wall of the ozone water collecting container is provided with an ozone water outlet, the bottom surface of the ozone water collecting container is provided with a gas inlet, and the top surface of the ozone water collecting container is provided with an ozone gas outlet; the air inlet unit comprises an air inlet valve, and the air inlet valve is connected with the air inlet; the ozone destruction unit comprises an exhaust valve and an ozone gas destroyer, wherein one end of the exhaust valve is connected with the ozone exhaust port, and the other end of the exhaust valve is connected with the ozone gas destroyer; the sensing unit comprises a first liquid level sensor and a second liquid level sensor, the first liquid level sensor and the second liquid level sensor are both arranged on the side wall of the ozone water collecting container, the second liquid level sensor is located above the first liquid level sensor, the output end of the first liquid level sensor is in signal connection with the air inlet valve, and the output end of the second liquid level sensor is in signal connection with the air exhaust valve.

Preferably, the side wall where the ozone water inlet is located is opposite to the side wall where the ozone water outlet is located.

Preferably, the air inlet unit further comprises a gas flow meter, one end of the gas flow meter is connected with the gas inlet, and the other end of the gas flow meter is connected with the air inlet valve.

Preferably, the second liquid level sensor is located at a first distance from the top surface of the ozonated water collection vessel.

Preferably, a distance from the ozone water drain port to the bottom surface of the ozone water collecting container is smaller than a distance from the first liquid level sensor to the bottom surface of the ozone water collecting container.

Preferably, the ozone water decomposition device further comprises a liquid discharge unit, wherein the liquid discharge unit comprises a liquid discharge valve, and the liquid discharge valve is connected with the ozone water discharge port. Further, the output end of the second liquid level sensor is in signal connection with a liquid discharge valve.

Compared with the prior art, the ozone water decomposition device of the utility model has the advantages that the first liquid level sensor and the second liquid level sensor are arranged on the side wall of the ozone water collection container, the first liquid level sensor is used for controlling the opening and closing of the air inlet valve, the gas consumption conveyed into the ozone water collection container can be saved, the cost is reduced, the second liquid level sensor is used for controlling the opening and closing of the air outlet valve, the liquid level in the ozone water collection container can be controlled not to be too high, and the effect of bubbling ozone gas is ensured; the ozone water collecting container is communicated with the ozone water collecting container through the air inlet unit, the ozone gas in the ozone water is taken out in a bubbling mode, the ozone gas in the ozone water can be quickly removed, and the ozone gas is discharged after being damaged by matching with the ozone gas destructor, so that air pollution is avoided. The ozone water decomposer of the utility model has simple structure, high reliability and low operation cost.

Drawings

Fig. 1 is a schematic structural diagram of an ozonolysis apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an ozonolysis apparatus according to another embodiment of the present invention.

Detailed Description

In order to further understand the objects, structures, features, and functions of the present invention, the following embodiments are described in detail.

Referring to fig. 1, the ozone water decomposition device of the present invention includes an ozone water collecting and processing unit 1, an air inlet unit 2, an ozone destroying unit 3, and a sensing unit 4.

The ozone water collecting and treating unit 1 is used for storing the ozone water liquid discharged from the ozone water tank of the main machine and discharging waste liquid after the ozone water liquid is treated. The ozone water collecting and processing unit 1 comprises an ozone water collecting container 11, one side wall of the ozone water collecting container 11 is provided with an ozone water inlet 111, the other side wall of the ozone water collecting container 11 is provided with an ozone water outlet 112, the bottom surface of the ozone water collecting container 11 is provided with a gas inlet 113, the top surface of the ozone water collecting container 11 is provided with an ozone gas outlet 114, and the ozone water inlet 111 is connected with an ozone water tank body of a host machine.

In a preferred embodiment, a sidewall of the ozonated water inlet 111 is disposed opposite to a sidewall of the ozonated water outlet 112, so as to facilitate the arrangement of a position between the main unit and the ozonated water collection vessel 11, thereby facilitating the inlet and the outlet.

The gas inlet unit 2 is used to supply gas, preferably CDA (compressed dry air), to the ozonated water collection vessel 11 to take out the ozone gas in the ozonated water liquid using bubbling, thereby rapidly removing the ozone gas in the ozonated water. The inlet unit 2 comprises an inlet valve 21, the inlet valve 21 being connected to a gas inlet 113.

In a preferred embodiment, the gas inlet unit 2 further comprises a gas flow meter 22, the gas flow meter 22 is used for controlling the flow rate of the gas supplied to the ozone water collecting container 11, one end of the gas flow meter 22 is connected to the gas inlet 113, and the other end of the gas flow meter 22 is connected to the gas inlet valve 21.

The ozone destruction unit 3 is for destroying the ozone gas discharged from the ozone water collecting container 11. The ozone destruct unit 3 includes an exhaust valve 31 and an ozone gas destructor 32, one end of the exhaust valve 31 is connected to the ozone exhaust port 114, and the other end of the exhaust valve 31 is connected to the ozone gas destructor 32.

The sensing unit 4 includes a first liquid level sensor 41 and a second liquid level sensor 42, the first liquid level sensor 41 and the second liquid level sensor 42 are both disposed on the sidewall of the ozone water collection container 11, the second liquid level sensor 42 is located above the first liquid level sensor 41, the output end of the first liquid level sensor 41 is in signal connection with the air intake valve 21, and the output end of the second liquid level sensor 42 is in signal connection with the air exhaust valve 31.

In a preferred embodiment, the second liquid level sensor 42 is located at a first distance from the top surface of the ozonated water collection vessel 11 to ensure the bubbling effect of bringing out ozone gas.

In another preferred embodiment, the distance from the ozone water drain 112 to the bottom surface of the ozone water collection vessel 11 is smaller than the distance from the first level sensor 41 to the bottom surface of the ozone water collection vessel 11 to ensure that the opening and closing of the air intake valve 21 can be effectively controlled by the first level sensor 41.

In the initial state, the intake valve 21 is closed and the exhaust valve 31 is opened. When the liquid level of the ozone water solution in the ozone water collecting container 11 rises to the position of the first liquid level sensor 41, the air inlet valve 21 is opened, the air inlet unit 2 delivers gas to the ozone water collecting container 11, ozone gas in the ozone water solution is taken out in a bubbling mode, and the air inlet valve 21 is opened for air inlet when the liquid level rises to the position of the first liquid level sensor 41, so that the gas consumption for delivering the ozone water into the ozone water collecting container 11 can be saved, the cost is reduced, and the ozone gas enters the ozone gas destructor 32 through the opened air outlet valve 31 and is destroyed and then discharged; when the liquid level of the ozonated water in the ozonated water collection vessel 11 rises to the position of the second liquid level sensor 42, the gas exhaust valve 31 is closed, the gas inlet valve 21 is still opened, the gas inlet unit 2 continues to supply gas to the ozonated water collection vessel 11, and at this time, the pressure inside the ozonated water collection vessel 11 increases, and the discharge of the ozonated water waste liquid from the ozonated water discharge port 112 is accelerated; when the level of the aqueous ozone in the ozone water collecting container 11 drops below the second level sensor 42, the air outlet valve 31 is opened and the air inlet valve 21 is still opened; when the level of aqueous ozone in the ozone water collection vessel 11 drops below the first level sensor 41, the air outlet valve 31 remains open and the air inlet valve 21 is closed.

In the embodiment, the first liquid level sensor 41 and the second liquid level sensor 42 are arranged on the side wall of the ozone water collecting container 11, the first liquid level sensor 41 is used for controlling the opening and closing of the air inlet valve 21, so that the gas consumption conveyed into the ozone water collecting container 11 can be saved, the cost is reduced, the second liquid level sensor 42 is used for controlling the opening and closing of the air outlet valve 31, the liquid level in the ozone water collecting container 11 can be controlled not to be too high, the effect of bubbling to bring out ozone gas is ensured, and the ozone gas in the ozone water is rapidly removed; the gas is conveyed to the ozone water collecting container 11 through the gas inlet unit 2, ozone gas in the ozone water is taken out in a bubbling mode, and the ozone gas is discharged after being destroyed by matching with the ozone gas destructor 32, so that air pollution is avoided. The ozonolysis device of the embodiment has the advantages of simple structure, high reliability and low operation cost.

In order to control the discharge of the waste ozone water, please refer to fig. 2, fig. 2 is a schematic structural diagram of an ozonolysis apparatus according to another embodiment of the present invention, in this embodiment, the ozonolysis apparatus further includes a liquid discharge unit 5, the liquid discharge unit 5 includes a liquid discharge valve 51, and the liquid discharge valve 51 is connected to the ozone water discharge port 112.

Further, the output terminal of the second liquid level sensor 42 is in signal connection with the drain valve 51, so that when the level of the ozonated water in the ozonated water collection vessel 11 rises to the position of the second liquid level sensor 42, the drain valve 51 opens to drain the waste liquid, thereby ensuring the treatment effect of the waste liquid.

The utility model discloses an ozone water decomposer, through set up first level sensor and second level sensor on the lateral wall of ozone water collecting container, use first level sensor control air inlet valve open and close, can save the gas quantity of carrying into ozone water collecting container, reduce cost, use second level sensor control exhaust valve open and close, can control the liquid level in the ozone water collecting container and can not be too high, guarantee the effect that the ozone gas is taken out in the bubble; the ozone water collecting container is communicated with the ozone water collecting container through the air inlet unit, the ozone gas in the ozone water is taken out in a bubbling mode, the ozone gas in the ozone water can be quickly removed, and the ozone gas is discharged after being damaged by matching with the ozone gas destructor, so that air pollution is avoided. The ozone water decomposer of the utility model has simple structure, high reliability and low running cost.

The present invention has been described in relation to the above embodiments, which are only examples for implementing the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, the invention is not to be limited by the spirit and scope of the appended claims.

Claims (7)

1. An ozone water decomposer is characterized by comprising an ozone water collecting and processing unit, an air inlet unit, an ozone destroying unit and a sensing unit;

the ozone water collecting and treating unit comprises an ozone water collecting container, one side wall of the ozone water collecting container is provided with an ozone water inlet, the other side wall of the ozone water collecting container is provided with an ozone water outlet, the bottom surface of the ozone water collecting container is provided with a gas inlet, and the top surface of the ozone water collecting container is provided with an ozone gas outlet;

the gas inlet unit comprises a gas inlet valve which is connected with the gas inlet;

the ozone destruction unit comprises an exhaust valve and an ozone gas destructor, one end of the exhaust valve is connected with the ozone exhaust port, and the other end of the exhaust valve is connected with the ozone gas destructor;

the sensing unit comprises a first liquid level sensor and a second liquid level sensor, the first liquid level sensor and the second liquid level sensor are arranged on the side wall of the ozone water collecting container, the second liquid level sensor is located above the first liquid level sensor, the output end of the first liquid level sensor is connected with an air inlet valve through signals, and the output end of the second liquid level sensor is connected with an air outlet valve through signals.

2. The apparatus according to claim 1, wherein a side wall of said ozonated water inlet is disposed opposite to a side wall of said ozonated water outlet.

3. The ozonolysis apparatus according to claim 1, wherein the gas inlet unit further comprises a gas flow meter, one end of which is connected to the gas inlet, and the other end of which is connected to the gas inlet valve.

4. The ozonation water according to claim 1, wherein the second level sensor is located at a first distance from a top surface of the ozonated water collection vessel.

5. The ozonolysis apparatus according to claim 1, wherein a distance from the ozonized water drain port to the bottom surface of the ozonized water collecting vessel is shorter than a distance from the first level sensor to the bottom surface of the ozonized water collecting vessel.

6. The apparatus of claim 1, further comprising a drain unit, wherein said drain unit comprises a drain valve, and wherein said drain valve is connected to said ozonated water drain.

7. The apparatus according to claim 6, wherein an output of said second level sensor is in signal connection with said drain valve.

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