CN110950307A - Novel ozone generator - Google Patents

Abstract

The invention relates to a novel ozone (O ₃) production device, which is a novel ozone generating plate (tube) formed by combining an insulating medium plate (tube) and a corona discharge electrode plate strip, and a novel ozone generating plate device powered by matching of an alternating-current high-voltage power supply.

Description

Novel ozone generator

Technical Field

The invention relates to a novel ozone (O)₃) The production device is a novel ozone generating plate (tube) formed by combining an insulating medium plate (tube) and a corona discharge electrode plate strip together, and the novel ozone generating plate device is supplied with power by matching an alternating-current high-voltage power supply.

Background

Ozone O₃Because the oxidation-reduction potential is as high as 2.07V, the composite oxide has the functional characteristic of strong oxidation, is the most ideal strong oxidant capable of rapidly degrading and harmlessly treating industrial smoke and industrial sewage, and is a special strong oxidant for disinfection and sterilization in urban waterworks and numerous production fields. Especially, the method has great demand on harmless treatment of industrial polluted flue gas and polluted water at present. Although there are many existing technologies for producing ozone, the electricity consumption is too high, so that the production cost of ozone is high, and the harmless treatment of industrial pollutants by using ozone is restricted! The applicant has applied for various new technical schemes for producing ozone in order to solve the problem, and now, the applicant submits a newly developed ozone generation technology to greatly improve the technical performance.

Disclosure of Invention

The invention provides a novel ozone generator technology and a manufacturing method thereof, aiming at overcoming the problems of high power consumption and the like of the existing ozone generator.

The technical scheme adopted by the invention for solving the technical problem is as follows:

the invention relates to a novel ozone generator, which is characterized in that a group of corona discharge electrode strips which are arranged in parallel and at intervals are respectively attached to the front plane and the back plane of an insulating medium plate, the two groups of corona discharge electrode strips are respectively attached to the front plane and the back plane of the insulating medium plate, but the two groups of corona discharge electrode strips are arranged in a staggered and corresponding manner, and are combined into the novel ozone generator, wherein the two groups of corona discharge electrode strips are mutually and non-overlapped.

After the power is switched on, because of the corona discharge electrode plate strips on the front plane and the back plane of the insulating medium plate, the corona discharge with the extension planes is generated between the insulating medium plates, and the high-energy particles of the corona discharge can ensure that oxygen O is arranged on the surface of the insulating medium plate₂Into two individual oxygen atoms O which combine with one another in a kinetic collision to form ozone O of three oxygen atoms O₃。

Secondly, in order to design the corona discharge electrode plate strips into a labyrinth airflow channel to ensure that oxygen can obtain more than ten times of ozone generation airflow channel distance within a limited distance, the method is to respectively attach and install a labyrinth airflow channel discharge electrode plate strip group on a front plane and a back plane of an insulating medium plate, the labyrinth airflow channel discharge electrode plate strip group is formed by arranging and combining the corona discharge electrode plate strips, although a layer of insulating medium plate is arranged between the discharge electrode plate strips of the labyrinth airflow channel combined on the front plane and the back plane, the two groups of corona discharge electrode plate strips are matched and installed in a staggered and non-overlapped way, each corona discharge electrode plate strip is a discharge electrode and is a separation strip forming the airflow channel, and the novel ozone generation plate with the labyrinth airflow channel electrode plate strip group is provided, when the flat plate type heat dissipation plate is combined and installed together, the labyrinth airflow channel becomes an ozone generation airflow channel which penetrates through two ends of the ozone generation plate and is overlong, so that oxygen has sufficient space to be converted into ozone. .

Thirdly, in order to collect and effectively reduce the ozone generated by a novel ozone generating plate, the invention respectively manufactures A-type and B-type heat dissipation plates, holes for installing air connectors are arranged at the two ends of the B-type heat dissipation plate, a novel ozone generating plate is respectively installed and fixed between the layers of the A-type and B-type heat dissipation plates by a special insulating sealing gasket, the novel ozone generating plate is mutually staggered and repeatedly laminated, an air flow channel generated by the ozone formed by the corona discharge electrode plate strips is arranged between the corona discharge electrode plate strips of the novel ozone generating plate and the heat dissipation plates, the special air connectors with the side holes arranged on the pipe wall are respectively and fixedly installed on the air connector holes at the two ends of the laminated B-type heat dissipation plates, the air connectors at the two ends of the B-type heat dissipation plates are communicated through the air flow channel on each ozone generating plate, and then a laminated multi-unit ozone generating block is formed, an output line of an alternating-current high-voltage power supply is electrically connected with the discharge electrode plate strip group on one side of each ozone generation plate through an A-type heat dissipation plate, a ground wire of the alternating-current high-voltage power supply is electrically connected with the discharge electrode plate strip group on the other side of each ozone generation plate through a B-type heat dissipation plate and is grounded, and the novel ozone generator capable of dissipating heat and cooling by using wind is formed.

After the circular telegram, oxygen gets into in the ozone generation integrated block from one end gas connector, when respectively through the overlength airflow channel on every ozone generation board, oxygen will be split into two independent oxygen atom O by novel ozone generation board discharge electrode group corona discharge, and single oxygen atom O will make up the ozone O who generates three oxygen atom O each other in the motion collision again₃And ozone generated between layers can be discharged from an air connector at the other end of the ozone generation integrated block.

Fourthly, the invention adopts the technical form of the novel matching combination of the insulating medium plate and the corona discharge electrode plate strip, and can be applied to manufacturing a novel ozone generating tube, the novel ozone generating tube is characterized in that a group of screw-shaped corona discharge electrode plate strips which are mutually corresponding, parallel and arranged at intervals are respectively attached to the inner wall and the outer wall of the insulating medium tube, although the two groups of screw-shaped corona discharge electrode plate strips are respectively attached to the inner wall and the outer wall of the insulating medium tube, the two groups of corona discharge electrode plate strips are arranged in a mutually staggered corresponding way and are arranged on the inner wall and the outer wall of the insulating medium tube in a non-overlapping way, thereby combining a novel ozone generating tube, the output discharge wire of the alternating current high voltage power supply is electrically connected with one group of the electrode plates on the ozone generating tube, the ground wire of the alternating current high voltage power supply is electrically connected with the other group of the discharge electrode plates on the ozone generating tube and is grounded, it is combined into a novel ozone generator.

After the power is switched on, corona discharge electrode strips on the front plane and the back plane of the insulating medium plate can generate surface extension corona discharge between the front plane and the back plane through the insulating medium pipe, oxygen can be split into two independent oxygen atoms O by high-energy particles of the corona discharge, and the single oxygen atoms O can be combined with each other in motion collision to generate ozone O of three oxygen atoms O₃。

Fifthly, in order to collect the ozone generated by the novel ozone generating tube and effectively reduce the heat dissipation, a metal tube is arranged and installed inside an insulating medium tube which is attached with a spiral corona discharge electrode plate strip on the inner wall and the outer wall, a spiral ozone generating airflow channel which penetrates through two ends of the novel ozone generating tube is formed between the metal inner tube and the inner wall of the insulating medium tube due to the existence of the spiral corona discharge electrode plate strip and a gap between the spiral corona discharge electrode plate strips, a metal tube is also arranged outside the insulating medium tube, a sealing blind plug is arranged in the metal inner tube between the metal outer tube and the outer wall of the insulating medium tube due to the existence of the spiral corona discharge electrode plate strip and the gap between the spiral corona discharge electrode plate strips, the novel ozone generating tube is formed by fixedly mounting an insulating medium tube and two ends of two metal tubes, wherein the air connectors at two ends of the ozone generating tube are communicated through various ultra-long spiral ozone generating airflow channels on the inner wall and the outer wall of the insulating medium tube, and the ozone generating airflow channels are communicated.

After electrification, when oxygen enters the overlength screw-shaped ozone generating airflow channel in the ozone generating tube from the air joint at one end, the oxygen is cracked by corona discharge and split into two single oxygen atoms O, and the single oxygen atoms O are combined with each other in motion collision to generate ozone O with three oxygen atoms O₃And the generated ozone is discharged from an air connector at the other end of the ozone generating tube.

The invention has the advantages that

1. The novel ozone generator can reduce the power consumption of ozone generation and greatly improve the concentration of ozone generation.

2. The novel ozone generator has the advantages of simple structure, low manufacturing cost and low operation cost, and is suitable for large-scale popularization and application.

The present invention will be further described with reference to the drawings and embodiments. The following examples are non-limiting examples of the present invention.

FIG. 1 is a schematic view of a novel ozone generating plate

FIG. 2 is a schematic view of an ozone generating panel with a metal lath attached thereto

FIG. 3 is a schematic diagram of a structure of a heat-dissipating-free ozone generator

FIG. 4 is a schematic view of an ozone generating plate having a labyrinth air flow passage

FIG. 5 is a schematic view of a specially made insulating gasket

FIG. 6 is a schematic view of the combination of an ozone generating plate and a specially made insulating gasket

FIG. 7 is a schematic view of an A-shaped heat sink

FIG. 8 is a schematic view of a B-shaped heat sink

FIG. 9 is a schematic view of a special type of air connector

FIG. 10 is a schematic view of a composite ozone integrated block composed of an ozone generating plate and a heat dissipating plate

FIG. 11 is a schematic cross-sectional view of FIG. 10

FIG. 12 is a schematic view of a D-shaped heat sink box

FIG. 13 is a schematic view of an integrated package composed of an ozone generating plate, a B-type heat dissipating plate and a D-type heat dissipating plate box

FIG. 14 is a schematic cross-sectional view of FIG. 13

FIG. 15 is a schematic view of a novel ozone generating tube in example 1

FIG. 16 is a schematic view of a novel ozone generating tube in example 2

FIG. 17 is a schematic view showing that a metal pipe is installed inside and outside a novel ozone generating pipe

FIG. 18 is a schematic view of an insulated fixed terminal with gas fittings

FIG. 19 is an ozone generation piping diagram mounted at an insulating fixed end

FIG. 20 is a schematic view of a large-sized water-cooled ozone generator composed of a novel ozone generating tube

FIG. 21 is a schematic view of a novel air-cooled ozone generating tube

FIG. 22 is a schematic view of an insulated fixed terminal with a water and gas dual terminal

FIG. 23 is a schematic view of a novel ozone generation tube using wind and water to dissipate heat

FIG. 24 is a schematic diagram of the power supply of the ozone generator

In the figure 1, a corona discharge electrode plate strip 2, an insulating medium plate 3, an A-type heat dissipation plate 4, a B-type heat dissipation plate 5, a metal plate strip 6, an insulating sealing gasket 7, an ozone generation channel 8, an air joint 9, an air joint mounting hole 10, a water joint 11, a water joint mounting hole 12, a D-type water heat dissipation box 13, an insulating medium pipe 14, a metal inner pipe 15, a metal outer pipe 16, a sealing blind plug 17, an insulating end 18 with an air joint, an insulating end 19 with a water joint and an air joint, a cooling fin 20, a sealing water tank 21, a sealing cover 22, an ozone generation pipe 23, a valve 24, an insulating plate strip 25 and a sealing box.

Detailed Description

Fig. 1 is a schematic view of a novel ozone generating plate, which is formed by respectively attaching and installing a set of parallel corona discharge electrode strips (1) made of conductive materials in the arrangement of intervals on a front plane and a back plane of an insulating medium plate (2), (the corona discharge electrode strips (1) can be printed on the insulating medium plate (2) by metallic paint, and the two sets of corona discharge electrode strips (1) are respectively attached on the front plane and the back plane of the insulating medium plate (2) in the sintering production process, but the two sets of corona discharge electrode strips (1) are staggered and arranged correspondingly, and the two sets of corona discharge electrode strips are not overlapped and combined into the ozone generating plate.

Figure 2 is a schematic view of an ozone generating panel fitted with metal strips on a corona discharge electrode strip (1) of an ozone generating panel. N metal laths (5) are uniformly arranged at intervals, and an insulating sealing strip (24) is also attached to the side edge of the ozone generating plate.

Fig. 3 is a schematic structural diagram of a heat-dissipation-free ozone generator, wherein an insulating sealing strip (24) is arranged on the side edge of the generator and is arranged above a group of corona discharge electrode battens (1). N ozone generating plates (23) provided with metal laths (5) are repeatedly laminated and combined together to form a multi-unit ozone generating block, 2 ozone generating blocks are arranged in a sealing box (25) with air connectors at two ends, and the upper gap, the lower gap, the left gap and the right gap of each ozone generating block, which are contacted with the sealing box (25), are sealed, so that the air connectors at two ends of the sealing box (25) can only be communicated through air channels (7) on the ozone generating plates, and the ozone generator without a heat dissipation device is combined.

Fig. 4 is a schematic view of an ozone generating plate with labyrinth air flow channels, wherein a set of corona discharge electrode strips (1) with labyrinth air flow channels are respectively attached and installed on the front plane and the back plane of an insulating medium plate (2), although a layer of insulating medium plate (2) is arranged between the labyrinth corona discharge electrode strips (1) on the front plane and the back plane, the corona discharge electrode strips (1) combined into the two sets of labyrinth air flow channels (7) are mutually staggered and non-overlapped for matching, and the labyrinth air flow channels (7) of each corona discharge electrode strip (1) form the air flow channels (7) penetrating through two ends of the ozone generating plate.

Fig. 5 is a schematic view of a specially made insulating gasket, which is a gasket (6) made of an insulating material, and the insulating gasket (6) not only ensures the sealing of the novel ozone generating plate (23), but also is provided with a hole (9) which is matched with the B-shaped heat dissipation plate (4) and can be provided with an air joint.

FIG. 6 is a schematic view showing the combination of an ozone generating plate and a special insulating gasket, wherein a special insulating gasket (6) is respectively installed on two planes of the ozone generating plate.

Fig. 7 is a schematic view of a type heat sink plate (3) made of a conductive material.

Fig. 8 is a schematic view of a B-type heat sink plate (4) made of a conductive material, and holes (9) for mounting air connectors are respectively formed at both ends of the B-type heat sink plate (4).

Fig. 9 is a schematic view of a special type of air connector (8) with lateral holes in the tube wall. The special air joint (8) can also be used as a water joint (9) for radiating the ozone generation integrated block.

Figure 10 is the ozone generating plate and the heat dissipating plate combined into an integrated block, which is formed by respectively installing and fixing a novel ozone generating plate in the layers of the A-type heat dissipating plate (3) and the B-type heat dissipating plate (4) which are mutually staggered and repeatedly laminated by a special insulating sealing gasket (6), and respectively fixedly installing special type air connectors (8) with side holes on the pipe wall on the air connector holes (9) at the two ends of the B-type heat dissipating plate (4) which are overlapped together to form a multi-unit ozone generating integrated block.

FIG. 11 is a schematic sectional view of the ozone generation integrated block shown in FIG. 10, wherein a special insulating gasket (6) is used to fix a novel ozone generation plate between the layers of the A-type heat dissipation plate (3) and the B-type heat dissipation plate (4) which are mutually staggered and repeatedly laminated, a special gas connector (8) with side holes on the tube wall is used to be respectively and fixedly installed on the gas connector holes (9) at the two ends of the B-type heat dissipation plate (4) which are laminated, the gas connectors (8) at the two ends of the B-type heat dissipation plate (4) are communicated with each other through the gas flow channels (7) of the ozone generation plates, and a multi-unit novel ozone generation integrated block is assembled.

Fig. 12 is a schematic view of a D-shaped heat dissipation box, which is a D-shaped heat dissipation box (12) made of conductive material and dissipating heat with water, and two ends of the D-shaped heat dissipation box (12) are respectively provided with a hole (11) for installing a water connector.

FIG. 13 is a schematic view of the integrated block composed of the novel ozone generating plate, the B-type heat dissipating plate and the D-type heat dissipating box, wherein the novel ozone generating plate is installed between the layers of the B-type heat dissipating plate (4) and the D-type heat dissipating box (12) which are mutually staggered and repeatedly overlapped by a special insulating gasket (6), the special air connectors (8) with side holes on the pipe wall are respectively installed and overlapped on the air connector holes (9) at the two ends of the B-type heat dissipating plate (4), and the special water connectors (10) with side holes on the pipe wall are respectively installed and overlapped on the water connector holes (11) at the two ends of the D-type heat dissipating box (12), so that the integrated block is composed of the multi-unit ozone generating block with the common heat dissipation of water and wind.

FIG. 14 is a schematic sectional view of the ozone generation manifold block shown in FIG. 13, in which a special insulating gasket (6) is used to install a novel ozone generation plate (23) between the layers of the B-type heat dissipation plate (4) and the D-type heat dissipation box (12) which are mutually staggered and repeatedly stacked, the special air connectors (8) with side holes on the pipe wall are respectively installed on the air connector holes (9) at the two ends of the B-type heat dissipation plate (4), the air connectors (8) at the two ends of the B-type heat dissipation plate (4) are communicated with each other through the air flow channels (7) of each ozone generation plate, the special water connectors (10) with side holes on the pipe wall are respectively installed on the water connector holes (11) at the two ends of the D-type heat dissipation box (12) which are stacked together, and the multi-unit ozone generation manifold block with the common heat dissipation of water,

fig. 15 is a schematic view of a novel ozone generating tube in accordance with embodiment 1, wherein a set of corona discharge electrode strips (1) corresponding to each other, arranged in parallel and spaced manner are respectively attached to the inner and outer walls of an insulating medium tube (13), although the two sets of corona discharge electrode strips (1) are respectively attached to the inner and outer walls of the insulating medium tube (13), the two sets of corona discharge electrode strips (1) are alternately arranged to match each other, and the two sets of corona discharge electrode strips (1) are not overlapped and are mounted on the inner and outer walls of the insulating medium tube (13), thereby forming a novel ozone generating tube.

Fig. 16 is a schematic view of a novel ozone generating tube 2, wherein a group of screw-shaped corona discharge electrode strips (1) which are arranged in parallel and at intervals are respectively attached to the inner wall and the outer wall of an insulating medium tube (13), although the two groups of screw-shaped corona discharge electrode strips (1) are respectively attached to the inner wall and the outer wall of the insulating medium tube (13), the two groups of screw-shaped corona discharge electrode strips (1) are arranged in a staggered and corresponding manner, and the two groups of screw-shaped corona discharge electrode strips (1) are arranged on the inner wall and the outer wall of the insulating medium tube (13) without overlapping, so as to form the novel ozone generating tube,

fig. 17 is a schematic view of installing a metal tube inside and outside the novel ozone generating tube, respectively, installing a metal tube inside the novel ozone generating tube, where the metal tube (14) and the insulating medium tube (13) are provided with a super-long ozone generating channel (7) formed by the spiral corona discharge electrode plate strips (1) and penetrating through both ends of the novel ozone generating tube (22), and installing a metal tube outside the novel ozone generating tube, where the metal tube is arranged between the metal outer tube (15) and the insulating medium tube (13), and the super-long ozone generating channel (7) formed by the spiral corona discharge electrode plate strips (1) and penetrating through both ends of the novel ozone generating tube (22), so that the concentration of generated ozone can be higher.

Fig. 18 is a schematic view of an insulated fixed terminal having an air terminal, which is made of an insulating material as an insulated terminal (17) having an air terminal.

FIG. 19 is a schematic view of an ozone generating tube mounted and fixed by an insulating fixing end with an air joint, wherein a sealing blind plug (16) is arranged in a metal inner tube (14) of the ozone generating tube, the sealing blind plug (16) ensures that two ends of the metal inner tube (14) are not communicated with each other, an insulating end (17) with an air joint is used for fixedly sealing an insulating medium tube (13) with two ends of the metal inner tube and a metal outer tube (15), the air joints (17) at two ends of the ozone generating tube are communicated through spiral air flow channels (7) on the inner wall and the outer wall of the insulating medium tube (13), and then the novel ozone generating tube is combined,

FIG. 20 is a schematic view of a large-scale water-cooled ozone generator composed of a novel ozone generating tube 22, in which two ends of the novel ozone generating tube 22 are installed on two end walls of a sealed water tank 20 at intervals, two end insulating ends 17 of the ozone generating tube 22 are extended out of the wall of the sealed water tank 20, so that the tube body of the ozone generating tube is immersed in the water of the sealed water tank 20, two sealing covers 21 are respectively provided on the wall of the two ends, the sealing covers 21 cover the insulating ends 17 of the ozone generating tube therein, an air valve 23 is provided on the sealing cover 21, the air valves 23 on the sealing covers at the two ends are communicated with each other through air flow passages 7 in the ozone generating tubes, and a heat dissipating water inlet valve and a heat dissipating water return valve are provided on the sealed water tank 20, the large water-cooled ozone generator is combined.

Fig. 21 is a schematic view of a novel air-cooled ozone generation tube, which is a novel ozone generation tube manufactured by mounting fins (19) arranged at intervals on the outer wall of a novel ozone generation tube (22) and cooling the novel ozone generation tube by air.

Fig. 22 is a schematic view of an insulated fixed terminal having two terminals, which is an insulated terminal (18) made of insulating material having an air terminal and a water terminal.

Fig. 23 is a new ozone generation pipe that dispels the heat jointly with wind and water and shows the intention, it installs new ozone generation pipe (22) fixedly with having two joint insulating fixed end (18), the air connector of insulating end (18) that makes ozone generation pipe both ends, it is intraductal through insulating medium, be linked together on the outer wall conducting strip interval gap passageway (7), the water connectors that make ozone generation pipe both ends insulating end (18) are linked together through metal inner tube (14), just make into the adoption wind and the new ozone generation pipe that the water dispels the heat and cools down jointly.

Fig. 24 is a power supply principle diagram of the ozone generator, wherein p is that an output line of an alternating-current high-voltage power supply is electrically connected with one discharge electrode strip (1) group on the insulating medium tube plate (2), and a ground line of the alternating-current high-voltage power supply is electrically connected with the other discharge electrode strip (1) group on the insulating medium tube plate and is grounded.

In the figure, S is that an output line of an alternating-current high-voltage power supply is electrically connected with one corona discharge electrode strip combination on an insulating medium plate (2) through a heat dissipation plate (3), and a ground wire of the alternating-current high-voltage power supply is electrically connected with the other corona discharge electrode strip combination (1) on the insulating medium plate (2) through a heat dissipation plate (4) and is grounded.

Claims (10)

1. The utility model provides a novel ozone generator, is an ozone generator board that is closed by insulating dielectric plate and corona discharge electrode lath combination and forms, is supplied power by the cooperation of AC high voltage power supply, its characterized in that: the novel ozone generator is characterized in that a group of corona discharge electrode strips which are arranged in parallel and at intervals are respectively attached to the front plane and the back plane of an insulating medium plate, the two groups of corona discharge electrode strips are respectively attached to the front plane and the back plane of the insulating medium plate, but the two groups of corona discharge electrode strips are arranged on the front plane and the back plane of the insulating medium plate in a mutually staggered, corresponding and non-overlapping mode and are combined together in a matching mode to form the novel ozone generator plate.

2. The novel ozone generator as claimed in claim 1, wherein N novel ozone generating plates are stacked and pressed together to form a multi-unit ozone generating integrated block, and the multi-unit ozone generating integrated block is installed in a sealed box and supplied with power by an AC high-voltage power supply, so as to form an ozone generator without heat dissipation, wherein: n metal strips are attached to corona discharge electrode strips of a novel ozone generating plate at intervals, insulating sealing strips are attached to the side edges of the ozone generating plate, N ozone generating plates are repeatedly overlapped and pressed together to form a multi-unit ozone generating integrated block, the N ozone generating integrated blocks are arranged in a sealing box, air connectors are arranged at two ends of each sealing box, the upper surface, the lower surface, the left surface and the right surface of each ozone generating block are respectively sealed with the contact surfaces of the sealing box, the air connectors at two ends of each sealing box can only form air flow channels through gaps among the metal strips on each ozone generating plate to be communicated, output lines of an alternating current high-voltage power supply are electrically connected with the discharge electrode strip group on one plane of each ozone generating plate, the ground lines of the alternating current high-voltage power supply are electrically connected with the electrode strip group on the other plane of each ozone generating plate and grounded, the ozone generator is combined into a novel ozone generator without heat dissipation.

3. The novel ozone generator according to claim 1 and 2, wherein the corona discharge electrode plate strips are combined into N labyrinth air flow channels, and are attached to the front and back planes of the insulating medium plate to form a novel ozone generating plate, and the novel ozone generating plate can be combined with a heat dissipation plate into various ozone generating integrated blocks to form a novel ozone generator which is supplied with power by matching an alternating current high voltage power supply, and is characterized in that: the novel ozone generating plate is characterized in that labyrinth airflow channel combinations formed by arranging corona discharge electrode plate strips are respectively attached and installed on a front plane and a back plane of an insulating medium plate, although a layer of insulating medium plate is arranged between the labyrinth airflow channel combinations on the front plane and the back plane at intervals, the two groups of corona discharge electrode plate strips are mutually staggered and non-overlapped to be installed in a matching mode, the labyrinth airflow channels are ozone generating airflow channels penetrating through two ends of the ozone generating plate, and the novel ozone generating plate can be combined with various heat radiating plates to form various types of ozone generating integrated blocks.

4. The novel ozone generator as claimed in claims 1, 2 and 3, wherein a novel ozone generating board and an air-cooled heat dissipating board are matched with each other to form a multi-unit ozone generating integrated block, and the air-cooled novel ozone generator is manufactured by supplying power from an alternating current high-voltage power supply, and is characterized in that: a type heat radiation plate and a B type heat radiation plate are respectively manufactured, a hole capable of installing an air joint is arranged at two ends of the B type heat radiation plate, a special insulating sealing gasket is used for installing and fixing a novel ozone generation plate between the layers of the A type heat radiation plate and the B type heat radiation plate which are mutually staggered and repeatedly laminated, as a labyrinth type airflow channel combined by corona discharge electrode plate strips exists between the novel ozone generation plate and the heat radiation plate, the ozone generation airflow channel penetrating through two ends of the ozone generation plate is obtained, a special type air joint with side holes formed in the pipe wall is respectively installed and fixed on the air joint holes at two ends of the B type heat radiation plate which are overlapped, the air joints at two ends of the B type heat radiation plate are communicated through the labyrinth type ozone generation airflow channels on each ozone generation plate, and a multi-unit ozone generation integrated block is formed by combining, an output line of an alternating current high-voltage power supply is electrically connected with the discharge electrode plate strip group on one side of each ozone generation plate through an A-type heat dissipation plate, and a ground wire of the alternating current high-voltage power supply is electrically connected with the discharge electrode plate strip group on the other side of each ozone generation plate through a B-type heat dissipation plate and grounded, so that the novel air-cooled ozone generator is formed.

5. The novel ozone generator as claimed in claims 1, 2, 3 and 4, wherein the novel ozone generating plate is installed between the air-cooled B-type heat dissipating plate and the water-cooled D-type heat dissipating box which are staggered and overlapped repeatedly, so as to form a multi-unit ozone generating integrated block, and the novel ozone generator is powered by the AC high-voltage power supply, so that the novel ozone generator with water and wind for heat dissipation together is formed, and is characterized in that: a D-shaped heat dissipation box capable of using water as heat dissipation liquid is manufactured, two ends of the D-shaped heat dissipation box are respectively provided with a hole capable of installing a water connector, a novel ozone generation plate is installed in each layer of a B-shaped heat dissipation plate and the D-shaped heat dissipation box which are mutually staggered and repeatedly overlapped by a special insulating sealing gasket, special water connectors with side holes are respectively installed on water connector holes at two ends of the D-shaped heat dissipation box which are overlapped, special gas connectors with side holes are respectively installed on gas connector holes at two ends of the B-shaped heat dissipation plate which are overlapped, gas connectors at two ends of the B-shaped heat dissipation plate are communicated through ozone generation gas flow channels on each ozone generation plate to form a multi-unit ozone generation discharge block, output lines of an alternating-current high-voltage power supply are electrically connected with a generator electrode plate strip group on one side of each ozone generation plate through the B-shaped heat dissipation plate, the ground wire of an alternating current high-voltage power supply is electrically connected and grounded with the discharge electrode plate strip group on the other side of each ozone generation integrated plate through a D-shaped heat dissipation plate, and the novel ozone generator for cooling by jointly dissipating heat with water and wind is formed.

6. The novel ozone generator according to claims 1, 2, 3, 4 and 5, wherein an insulating medium tube is matched with a corona discharge electrode plate strip to form a novel ozone generating tube, and the novel tubular ozone generator is supplied with power by matching of an alternating-current high-voltage power supply and is characterized in that: a group of screw-shaped corona discharge electrode strips which are mutually corresponding, parallel and arranged at intervals are respectively attached to the inner wall and the outer wall of an insulating medium tube, although the two groups of screw-shaped corona discharge electrode strips are respectively attached to the inner wall and the outer wall of the insulating medium tube, the two groups of screw-shaped corona discharge electrode strips are arranged in a staggered and corresponding mode, the two groups of screw-shaped corona discharge electrode strips are arranged on the inner wall and the outer wall of the insulating medium tube in a non-overlapping mode to form a novel ozone generating tube, an output line of an alternating current high-voltage power supply is electrically connected with one discharge electrode strip group on the insulating medium tube, and a ground line of an alternating current high-voltage power supply is electrically connected with the other discharge electrode strip group on the insulating medium tube and grounded, so that the novel tubular ozone generator is formed.

7. The novel ozone generator as claimed in claims 1, 2, 3, 4, 5 and 6, wherein a metal tube is respectively installed inside and outside the insulating medium tube for recovering the ozone generated by the novel ozone generating tube and effectively cooling the ozone inside and outside the insulating medium tube, and the metal tube is fixed by an insulating end and supplied with power by an ac high voltage power supply, so that the novel ozone generator is a tube-type novel ozone generator which can be used for cooling and cooling various types, and is characterized in that: a group of screw-shaped corona discharge electrode plate strips which are arranged at intervals are respectively attached to the inner wall and the outer wall of an insulating medium tube, a metal tube is arranged in the insulating medium tube, a screw-shaped ozone generation airflow channel which penetrates through two ends of the novel ozone generation tube is formed between the metal inner tube and the inner wall of the insulating medium tube due to the screw-shaped corona discharge electrode plate strips and the interval gaps of the screw-shaped corona discharge electrode plate strips, a metal tube is also arranged outside the insulating medium tube, a sealing blind plug is arranged in the metal inner tube, and two ends of the metal inner tube are not communicated with each other due to the screw-shaped corona discharge electrode plate strips and the interval gaps of the screw-shaped corona discharge electrode plate strips, the novel ozone generator is characterized in that an insulating end with an air joint is made of insulating materials, the insulating medium pipe and two ends of two metal pipes are fixedly installed, the air joints at the two ends of the ozone generating pipe are communicated through an ozone generating air flow channel on the inner wall and the outer wall of the insulating medium pipe, so that the novel ozone generating pipe is formed, an output wire of an alternating-current high-voltage power supply is electrically connected with a discharge electrode plate bar group on the inner wall of the insulating medium pipe through a metal inner pipe of the ozone generating pipe, a ground wire of the alternating-current high-voltage power supply is electrically connected with the discharge electrode plate bar group on the outer wall of the insulating medium pipe through a metal outer pipe of the ozone generating pipe and is grounded, and the novel tubular ozone.

8. The novel ozone generator as claimed in claim 1, 2, 3, 4, 5, 6, 7, wherein the novel ozone generating tube is assembled into a large ozone generator for heat dissipation and cooling by water, and the large ozone generator is supplied with power by the cooperation of an AC high voltage power supply, and the ozone generator is characterized in that: the two ends of a novel ozone generating tube are arranged on the two end box walls of a sealed water box at intervals, the insulating ends at the two ends of the ozone generating tube extend out of the box walls of the sealed water box, the tube body of the ozone generating tube is immersed in the water of the sealed water box, a sealing cover is respectively arranged on the box walls at the two ends, the insulating ends of the ozone generating tube are respectively covered in the sealing covers by the sealing covers, an air valve is arranged on each sealing cover, the air valves at the two ends of each sealing cover are communicated through air flow channels in each ozone generating tube in the covers, a heat dissipation water inlet valve and a heat dissipation water return valve are respectively arranged on and under the sealed water box, an output wire of an alternating-current high-voltage power supply is electrically connected with a corona discharge electrode plate strip group on the inner wall of an insulating medium tube through each metal inner tube of the ozone generating tube, a ground wire of the alternating-current high-voltage power supply is electrically connected with the corona discharge electrode plate strip group on each insulating medium tube outer wall through the metal outer, a large ozone generator which uses water for heat dissipation and cooling is formed.

9. The novel ozone generator as claimed in claim 1, 2, 3, 4, 5, 6, 7, 8, wherein a heat sink is installed on a novel ozone generating tube, and the novel ozone generating tube is assembled into an ozone generating tube for dissipating heat and cooling by wind, and is supplied with power by matching with an ac high voltage power supply, characterized in that: the novel ozone generator is characterized in that radiating fins are arranged at intervals and in parallel on a metal outer tube of the novel ozone generating tube, the novel ozone generating tube is manufactured to be cooled by wind, an output wire of an alternating-current high-voltage power supply is electrically connected with a discharge electrode plate strip group on the inner wall of an insulating medium tube through a metal inner tube of the ozone generating tube, a ground wire of the alternating-current high-voltage power supply is electrically connected with the discharge electrode plate strip group on the outer wall of the insulating medium tube through the metal outer tube of the ozone generating tube and is grounded, and the novel ozone generator for cooling by wind is formed.

10. The novel ozone generator of claims 1, 2, 3, 4, 5, 6, 7, 8, 9, wherein a novel ozone generating tube is installed as a novel ozone generating tube for heat dissipation and cooling by wind and water together, and is supplied with power by matching with an alternating current high voltage power supply, and is characterized in that: the novel insulating fixed end is manufactured, an air connector and a water connector are respectively arranged on the insulating fixed end, the insulating fixed end is mounted at two ends of an ozone generating tube without sealing blind plugs in a metal inner tube, the air connectors on the insulating end at two ends are communicated through spiral airflow channels in the insulating medium tube and on the outer wall of the insulating medium tube, the water connectors on the insulating end at two ends are communicated through the metal inner tube, an output wire of an alternating-current high-voltage power supply is electrically connected with a corona discharge plate bar group on the outer wall of the insulating medium tube through a metal outer tube, a ground wire of the alternating-current high-voltage power supply is electrically connected with the corona discharge plate bar group on the inner wall of the insulating medium tube through the metal inner tube and is grounded, and the novel tubular ozone generator capable of jointly dissipating heat through wind and water is formed.

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