CN213804008U - Ozone preparation generating device with refrigeration function - Google Patents

Abstract

The embodiment of the application discloses ozone preparation generating device with refrigeration function includes: the device comprises a water replenishing pump, an ozone generator, a pure water barrel and a refrigerating assembly; the water replenishing pump is connected with the top of the pure water barrel through a three-way joint, the water replenishing pump is used for supplying water for the ozone preparation generating device, and the pure water barrel is used for storing ozone; the water replenishing pump is connected with an ozone generator through a three-way joint, and the ozone generator is used for preparing ozone; the ozone generator is arranged at the bottom of the pure water barrel, the ozone generator is connected with the top of the pure water barrel through the three-way joint, the top of the ozone generator is connected with the bottom of the pure water barrel through a pipeline, and the bottom of the ozone generator is connected with the bottom of the pure water barrel through a pipeline; the refrigerating assembly is arranged on the ozone generator and used for controlling the temperature of the liquid environment passing through the ozone generator. The refrigerating device is arranged on the ozone generator in the ozone preparation equipment, so that the temperature of the generation liquid reaches a proper temperature range, and the outlet gas concentration of the prepared ozone is improved.

Description

Ozone preparation generating device with refrigeration function

Technical Field

The application relates to the technical field of deodorization of odor in garbage treatment, in particular to an ozone preparation and generation device with a refrigeration function.

Background

Along with the continuous expansion of urban scale, more and more urban garbage and sewage are generated, garbage disposal plants are built around cities as main urban supporting facilities, and odor emitted by the garbage disposal plants in the operation process contains malodorous gas with odor and pungent odor, such as sulfur compounds, nitrogen compounds and the like. Therefore, when the garbage is treated in a centralized way, the garbage also needs to be reasonably deodorized, and the serious secondary pollution caused by the combination of malodorous substances generated by the garbage and other substances in the environment is avoided.

With the continuous development and maturity of deodorization technology, the application in the deodorization system is more and more extensive. In a deodorization system, odorous substances are usually oxidized and decomposed by ozone to achieve the purpose of purifying air, equipment for preparing ozone is usually needed in deodorization equipment, and the equipment for preparing ozone can generate a large amount of heat energy in the working process, so that the prepared ozone gas can be quickly reduced into oxygen in a high-temperature environment, and the outlet concentration of ozone is influenced.

SUMMERY OF THE UTILITY MODEL

The purpose of the embodiment of the application is to provide an ozone preparation generating device with a refrigerating function, wherein a refrigerating device is installed on an ozone generator in an ozone preparation device, and the working temperature of the ozone generator is controlled within a certain temperature range, so that the temperature of a generating solution reaches a proper temperature range, and the outlet gas concentration for preparing ozone is improved.

In order to achieve the above purpose, the embodiments of the present application provide the following technical solutions: an ozone preparation generating device with a refrigeration function comprises: the device comprises a water replenishing pump, an ozone generator, a pure water barrel and a refrigerating assembly;

the water replenishing pump is connected with the top of the pure water barrel through a three-way joint, the water replenishing pump is used for supplying water to the ozone preparation generating device, and the pure water barrel is used for storing ozone;

the water replenishing pump is connected with the ozone generator through the three-way joint, and the ozone generator is used for preparing ozone;

the ozone generator is arranged at the bottom of the pure water barrel, the ozone generator is connected with the top of the pure water barrel through the three-way joint, the top of the ozone generator is connected with the bottom of the pure water barrel through a pipeline, and the bottom of the ozone generator is connected with the bottom of the pure water barrel through a pipeline;

the refrigerating assembly is arranged on the ozone generator and used for controlling the temperature of the liquid environment passing through the ozone generator.

Optionally, the ozone generator pass through three way connection with the pure water bucket top is connected and is included:

the ozone generator comprises a generator main body, a generator ozone gas outlet and a generator hydrogen port, wherein the generator ozone gas outlet is formed in the top of the generator main body, the generator hydrogen port is formed in one side of the generator main body, and the generator hydrogen port is communicated with the top of the pure water barrel through the three-way joint.

Optionally, the top of the ozone generator is connected with the bottom of the pure water barrel through a pipeline, and the ozone generator comprises:

the ozone outlet of the generator is communicated with the bottom of the pure water barrel through a pipeline.

Optionally, the generator hydrogen port through three way connection with pure water bucket top intercommunication includes:

the top of the pure water barrel is provided with a pure water barrel hydrogen port which is used for injecting hydrogen into the pure water barrel;

the hydrogen port of the generator is communicated with the hydrogen port of the pure water barrel through the three-way joint.

Optionally, the make-up water pump passes through the three way connection with ozone generator is connected and is included:

the water replenishing pump is provided with a water outlet, and the water outlet is connected with the ozone generator through the three-way joint.

Optionally the moisturizing pump pass through three way connection with pure water bucket top intercommunication includes:

the water outlet is communicated with the top of the pure water barrel through the three-way joint.

Optionally, the delivery port pass through three way connection with pure water bucket top intercommunication includes:

the water outlet is connected with the hydrogen port of the pure water barrel through the three-way joint.

Optionally, the bottom of the ozone generator is connected with the bottom of the pure water barrel through a pipeline, and the ozone generator comprises:

the bottom of the ozone generator is connected with the bottom of the pure water barrel through a U-shaped pipeline.

Optionally, the water replenishing pump is provided with a water inlet, and the water inlet is communicated with the water replenishing pump through a pipeline.

Optionally, the top of the pure water barrel is provided with a pure water barrel ozone port, and the pure water barrel ozone port is used for discharging ozone stored in the pure water barrel.

In the scheme, the refrigerating device is arranged on the ozone generator in the ozone preparation equipment, and the working temperature of the ozone generator is controlled within a certain temperature range, so that the temperature of the generation liquid reaches a proper temperature range, and the outlet gas concentration for preparing ozone is improved.

Drawings

Fig. 1 is a schematic structural diagram of an ozone preparation generating device with a refrigeration function according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of another ozone generation device with a refrigeration function provided in the embodiments of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1 to fig. 2, an embodiment of the present application provides a technical solution: an ozone preparation generating device with a refrigeration function comprises: a water replenishing pump 1, an ozone generator 2, a pure water barrel 3 and a refrigerating component 4;

the water replenishing pump 1 is connected with the top of the pure water barrel 3 through a three-way joint, the water replenishing pump 1 is used for supplying water to the ozone preparation generating device, and the pure water barrel 3 is used for storing ozone; the water replenishing pump 1 is connected with the ozone generator 2 through the three-way joint, and the ozone generator 2 is used for preparing ozone; the ozone generator 2 is arranged at the bottom of the pure water barrel 3, the ozone generator 2 is connected with the top of the pure water barrel 3 through the three-way joint, the top of the ozone generator 2 is connected with the bottom of the pure water barrel 3 through a pipeline, and the bottom of the ozone generator 2 is connected with the bottom of the pure water barrel 3 through a pipeline; the refrigerating assembly 4 is arranged on the ozone generator 2 and used for controlling the temperature of the liquid environment passing through the ozone generator 2.

It should be noted that the water replenishing pump 1 mainly provides raw material water for the ozone preparation and generation device, the raw material water enters the pure water barrel 3 through a pipeline and a three-way joint, the ozone generator 2 is arranged at the bottom of the pure water barrel 3, two ends of the ozone generator 2 are communicated with the bottom of the pure water barrel 3 through a pipeline, and the raw material water directly contacts with the ozone generator 2 due to gravity after entering the pure water barrel 3. Because the inside of the pure water barrel 3 is relatively sealed, the ozone generated by the ozone generator 2 is discharged to the pure water barrel 3, and the ozone gas has a large amount of heat, so that the generated ozone is relatively easy to be reduced into oxygen because the ozone is in a high-temperature environment, thereby influencing the concentration of the ozone gas, the refrigeration component 4 is arranged on the ozone generator 2, the temperature of the liquid environment around the ozone generator 2 is reduced through the refrigeration component 4, the temperature of the gas generated by the ozone generator 2 is controlled within a proper temperature range, thus the ozone discharged into the pure water barrel 3 has no high heat, the inside environment of the pure water barrel 3 reaches a proper temperature, the ozone stored in the pure water barrel 3 is protected from being reduced, and the outlet gas concentration of the ozone is improved.

Optionally, the ozone generator 2 is connected with the top of the pure water barrel 3 through the three-way joint and comprises:

the ozone generator 2 comprises a generator main body 21, a generator ozone gas outlet 22 and a generator hydrogen port 23, wherein the generator ozone gas outlet 22 is formed in the top of the generator main body 21, the generator hydrogen port 23 is formed in one side of the generator main body 21, and the generator hydrogen port 23 is communicated with the top of the pure water barrel 3 through the three-way joint.

In the present application, ozone is produced by low-pressure electrolysis of water, and water is decomposed into hydrogen gas and ozone by low-pressure electrolysis of water, and pure water is used as a raw material to produce an ultra-high-purity ozone gas having a concentration of 28%. The ozone generator 2 comprises a generator main body 21, a generator ozone gas outlet 22 and a generator hydrogen gas outlet 23, wherein the generator ozone gas outlet 22 is communicated with the bottom of the pure water barrel 3 through a pipeline and can directly discharge the generated ozone gas into the pure water barrel 3, the generator hydrogen gas outlet 23 is arranged on one side of the generator main body 21, and the generator hydrogen gas outlet 23 is communicated with the top of the pure water barrel 3 through the three-way joint. When the ozone generator 2 is powered on to work, hydrogen is generated, the generated hydrogen is conveyed to the pure water barrel through a pipeline to be mixed with the raw water, and the stability of the hydrogen can protect the pure water barrel 3 from being corroded by the ozone gas in the pure water barrel 3. The ozone generator 2 is made of high-purity precious metal, such as titanium, the application is not particularly limited, the stability of the titanium is utilized, and the ozone generator 2 is not easily influenced by the quality of surrounding air or the humidity of the environment and is not easily corroded when in work. The pure water is used as the raw material, so that strong carcinogenic substances such as nitric oxide and the like or any other harmful substances can not be generated, the ozone output concentration can be adjusted according to the actual situation on site, and the operation is convenient.

Optionally, the top of the ozone generator 2 is connected to the bottom of the pure water barrel 3 through a pipeline, and the ozone generator comprises:

the generator ozone outlet 22 is communicated with the bottom of the pure water barrel 3 through a pipeline.

Specifically, the ozone gas generated by the ozone generator 2 is discharged through the generator ozone outlet 22, and is discharged into the pure water tank 3 through a pipe communicating with the bottom of the pure water tank 3 through the generator ozone outlet 22, and is mixed with the raw material pure water in the pure water tank 3.

Optionally, the generator hydrogen port 23 is communicated with the top of the pure water barrel 3 through the three-way joint, and comprises:

the top of the pure water barrel 3 is provided with a pure water barrel hydrogen port 31, and the pure water barrel hydrogen port 31 is used for injecting hydrogen into the pure water barrel 3;

the generator hydrogen port 23 is communicated with the pure water barrel hydrogen port 31 through the three-way joint.

Specifically, hydrogen generated in the process of electrolyzing water by the ozone generator 2 is discharged through the generator hydrogen port 23, and is collected with water in a pipeline communicated with the three-way joint by the water replenishing pump 1 when passing through the three-way joint, and enters the pure water barrel 3 through the pure water barrel hydrogen port 31.

Optionally, the water replenishing pump 1 is connected to the ozone generator 2 through the three-way joint, and includes:

the water replenishing pump 1 is provided with a water outlet 11, and the water outlet 11 is connected with the ozone generator 3 through the three-way joint.

Optionally, the water replenishing pump 1 is communicated with the top of the pure water barrel 3 through the three-way joint, and comprises:

the water outlet 11 is communicated with the top of the pure water barrel 3 through the three-way joint.

Specifically, raw water enters the water replenishing pump 1 through a water inlet 11 of the water replenishing pump 1, and is collected with hydrogen generated by the ozone generator 2 at the position of the three-way joint through a water outlet 11 of the water replenishing pump.

Optionally, the water outlet 11 is communicated with the top of the pure water barrel 3 through the three-way joint, and comprises:

the water outlet 11 is connected with the hydrogen port 23 of the pure water barrel through the three-way joint.

The raw material water in the pipeline through which the water replenishing pump 1 communicates with the pure water tank 3 and the hydrogen gas in the pipeline through which the generator hydrogen port 23 communicates with the pure water tank hydrogen port 31 are collected by the three-way joint, and the hydrogen gas and the water are conveyed to the pure water tank 3 together, so that the pure water tank hydrogen port 31 is protected from corrosion by the stability of the hydrogen gas.

Optionally, the bottom of the ozone generator 2 is connected to the bottom of the pure water barrel 3 through a pipeline, and the ozone generator comprises:

the bottom of the ozone generator 2 is connected with the bottom of the pure water barrel 3 through a U-shaped pipeline.

Raw water is input into the pure water barrel 3 through a pure water barrel hydrogen port 31 at the top of the pure water barrel 3, and is contacted with the ozone generator 2 at the bottom of the pure water barrel 3 through a U-shaped pipeline.

Optionally, the water replenishing pump is provided with a water inlet 12, and the water inlet 12 is communicated with the water replenishing pump 1 through a pipeline.

Raw material water enters the water replenishing pump 1 through a water inlet 12 of the water replenishing pump 1, is converged with hydrogen generated by the ozone generator 2 at a tee joint through a water outlet 11 of the water replenishing pump, is input into the pure water barrel 3 through a hydrogen port 31 of the pure water barrel 3 at the top, and is contacted with the ozone generator 2 through a U-shaped pipeline at the bottom of the pure water barrel 3.

Optionally, the top of the pure water barrel 3 is provided with a pure water barrel ozone port 32, and the pure water barrel ozone port 32 is used for discharging ozone stored in the pure water barrel 3.

The top of the pure water barrel is provided with a pure water barrel ozone port 32, and the ozone stored in the pure water barrel 3 can be discharged through the pure water barrel ozone port 32.

In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used only for explaining relative positional relationships between the respective members or components, and do not particularly limit specific mounting orientations of the respective members or components.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, the structures, proportions, sizes, and other dimensions shown in the drawings and described in the specification are intended to be illustrative only and are not intended to be limiting, since the same are not intended to be exhaustive or to limit the scope of the invention, which is defined by the appended claims, and therefore all changes in structure, proportion, and size which are within the range of the disclosed technology are not necessarily to scale.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (10)

1. An ozone preparation generating device with a refrigeration function is characterized by comprising: the device comprises a water replenishing pump, an ozone generator, a pure water barrel and a refrigerating assembly;

the water replenishing pump is connected with the top of the pure water barrel through a three-way joint, the water replenishing pump is used for supplying water to the ozone preparation generating device, and the pure water barrel is used for storing ozone;

the water replenishing pump is connected with the ozone generator through the three-way joint, and the ozone generator is used for preparing ozone;

the ozone generator is arranged at the bottom of the pure water barrel, the ozone generator is connected with the top of the pure water barrel through the three-way joint, the top of the ozone generator is connected with the bottom of the pure water barrel through a pipeline, and the bottom of the ozone generator is connected with the bottom of the pure water barrel through a pipeline;

the refrigerating assembly is arranged on the ozone generator and used for controlling the temperature of the liquid environment passing through the ozone generator.

2. A refrigerating ozone generation device as recited in claim 1 wherein the ozone generator is connected to the top of the purified water tank through the three-way connection and comprises:

the ozone generator comprises a generator main body, a generator ozone gas outlet and a generator hydrogen port, wherein the generator ozone gas outlet is formed in the top of the generator main body, the generator hydrogen port is formed in one side of the generator main body, and the generator hydrogen port is communicated with the top of the pure water barrel through the three-way joint.

3. A refrigerating ozone generation device as recited in claim 2 wherein the top of the ozone generator is connected to the bottom of the purified water tank via a pipeline comprising:

the ozone outlet of the generator is communicated with the bottom of the pure water barrel through a pipeline.

4. A refrigerating ozone generation device as recited in claim 2 wherein said generator hydrogen port is connected to the top of said pure water tank through said three-way connection comprising:

the top of the pure water barrel is provided with a pure water barrel hydrogen port which is used for injecting hydrogen into the pure water barrel;

the hydrogen port of the generator is communicated with the hydrogen port of the pure water barrel through the three-way joint.

5. A refrigerating ozone generation device as recited in claim 2 wherein said make-up water pump is connected to said ozone generator through said tee fitting and comprises:

the water replenishing pump is provided with a water outlet, and the water outlet is connected with the ozone generator through the three-way joint.

6. The ozone preparation generating device with refrigerating function as claimed in claim 5, wherein the water replenishing pump is communicated with the top of the pure water barrel through the tee joint and comprises:

the water outlet is communicated with the top of the pure water barrel through the three-way joint.

7. The ozone generation device with refrigeration function as recited in claim 5, wherein the water outlet is communicated with the top of the pure water barrel through the three-way joint and comprises:

the water outlet is connected with the hydrogen port of the pure water barrel through the three-way joint.

8. A refrigerating-function ozone generating apparatus as claimed in any one of claims 1 to 7, wherein the connection of the bottom of the ozone generator to the bottom of the pure water tank via a pipe comprises:

the bottom of the ozone generator is connected with the bottom of the pure water barrel through a U-shaped pipeline.

9. A refrigerating-function ozone generation apparatus as recited in any one of claims 1 to 7 wherein said make-up water pump is provided with a water inlet which is communicated with said make-up water pump through a pipeline.

10. The ozone generation device with refrigeration function as claimed in any one of claims 1 to 7, wherein the top of the pure water tank is provided with an ozone port of the pure water tank for discharging the ozone stored in the pure water tank.

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