CN113120865A - Novel ozone generator - Google Patents

Abstract

The invention relates to a novel ozone generating device for producing ozone (O ₃), which is characterized in that a corona discharge electrode plate strip is arranged on a positive plane and a negative plane of an insulating medium plate respectively in a special matching arrangement combination mode to form an open novel surface discharge ozone generating sheet, the novel ozone generating sheet is matched with an insulating screen dielectric sheet together to form an integrated module for generating ozone, and the integrated module can be very conveniently combined into various types of ozone generators, especially: the novel amplitude modulation type and pulse type alternating current high-frequency high-voltage power supply developed by the invention can not only supply invalid electric energy of various types of ozone generators to obtain larger reduction, but also has more obvious energy-saving and consumption-reducing effects, thereby greatly improving the concentration and the yield of ozone and enabling the ozone to be produced at low cost.

Description

Novel ozone generator

Technical Field

The invention relates to a method for producing ozone (O)₃) The novel ozone generating device is characterized in that the corona discharge electrode plate strips are arranged and combined in a special matching mode and are respectively arranged on a positive plane and a negative plane of an insulating medium plate, so that an open novel creeping discharge ozone generating sheet is formed, and the novel ozone generating sheet and a novel creeping discharge ozone generating sheet are usedThe insulating screen dielectric discs are matched together to form an integrated module for generating ozone, and the integrated module can be very conveniently combined into various types of ozone generators, particularly: the novel amplitude modulation type and pulse type alternating current high-frequency high-voltage power supply developed by the invention can not only supply invalid electric energy of various types of ozone generators to obtain larger reduction, but also has more obvious energy-saving and consumption-reducing effects, thereby greatly improving the concentration and the yield of ozone and enabling the ozone to be produced at low cost.

Background

Ozone O₃Because the oxidation-reduction potential is as high as 2.07V, the composite bactericide has extremely strong oxidation function characteristic, is an ideal strong oxidant which can rapidly carry out innocent treatment on industrial smoke and industrial sewage, and is a special-effect bactericidal disinfectant which has no side effect in urban water plants and a plurality of fields. In particular, the current industrial production of human society produces huge amount of industrial flue gas and sewage, which is harmless treatment with large amount of ozone. However, although there are many technical ways to produce ozone, the production cost is very high, and the yield and concentration are far from the actual demand, which greatly restricts the treatment of industrial pollution by ozone! In order to improve this state as soon as possible, the applicant has also studied this problem in recent years:

although the current power consumption for producing ozone in a kilogram has been improved over a hundred years from the first ten and a few degrees of electricity, now, it has been reduced to about six degrees of electricity, and it seems that the power consumption for producing ozone has been reduced to the limit! However, the index is based on the theory that only 0.82 KWH/kg of electric energy is needed, and the electric energy is far more than seven and eight times, so that the electricity is universal! "now, however, in the process for the production of ozone, it is rather so inferior that it is really a surprise!

The current main production mode of ozone is as follows: when oxygen passes through the gap of an ozone generating tube with more than one meter in length from an electric ion layer of high-voltage corona discharge, the oxygen is impacted by high-energy particles in the electric ion layer and is split into two independent oxygen atoms, and then the two oxygen atoms can be combined into ozone! However, in fact, after the oxygen molecules are bombarded by the high-energy particles released by corona discharge for tens of thousands of times in the channel, only a few percent of oxygen obtains cracking to generate ozone, and the oxygen molecules accounting for more than ninety percent are naturally exited after the high-energy particles in the ozone generating tube are bombarded and not cracked, which is really a surprise! Because the traveling speed of oxygen in the gap of the ozone generating tube is about 0.7m/s, the time of each oxygen molecule passing through the channel in the ozone generating tube is more than 1.5 seconds, and the frequency of the corona high-voltage alternating current is 16000hz/s, the number of times that each oxygen molecule is impacted by the high-energy particles released by corona discharge when passing through the channel in the ozone generating tube is only 16000X 1.5 times equal to 24000, actually, the oxygen molecule only needs to be impacted by the high-energy particles higher than 0.84 GV once, and can be immediately cracked into two single oxygen atoms, and ozone can be generated! Obviously, the ninety percent or more oxygen molecules are not attacked by the energetic particles with a GV of more than 0.84, otherwise, the majority of the oxygen molecules will not crack! This proves that: at present, the method for producing ozone is designed to be very unscientific, and firstly, the technical principle has very serious errors which can cause the technical performance of the ozone generator to be poor!

Major errors: because not every energetic particle generated by corona discharge of the ozone generator has the energy of impacting and cracking oxygen molecules, in fact, only a few energetic particles with the energy of impacting and cracking oxygen molecules are higher than 0.84 e V! The majority of other high-energy particles are those below 0.84 e V, which have the energy not only unable to crack the oxygen molecules by impact, but also destroy the generated ozone combination, because the energy of high-energy particles larger than 0.2e V can cause the ozone molecules to be immediately decomposed and destroyed if they collide with the generated ozone molecules! It is the release of these high energy particles below 0.84 e V in large quantities that is insufficient for ozone generation and is a nuisance!

Therefore, only by limiting the release of the high-energy particles below 0.84 e V to the maximum and greatly improving the release of the high-energy particles above 0.84 e V, the ozone O generated can be generated₃The concentration and the yield are really increased!

However, it is now clear that: the increase in corona discharge voltage is proportional to the release of energetic particles above 0.84 e V! However, because of the power consumption of the ozone generator, the generated high temperature heat is already a serious overload, and the voltage of the corona discharge cannot be increased to promote the quantity of the high energy particles above 0.84 e V!

This extremely delayed mode of production is therefore not brought about until today when production is continued!

Actually, the ozone generator is a capacitive load which is simple and can not be simple any more, only two corresponding corona discharge electrode groups are used for carrying out corona discharge to generate ozone, and the generated electricity consumption only consists of the following three parts:

1. the dielectric loss is caused by the equivalent capacitance between electrodes formed by arranging corona discharge electrodes of the ozone generator.

2. Is the loss of electrical power generated by corona discharge.

3. Is an extremely small loss in voltage drop due to negligible leakage current!

Because the structure of the ozone generator is really too simple, it seems that the dielectric loss generated by the equivalent capacitance of the ozone generator and the loss generated by the corona discharge are reduced greatly!

The invention content is as follows:

aiming at the problems, the invention develops a novel ozone generator which can greatly save energy and reduce power consumption and a manufacturing method thereof.

The technical measures developed by the invention are as follows:

the ozone generator with a novel arrangement and combination structure is designed:

1. firstly, designing an open type novel energy-saving high-yield ozone generation sheet with extremely small equivalent capacitance: further reducing the equivalent capacitance to a minimum from the structure, thereby minimizing the capacitance dielectric loss produced!

The novel energy-saving high-yield ozone generating sheet for creeping discharge is characterized in that a group of corona discharge electrode strips which are arranged in parallel at intervals and are electrically connected with each other are respectively arranged on a front plane and a back plane of an insulating medium plate, and between the two groups of corona discharge electrode strips, although the two groups of corona discharge electrode plates are respectively arranged on the front plane and the back plane of an insulating medium plate, the two groups of corona discharge electrode plates are mutually corresponding, mutually staggered and mutually non-overlapped to be arranged, the two groups of corona discharge electrode plates are jointly matched and combined into a novel ozone generating sheet for creeping discharge, the output line of an alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate on one plane of the ozone generating sheet, the ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate on the other plane of the ozone generating sheet and is grounded, and the novel ozone generator for creeping discharge is combined.

Because the corona discharge electrode strips are arranged in a special combined matching mode, the novel combined arrangement mode that edges correspond to edges is changed between two groups of corona discharge electrode strips from the traditional plane-to-plane structure mode! The combined structure of the arrangement can reduce the generated equivalent capacitance to minimum, and the loss of the insulating dielectric medium between two groups of corona discharge electrode strips is very small because the equivalent capacitance is greatly reduced!

Moreover, because the corona discharge electrode strips are arranged in a matched manner in an edge-to-edge manner, after the corona discharge electrode strips are electrified, corona flashover discharge along the surface can be generated on two adjacent corona discharge electrode strips, which is relatively smaller than impedance required to be overcome when the corona flashover discharge needs to pass through a gap between flat plates, and the corona flashover discharge along the surface is realized by bending over corona discharge depending on the surface of a medium, the corona starting voltage of the discharge type is very low, moreover, the corona discharge electrode strips are realized by corona discharge with sharp edges, and because the energy density of the sharp edges of the discharge electrodes is highly concentrated, electrons are easy to release from the sharp ends of the discharge electrodes, so the critical voltage of the sharp discharge is very low! Therefore, the consumption of electric power by corona discharge of the novel ozone generating sheet is reduced by a lot!

In particular: because the front and back planes of the novel energy-saving high-yield ozone generating sheet with the creeping discharge are arranged and designed by the same edge-to-edge, the front and back planes have the function of generating the creeping corona discharge at the same time, so that the front and back planes of the novel energy-saving high-yield ozone generating sheet have the capability of producing ozone, the loss of only one insulating dielectric medium is generated, and the output of the ozone can be multiplied!

After the power is switched on, more energetic particles higher than 0.84 e V can be released due to the point discharge, oxygen molecules can obtain more impact of the energetic particles higher than 0.84 e V, and therefore, oxygen O is generated₂The probability of splitting into two separate oxygen atoms O is even greater, and therefore, ozone O is generated₃And more so.

2. Developing a novel insulating screen media sheet:

the novel insulating screen medium sheet is characterized in that a screen sheet made of insulating materials is respectively attached to the front plane and the back plane of an insulating medium plate, and the screen sheet is combined to form the novel insulating screen medium sheet.

The novel ozone generation pieces are respectively installed among all layers of stacked novel insulating screen medium pieces together, a novel ozone generation integrated module is formed by matching and combining, N novel ozone generation integrated modules are arranged and installed in a sealing box, air connectors are respectively arranged at two ends of the sealing box, the upper side, the lower side, the left side and the right side, which are contacted with the sealing box, of each ozone generation integrated module are sealed, so that the air connectors at two ends of the sealing box are communicated only through gaps among screen intervals on all insulating screen medium pieces of the ozone generation integrated module, a novel ozone generator which is produced by liquid oxygen without heat dissipation is formed, the output line of an alternating-current high-frequency high-voltage power supply is respectively electrically connected with each corona electrode plate strip arranged on two sides of an odd-numbered insulating screen medium piece on the ozone generation integrated module, the ground wire of the alternating-current high-frequency high-voltage power supply is respectively electrically connected with each corona discharge polar plate group arranged on the two sides of the even number of insulating screen medium sheets on the ozone generation integrated module and is grounded,

the novel insulating screen medium sheet has the functions of: because the sieve is arranged in the channel, the oxygen does not pass through the channel in a straight line, when the oxygen passes through the gap of the sieve on the insulating medium sheet, the oxygen is repeatedly intercepted by the thread of the sieve, a plurality of airflow vortexes are generated, each oxygen molecule can be in contact with the surface discharge ion layer which is tightly attached to the surface of the insulating medium sheet, the oxygen molecule can be collided and cracked by the high-energy particles of more than 0.84 e V in the surface discharge ion layer, the ozone which is cracked into single oxygen atoms or is generated can be rapidly taken away from the surface discharge ion layer due to the airflow vortexes, the oxygen atoms are subsequent oxygen molecules, the positions where the oxygen atoms can be collided and cracked are timely vacated, and therefore, the opportunity that each oxygen molecule can be collided and cracked by the high-energy particles of more than 0.84 e V which are released by corona discharge can be realized, because the oxygen flow is constantly and repeatedly exchanged, the number of the oxygen molecules which are collided and cracked is greatly increased, and the concentration and the yield of the generated ozone are improved! Although, novel ozone generates piece also can be because corona discharge, and the production of heat can make ozone generate gas temperature rise, but because liquid oxygen temperature itself is very low, and novel ozone generates piece power consumption and descends by a wide margin, and the produced heat is not much, and the temperature rise of formation ozone is limited, if require ozone concentration when not high, can need not set up heat dissipation heat sink. If higher concentration is needed, an air conditioner condenser can be additionally arranged between the two ozone generation integrated modules, and the temperature can be directly reduced by using an air conditioner.

3. Research and develop a novel energy saving and consumption reduction ozone generator of air-cooled:

the invention relates to a novel energy-saving and consumption-reducing ozone generator which is developed by utilizing the advantages of low power consumption and less heat generation of a novel ozone generating sheet, has an extremely simple structure, can recover ozone and is a novel heat-radiating and air-cooling type ozone generator, and the method comprises the following steps: respectively manufacturing a heat dissipation plate with two specifications of an A type and a B type, respectively arranging and installing an insulating medium sheet on the front plane and the back plane of the A type heat dissipation plate and the B type heat dissipation plate, arranging a screen sheet made of insulating material on each insulating medium sheet, respectively arranging a hole capable of being provided with a special hollow screw bolt joint on the two ends of the B type heat dissipation plate, combining the A type insulating heat dissipation plate with an insulating screen medium sheet and the B type insulating heat dissipation plate, arranging a novel energy-saving high-yield ozone generation sheet between the layers of the A type insulating heat dissipation plate and the B type insulating heat dissipation plate which are repeatedly staggered and overlapped by using an insulating sealing gasket, arranging the holes at the two ends of the B type insulating heat dissipation plate which are overlapped together, and serially connecting and fixing the heat dissipation plates by using the special hollow screw bolt joints to ensure that the air joints at the two ends of the B type insulating heat dissipation plate are arranged, the novel air-cooled ozone generator can be formed only by communicating the gaps at intervals on the screen of each insulating heat dissipation plate. And the output line of the alternating-current high-frequency high-voltage power supply is respectively and electrically connected with each corona discharge polar plate strip group positioned on two sides of the A-type insulating heat dissipation plate, and the ground wire of the alternating-current high-frequency high-voltage power supply is respectively and electrically connected with each corona discharge polar plate strip group positioned on two sides of the B-type insulating heat dissipation plate and grounded.

4 research and develop a novel energy-saving consumption-reducing ozone generator with the common temperature reduction of wind and water:

a D-shaped heat dissipation box which has the same specification as an A-shaped heat dissipation plate and takes water as heat dissipation liquid is manufactured, an insulating medium sheet is arranged and installed on the front plane and the reverse plane of the D-shaped heat dissipation box, a screen sheet made of insulating material is arranged and installed on each insulating medium sheet, two ends of the D-shaped heat dissipation box are respectively provided with a hole capable of being provided with a special hollow screw bolt joint with a side hole, the D-shaped insulating heat dissipation box is combined, a novel energy-saving high-yield ozone generation sheet is installed between layers of the D-shaped insulating heat dissipation box and the B-shaped insulating heat dissipation plate which are overlapped in a repeated staggered mode through an insulating sealing gasket, the holes at two ends of the B-shaped insulating heat dissipation plate which are overlapped together are installed and fixed in series through the special hollow screw bolt joints with the side holes, so that the joints at two ends of the B-shaped insulating heat dissipation plate can only be communicated through gaps on the screen sheets on each insulating heat dissipation, the special hollow screw joint with the side hole and the sealing washer are used for serially mounting and fixing holes at two ends of the D-shaped insulating heat dissipation boxes which are overlapped together, so that the joints at two ends of the D-shaped insulating heat dissipation boxes are communicated in the insulating heat dissipation boxes, and a novel double-cooling ozone generator for cooling by jointly dissipating heat by using wind and water is formed. And the output line of the alternating-current high-frequency high-voltage power supply is respectively and electrically connected with each corona discharge polar plate strip group positioned on two sides of the B-type heat dissipation plate, and the ground wire of the alternating-current high-frequency high-voltage power supply is respectively and electrically connected with each corona discharge polar plate strip group positioned on two sides of the D-type insulating heat dissipation plate and grounded.

5. Research and develop an open type novel energy-saving consumption-reducing ozone generating tube:

the technical type that two groups of corona discharge electrode plate strips are specially arranged, matched and combined on an insulating medium sheet and are arranged and installed on the insulating medium tube can be used for manufacturing a novel open type ozone generating tube, the inner wall and the outer wall of the insulating medium tube made of insulating materials are respectively provided with a group of parallel and spaced spiral corona discharge electrode plate strips, the two groups of spiral corona discharge electrode plate strips are respectively arranged on the inner wall and the outer wall of the insulating medium tube, but the two groups of corona discharge electrode plate strips are arranged correspondingly, staggered and not overlapped with each other, the two groups of corona discharge electrode plate strips are jointly matched and combined to form the novel open type ozone generating tube, and the output line of an alternating current high-frequency high-voltage power supply is electrically connected with one corona discharge electrode plate strip group on the wall of the novel ozone generating tube, and electrically connecting the ground wire of the alternating-current high-frequency high-voltage power supply with the other corona discharge polar plate group on the wall of the novel ozone generation tube and grounding the ground wire.

6. Research and develop a novel energy-saving and consumption-reducing ozone generating tube:

an insulating medium pipe is arranged outside an open type ozone generating pipe, an insulating screen sheet is arranged in a gap between the insulating medium pipe and the outer wall of the open type ozone generating pipe, an insulating medium pipe is arranged inside a novel ozone generating pipe, an insulating screen sheet is arranged in a gap between the insulating medium pipe and the inner wall of the open type ozone generating pipe, a sealing blind plug is arranged in the insulating medium pipe, two ends of the insulating medium pipe are not communicated with each other through the sealing blind plug, an insulating end head with an air joint is used for installing and fixing the novel ozone generating pipe and two ends of the insulating medium pipe which are sleeved together, the air joints on the two insulating end heads are communicated only through the gap between the screens on the inner wall and the outer wall of the novel ozone generating pipe, and the novel ozone generating pipe with the recoverable ozone is combined, the output line of the alternating-current high-frequency high-voltage power supply is electrically connected with one corona discharge polar plate strip group on the ozone generating pipe wall, and the ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the other corona discharge polar plate strip group on the ozone generating pipe wall and is grounded.

7. Develops a novel energy-saving consumption-reducing ozone generator which uses water to dissipate heat,

the ozone generator is characterized in that two ends of a novel ozone generating pipe are arranged in parallel and are arranged on two end tank walls of a sealed water tank at intervals, two end insulating ends of the ozone generating pipe are extended out of the tank wall of the sealed water tank, a pipe body of the ozone generating pipe is immersed in water of the sealed water tank, two ends of the tank wall are respectively provided with a sealing cover, the sealing cover covers all air connectors on the insulating ends of the ozone generating pipe in the sealing cover, each sealing cover is provided with an air valve respectively, the air valves at two ends of the sealing cover are arranged in the novel ozone generating pipe respectively through the sealing cover, the interval gaps of screens on the outer wall of the novel ozone generating pipe are communicated, and the water-cooled ozone generator is formed by respectively arranging a heat dissipation water inlet valve and a heat dissipation water return valve on the sealed water tank. And the output line of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate strip group on the inner wall of each ozone generating tube, and the ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate strip group on the outer wall of each ozone generating tube and grounded.

8. Research and develop a novel energy-saving consumption-reducing ozone generating tube with double-cooling wind and water:

on the outer wall of a novel ozone generation pipe, the installation space is set, the annular radiating fins are arranged in parallel, sealing blind plugs in the inner pipe of the novel ozone generation pipe are cancelled, the insulating end with two connectors of gas and water is used, only one gas joint is arranged at the two ends of the novel ozone generation pipe to be fixed, gas joints on the two ends are enabled to be communicated only through the space gap of the screen between the outer wall and the novel ozone generation pipe, the water joints on the insulating medium ends at the two ends are enabled to be directly communicated through the insulating medium inner pipe, and the novel ozone generator with double cooling modes of wind and water common heat dissipation and cooling is combined. And an output line of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate strip group on the outer wall of the ozone generating tube, and a ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode plate strip group on the inner wall of the ozone generating tube and grounded.

Secondly, the power supply mode of the matched power supply of the ozone generator is thoroughly reformed, and the invalid power supply which is up to several times is reduced!

The ozone generator has extremely low ozone production efficiency, mainly supplies electric energy which is far greater than that actually required by production! Therefore, the power supply mode of the current ozone generator, which is a matched power supply, must be completely reformed, and the ineffective electric energy which is as high as several times is supplied to the ozone generator, so as to greatly reduce, and then the voltage of the corona discharge can be increased to release more high-energy particles above 0.84 GV!

1. The invention develops a novel amplitude modulation type alternating current high-frequency high-voltage power supply which is used as a matched power supply of an ozone generator to supply power.

The scheme is as follows: the amplitude modulation type alternating current high-frequency high-voltage power supply is applied to the wireless communication industry and is always used as a wireless data signal transmission device, after certain technical transformation, an alternating current control signal with certain frequency can be input into a modulator of the frequency converter, high-frequency alternating current generated by a high-frequency oscillator in the frequency converter can be modulated into amplitude modulation type alternating current high-frequency high-voltage electricity with a special waveform, the amplitude modulation type alternating current high-frequency high-voltage electricity with the special waveform is amplified by a power amplifier, the amplitude modulation type alternating current high-frequency high-voltage electricity with the special waveform is boosted by a high-voltage transformer, and then the amplitude modulation type alternating current high-frequency high-voltage power supply is combined into an amplitude modulation type alternating current high-frequency high-voltage power supply which can be used as a matched discharge power supply of various types of ozone generators for supplying power, and an output line of the amplitude modulation type alternating current high-frequency high-voltage power supply is electrically connected with a corona pole group, and the ground wire of the amplitude modulation type alternating current high-frequency high-voltage power supply is electrically connected with the other corona discharge electrode group of the ozone generator and is grounded.

The novel special power supply technical mode comprises the following steps: for example, 1000h z is inputted to the modulator of the frequency converter, so that for example 16000hz high frequency electricity generated by the AC oscillator in the frequency converter can be modulated into 1000h z amplitude modulation 16000hz high frequency AC electricity, then the amplitude modulation high frequency AC electricity outputted by the frequency converter is amplified by the power amplifier, then the amplitude modulation AC high frequency electricity with special waveform is boosted by the high voltage transformer, and is combined into the amplitude modulation AC high frequency high voltage power supply of the ozone generator,

after the power is switched on, because the amplitude modulation type high-frequency alternating current high-voltage electricity is applied to two corresponding corona discharge electrode groups of the ozone generator, 16 amplitude modulation type alternating current high-frequency waves are applied to the corona discharge electrode groups every millisecond, because more than half of the 16 alternating current high-frequency waves have the voltage peak value which is reduced by the amplitude modulation 1000h z control signal, the voltage peak value of a large half of the high-frequency waves is caused, the reduced voltage peak value is too low, the corona discharge between the corona discharge electrode groups can not be caused, at the moment, only a small part of the high-frequency wave voltage peak value can be caused, the corona discharge electrode groups can also be caused to generate the corona discharge, although the voltage value and the frequency output by the power supply are unchanged, at the moment, the power supply actually only has a small number of high-frequency alternating current high-voltage electricityThe frequency wave can produce corona discharge to obtain output, and the corona discharge produced by corona discharge electrode of ozone generator is not continuous corona discharge, but only several high-frequency waves per millisecond can produce corona discharge produced by corona discharge electrode of ozone generator, and it is an intermittent corona discharge, and its intermittent discharge time can be up to one half, and because of intermittent discharge, it can reduce electric energy output of power supply by a large half, and can greatly reduce heat quantity produced by power consumption of ozone generator, so that it can raise voltage of corona discharge to promote more high-energy particles above 0.84 e V to release, so that it can obtain the feasibility of making the produced ozone O₃The concentration and yield also increased.

The novel amplitude modulation type alternating current high-frequency high-voltage power supply not only can be used as a matched power supply of the novel ozone generator to supply power and can obtain extremely obvious energy-saving and consumption-reducing effects, but also can obtain extremely obvious energy-saving and consumption-reducing effects as long as the existing various types of ozone generators adopt the amplitude modulation type alternating current high-frequency high-voltage power supply to supply power,

2. research and develop a pulse type alternating current high-frequency high-voltage power supply: the power supply is used as a matched power supply of the ozone generator to supply power, so that the ozone generator has more remarkable effects of saving energy and reducing consumption.

A pulse type alternating current high-frequency high-voltage power supply is developed, and the method comprises the following steps: an amplitude modulation type AC high-frequency high-voltage power supply is further improved by changing the control signal into a switch control signal with a certain pause ratio (for example, we can adjust the pause ratio to be one to three) and inputting the signal into the modulator of the frequency converter, so that the high-frequency AC power of 16000hz, for example, oscillated by the AC generator can be modulated into a high-frequency pulse AC power output with the "one to three" pause ratio, and the high-frequency pulse AC power can be applied to two corona discharge electrode plate groups of the ozone generator after being boosted by the transformer!

After power-on, the intermittent high-frequency pulse ac high voltage electricity will cause an intermittent corona discharge to occur between two corona discharge electrode groups, since the intermittent ratio is adjusted to "one to three", then ac electricity such as 16000h z generated by ac oscillator in frequency converter can be adjusted to have only four high-frequency pulse waves per millisecond, output can be obtained through corona discharge, and meanwhile, between two corona discharge electrode plate groups, a time period of four intermittent stop discharges per millisecond will occur, and in each intermittent time period, output of three high-frequency pulse wave energy will be lost! This therefore results in a power supply that is effectively reduced by three quarters of the power output!

In this case, nominally a high-frequency wave of (for example) 16000Z is applied, but actually applied to the insulating medium, the frequency causing dielectric loss of the insulating medium plate is only a high-frequency wave of 4000Hz, and the frequency of the high-frequency wave is reduced by 12000Hz as the frequency is proportional to the dielectric loss, so that the dielectric loss is also greatly reduced! The power supply mode greatly reduces the output effective electric power under the conditions that the impedance value of the ozone generator is not changed and the output voltage value of the high-voltage power supply is not changed, thereby really solving the problem that the electric power supply of the ozone generator is far more than actually required, and leading the power consumption of the ozone generator to be thoroughly reduced!

Although the high frequency wave of the discharge is greatly reduced, because the wind speed of oxygen is considered in design, the wind speed is generally set to be about 0.7m/s, then, the width of each corona discharge electrode, even if the design is only 2mm, each oxygen molecule passes through the electro-ionic layer with only 2mm corona discharge per pass, since the wind speed is 0.7 mm/m s, each oxygen molecule will encounter 11 times of high energy particle impact cracking above 0.84 e V released by corona discharge of the discharge plate every millisecond (if the discharge plate strip is designed as shown in fig. 3, two-sided simultaneous discharge will have 22 times of high energy particle impact cracking above 0.84 e V), and in fact, each oxygen molecule only needs to be impacted by high energy particle above 0.84 e V once, which is enough to crack into two separate oxygen atoms. Because the high-energy particles are cracked into two independent oxygen atoms, the high-energy particles above 0.84 e V can be greatly increased, the oxygen cracking quantity is greatly improved, and the eddy current generated by a novel insulating screen media sheet can ensure that the high-energy particles cracked into two independent oxygen atoms and the generated ozone are quickly moved out of an electric ion layer and do not always occupy the electric ion layer to advance, so that most of oxygen cannot enter the electric ion layer, the impact of the high-energy particles above 0.84 e V cannot be obtained, and the oxygen can pass through a bore in vain, at present, because the eddy current can ensure that the oxygen is timely mixed and transposed, the high-energy particles above 0.84 e V can be utilized to the maximum extent, and effective impact can be carried out! More ozone is generated.

Has the advantages that:

1. because of the special arrangement and combination type of the discharge electrode strips on the novel energy-saving high-yield ozone generating sheet, the equivalent capacitance generated between the two groups of electrode strips is reduced to the minimum equivalent capacitance with the edge tips corresponding to each other, so that the power consumption generated by the insulating medium is reduced to the minimum!

2. Because the discharge lath of the novel energy-saving high-yield ozone generation sheet is changed into the discharge lath with the discharge electrode lath edge and the edge corresponding to each other to carry out the creeping discharge, the starting voltage of the creeping discharge is very low, the edge of the discharge polar plate edge carries out the point discharge type to the edge to carry out the creeping discharge at present, so that the starting voltage of the corona discharge is further reduced, and more high-energy particles above 0.84 e V are released due to the point discharge, which means that: the ozone generated by the corona discharge occurring along the surface will be considerably more!

3. Because of the special arrangement and combination type of the discharge strip on the novel energy-saving high-yield ozone generating piece, the positive and negative planes on the ozone generating piece can generate corona discharge simultaneously, thus creating the special remarkable effect that only one medium is used for loss, and the double ozone yield can be obtained!

4. Because of the invention of the insulating screen medium piece, oxygen can not pass through the gas channel any more, because the gas flow can be repeatedly intercepted by the screen thread, the gas flow vortex can be generated, each oxygen molecule can obtain the opportunity to be contacted with the point discharge generated by the discharge electrode lath tightly adhered on the insulating medium piece, the opportunity of the collision and cracking of the released high-energy particles of more than 0.84 e V is provided, thereby the production concentration and the yield of ozone are greatly improved!

The development of the dielectric sheet of the insulating screen also greatly improves the utilization rate of input oxygen, one kilogram of ozone is produced in the past, ten cubic oxygen needs to be consumed, and the oxygen consumption can be reduced to less than one half at present!

5. The biggest contribution of the invention is as follows: the pulse type high-frequency alternating-current emission power supply and the amplitude modulation type high-frequency alternating-current emission power supply which are used for wireless data signal transmission are always applied to a telecommunication wireless industry system and are firstly transformed into a power supply matched with an ozone generator for supplying power. Therefore, under the condition of ensuring that the corona discharge voltage value and the load impedance value of the power supply are not changed, the invalid electric power output can be greatly reduced, thereby thoroughly solving the problem that the supply of electric energy is far greater than the actual demand! Especially, the special arrangement combination type of the discharge strip on the novel ozone generation sheet can be redesigned, the corona loss and the medium loss of the ozone generator are greatly reduced, and the special matching power supply mode can further greatly reduce the corona loss and the medium loss! Furthermore, the voltage of corona discharge is increased to promote more high-energy particles above 0.84 e V to be released, so that the concentration of ozone production can easily reach 300mgo₃/m³o₂Above, the generated ozone O is also generated₃The yield can reach the multiplication effect. Because the ozone can be produced at low cost, the harmless treatment cost of the ozone to the industrial waste gas and the sewage can be greatly reduced! Greatly promoting the human society to obtain complete solution to the long-lasting industrial pollution in the field!

7. Because the power consumption of the novel ozone generator is greatly reduced, the requirement on heat dissipation setting is greatly reduced, and generally, only wind needs to be adopted for heat dissipation and temperature reduction, thereby thoroughly eliminating the great trouble of heat dissipation by water!

8. The discharge strip on the open type novel energy-saving high-yield ozone generating sheet is specially arranged, so that the structure of the novel energy-saving high-yield ozone generating sheet is extremely simple, and the novel energy-saving high-yield ozone generating sheet can be conveniently combined into an integrated module for combining and manufacturing various large ozone generators. In addition, the ozone generator has extremely low construction cost and running cost, and is more suitable for rapid popularization and application. Therefore, the process of treating industrial pollution by human society can be greatly accelerated!

Description of the drawings:

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 example 1 of a novel ozone generating sheet by creeping discharge

FIG. 2 is a schematic view of example 2 of a novel ozone generating sheet by creeping discharge

FIG. 3 is a schematic view of example 3 of a novel ozone generating sheet by creeping discharge

FIG. 4 is a schematic representation of an embodiment of an insulating screen media sheet

FIG. 5 is a schematic diagram of a chip ozone generator

Figure 6 is a schematic diagram of an ozone generator with an air conditioner condenser for heat dissipation,

FIG. 7 is a schematic sectional view of FIG. 6

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

FIG. 9 is a schematic view of a B-type heat sink

FIG. 10 is a schematic view of a special hollow bolt joint with a side hole

FIG. 11 is a schematic view of an insulating gasket

FIG. 12 is a schematic view of a plate-type air-cooled ozone generator

FIG. 13 is a schematic cross-sectional view of FIG. 12

FIG. 14 is a schematic view of a combined air-cooled ozone generator

FIG. 15 is a schematic view of a D-shaped liquid heat dissipation case

FIG. 16 is a schematic view of an ozone generator with wind and water double-cooling type,

FIG. 17 is a cross-sectional view of FIG. 16

FIG. 18 is a schematic view of a novel open type ozone generating tube

FIG. 19 is a schematic view of an insulated fixed terminal with gas fittings

FIG. 20 is a schematic view of an embodiment of a novel ozone generation tube

FIG. 21 is a schematic view of an embodiment of a novel water-cooled ozone generator with an assembled ozone generating tube

FIG. 22 is a cross-sectional view of FIG. 21

FIG. 23 is a schematic view of an air-cooled ozone generating tube

FIG. 24 is a schematic view of an insulated fixed terminal with gas and water connectors

FIG. 25 is a schematic view of an embodiment of an ozone generator with air and water double cooling

FIG. 26 is a schematic diagram of a conventional high-frequency high-voltage power supply

Fig. 27 is a schematic diagram of a novel amplitude modulation type high-frequency high-voltage power supply

Fig. 28 is a schematic diagram of a novel pulse type high-frequency high-voltage power supply

In the figure 1, a corona discharge electrode plate strip 2, an insulating medium plate 3, an insulating screen 4, an A-shaped insulating heat dissipation plate 5, a B-shaped heat dissipation plate 6, an insulating gasket 7, a sealing box 8, an air connector 9, a water connector 10, a special hollow screw connector 11 with a side hole, a connector mounting hole 12, a D-shaped water heat dissipation box 13, an insulating medium tube 14, a sealing cover 15, an insulating end head 16, a sealing blind plug 17, a cooling fin 18, an air valve 19, a water valve 20, an air conditioner condenser 21, a modulation signal generator 22, a high-frequency oscillator 23, a modulator 24, a power amplifier 25, an amplitude modulation wave 26 and a switch control signal generator

The specific implementation mode is as follows:

FIG. 1 is a schematic view of example 1 of a novel creeping discharge ozone generating sheet, which is a low-power ozone generating sheet, in the figure, A, a discharge electrode plate strip (1) is arranged on the front surface of an insulating medium plate (2), in the figure B, two discharge electrode strips (1) are arranged on the reverse side of the insulating medium plate (2), the two discharge electrode strips (1) are corona discharge electrode strips (1) which are arranged in parallel with and at intervals corresponding to the two side edges of the discharge electrode strip arranged on the front side, although the two groups of corona discharge electrode laths (1) are respectively attached to the front plane and the back plane of the insulating medium plate (2), however, the two groups of corona discharge electrode strips (1) are mutually corresponding and staggered, and are combined into a small-sized creeping discharge ozone generating sheet without overlapping each other.

Fig. 2 is a schematic diagram of a novel ozone generating sheet of creeping discharge example 2, wherein a set of corona discharge electrode strips (1) corresponding to each other, arranged in parallel and spaced are respectively arranged on the front and back planes of an insulating medium plate (2), although the two sets of corona discharge electrode strips (1) are respectively attached to the front and back planes of the insulating medium plate (2), the two sets of corona discharge electrode strips (1) of a and B are respectively corresponding in a single side and arranged in a staggered manner, and the novel ozone generating sheet of creeping discharge is formed by combining the two sets of corona discharge electrode strips (1) which are not overlapped with each other.

Fig. 3 is a schematic diagram of a novel ozone generating sheet of creeping discharge example 3, wherein a set of corona discharge electrode strips (1) corresponding to each other, arranged in parallel and spaced are respectively arranged on the front and back planes of an insulating medium plate (2), although the two sets of corona discharge electrode strips (1) are respectively attached to the front and back planes of the insulating medium plate (2), two bilateral sides of the two sets of corona discharge electrode strips (1) correspond to each other and are arranged in a staggered manner, and a novel ozone generating sheet of creeping discharge is formed by combining the two sets of corona discharge electrode strips which are not overlapped with each other.

Fig. 4 is a schematic view of an insulating screen medium sheet, in which a screen sheet (3) made of an insulating material is respectively disposed on the front and back planes of an insulating medium plate (2), so as to form an insulating screen medium sheet.

Fig. 5 is a schematic diagram of a principle of a sheet-type ozone generator, wherein a novel ozone generating sheet is installed between two insulating screen media sheets (2), two sides of the novel ozone generating sheet are sealed, so that oxygen can only enter from a gap between one ends of screen sheets (3) and is discharged from a gap between one ends of other screen sheets (3), when the oxygen passes through the gap between the screen sheets (3), the oxygen is intercepted by the screen sheets to generate vortexes, and the vortexes can bring the oxygen into corona dischargeIn the electric ion layer generated by the discharge of the electrode plate strip (1), the high-energy particles in the electric ion layer can crack oxygen molecules by impact, thereby leading the oxygen O₂Into two separate oxygen atoms O, which are combined into ozone O of three oxygen atoms O during collision₃. The vortex also quickly carries the generated ozone out of the ion layer to give the best position for the rear oxygen.

Fig. 6 is a sectional view of an ozone generating integrated module, in which novel ozone generating sheets are respectively installed between layers of an insulating screen medium sheet to be combined into an ozone generating integrated module which is stacked one on another.

Fig. 7 is a schematic sectional view of an ozone generator for dissipating heat by using an air conditioner condenser, wherein air connectors (8) are respectively arranged at two ends of a sealing box (7), an air conditioner condenser (20) is arranged and installed between two ozone generation integration modules, the upper surface, the lower surface, the left surface and the right surface of the sealing box (7) with the ozone generation integration modules are sealed, the air connectors (8) at two ends are communicated only through screen gaps in the ozone generation integration modules, and the ozone generator for dissipating heat by using the air conditioner condenser is combined.

Fig. 8 is a schematic view of an a-type insulating heat sink plate, in which an insulating dielectric plate (2) is respectively installed on the front and back planes of a metal heat sink plate, and a screen sheet (3) made of an insulating material is further installed on each insulating dielectric plate (2), so that an a-type insulating heat sink plate (4) of a special form is manufactured.

Fig. 9 is a schematic view of a B-type insulating heat sink plate, in which two ends of a metal heat sink plate are respectively provided with an air connector mounting hole (11), two front and back planes of the heat sink plate are respectively provided with an insulating medium plate (2), and a screen sheet (3) made of an insulating material is further respectively arranged on the insulating medium plate (2), so that a B-type insulating heat sink plate (5) of a special form is manufactured.

Fig. 10 is a schematic view of a special hollow bolt joint with a side hole, and is a special hollow bolt (10) with a side hole with a communication joint. The water and the gas which can be used for the novel ozone generator are combined, installed and connected.

Fig. 11 is a schematic view of an insulating sealing gasket, which is an insulating sealing gasket (6) formed by an insulating material and installed in cooperation with a novel energy-saving high-yield ozone generation sheet.

Fig. 12 is a schematic view of an air-cooled plate type ozone generator, which is formed by respectively installing and fixing novel energy-saving high-yield ozone generation plates between the layers of the A-type insulating heat dissipation plate (4) and the B-type insulating heat dissipation plate (5) which are mutually staggered and repeatedly laminated, and installing and fixing the laminated B-type insulating heat dissipation plate (5) by using a special hollow bolt joint (10) with a special side hole.

Fig. 13 is a schematic cross-sectional view of fig. 12, which is a sectional view of an air-cooled ozone generator assembled by using a special insulating gasket (6) to fix a novel energy-saving high-yield ozone generating sheet between layers of an a-type insulating heat dissipating plate (4) and a B-type insulating heat dissipating plate (5) which are mutually staggered and repeatedly laminated, and using a special hollow bolt joint (10) with a special side hole to respectively penetrate through joint holes (11) arranged at two ends of the B-type insulating heat dissipating plate (5) to fix the laminated ozone generating sheet and the heat dissipating plate, so that the special hollow bolt joints (10) with side holes are arranged at two ends of the B-type insulating heat dissipating plate (5) and are communicated only through gaps between screens on the heat dissipating plate.

FIG. 14 is a schematic view of a combined air-cooled ozone generator, which is assembled by connecting two sets of integrated modules in series.

Fig. 15 is a schematic view of a D-shaped insulating heat dissipation box, which is a D-shaped insulating heat dissipation box (12) made of metal and having the same specification as the a-shaped insulating heat dissipation plate (4) and using water as a heat dissipation liquid, two ends of the D-shaped insulating heat dissipation box (12) are respectively provided with a hole (11) capable of being provided with a special hollow bolt joint (10) with a side hole, two insulating medium plates (2) are respectively arranged and mounted on the front plane and the back plane of the heat dissipation plate, and a screen sheet (3) made of an insulating material is further respectively arranged and mounted on the insulating medium plates (2), so that the D-shaped insulating heat dissipation box (12) in a special form is combined.

Fig. 16 is a schematic view of an integrated module type air and water double-cooling ozone generator composed of an ozone generating sheet, a B-type insulating heat dissipating plate (5) and a D-type insulating heat dissipating plate box (12).

FIG. 17 is a schematic cross-sectional view of FIG. 16, which shows the novel energy-saving high-yield ozone generating sheet with insulating gasket (6) installed between the layers of the B-type insulating heat dissipating plate (5) and the D-type insulating heat dissipating box (12) which are interlaced and repeatedly stacked, the holes (11) at two ends of the D-shaped insulating heat dissipation plate (12) which are overlapped together are fixedly installed through a sealing washer and a special hollow bolt connector (10) with a side hole, so that water connectors (9) at two ends can only be communicated in a heat dissipation box, the holes (11) at two ends of the B-shaped insulating heat dissipation plate (5) which are overlapped together are fixed through the special hollow bolt connector (10) with the side hole, and air connectors (8) at two ends of the B-shaped insulating heat dissipation plate (5) can only be communicated through gaps between screens (3) on the heat dissipation plate, so that the novel ozone generator which adopts water and wind to commonly dissipate heat and cool is formed by combination.

Fig. 18 is a schematic view of a novel open type ozone generating tube, wherein two sets of screw-type corona discharge electrode strips (1) are respectively arranged and installed on the inner wall and the outer wall of an insulating medium tube (13), the two sets of corona discharge electrode strips (1) are respectively installed on the inner wall and the outer wall of the insulating medium tube (13), but the two sets of corona discharge electrode strips (1) are mutually corresponding and staggered, and are mutually non-overlapping to form the open type novel ozone generating tube.

Fig. 19 is a schematic view of an insulating fixing terminal provided with an air connector, which is an insulating fixing terminal (15) for installing and fixing an ozone generating tube composed of an insulating material, and an air connector (8) is further provided on the insulating fixing terminal (15).

FIG. 20 is a schematic view of an embodiment of a novel ozone generation tube, wherein an insulating medium tube (13) is respectively arranged and installed inside and outside the novel ozone generation tube, an insulating screen sheet (3) is also arranged and installed in a gap between an insulating medium outer tube and the outer wall of the novel ozone generation tube, an insulating screen sheet (3) is also arranged and installed in a gap between an insulating medium inner tube and the inner wall of the novel ozone generation tube, meanwhile, a sealing blind plug (16) is arranged in the insulating medium tube, the two ends of the insulating medium inner tube are not communicated with each other through the sealing blind plug (16), and the novel ozone generation tube is installed and fixed with the two ends of the inner and outer insulating medium tubes (13) through an insulating fixing end head (15) with a gas joint (8), so that the gas joints (8) on the two insulating fixing end heads (15) can only pass through the novel ozone generation tube, The gaps between the screen sheets (3) on the outer wall are communicated. A novel ozone generation tube is manufactured.

FIG. 21 is a schematic view showing an embodiment of a water-cooled ozone generator assembled with a novel ozone generating tube, which can be installed as a large water-cooled ozone generator as well as an old-fashioned ozone generating tube, wherein a water valve (19) is respectively arranged on the upper and lower sides of a sealing box body (7) of the large water-cooled ozone generator, and an air valve (18) is respectively arranged on sealing covers (20) at both ends, so that the large water-cooled ozone generator is assembled.

Fig. 22 is a sectional view of fig. 21, which is to install two ends of a novel ozone generating tube at the wall of two ends of a sealed water tank (13) in a spaced and parallel arrangement manner, and to extend the two end insulating ends (15) of the novel ozone generating tube out of the wall of the sealed water tank (13), so that the tube body of the ozone generating tube is immersed in the water of the sealed water tank (13), and to provide a sealed cover (20) on the wall of the two ends, respectively, and to provide an air valve (18) on the sealed cover (20), wherein the two air valves (18) are communicated with each other through the gap between the screen meshes in each ozone generating tube, and to provide a heat dissipation water inlet valve (19) and a heat dissipation water return valve (19) on the upper and lower sides of the sealed water tank (13), respectively, thereby combining a large-scale water-cooled ozone generator.

Fig. 23 shows an embodiment of the air-cooled novel ozone generating tube, wherein annular cooling fins are arranged on the outer wall of the novel ozone generating tube. The air-cooled novel ozone generating tube is combined.

Fig. 24 is a schematic view of an insulating fixing terminal having both gas and water connectors, which is a fixing terminal (15) made of insulating material and having both gas and water connectors for mounting and fixing an ozone generator tube cooled by wind and water.

Fig. 25 is a schematic diagram of a wind-water double-cooling type ozone generator tube, which is to cancel the blind plug in the insulating medium inner tube of the air-cooled novel ozone generator tube, and use the insulating end (15) with two joints of water and gas to replace the insulating end (15) with only one joint, and install and fix the two ends of the air-cooled novel ozone generator tube, so that the gas joints (8) on the two insulating fixed ends (15) can only be communicated through the interval gaps of the sieve sheets (3) on the inner and outer walls of the novel ozone generator tube, and the water joints (9) on the insulating fixed ends (15) at the two ends are communicated through the inner diameter of the insulating medium tube (13), thereby being combined into the novel tubular ozone generator which adopts wind and water to dissipate heat and cool.

Fig. 26 is a schematic diagram of a conventional high-frequency high-voltage power supply, in which a high-voltage output line of an alternating-current high-frequency high-voltage power supply is electrically connected with a corona discharge electrode plate strip group on one plane of an ozone generating sheet, and a ground line of the alternating-current high-frequency high-voltage power supply is electrically connected with and grounded to the corona discharge electrode plate strip group on the other plane of the ozone generating sheet.

Fig. 27 is a schematic diagram of a novel amplitude modulation type ac high-frequency high-voltage power supply, which is a schematic diagram of inputting a signal of an ac signal controller (21) into a modulator (23) of a frequency converter, so that high-frequency electricity of an ac oscillator (22) can be modulated into special amplitude modulation type high-frequency ac power, the special amplitude modulation type high-frequency ac power is amplified by a power amplifier (24), and then subjected to voltage boosting by a transformer, so that the special amplitude modulation type high-frequency ac power supply can be used as a power supply for various types of ozone generators to supply power, a high-voltage output wire of the transformer is electrically connected with a corona discharge plate group on one plane of an ozone generator, and a ground wire of the transformer is electrically connected with and grounded to the corona discharge plate group on the other plane of the ozone generator.

Fig. 28 is a schematic diagram of a novel pulse ac high-frequency high-voltage power supply, in which a switching control signal (26) with a certain intermittent ratio is input into a modulator (23) of a frequency converter, so that ac power of a high-frequency oscillator (22) can be modulated into pulse high-frequency ac power with a certain intermittent ratio, the pulse high-frequency ac power is amplified by a power amplifier (24), and then the amplified ac power is subjected to voltage boosting by a transformer, so that the ac power can be used as a power supply for various types of ozone generators, a high-voltage output line of the transformer is electrically connected to a corona discharge plate bar group on one plane of an ozone generator, and a ground line of the transformer is electrically connected to a corona discharge plate bar group on another plane of the ozone generator in parallel.

Claims (10)

1. The utility model provides a novel ozone generator, is with two sets of corona discharge electrode laths with a special permutation and combination type, set up respectively and install on an insulating dielectric plate just, on two anti-planes, common matching group becomes the novel ozone of a creeping discharge formula and produces the piece, by the cooperation power supply of interchange high frequency high voltage power supply, its characterized in that: the utility model relates to a novel ozone generating sheet, which is characterized in that a group of corona discharge electrode strips which are arranged at intervals in parallel and are electrically connected with each other are respectively arranged on a front plane and a back plane of an insulating medium plate, between the two groups of corona discharge electrode strips, although the corona discharge electrode strips are respectively arranged on the front plane and the back plane of the insulating medium plate, the two groups of corona discharge electrode strips are mutually corresponding, mutually staggered and mutually non-overlapped and jointly matched to form a novel ozone generating sheet, the output line of an alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode strip group on one plane of the novel ozone generating sheet, and the ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the corona discharge electrode strip group on the other plane of the novel.

2. The novel ozone generator of claim 1, wherein a novel ozone generating sheet and a novel insulating screen media sheet are combined together to form an ozone generating integrated module, and the ozone generating integrated module is arranged and installed in a same sealed box to form a novel ozone generator which is produced by liquid oxygen and is supplied with power by matching of an alternating-current high-frequency high-voltage power supply, and the novel ozone generator is characterized in that: the ozone generator is characterized in that a screen mesh sheet made of insulating materials is respectively arranged on a front plane and a back plane of an insulating medium plate, a novel insulating screen medium sheet is formed by combining, a novel ozone generation integrated module is arranged between layers of novel insulating screen medium sheets which are overlapped together, the novel ozone generation integrated module is formed by combining in a matching way, N novel ozone generation integrated modules are arranged in sealing boxes of which both ends are respectively provided with air connectors, each ozone generation integrated module is contacted with each sealing box in an upper side, a lower side, a left side and a right side, the air connectors at both ends on the sealing boxes are sealed, the air connectors at both ends on the sealing boxes can only be communicated with gaps between screen mesh medium sheets of each insulating screen medium sheet of the ozone generation integrated module, a novel ozone generator is formed by combining, an output line of an alternating-current high-frequency high-voltage power supply is respectively arranged on the ozone generation integrated module and positioned on odd insulating screen medium sheets of the insulating screen medium sheets And each corona discharge polar plate group on the two sides is electrically connected, and the ground wire of the alternating-current high-frequency high-voltage power supply is respectively electrically connected with each corona discharge polar plate group arranged on the two sides of the even number insulating screen medium piece on the ozone generation integrated module and grounded.

3. The novel ozone generator as claimed in claims 1 and 2, wherein the insulating gasket, the novel ozone generating sheet, the heat dissipating plate with the insulating screen medium sheet and the special hollow screw bolt joint with the side hole are matched with each other to form a wind-cooling type novel ozone generator, which is supplied with power by the matching of an alternating current high-frequency high-voltage power supply, and the ozone generator is characterized in that: respectively manufacturing heat dissipation plates with two specifications of A type and B type, respectively arranging and installing an insulating medium sheet on the front plane and the back plane of the heat dissipation plate A and the heat dissipation plate B, respectively arranging and installing a screen sheet made of insulating material on each insulating medium sheet, respectively arranging a hole capable of being provided with a special hollow screw bolt joint at the two ends of the heat dissipation plate B, respectively manufacturing the insulating heat dissipation plate A and the insulating heat dissipation plate B with insulating screen medium sheets, arranging a novel energy-saving high-yield ozone generation sheet between the layers of the heat dissipation plate A and the heat dissipation plate B which are repeatedly overlapped in a staggered way by using an insulating sealing gasket, and serially connecting and fixing the holes at the two ends of the heat dissipation plate B by using the special hollow screw bolt joints provided with the side holes to ensure that the air joints at the two ends of the heat dissipation plate B are arranged, the alternating current high-frequency high-voltage power supply is electrically connected with each corona discharge polar plate group positioned on two sides of the A-type insulating heat dissipation plate respectively, and the ground wire of the alternating current high-frequency high-voltage power supply is electrically connected with each corona discharge polar plate group positioned on two sides of the B-type insulating heat dissipation plate respectively and grounded.

4. The novel ozone generator as claimed in claims 1, 2 and 3, wherein a D-shaped insulating heat dissipation box using water as heat dissipation liquid is manufactured to replace an air-cooled A-shaped insulating heat dissipation plate, so that a novel ozone generator using wind and water for heat dissipation and cooling is combined, and the novel ozone generator is supplied with power by matching of an alternating-current high-frequency high-voltage power supply, and is characterized in that: a D-shaped heat dissipation box which has the same specification as an A-shaped heat dissipation plate and uses water as heat dissipation liquid is manufactured, an insulating medium sheet is arranged and installed on the front plane and the reverse plane of the D-shaped heat dissipation box, a screen sheet made of insulating material is arranged and installed on each insulating medium sheet, two ends of the D-shaped heat dissipation box are respectively provided with a hole capable of being provided with a special hollow bolt joint with a side hole, the D-shaped insulating heat dissipation box is manufactured, a novel energy-saving high-yield ozone generating sheet is installed between layers of the D-shaped insulating heat dissipation box and the B-shaped insulating heat dissipation plate which are overlapped in a repeated staggered mode through an insulating sealing gasket, the holes at two ends of the B-shaped insulating heat dissipation plate which are overlapped together are installed and fixed in series through the special hollow bolt joints with the side holes, so that the joints at two ends of the B-shaped insulating heat dissipation plate can only be communicated through gaps on the screen sheets on each insulating heat dissipation plate at intervals, the special hollow screw joint with the side hole and the sealing washer are used for serially mounting and fixing holes at two ends of the D-shaped insulating heat dissipation box which are overlapped together, so that the joints at two ends of the D-shaped insulating heat dissipation box are communicated in each insulating heat dissipation box, a novel ozone generator which uses wind and water for common heat dissipation and cooling is combined, an output line of an alternating-current high-frequency high-voltage power supply is electrically connected with each corona discharge electrode plate strip group at two sides of the B-shaped heat dissipation plate respectively, and a ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with each corona discharge electrode plate strip group at two sides of the D-shaped insulating heat dissipation plate respectively and is grounded.

5. The novel ozone generator as claimed in claim 1, 2, 3, 4, wherein the corona discharge electrode plate strips are disposed on the insulating medium sheet, and are installed on the inner and outer walls of an insulating medium tube to form an open type novel ozone generator tube, which is supplied with power by an ac high-frequency high-voltage power supply, and the ozone generator is characterized in that: the utility model relates to a novel ozone generator tube, which is characterized in that a group of parallel screw-type corona discharge electrode strips arranged at intervals are respectively arranged on the inner wall and the outer wall of an insulating medium tube made of insulating materials, the two groups of screw-type corona discharge electrode strips are respectively arranged in the inner wall and the outer wall of the insulating medium tube, but are mutually corresponding, mutually staggered and mutually non-overlapped to be matched and arranged between the two groups of corona discharge electrode strips, an output line of an alternating-current high-frequency high-voltage power supply is electrically connected with one corona discharge electrode strip group on the wall of the novel ozone generator tube, and a ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the other corona discharge electrode strip group on the wall of the novel ozone generator tube and is grounded.

6. The novel ozone generator as claimed in claims 1, 2, 3, 4 and 5, wherein the insulating end, the insulating screen, the sealing blind plug, the insulating medium pipe and the novel ozone generating pipe are mutually matched to form a novel ozone generating pipe, and the novel ozone generating pipe is supplied with power by matching an alternating current high-frequency high-voltage power supply, and is characterized in that: an insulating medium pipe is arranged outside a novel ozone generator pipe, an insulating screen sheet is arranged in a gap between the insulating medium pipe and the outer wall of the novel ozone generator pipe, an insulating medium pipe is arranged in the novel ozone generator pipe, an insulating screen sheet is arranged in a gap between the insulating medium pipe and the inner wall of an open type ozone generator pipe, a sealing blind plug is arranged in the insulating medium pipe, the two ends of the insulating medium pipe are not communicated with each other through the sealing blind plug, an insulating end head with an air joint is used for installing and fixing the novel ozone generator pipe and the two ends of the insulating medium pipe which are sleeved together, the air joints on the two insulating end heads are communicated only through the gap between the screens on the inner wall and the outer wall of the novel ozone generator pipe, and the novel ozone generator pipe is combined, the output line of the alternating-current high-frequency high-voltage power supply is electrically connected with one corona discharge polar plate group on the novel ozone generation pipe wall, and the ground wire of the alternating-current high-frequency high-voltage power supply is electrically connected with the other corona discharge polar plate group on the novel ozone generation pipe wall and is grounded.

7. The novel ozone generator as claimed in claim 1, 2, 3, 4, 5, 6, wherein a novel ozone generating tube and a water tank are combined together to form a water generator for dissipating heat, and the water generator is supplied with power by an AC high-frequency high-voltage power supply, and is characterized in that: the two ends of a novel ozone generating tube are arranged in parallel and at intervals on the two end box walls of a sealed water box, the insulating end heads at the two ends of the ozone generating tube extend out of the box wall of the sealed water box, so that the tube body of the ozone generating tube is immersed in the water of the sealed water box, two sealing covers are respectively arranged at the two ends of the box wall, the sealing covers cover all air connectors on the insulating end heads of the ozone generating tube, an air valve is respectively arranged on each sealing cover, the air valves at the two ends of each sealing cover are communicated through the interval gaps of screens on the inner wall and the outer wall of each novel ozone generating tube, a water inlet valve and a water return valve are respectively arranged on the upper part and the lower part of the sealed water box, a novel ozone generator for dissipating heat by water is combined, the output line of an alternating-current high-frequency high-voltage power supply is electrically connected with a corona discharge polar plate group on the inner wall of each, and electrically connecting the ground wire of the alternating-current high-frequency high-voltage power supply with the corona discharge polar plate strip group on the outer wall of each ozone generating tube and grounding the corona discharge polar plate strip group.

8. The novel ozone generator according to the claims 1, 2, 3, 4, 5, 6, and 7, which can combine a novel ozone generating tube into a novel ozone generating tube using wind and water to dissipate heat together, and is supplied with power by the cooperation of an ac high-frequency high-voltage power supply, characterized in that: the outer wall of a novel ozone generating tube is provided with annular radiating fins which are arranged at intervals and in parallel, and a sealing blind plug in the inner tube of the novel ozone generating tube is cancelled by air, insulating end of two kinds of connectors of water, it only has a gas connection's insulating end to replace the both ends of novel ozone generation pipe to install fixedly, make the gas connection on two ends, it is intraductal only to generate through novel ozone, the interval gap of screen cloth is linked together between the outer wall, make the water connectors on the insulating medium end of both ends directly be linked together through the insulating medium inner tube, just make up into with a wind and the common radiating novel ozone generation pipe of water, on the output line that will exchange high frequency high voltage power supply and novel ozone generation guan xiao tong electric connection of corona discharge electrode plate strip group, on the ground wire that will exchange high frequency high voltage power supply and novel ozone generation guan xiao' tong inner wall corona electrode plate discharge electrode strip group electric connection and ground connection.

9. The novel ozone generator as claimed in claim 1, 2, 3, 4, 5, 6, 7, 8, wherein the power supply comprises: the amplitude modulation type alternating current high-frequency converter is applied to the wireless communication industry and used as a wireless data signal transmission device all the time, after certain technical transformation, carrier frequency amplitude modulation type high-frequency alternating current output by the amplitude modulation type high-frequency converter can be modulated into invalid electric energy supply capable of enabling an ozone generator to obtain amplitude modulation type high-frequency alternating current with a special waveform which is greatly reduced, the amplitude modulation type high-frequency alternating current with the special waveform is amplified by a power amplifier and input into a high-voltage transformer to be boosted to form a novel amplitude modulation type alternating current high-frequency high-voltage power supply, the novel amplitude modulation type alternating current high-frequency high-voltage power supply not only can be used as a matched power supply of the novel ozone generator to supply power, and extremely remarkable energy saving and consumption reduction effects can be obtained, but also various types of existing ozone generators, as long as the amplitude modulation type alternating current high-frequency high-voltage power supply is adopted for supplying power, extremely remarkable energy-saving and consumption-reducing effects can be obtained, and the amplitude modulation type alternating current high-frequency high-voltage power supply is characterized in that: the high-frequency alternating current generated by a high-frequency oscillator in the frequency converter can be modulated into amplitude modulation type alternating current high-frequency high-voltage electricity with a special waveform by inputting an alternating current control signal with a certain frequency into a modulator of the frequency converter, the amplitude modulation type alternating current high-frequency high-voltage power supply with the special waveform is amplified by a power amplifier and then boosted by a high-voltage transformer to form an amplitude modulation type alternating current high-frequency high-voltage power supply, the amplitude modulation type alternating current high-frequency high-voltage power supply can be used as a power supply matched with various ozone generators for supplying power, the output line of the amplitude modulation type alternating current high-frequency high-voltage power supply is electrically connected with one corona discharge electrode group of the ozone generator, and the ground wire of the amplitude modulation type alternating current high-frequency high-voltage power supply is electrically connected with the other corona discharge electrode group of the ozone generator and is grounded.

10. The novel ozone generator as claimed in claims 1, 2, 3, 4, 5, 6, 7, 8, 9, wherein an amplitude-modulated ac high-frequency high-voltage power supply is modified to output a pulse ac high-frequency high-voltage power supply with a certain intermittent ratio, and various types of ozone generators can supply ineffective electric energy to the ozone generator to obtain a larger reduction range as long as the pulse ac high-frequency high-voltage power supply is adopted for power supply, so that the energy-saving and consumption-reducing effects are more remarkable, and the novel ozone generator is characterized in that: a switch control signal with a certain intermittence ratio is input into a modulator of a frequency converter, high-frequency alternating current generated by a high-frequency oscillator is modulated into high-frequency alternating current with a special pulse waveform with a certain intermittence ratio, the high-frequency alternating current with the special pulse waveform is amplified by a power amplifier and then input into a high-voltage transformer for boosting, and then a pulse type alternating high-frequency high-voltage power supply is combined.

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