CN212559463U - Outdoor black and odorous river in-situ treatment ozone generator - Google Patents

Abstract

The utility model provides an outdoor ozone generator for in-situ treatment of black and odorous rivers, which is characterized in that an ozone generating pipe is arranged in a special radiating air duct, and the special radiating air duct can isolate the high temperature generated when the ozone generating pipe operates from influencing other systems in the ozone generator; the ozone generating pipe is cooled by concentrating airflow generated by the first cooling fan through the cooling air duct, and the airflow speed of the surface of the ozone generating pipe is improved by concentrating the airflow of the first cooling fan, so that the cooling effect of the ozone generating pipe is improved; through setting up the ozone generating pipe cooling structure to ozone generating pipe specially, in time distribute away the heat that ozone generating pipe produced, guarantee the ozone production efficiency of ozone generating pipe.

Description

Outdoor black and odorous river in-situ treatment ozone generator

Technical Field

The utility model relates to an ozone generating device, in particular to an outdoor ozone generator for treating black and odorous rivers in situ.

Background

The black and odorous river and lake water body in urban and rural areas is a water environment problem with strong reaction of common people in recent years, which not only damages the living environment of urban and rural people, but also seriously affects the construction of civilized cities. The urban and rural areas are distributed over river networks, residents generate a large amount of domestic sewage, rainwater and sewage in old urban areas of the urban and rural areas are not completely shunted, part of the domestic sewage is directly discharged into rivers and lakes or is discharged into the rivers and lakes along with the rainwater network, the pollution of water bodies in the rivers and lakes seriously exceeds the standard and is eutrophicated, part of algae in the rivers and lakes are propagated and consume dissolved oxygen in water, the water bodies are anoxic to cause death of aquatic animals and plants, and the rotting of dead bodies aggravates black and odorous water bodies.

At present, common measures for treating black and odorous rivers and lakes include methods such as sewage interception, microorganism addition, aeration, dredging and the like, but the methods have some defects such as secondary pollution, slow effect taking, even serious damage to a water ecosystem and the like.

Ozone is an oxidant with strong oxidizing power, and is decomposed to generate monatomic oxygen (O), hydroxyl free radical (OH) and other oxidation intermediates with strong oxidizing power in water treatment, and the oxidation intermediates react with organic and inorganic pollutants in sewage, so that the aims of deodorizing, decoloring and removing organic matters can be achieved. The oxygen atom has strong oxidizing ability and can quickly penetrate through the blue algae cells in water to kill the blue algae. Meanwhile, after the ozone is applied to water treatment, no secondary pollution is caused. The application of ozone in water treatment has a long history, and most water plants are applied at present.

Because the ozone generator can generate a large amount of heat energy during working and needs cooling, otherwise, part of ozone can be decomposed due to the high temperature of the ozone generating pipe, and the high temperature generated during the running of the ozone generator can affect other systems in the equipment. The existing ozone generator generally adopts air cooling, for example, patent CN210457470U, an external water-cooling and internal air-cooling ozone generator discloses that "an air cooling space is arranged between a quartz tube and an external electrode", but the single cooling obviously cannot satisfy the timely dissipation of heat, and especially the heat dissipation of an ozone generating tube influences the normal operation of the ozone generator.

Therefore, the prior art has yet to be improved.

Disclosure of Invention

An object of the utility model is to provide an ozone generator is administered to outdoor black smelly river gush normal position, aim at solving current ozone generator and adopt single cooling structure, can not satisfy thermal in time giving off, especially can not satisfy the problem that ozone generator pipe heat gave off.

The technical scheme of the utility model as follows: an outdoor ozone generator for black and odorous river in-situ treatment, comprising:

a cabinet housing;

at least one ozone generating pipe arranged in the box shell;

the ozone generator comprises a box shell, at least one high-voltage corona circuit module, an ozone generating pipe 2 and an ozone generator, wherein the box shell is provided with a box shell;

the air cooling structure is arranged in the box shell;

the ozone generating tube comprises an inner electrode, an outer electrode, a dielectric substance and an ozone generating tube cooling structure which is specially used for radiating the ozone generating tube, wherein the inner electrode is sleeved in the dielectric substance, the outer electrode is sleeved outside the dielectric substance, and a high-voltage corona gap is arranged between the inner electrode and the dielectric substance;

a heat dissipation air duct for independently separating the ozone generating tubes is arranged in the box shell, the ozone generating tubes and the air cooling structure are both arranged in the heat dissipation air duct, and the ozone generating tubes are arranged above the air cooling structure; the air cooling structure comprises a first heat dissipation fan arranged at the bottom of the heat dissipation air duct, an air inlet is formed in the bottom of the heat dissipation air duct, and an air outlet is formed in the side face of the upper portion of the heat dissipation air duct.

The outdoor black and odorous river in-situ treatment ozone generator is characterized in that the ozone generating pipe cooling structure comprises a cooling pipe, the cooling pipe is sleeved in a dielectric substance, and an inner electrode is covered outside the cooling pipe; the cooling pipe comprises a circulating cooling liquid inlet and a circulating cooling liquid outlet, and circulating cooling liquid is introduced into the cooling pipe.

Outdoor black smelly river gush normal position administer ozone generator, wherein, ozone takes place tub cooling structure still includes circulation immersible pump, circulation immersible pump and circulative cooling liquid entry intercommunication, circulation immersible pump and cooling circulation pond intercommunication, circulative cooling liquid export and cooling circulation pond intercommunication.

The outdoor black and odorous river in-situ treatment ozone generator is characterized in that the ozone generating pipe cooling structure comprises a radiator, and the radiator is sleeved outside the outer electrode.

The outdoor ozone generator for in-situ treatment of black and odorous rivers further comprises a high-voltage corona circuit module slot arranged in the box shell, and the high-voltage corona circuit module slot comprises a socket for inserting the high-voltage corona circuit module; the back of the high-voltage corona circuit module slot is provided with a high-voltage bus, and the high-voltage bus is connected to the quartz ozone generating tube.

The ozone generator is administered to outdoor black and odorous river normal position that gushes, wherein, still including the PLC circuit control system who is used for realizing automatic control, PLC circuit control system is connected with ozone generation pipe 2, and PLC circuit control system is connected with high voltage corona circuit module.

The outdoor black and odorous river in-situ treatment ozone generator further comprises an air inlet source filtering, dehumidifying and drying system for drying and filtering air and oxygen entering the quartz ozone generating pipe, and the air inlet source filtering, dehumidifying and drying system is arranged in the box shell.

Outdoor black smelly river normal position treatment ozone generator of gushing, wherein, the air inlet source filters dehumidification drying system including the oilless air compressor, U type condensation radiator, the compressed air precision filter who communicates in proper order, oilless air compressor and air inlet source intercommunication, compressed air precision filter and quartzy ozone emergence pipe intercommunication.

The outdoor black and odorous river in-situ treatment ozone generator further comprises a control panel, and the control panel is connected with a PLC circuit control system.

The outdoor black and odorous river in-situ treatment ozone generator comprises a box shell and a door body, wherein the box shell comprises a box body with an open front side, the door body is arranged on the front side face of the box body, a water stopping adhesive tape is pasted on the door body, and a circle of waterproof intercepting groove is arranged around the front side face of the box body.

The utility model has the advantages that: the utility model provides an outdoor ozone generator for in-situ treatment of black and odorous rivers, which is characterized in that an ozone generating pipe is arranged in a special radiating air duct, and the special radiating air duct can isolate the high temperature generated when the ozone generating pipe operates from influencing other systems in the ozone generator; the ozone generating pipe is cooled by concentrating airflow generated by the first cooling fan through the cooling air duct, and the airflow speed of the surface of the ozone generating pipe is improved by concentrating the airflow of the first cooling fan, so that the cooling effect of the ozone generating pipe is improved; through setting up the ozone generating pipe cooling structure to ozone generating pipe specially, in time distribute away the heat that ozone generating pipe produced, guarantee the ozone production efficiency of ozone generating pipe.

Drawings

Fig. 1 to fig. 2 are schematic diagrams of the outdoor black-odor river in-situ treatment ozone generator according to the present invention.

Fig. 3 to 5 are schematic diagrams of the internal structures of the outdoor black-odor river in-situ treatment ozone generator in different directions.

Figure 6 is the axial cross-section of the ozone generating tube of the present invention.

Fig. 7 is a schematic cross-sectional view of the utility model A-A.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" 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, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or reference letters in the various examples, which have been repeated for purposes of simplicity and clarity and do not in themselves dictate a relationship between the various embodiments and/or arrangements discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

As shown in fig. 1 to 5, an outdoor ozone generator for black-odor river in-situ remediation comprises:

a cabinet housing;

at least one ozone generating pipe 2 arranged in the case;

the ozone generator comprises at least one high-voltage corona circuit module 3, an ozone generator tube 2 and a control circuit, wherein the high-voltage corona circuit module 3 is arranged in a box shell;

the air cooling structure is arranged in the box shell;

the ozone generating tube 2 (as shown in fig. 6 and 7) comprises an inner electrode 21, an outer electrode 22, a dielectric substance 23 and an ozone generating tube cooling structure specially used for radiating heat for the ozone generating tube 2, wherein the inner electrode 21 is sleeved in the dielectric substance 23, the outer electrode 22 is sleeved outside the dielectric substance 23, and a high-voltage corona gap is arranged between the inner electrode 21 and the dielectric substance 23;

a heat dissipation air channel for independently separating the ozone generating tubes 2 is arranged in the box shell, the ozone generating tubes 2 and the air cooling structure are both arranged in the heat dissipation air channel, and the ozone generating tubes 2 are arranged above the air cooling structure; the air cooling structure comprises a first heat dissipation fan 4 arranged at the bottom of the heat dissipation air duct, an air inlet is formed in the bottom of the heat dissipation air duct, and an air outlet is formed in the side face of the upper portion of the heat dissipation air duct.

In the technical scheme, the ozone generating tube 2 is arranged in the special radiating air duct, and the special radiating air duct can isolate the influence of high temperature generated when the ozone generating tube 2 operates on other systems in the ozone generator; the ozone generating pipe 2 is cooled by concentrating the airflow generated by the first cooling fan 4 through the cooling air duct, and the airflow speed of the surface of the ozone generating pipe 2 is increased by concentrating the airflow of the first cooling fan 4, so that the cooling effect of the ozone generating pipe 2 is improved; through setting up the ozone generating pipe cooling structure to ozone generating pipe 2 specially, in time distribute away the heat that ozone generating pipe 2 produced, guarantee ozone generating pipe 2's ozone production efficiency.

In this embodiment, the first cooling fan 4 is a cooling fan with double ball bearings. The number of the first heat dissipation fans 4 is two, and the two first heat dissipation fans 4 are arranged at the bottom of the heat dissipation air duct side by side.

In this embodiment, the dielectric 23 is a quartz tube dielectric.

In this embodiment, the ozone generating tube 2 is a quartz ozone generating tube.

In which a high voltage corona gap is provided between the inner electrode 21 and the dielectric 23, air and oxygen are passed through the gap, oxygen atoms are separated from oxygen atoms by the high voltage corona, and the oxygen atoms are polymerized with oxygen to generate ozone.

In some embodiments, the ozone generating tube cooling structure can be implemented using, but not limited to, the following structures:

example 1: the liquid cooling mode is adopted, and the liquid cooling device comprises a cooling pipe 24, wherein the cooling pipe 24 is sleeved in a dielectric substance 23, and an inner electrode 21 is covered outside the cooling pipe 24; the cooling pipe 24 comprises a circulating cooling liquid inlet and a circulating cooling liquid outlet, and circulating cooling liquid is introduced into the cooling pipe 24.

In this embodiment, ozone generating pipe cooling structure still includes circulating submersible pump 25, circulating submersible pump 25 and recirculated cooling liquid entry intercommunication, circulating submersible pump 25 and cooling circulation pond intercommunication, recirculated cooling liquid export and cooling circulation pond intercommunication, the coolant liquid adopts the cooling water.

In this embodiment, the cooling pipe 24 is a stainless steel pipe.

Wherein, the water outlet of the circulating submersible pump 25 is input into the circulating cooling liquid inlet of the cooling pipe 24, and the cooling water is discharged from the circulating cooling liquid outlet after passing through the stainless steel cooling pipe 24 and flows back to the cooling circulating water pool.

Example 2: the radiator 26 is adopted, the radiator 26 is sleeved outside the outer electrode 22, and the ozone generating tube 2 is radiated through the radiator 26.

In this embodiment, the heat sink 26 is an aluminum alloy heat sink.

Here, embodiment 1 or embodiment 2 may be used alone, or may be used together with embodiment 1 and embodiment 2. In the technical scheme, the heat dissipation effect is further improved by matching with the embodiment 1 and the embodiment 2 for simultaneous use.

In some embodiments, the ozone generating channels 2 further comprise two insulating mounting brackets 27, one end of the cooling channel 24 being mounted to one of the insulating mounting brackets 27, and the other end of the cooling channel 24 being mounted to the other insulating mounting bracket 27.

In some embodiments, the outdoor black and odorous river in-situ treatment ozone generator further comprises a high-voltage corona circuit module slot 5 arranged in the box shell, and the high-voltage corona circuit module slot 5 comprises a socket for inserting the high-voltage corona circuit module 3. According to the capacity of the quartz ozone generating tube 2 of system configuration, can dispose 1 to 4 high voltage corona circuit module 3 on the high voltage corona circuit module slot 5 in a flexible way, the back of high voltage corona circuit module slot 5 is furnished with the high voltage bus, and high voltage bus is connected to quartz ozone generating tube 2 for connect quartz ozone generating tube 2 and high voltage corona circuit module 3.

In some embodiments, the outdoor black and odorous river in-situ treatment ozone generator further comprises a PLC circuit control system for realizing automatic control, the PLC circuit control system is connected with the ozone generating pipe 2, and the PLC circuit control system is connected with the high-voltage corona circuit module 3.

In some embodiments, a temperature detector is arranged on the aluminum alloy radiator 26 shell of the quartz ozone generating tube 2, and a signal wire for temperature detection is connected to a PLC circuit control system.

Wherein, the number of the quartz ozone generating tubes 2 can be set according to actual needs. In this embodiment, the number of the quartz ozone generating tubes 2 is 4, 4 quartz ozone generating tubes 2 are all arranged in a heat dissipation air channel, and the air channels of the 4 quartz ozone generating tubes 2 are connected in series, that is, the ozone output port of the first quartz ozone generating tube 2 is connected to the air source input port of the second quartz ozone generating tube 2, the ozone output port of the second quartz ozone generating tube 2 is connected to the air source input port of the third quartz ozone generating tube 2, the ozone output port of the third quartz ozone generating tube 2 is connected to the air source input port of the fourth quartz ozone generating tube 2, and the ozone output port of the fourth quartz ozone generating tube 2 is connected to the ozone output port of the system; the aluminum alloy radiator 26 shells of the 4 quartz ozone generating tubes 2 are all provided with a temperature detector, and the signal lines of the temperature detectors are connected to a PLC circuit control system for sampling, converting and comparing temperature signals.

Wherein, the PLC circuit control system can set the working state of the quartz ozone generating tube 2 according to the temperature on the aluminum alloy radiator 26 shell of the quartz ozone generating tube 2 and the environmental temperature through a system setting program, such as: (1) the first quartz ozone generating tube 2, the second quartz ozone generating tube 2, the third quartz ozone generating tube 2 and the fourth quartz ozone generating tube 2, 4 quartz ozone generating tubes 2 work in turn; (2) first quartzy ozone generation pipe 2 and second quartzy ozone generation pipe 2 are a set of, third quartzy ozone generation pipe 2 and fourth quartzy ozone generation pipe 2 are a set of, two sets of quartzy ozone generation pipe 2 work in turn, first quartzy ozone generation pipe 2, second quartzy ozone generation pipe 2, third quartzy ozone generation pipe 2 and fourth quartzy ozone generation pipe 2 are set for one of them quartzy ozone generation pipe 2 in turn and are out of work, first quartzy ozone generation pipe 2, second quartzy ozone generation pipe 2, third quartzy ozone generation pipe 2 and the quartzy ozone generation pipe 2 simultaneous workings of fourth. Through thus according to ambient temperature and the temperature of quartzy ozone generation pipe 2, thereby adjust the interval operating time of quartzy ozone generation pipe 2 and reduce the operating temperature of quartzy ozone generation pipe 2, improve the efficiency of system production ozone.

Because the outdoor black and odorous river in-situ treatment ozone generator is generally installed and applied to outdoor environments such as river and lake edges and the like, the environment of the application site is moist, the dust is large, the water vapor content in the air is high, the air separation efficiency is low, the ozone is not beneficial to rapid generation, the service life of the ozone generator and the efficiency of ozone production are influenced, in order to solve the problems, the outdoor black and odorous river in-situ treatment ozone generator further comprises an air inlet source filtering and dehumidifying drying system for drying and filtering the air and the oxygen entering the quartz ozone generating tube 2, the air inlet source filtering and dehumidifying drying system is arranged in a box shell, and the air inlet source filtering and dehumidifying drying system removes impurities such as dust, water and oil in the air entering the quartz ozone generating tube 2 and advancing.

In some embodiments, the inlet air source filtering, dehumidifying and drying system comprises an oil-free air compressor 61, a U-shaped condensing radiator 62 and a compressed air precision filter 63 which are sequentially communicated, wherein the oil-free air compressor 61 is communicated with an inlet air source (the inlet air source comprises an air inlet source and an oxygen inlet source), the compressed air precision filter 63 is communicated with the quartz ozone generating tube 2, and the oil-free air compressor 61 is connected with the PLC circuit control system: the gas of air inlet source gets into oil-free air compressor 61 earlier, export high temperature high pressure gas after oil-free air compressor 61 pressurizes, high temperature high pressure gas gets into in the U type condensation radiator 62 and cools down, after compressed gas cools down to the dew point, the water analysis in the gas, the gas that has moisture exports clean dry gas behind compressed air precision filter 63 and carries back level quartz ozone generating tube 2, and the moisture that separates out is outside the case shell by connecting at compressed air precision filter 63 delivery port after compressed air precision filter 63 separates.

In some embodiments, the compressed air precision filter 63 is provided in two stages, the two stages of compressed air precision filters 63 are connected in series, and the two stages of compressed air precision filters 63 are arranged side by side on the front surface of the U-shaped condensation radiator 62 (the front surface of the U-shaped condensation radiator 62 is the U-shaped concave surface of the U-shaped condensation radiator 62, and vice versa).

In some embodiments, the outlet of the compressed air precision filter 63 is connected to an electronic drain valve 64, and the electronic drain valve 64 controls the draining of the separated water.

In some embodiments, the inlet air source filtering, dehumidifying and drying system further includes a condensing fan disposed in the housing for assisting in cooling in cooperation with the U-shaped condensing radiator 62.

In this embodiment, the condensation fan adopts ball bearing cooling fan, and the condensation fan sets up two, and two ball bearing cooling fan set up the back at U type condensation radiator 62 side by side.

In some embodiments, the outdoor black and odorous river in-situ treatment ozone generator further comprises a second heat dissipation fan arranged in the box shell and used for dissipating heat.

In this embodiment, the second cooling fan adopts the ball bearing cooling fan, and the second cooling fan sets up two, and two ball bearing cooling fans set up side by side at the back of high-voltage corona circuit module slot 5 (the front of high-voltage corona circuit module slot 5 is the one side that begins to have the socket, and the one side that corresponds with it is the back).

In order to facilitate the control of the outdoor black and odorous river in-situ treatment ozone generator, the outdoor black and odorous river in-situ treatment ozone generator further comprises a control panel 7, and the control panel 7 is connected with a PLC circuit control system.

In some embodiments, the control panel 7 is provided with a system start switch, a system stop switch, an oxygen source pressure gauge, a power supply ammeter, an oxygen source adjustable glass rotameter, an air source adjustable glass rotameter, a power indicator, and a system start indicator.

In some embodiments, the cabinet comprises a cabinet body 11 with an open front side and a door body 12 arranged on the front side of the cabinet body 11, a water-stop adhesive tape is adhered on the door body 12, and a circle of water-stop grooves are arranged around the front side of the cabinet body 11; when the door 12 is closed, the door 12 and the front side of the box 11 simultaneously press the water stopping tape to prevent water from entering the box 11 from the gap, and the water stopping groove stops the water entering through the water stopping tape to guide the water to the outside of the box 11.

In this embodiment, the case shell is made of stainless steel.

In order to accelerate heat dissipation, a plurality of air holes are formed in the lower side surface of the box body 11; a plurality of louver type air vents are arranged on the rear side surface of the box body 11 from top to bottom in sequence; a plurality of louver type air vents are arranged on the left side surface or the right side surface of the box body 11 in sequence from top to bottom.

In some embodiments, the upper side of the housing 11 is provided in the form of a water accumulation prevention sloped roof.

In some embodiments, a water flooding prevention elevated foot rest is arranged at the bottom end of the box body 11.

In order to make the whole outdoor black and odorous river in-situ treatment ozone generator more compact, the box body 11 is divided into two independent spaces at the left and right, a heat dissipation air duct is arranged in the rear part of the right independent space, a circulating submersible pump 25 and a cooling circulating water pool are arranged in the front part of the right independent space, 4 quartz ozone generating pipes 2 and 2 first heat dissipation fans 4 are arranged in the heat dissipation air duct, wherein 2 first heat dissipation fans 4 are arranged on the lower side surface of the box body 11, the lower side surface of the box body 11 is provided with 2 air inlet through holes of the first heat dissipation fans 4, 2 first heat dissipation fans 4 are sequentially arranged in the heat dissipation air duct from bottom to top, the middle 2 quartz ozone generating pipes 2 are arranged side by side, the top is provided with two other quartz ozone generating pipes 2 arranged side by side, the air flow generated by the first heat dissipation fans 4 in the heat dissipation air duct is from bottom to top, then the air is discharged out of the case through a louver type air vent at the upper part of the right side surface of the case body 11;

the left independent space of the box body 11 is divided into three layers from top to bottom, and a control panel 7, two compressed air precision filters 63, a U-shaped condensation radiator 62 and two condensation fans are sequentially arranged in the upper layer from front to back; wherein, the two condensing fans are over against the U-shaped condensing radiator 62, and the two compressed air precision filters 63 are arranged in the inner concave surface of the U-shaped condensing radiator 62;

a high-voltage corona circuit module slot 5 and two second cooling fans are sequentially arranged in the middle layer from front to back, and the two second cooling fans are over against the back of the high-voltage corona circuit module slot 5;

an oil-free air compressor 61 and two electronic drain valves 64 are arranged at the lower layer, wherein the oil-free air compressor 61 is installed at the middle position of the lower layer, and 2 electronic drain valves 64 are installed on the wall at the right side of the lower layer.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

It is to be understood that the invention is not limited to the above-described embodiments, and that modifications and variations may be made by those skilled in the art in light of the above teachings, and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Reference numerals:

a case 11; a door body 12; an ozone generating tube 2; an inner electrode 21; an outer electrode 22; a dielectric 23; a cooling pipe 24; a circulating submersible pump 25; a heat sink 26; an insulating mounting bracket 27; a high voltage corona circuit module 3; a first heat dissipation fan 4; a high-voltage corona circuit module slot 5; an oil-free air compressor 61; a U-shaped condensing radiator 62; a compressed air precision filter 63; an electronic drain valve 64; and a control panel 7.

Claims (10)

1. An outdoor ozone generator for in-situ treatment of black and odorous rivers, which is characterized by comprising:

a cabinet housing;

at least one ozone generating pipe arranged in the box shell;

the ozone generator comprises a box shell, at least one high-voltage corona circuit module, an ozone generating pipe 2 and an ozone generator, wherein the box shell is provided with a box shell;

the air cooling structure is arranged in the box shell;

the ozone generating tube comprises an inner electrode, an outer electrode, a dielectric substance and an ozone generating tube cooling structure which is specially used for radiating the ozone generating tube, wherein the inner electrode is sleeved in the dielectric substance, the outer electrode is sleeved outside the dielectric substance, and a high-voltage corona gap is arranged between the inner electrode and the dielectric substance;

a heat dissipation air duct for independently separating the ozone generating tubes is arranged in the box shell, the ozone generating tubes and the air cooling structure are both arranged in the heat dissipation air duct, and the ozone generating tubes are arranged above the air cooling structure; the air cooling structure comprises a first heat dissipation fan arranged at the bottom of the heat dissipation air duct, an air inlet is formed in the bottom of the heat dissipation air duct, and an air outlet is formed in the side face of the upper portion of the heat dissipation air duct.

2. The outdoor black-odor river in-situ remediation ozone generator as claimed in claim 1, wherein the ozone generating pipe cooling structure comprises a cooling pipe, the cooling pipe is sleeved in a dielectric, and an inner electrode is covered and arranged outside the cooling pipe; the cooling pipe comprises a circulating cooling liquid inlet and a circulating cooling liquid outlet, and circulating cooling liquid is introduced into the cooling pipe.

3. The outdoor black and odorous river in-situ treatment ozone generator according to claim 2, wherein the ozone generating pipe cooling structure further comprises a circulating submersible pump, the circulating submersible pump is communicated with a circulating cooling liquid inlet, the circulating submersible pump is communicated with a cooling circulating water tank, and a circulating cooling liquid outlet is communicated with the cooling circulating water tank.

4. The outdoor black-odor river in-situ remediation ozone generator as claimed in any one of claims 1 to 3, wherein the ozone generating pipe cooling structure comprises a heat sink, and the heat sink is sleeved outside the outer electrode.

5. The outdoor black and odorous river in-situ treatment ozone generator according to claim 1, further comprising a high voltage corona circuit module slot arranged in the box shell, wherein the high voltage corona circuit module slot comprises a socket for plugging the high voltage corona circuit module; the back of the high-voltage corona circuit module slot is provided with a high-voltage bus, and the high-voltage bus is connected to the quartz ozone generating tube.

6. The outdoor black and odorous river in-situ treatment ozone generator according to claim 1, further comprising a PLC circuit control system for realizing automatic control, wherein the PLC circuit control system is connected with the ozone generating pipe 2 and the PLC circuit control system is connected with the high-voltage corona circuit module.

7. The outdoor black-odor river in-situ remediation ozone generator as claimed in claim 1, further comprising an inlet air source filtering, dehumidifying and drying system for drying and filtering air and oxygen entering the quartz ozone generation pipe, wherein the inlet air source filtering, dehumidifying and drying system is disposed in the cabinet.

8. The outdoor black and odorous river in-situ treatment ozone generator as claimed in claim 7, wherein the air inlet source filtering, dehumidifying and drying system comprises an oil-free air compressor, a U-shaped condensing radiator and a compressed air precision filter which are sequentially communicated, the oil-free air compressor is communicated with the air inlet source, and the compressed air precision filter is communicated with the quartz ozone generating tube.

9. The outdoor black and odorous river in-situ remediation ozone generator of claim 6, further comprising a control panel, wherein the control panel is connected with the PLC circuit control system.

10. The outdoor black and odorous river in-situ treatment ozone generator according to claim 1, wherein the box shell comprises a box body with an open front side and a door body arranged on the front side of the box body, a water-stop adhesive tape is adhered on the door body, and a circle of water-stop grooves are arranged around the front side of the box body.

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