CN105883728B

CN105883728B - Method and device for controlling ozone generation amount

Info

Publication number: CN105883728B
Application number: CN201610210389.1A
Authority: CN
Inventors: 张原�; 李文灿; 宁贵勇; 劳承云; 封宗瑜; 侯雪丹; 刘博�; 谭翔鸽; 潘文康; 陈伟; 蔡晓龙; 毛克方; 杨拓; 胡逢亮; 陈慧之; 贾铌; 梁浩; 谷育
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Zhongshan Small Home Appliances Co Ltd; Gree Tosot Suqian Home Appliances Co Ltd
Priority date: 2016-04-06
Filing date: 2016-04-06
Publication date: 2018-03-20
Anticipated expiration: 2036-04-06
Also published as: CN105883728A

Abstract

The invention provides a method and a device for controlling the ozone generation amount. The method comprises the following steps: the method comprises the following steps that firstly, an air purifier works at a first voltage, and the working state of the air purifier is kept at a first time period; secondly, enabling the air purifier to work at a second voltage and keeping the working state in a second time period; thirdly, enabling the air purifier to work at a third voltage and keeping the working state in a third time period; wherein the first voltage and the third voltage cause the air purifier to operate in a high purification voltage state, and the second voltage causes the air purifier to operate in a low purification voltage state. The proposal provided by the invention can solve the contradiction between the ozone concentration and the clean air quantity of the plasma type air purifier in the prior art, effectively control the high-pressure ozone generation quantity on the premise of ensuring the clean air quantity, improve the performance of the air purifier, improve the safety of the air purifier and reduce the cost.

Description

A kind of method and device for controlling ozone yield

Technical field

The present invention relates to air purifier field, more particularly to the method for control electrostatic air cleaner ozone yield And device.

Background technology

Plasma type air purifier utilizes positive corona discharge principle, the dust in air is passed through high pressure plasma When pole occurs for body by field positively charged, during close to dust collect plant, the polarity of electric field changes, the particles of these positively chargeds receipts It is attracted to electric field force on dust collect plant.Reach the purpose of dedusting air cleaning.Electrostatic air cleaner has preferable Dedusting sterilization acts on, but is also easy to produce certain density ozone at work, and after ozone concentration exceedes certain value, human body is It can experience, and with the sense of discomfort of body.In the prior art, there is ozone concentration and pure air in electrostatic air cleaner The contradiction of amount:When Clean air delivery rate meets standard, ozone concentration is exceeded；Conversely, when ozone concentration meets standard, it is clean empty Tolerance is unqualified.

In the prior art, it is general that using in air purifier air outlet, ozone reduction net or the control of ozone reduction module are set Ozone yield in air, its principle is to make ozone that reduction reaction occur using catalyst, so as to decompose the ozone in air. Problems be present using ozone reduction net or ozone reduction module control ozone yield：After ozone concentration meets standard, Ozone reduction net or ozone reduction module still work, and reduce the life-span of ozone reduction net or ozone reduction module；Ozone is also Former net or ozone reduction module has certain service life, and replacing will produce certain injury to human body not in time.

The content of the invention

A kind of the defects of it is a primary object of the present invention to overcome above-mentioned prior art, there is provided side for controlling ozone yield Method and device, to solve the contradiction of electrostatic air cleaner ozone concentration and Clean air delivery rate in the prior art, effective control High-pressure ozone yield is made.

One aspect of the present invention provides a kind of method for controlling high-pressure ozone yield, performs following steps successively, including：The One step, air purifier is operated in first voltage, and working condition is kept in the first period；Second step, make air purifier Second voltage is operated in, and working condition is kept in the second period；3rd step, air purifier is set to be operated in tertiary voltage, and Working condition is kept in the 3rd period；Wherein, first voltage and the tertiary voltage make air purifier be operated in high purifying electric Pressure condition, second voltage make air purifier be operated in low purification voltage status.

Optionally, the first period was more than for the 3rd period.

Optionally, after the 3rd step, cycle alternation performs second step and the 3rd step.

Optionally, first voltage is identical with tertiary voltage.

Optionally, first voltage value within 12 kilovolts to 24 kilovolt ranges, second voltage is at 6 kilovolts to 11.5 kilovolts Value within scope, tertiary voltage value within 12 kilovolts to 24 kilovolt ranges；First period was at 120 minutes to 240 minutes Within value, the second period value within 150 minutes to 270 minutes, the 3rd period value within 30 minutes to 90 minutes.

Optionally, first voltage is 14 kilovolts, and second voltage is 10 kilovolts, and tertiary voltage is 14 kilovolts；First period was 180 minutes, the second period was 210 minutes, and the 3rd period was 60 minutes.

Another aspect of the present invention provides a kind of device for controlling high-pressure ozone yield, including：First voltage holding unit, Working condition is kept for making air purifier be operated in first voltage, and in the first period；Second voltage holding unit, is used for Air purifier is operated in second voltage, and working condition is kept in the second period；Tertiary voltage holding unit, for making sky Gas purifier is operated in tertiary voltage, and keeps working condition in the 3rd period；Switch unit, for sequentially switching to the first electricity Press holding unit, second voltage holding unit, tertiary voltage holding unit；Wherein, first voltage and tertiary voltage make air net Change device and be operated in high purification voltage status, second voltage makes air purifier be operated in low purification voltage status.

Optionally, the first period was more than for the 3rd period.

Optionally, switch unit, it is additionally operable to sequentially switching to first voltage holding unit, second voltage holding unit, After tertiary voltage holding unit, cycle alternation switches between second voltage holding unit, tertiary voltage holding unit.

Optionally, first voltage is identical with tertiary voltage.

The solution of the present invention, effectively by the control of ozone yield in allowed band, relative to using constant voltage Air purifier, ozone yield reduce by 50%；In addition, in the case of identical output voltage, CADR can improve 27%.

Brief description of the drawings

Accompanying drawing described herein is used for providing a further understanding of the present invention, forms the part of the present invention, this hair Bright schematic description and description is used to explain the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 is the method schematic diagram of an embodiment of the method for the control ozone yield of the present invention；

Fig. 2 is the structured flowchart of an embodiment of the device of the control ozone yield of the present invention；

Particle concentration is surveyed with CADR relations when Fig. 3 (a) is 14 kilovolts of the operating voltage that one embodiment of the invention provides Figure；

Particle concentration is surveyed with CADR relations when Fig. 3 (b) is 10 kilovolts of the operating voltage that one embodiment of the invention provides Figure；

Fig. 3 (c) is that the ozone concentration that one embodiment of the invention provides changes with time measured drawing.

Embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the specific embodiment of the invention and Technical solution of the present invention is clearly and completely described corresponding accompanying drawing.Obviously, described embodiment is only the present invention one Section Example, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not doing Go out under the premise of creative work the every other embodiment obtained, belong to the scope of protection of the invention.

According to the embodiment of invention, there is provided a kind of method for controlling ozone yield.It is the control of the present invention as shown in Figure 1 The method schematic diagram of one embodiment of the method for ozone yield processed.

In step S110, air purifier is set to be operated in first voltage, and working condition is kept in the first period.

Pure air output ratio CADR (Clean Air Delivery Rate) is evaluation air purifier purification efficiency One of leading indicator.CADR values are bigger, and the purification efficiency of air purifier is higher.Utilize CADR values, it can be estimated that air is net Change device after a certain time of operation, remove the effect of indoor air pollutants.Under different application environments, CADR nominal value It is probably different.The high purification voltage status of air purifier and low purification voltage status are related with output voltage, work as air Clarifier output voltage is more than 12 kilovolts, it is believed that air purifier is operated in high purification voltage status；When air purifier work Make when output voltage is less than 12 kilovolts, it is believed that air purifier is operated in low purification voltage status.

First voltage is the operating voltage in the first period of air purifier, and the first voltage enables to purification of air Device is operated in high purification voltage status.In the first period, air purifier is operated under first voltage, and keeps working condition. In the first period, the pollutant rate of descent in air is higher, terminates when the first period, and the pollutant in air drops to one Relatively low level；Equally, in the period, the generation rate of ozone is higher, terminates when the first period, and ozone amount reaches certain dense Degree.

In step S120, air purifier is set to be operated in second voltage, and working condition is kept in the second period.

Second voltage is the operating voltage in the second period of air purifier, and the second voltage enables to purification of air Device is operated in low purification voltage status.In the second period, air purifier is operated under second voltage, and keeps working condition. In the second period, the pollutant rate of descent in air reduces, but because at the end of the first period, pollutant has fallen to One relatively low level, therefore the rate of descent for reducing pollutant will not produce larger shadow to air quality in a period of time Ring.In the second period, ozone generation rate also reduces simultaneously, at the same time because the property of ozone (O3) has unstability, By the second period, most of ozone can voluntarily decay into oxygen (O2) so that the content of ozone reaches a relatively low water It is flat.

In step S130, air purifier is set to be operated in tertiary voltage, and working condition is kept in the 3rd period.

Tertiary voltage is the operating voltage in the 3rd period of air purifier, and the tertiary voltage enables to purification of air Device is operated in high purification voltage status.In the 3rd period, air purifier is operated under tertiary voltage, and keeps working condition.

Tertiary voltage is to enable to air purifier to be operated in the high work electricity for purifying voltage status with first voltage Pressure, tertiary voltage can be identical value from first voltage or be different values.

Air purifier can be out of service after the step S110 that is finished, step S120, step S130, and next During secondary startup, then step S110 is re-executed, step S120, step S130.

Optionally, when air purifier continuous service, after the step that is finished S110, step S120, step S130, then Cycle alternation performs step S120 and step S130.

Further, the first period, the second period, the setting of the 3rd period include various ways.In an embodiment In, the first period, the second period, the setting of the 3rd period uses dynamic mode.For example, the ozone amount in monitoring air, when When ozone amount is more than or equal to first threshold, terminated for the first period, opened for the second period；When ozone amount is less than or equal to Second Threshold When, terminated for the second period, opened for the 3rd period；When ozone amount is more than or equal to three threshold values, terminated for the 3rd period, be then turned on the Two periods.Wherein first threshold and the 3rd threshold value are all higher than Second Threshold, and first threshold can be with identical with the 3rd threshold value, can also Differ.

Or can also be by monitoring the content of pollutants in air, when the content of pollutants in air is less than or equal to the During four threshold values, terminated for the first period, opened for the second period；When the content of pollutants in air is more than or equal to five threshold values, knot The period of beam second, opened for the 3rd period；When the content of pollutants in air is less than or equal to six threshold values, terminated for the 3rd period, It was then turned on for the second period.Wherein the 4th threshold value and the 6th threshold value are respectively less than the 5th threshold value, and the 4th threshold value can phase with the 6th threshold value Together, can also differ.

Or when ozone amount is more than or equal to seven threshold values, terminated for the first period, opened for the second period；When dirty in air When the content of dye thing is more than or equal to eight threshold values, terminated for the second period, opened for the 3rd period；When ozone amount is more than or equal to the 9th threshold During value, terminated for the 3rd period, be then turned on for the second period.The control method of dynamic period is not limited to above-mentioned several ways.

In an embodiment, the first period, the second period, the length of the 3rd period is default duration.According to The factors such as the operation mechanism of air purifier, the purification efficiency of pollutant, ozone generation feature, set for the 3rd period be less than first Period, air purifier can be caused to operate in a preferably pattern, while ozone amount can be effectively reduced, make clarifier With relatively low energy consumption.

Optionally, the 3rd period was set greater than 1/4 equal to the first period, it is empty less than or equal to the 3/4 of the first period Gas purifier has more excellent operational efficiency.

Optionally, the second period could be arranged to be more than or equal to for the first period.

According to the embodiment of invention, there is provided a kind of device for controlling ozone yield.It is the control of the present invention as shown in Figure 2 The structured flowchart of one embodiment of the device of ozone yield processed.

The device can be arranged in the power module of air purifier, for adjusting, set the work of air purifier Voltage, for example, can be arranged in the palm of air purifier, and it is connected with external high pressure.

The device of the control ozone yield provided in the specific embodiment of the invention includes first voltage holding unit 210, second voltage holding unit 220, tertiary voltage holding unit 230, switch unit 240.

First voltage holding unit 210, work is kept for making air purifier be operated in first voltage, and in the first period Make state.

Second voltage holding unit 220, work is kept for making air purifier be operated in second voltage, and in the second period Make state.

Tertiary voltage holding unit 230, work is kept for making air purifier be operated in tertiary voltage, and in the 3rd period Make state.

Switch unit 240, for sequentially switching to first voltage holding unit 210, second voltage holding unit 220, Three voltage holding units 230.

Optionally, switch unit 240, it may also be used for sequentially switch to first voltage holding unit 210, second voltage is kept Unit 220, after tertiary voltage holding unit 230, followed between second voltage holding unit 220, tertiary voltage holding unit 230 Ring alternately switches.

First period, the second period, the setting of the 3rd period include various ways.In an embodiment, first Period, the second period, the setting of the 3rd period use dynamic mode.

For example, also include first sensor (not shown) and/or second in the device of control high-pressure ozone yield Sensor (not shown).Wherein first sensor is used to monitor the ozone amount in air, and second sensor is used to monitor sky Pollutant load in gas.

Optionally, the ozone amount in air is monitored, when ozone amount is more than or equal to first threshold, terminated for the first period, cuts Shifted to for the second period；When ozone amount is less than or equal to Second Threshold, terminated for the second period, switched to for the 3rd period；Work as ozone amount During more than or equal to three threshold values, terminated for the 3rd period, then switched to for the second period.Wherein first threshold and the 3rd threshold value is all higher than Second Threshold, first threshold be able to can also be differed with the 3rd threshold value with identical.

Or can also be by monitoring the content of pollutants in air, when the content of pollutants in air is less than or equal to the During four threshold values, terminated for the first period, switched to for the second period；When the content of pollutants in air is more than or equal to five threshold values, Terminated for the second period, switched to for the 3rd period；When the content of pollutants in air is less than or equal to six threshold values, when terminating the 3rd Section, then switched to for the second period.Wherein the 4th threshold value and the 6th threshold value are respectively less than the 5th threshold value, and the 4th threshold value can with the 6th threshold value With identical, can also differ.

Or when ozone amount is more than or equal to seven threshold values, terminated for the first period, switched to for the second period；When in air When the content of pollutant is more than or equal to eight threshold values, terminated for the second period, switched to for the 3rd period；When ozone amount is more than or equal to the During nine threshold values, terminated for the 3rd period, then switched to for the second period.The control method of dynamic period is not limited to above-mentioned several ways.

Optionally, in an embodiment provided by the invention, by first voltage at 12 kilovolts to 24 kilovolt ranges Within value, second voltage value within 6 kilovolts to 11.5 kilovolt ranges, tertiary voltage 12 kilovolts to 24 kilovolt ranges with Interior value；First period value within 120 minutes to 240 minutes, the second period value within 150 minutes to 270 minutes, 3rd period, air purifier had preferably performance in value within 30 minutes to 90 minutes.

Fig. 3 is performance measured result in one embodiment.

First voltage is 14 kilovolts in the embodiment, and second voltage is 10 kilovolts, and tertiary voltage is 14 kilovolts；First period It it is 180 minutes, the second period was 210 minutes, and the 3rd period was 60 minutes.

Step S1, it is 14kV to control output high pressure, is run 180 minutes.At this moment, air purifier is in high purification voltage shape State, keep the operation of this state to drop to indoor air pollutants concentration in 180 minutes very low, but can produce certain density smelly Oxygen.

Step S2, after 180 minutes, voltage is changed, control output high pressure is reduced to 10kV, run 210 minutes.So, Air purifier is in low purification voltage status, and now indoor pollutant concentration is relatively low, it is not necessary to very high purification efficiency operation, simultaneously Ozone generation rate is reduced, and ozone (O3) has the sufficient time voluntarily to decay into oxygen (O2), causes ozone concentration to reduce.

Step S3, after low-energy-efficiency 10kV output high pressure is being run 210 minutes, voltage, control output high pressure liter are changed To 14kV, high purification voltage status is gone successively to tackle indoor gaseous contaminant caused again.

Afterwards, during air purifier continuous service, the step alternate run of S2, S3 two is controlled, that is, exports high pressure 14kV fortune After row 60 minutes, be converted to 10kV and run 210 minutes.

Particle concentration and CADR relation measured drawings during 14 kilovolts of the operating voltage that provides of Fig. 3 (a) embodiments.Fig. 3 (a) Abscissa is particle concentration (mg/m³), ordinate is CADR/ Clean air delivery rates (m³/ H), CADR data (press national standard 89 Grain thing concentration is in 2.2mg/m³) change, CADR nominals are 70, it is known that this voltage is high CADR parameters, and output high pressure is It is high purification voltage status during 14kV.

Particle concentration and CADR relation measured drawings when Fig. 3 (b) is 10 kilovolts of the operating voltage that the embodiment provides.Fig. 3 (b) abscissa is particle concentration (mg/m³), ordinate is CADR/ Clean air delivery rates (m³/ H), CADR data (press national standard 53 Particle concentration is in 2.2mg/m³) change, CADR nominals are 70, it is known that this voltage is low CADR parameters, and output high pressure is It is low purification voltage status during 10kV.

Fig. 3 (c) is that the ozone concentration that the embodiment provides changes with time measured drawing.Fig. 3 (c) abscissas are the time (min), ordinate is ozone concentration (PPB), and highest ozone concentration is 27.3PPB.Understand, before the present invention is to maintain high CADR Put, the very low state of control ozone concentration.

Thus, using the solution of the present invention, under the premise of high CADR is ensured, ozone amount is controlled in a relatively low shape State, solves the contradiction of electrostatic air cleaner ozone concentration and Clean air delivery rate, while it is net to improve air in the prior art Change the security of device, reduce cost.

Function described herein can be implemented in hardware, by the software of computing device, firmware or its any combinations. If implement in the software by computing device, then computer can be stored in using function as one or more instructions or code Transmitted on readable media or via computer-readable media.Other examples and embodiment will in of the invention and appended right Ask in the scope and spirit of book.For example, be attributed to the property of software, function described above can be used by processor, Hardware, firmware, hardwired appoint the software implementation that the combination of whichever performs in these.The feature for implementing function can also be physically Positioned at various opening positions, implement comprising the part for being distributed so that function in different physical locations.Also, such as institute herein Use (including in detail in the claims), "or" for using " at least one of " as in the project list to end up when indicate Separation property inventory so that (such as) inventory of " at least one of A, B or C " means A or B or C or AB or AC or BC or ABC (that is, A and B and C).

Both computer program product or computer-readable media include computer-readable storage medium and communication medium, bag The computer program containing promotion is from a place to any media of another vicinal transmission.Storage media can be can by general or Any useable medium of special-purpose computer access.For example it is unrestricted, computer-readable media may include RAM, ROM, EEPROM, CD-ROM or other optical disk storage apparatus, disk storage device or other magnetic storage devices, or can be used for refer to The form of order or data structure delivers or stored desired program code devices and can be by universal or special computer or logical With or application specific processor access any other media.Also, any connection rightly can be referred to as computer-readable media.Lift For example, if software is using coaxial cable, fiber optic cables, twisted-pair feeder, digital subscriber line (DSL), or such as infrared ray, nothing The wireless technologys such as line electricity, microwave are launched from website, server or other remote light sources, then coaxial cable, fiber optic cables, multiple twin Line, DSL, or the wireless technology such as infrared ray, radio and microwave are contained in the definition of media.As used herein, magnetic Disk and CD include compact disk (CD), laser-optical disk, optical compact disks, digital versatile disc (DVD), floppy disk and blue light light Disk, wherein disk generally magnetically reproduce data, and CD laser reproduce data optically.The every group of the above Conjunction is also contained in the range of computer-readable media.

Being previously described for the present invention is provided to enable those skilled in the art to manufacture or using the present invention.It is affiliated The technical staff in field will be readily apparent to various modifications of the invention, and generic principles defined herein can be applied to Other changes are without departing from the spirit or scope of the present invention.Through the present invention, term " example " or it is " exemplary " instruction example or Example, and do not imply that or require any preference of the example for being previously mentioned.Therefore, the invention is not restricted to described herein Example and design, but the widest scope consistent with principle disclosed herein and novel feature should be met.

Claims

A kind of 1. method for controlling ozone yield, it is characterised in that following steps are performed successively, including：

The first step, air purifier is operated in first voltage, and working condition is kept in the first period；The first voltage exists 12 kilovolts to value within 24 kilovolt ranges；

Second step, air purifier is operated in second voltage, and working condition is kept in the second period；The second voltage exists 6 kilovolts to value within 11.5 kilovolt ranges；

3rd step, air purifier is operated in tertiary voltage, and working condition is kept in the 3rd period；The tertiary voltage exists 12 kilovolts to value within 24 kilovolt ranges；

Wherein, the first voltage and the tertiary voltage make air purifier be operated in high purification voltage status, and described second Voltage makes air purifier be operated in low purification voltage status；The air purifier is electrostatic air cleaner.
2. the method for control ozone yield according to claim 1, it is characterised in that first period is more than described 3rd period.
3. the method for control ozone yield according to claim 1 or 2, it is characterised in that after the 3rd step, circulation It is alternately performed the second step and the 3rd step.
4. the method for control ozone yield according to claim 1 or 2, it is characterised in that the first voltage and institute It is identical to state tertiary voltage.
5. the method for control ozone yield according to claim 3, it is characterised in that the first voltage and described the Three voltages are identical.
6. according to the method for any described control ozone yield of claim 1,2,5, it is characterised in that first period The value within 120 minutes to 240 minutes, second period value within 150 minutes to 270 minutes, when the described 3rd Section value within 30 minutes to 90 minutes.
7. the method for control ozone yield according to claim 3, it is characterised in that first period is at 120 points Clock is to value within 240 minutes, and second period value within 150 minutes to 270 minutes, the 3rd period is at 30 points Clock is to value within 90 minutes.
8. the method for control ozone yield according to claim 4, it is characterised in that first period is at 120 points Clock is to value within 240 minutes, and second period value within 150 minutes to 270 minutes, the 3rd period is at 30 points Clock is to value within 90 minutes.
9. according to the method for any described control ozone yield of claim 1,2,5,7,8, it is characterised in that described first Voltage is 14 kilovolts, and the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, Second period is 210 minutes, and the 3rd period is 60 minutes.
10. the method for control ozone yield according to claim 3, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.
11. the method for control ozone yield according to claim 4, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.
12. the method for control ozone yield according to claim 6, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.
A kind of 13. device for controlling ozone yield, it is characterised in that including：

First voltage holding unit, working condition is kept for making air purifier be operated in first voltage, and in the first period； First voltage value within 12 kilovolts to 24 kilovolt ranges；

Second voltage holding unit, working condition is kept for making air purifier be operated in second voltage, and in the second period； Second voltage value within 6 kilovolts to 11.5 kilovolt ranges；

Tertiary voltage holding unit, working condition is kept for making air purifier be operated in tertiary voltage, and in the 3rd period； Tertiary voltage value within 12 kilovolts to 24 kilovolt ranges；

Switch unit, for sequentially switching to the first voltage holding unit, the second voltage holding unit, the described 3rd Voltage holding unit；

Wherein, the first voltage and the tertiary voltage make air purifier be operated in high purification voltage status, and described second Voltage makes air purifier be operated in low purification voltage status；The air purifier is electrostatic air cleaner.
14. the device of control ozone yield according to claim 13, it is characterised in that first period is more than institute Stated for the 3rd period.
15. the device of the control ozone yield according to claim 13 or 14, it is characterised in that the switch unit, It is additionally operable to sequentially switching to the first voltage holding unit, the second voltage holding unit, the tertiary voltage is kept After unit, cycle alternation switches between the second voltage holding unit, the tertiary voltage holding unit.
16. according to claim 13 or 14 control ozone yield device, it is characterised in that the first voltage with The tertiary voltage is identical.
17. it is according to claim 15 control ozone yield device, it is characterised in that the first voltage with it is described Tertiary voltage is identical.
18. according to the device of any described control ozone yield of claim 13,14,17, it is characterised in that described first Period value within 120 minutes to 240 minutes, second period value within 150 minutes to 270 minutes, described Three periods value within 30 minutes to 90 minutes.
19. the device of control ozone yield according to claim 15, it is characterised in that first period is 120 Minute, second period value within 150 minutes to 270 minutes, the 3rd period was 30 to value within 240 minutes Minute to value within 90 minutes.
20. the device of control ozone yield according to claim 16, it is characterised in that first period is 120 Minute, second period value within 150 minutes to 270 minutes, the 3rd period was 30 to value within 240 minutes Minute to value within 90 minutes.
21. according to the device of any described control ozone yield of claim 13,14,17,19,20, it is characterised in that institute It is 14 kilovolts to state first voltage, and the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, second period was 210 minutes, and the 3rd period is 60 minutes.
22. the device of control ozone yield according to claim 15, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.
23. the device of control ozone yield according to claim 16, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.
24. the device of control ozone yield according to claim 18, it is characterised in that the first voltage is 14,000 Volt, the second voltage is 10 kilovolts, and the tertiary voltage is 14 kilovolts；First period is 180 minutes, when described second Section is 210 minutes, and the 3rd period is 60 minutes.