CN104958772A - Intelligent ozone disinfection system - Google Patents
Intelligent ozone disinfection system Download PDFInfo
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- CN104958772A CN104958772A CN201510348870.2A CN201510348870A CN104958772A CN 104958772 A CN104958772 A CN 104958772A CN 201510348870 A CN201510348870 A CN 201510348870A CN 104958772 A CN104958772 A CN 104958772A
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- solenoid valve
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Abstract
The invention discloses an intelligent ozone disinfection system which comprises a water feed solenoid valve and the like. The water feed solenoid valve, a check valve and an automatic water intake regulating valve are connected with a multi-stage compression pump and a blending tank. A water feed and discharge hand valve at the bottom of the tank, a circulating hand valve on the tank, a water discharge solenoid valve, a tank body exhaust valve, a normally-closed blow-off solenoid valve, a hand reducing valve, a pressure sensor, an ozone water concentration detector, a water level meter, a safety valve, a pressure gauge, a relief valve, a hand blow-off valve and a first circulating water outlet are all connected with the blending tank. An ejector is disposed in the blending tank and connected with water through a solenoid valve, and a water discharge solenoid valve and a greenhouse water main pipeline are both connected to a split water cylinder. According to work instructions based on natural conditions, service concentration is regulated naturally, and germs in environments are skilled or prevented and controlled accurately. Besides, the intelligent ozone disinfection system can be applied in scale and achieves intelligent operation on site with people absence.
Description
Technical field
The present invention relates to one, particularly relate to a kind of intelligent ozone decontamination system.
Background technology
Current agricultural ozone disinfection equipment function is few, non-adjustable, and the scope of application is limited.Current most of agricultural base all adopts ozone devices to prevent and treat the technology of plant pest, but the type used generally is divided into gas type and water type, and the two is that split uses.And be take capacity as quantitative unit or be consumption unit with volume of production, estimation generating capacity, and when, the natural conditions change such as what temperature when unchanged, therefore can not accurately kill or prevent and treat pathogenic bacteria.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of intelligent ozone decontamination system; it utilizes natural conditions as work order, Natural regulation working concentration, kills accurately or prevents and treats the pathogenic bacteria in environment; and can scale use, people can leave site intelligent work.
The present invention solves above-mentioned technical problem by following technical proposals: a kind of intelligent ozone decontamination system, and it is characterized in that, it comprises entering water electromagnetic valve, tank bottoms Inlet and outlet water hand-operated valve, tank cocycle hand-operated valve, go out water solenoid valve, tank body air bleeding valve, normally closed blowoff electromagnetic valve, hand reducing pressure valve, solenoid valve for water, gas hand-operated valve, gas electromagnetic valve, ozone gas concentration detector, pressure transducer, consistency of ozone water detector, water level detection gauge, relief valve, Pressure gauge, pressure-relief valve, ozonator, ejector, multistage pressure pump, blending tank, blower fan, water split cylinder, manual blowdown valve, ozonizer remains discharge solenoid valve, gas split cylinder, water pipe pressure sensor, gas pipe pressure sensor, check-valves, booth regional water main pipeline, booth region gas main pipeline, close solenoid valve for water passage, hold one's breath and use hand-operated valve passage in pass, automatic feeding water control valve, first circulating water outlet, second circulating water outlet, PLC pulse system, entering water electromagnetic valve, check-valves, automatic feeding water control valve all with multistage pressure pump, blending tank connects, tank bottoms Inlet and outlet water hand-operated valve, tank cocycle hand-operated valve, go out water solenoid valve, tank body air bleeding valve, normally closed blowoff electromagnetic valve, hand reducing pressure valve, pressure transducer, consistency of ozone water detector, water level detection gauge, relief valve, Pressure gauge, pressure-relief valve, manual blowdown valve, first circulating water outlet is all connected with blending tank, and ejector is positioned at blending tank, and ejector is connected with solenoid valve for water, goes out water solenoid valve, booth regional water main pipeline is all connected with water split cylinder, solenoid valve for water, gas hand-operated valve, ozonizer remains discharge solenoid valve and is all connected with ozonator, and close solenoid valve for water passage and be connected with booth regional water main pipeline, gas electromagnetic valve is connected with ozone gas concentration detector, ozone gas concentration detector, booth region gas main pipeline is all connected with blower fan, gas electromagnetic valve, gas pipe pressure sensor, PLC pulse system is all connected with gas split cylinder, and close and hold one's breath with hand-operated valve expanding channels between gas hand-operated valve and PLC pulse system, water pipe pressure sensor is arranged on water split cylinder, and the second circulating water outlet is connected with entering water electromagnetic valve.
Positive progressive effect of the present invention is: the present invention utilizes natural conditions as work order, makes ozone more precisely play virus killing effect, and both can complete sterilization process without human users, and people contacts with zero ozone.The present invention is applicable to the surface disinfection process such as booth vegetable, fruit, outdoor vegetable, Fructus Fragariae Ananssae, or spatial manipulation.With ozone gas sterilization under sealing condition, open-air atmosphere can sterilize by Ozone Water, also to other article disinfections such as pallets, or can carry out the process of irrigation water.The present invention can overlap patterns gas water with two and separately use, and also temperature, humidity, illuminance separately can be controlled or independent factor control, control unit can be one or more groups valve, also can be electromagnetic valve or electrodynamic valve.Make use of the condition of plant growth factor morbidity, limit instruction and whether to be energized work.The pattern of the time period work of recycling day or night separates gas sterilization or water sterilization.Make ozone machine fully demonstrate its multi-functional using method, pipeline PLC touch screen intelligent management way completes booth locality disinfection scale use in addition.The present invention utilizes the number (or several factor variations) of plant growth factor to be protected to it; also should be protected the change of how many cultural areas (how many Valve controlling) that it uses, this principle to other crops as flowers, fruit tree, melon and fruit use and also should be protected.The present invention is not limited to plant aspect and uses, and such as food factory, mushroom factory, laboratory, group training region etc. all can select the corresponding management and control factor to carry out intelligent management and control sterilizing equipment decontaminating apparatus.
Accompanying drawing explanation
Fig. 1 is the theory diagram of intelligent ozone decontamination system of the present invention.
Detailed description of the invention
Present pre-ferred embodiments is provided, to describe technical scheme of the present invention in detail below in conjunction with accompanying drawing.
As shown in Figure 1, intelligent ozone decontamination system of the present invention comprises entering water electromagnetic valve 1, tank bottoms Inlet and outlet water hand-operated valve 2, tank cocycle hand-operated valve 3, go out water solenoid valve 4, tank body air bleeding valve 5, normally closed blowoff electromagnetic valve 6, hand reducing pressure valve 7, solenoid valve for water 8, gas hand-operated valve 9, gas electromagnetic valve 10, ozone gas concentration detector 11, pressure transducer 12, consistency of ozone water detector 13, water level detection gauge 14, relief valve 15, Pressure gauge 16, pressure-relief valve 17, ozonator 18, ejector 19, multistage pressure pump 20, blending tank 21, blower fan 22, water split cylinder 23, manual blowdown valve 24, ozonizer remains discharge solenoid valve 25, gas split cylinder 26, water pipe pressure sensor 27, gas pipe pressure sensor 28, check-valves 30, booth regional water main pipeline 31, booth region gas main pipeline 32, close solenoid valve for water passage 33, pass is held one's breath with hand-operated valve passage 34, automatic feeding water control valve 35, first circulating water outlet 36, second circulating water outlet 37, PLC pulse system 38, entering water electromagnetic valve 1, check-valves 30, automatic feeding water control valve 35 all with multistage pressure pump 20, blending tank 21 connects, tank bottoms Inlet and outlet water hand-operated valve 2, tank cocycle hand-operated valve 3, go out water solenoid valve 4, tank body air bleeding valve 5, normally closed blowoff electromagnetic valve 6, hand reducing pressure valve 7, pressure transducer 12, consistency of ozone water detector 13, water level detection gauge 14, relief valve 15, Pressure gauge 16, pressure-relief valve 17, manual blowdown valve 24, first circulating water outlet 36 is all connected with blending tank 21, and ejector 19 is positioned at blending tank 21, and ejector 19 is connected with solenoid valve for water 8, goes out water solenoid valve 4, booth regional water main pipeline 31 is all connected with water split cylinder 23, solenoid valve for water 8, gas hand-operated valve 9, ozonizer remains discharge solenoid valve 25 and is all connected with ozonator 18, and close solenoid valve for water passage 33 and be connected with booth regional water main pipeline 31, gas electromagnetic valve 10 is connected with ozone gas concentration detector 11, ozone gas concentration detector 11, booth region gas main pipeline 32 is all connected with blower fan 22, gas electromagnetic valve 10, gas pipe pressure sensor 28, PLC pulse system 38 is all connected with gas split cylinder 26, hold one's breath and be connected between gas hand-operated valve 9 and PLC pulse system 38 with hand-operated valve passage 34 in pass, water pipe pressure sensor 27 is arranged on water split cylinder 23, and the second circulating water outlet 37 is connected with entering water electromagnetic valve 1.
Ozonator has high concentration oxygen separating function.When meeting water condition value, Ozone Water system start-up; Namely when water power on condition reaches, solenoid valve for water is opened, gas closed electromagnetic valve, and automatic water-supply control valve supplies water simultaneously, and entering water electromagnetic valve is opened, and tank body air bleeding valve is opened.When entering water electromagnetic valve is opened, blending tank is intake.When water level reaches water level detection gauge position, tank body exhaust valve closure, entering water electromagnetic valve is closed, multistage pressure pump work, ozonator work.Discharge ozone gas when ozonator works, due to compression pump work, make water in blending tank from the first circulating water outlet, the second circulating water outlet blowback blending tank, now form a circulation canal.Because the effect of compression pump is understood the first circulating water outlet, produced negative pressure between the second circulating water outlet and blending tank, now by making ozone gas along with the water of negative pressure under the effect of ejector, constantly mix with water after entering blending tank.In the process of mixing in-tank mixing, consistency of ozone water detector and pressure transducer monitor concentration and the pressure of blending tank constantly.When blending tank pressure is excessive, aerofluxus opened by pressure-relief valve.When the many and water level of blending tank gas is lower than water level detection gauge, tank body air bleeding valve is also opened, and can keep certain water level all the time in tank body.If when tank body water level is inadequate, entering water electromagnetic valve can open water supply automatically, now in order to ensure outside supply water and the hydraulic pressure of tank body uneven and do not allow again the water pond outward of blending tank, check-valves just serves effect, only import but no export.When in blending tank during hypertonia, relief valve and pressure-relief valve start simultaneously and carry out overvoltage protection.When the pressure of blending tank and ozone concentration all reach certain value, go out water solenoid valve and open, on duty low time water outlet closed electromagnetic valve.Open and the condition that can not reach closedown to use water solenoid valve, the automatic water-supply flow that now will regulate automatic feeding water control valve can not be interrupted.When concentration in blending tank and pressure all reach certain value, go out water solenoid valve and open, Ozone Water enters in water split cylinder, and split cylinder mainly can be diverted to several booth regional water main pipelines water simultaneously, can be used for the pipeline-used water of answering different directions.Water split cylinder has water pipe pressure sensor, and when water enters in water split cylinder, when the pressure sensitive of water pipe pressure sensor is to certain value, No. 1 electromagnetic valve of PLC pulse system is opened; When No. 1 electromagnetic valve work stops, No. 2 electromagnetic valves are opened ... last electromagnetic valve work is complete.Close solenoid valve for water pathway closure solenoid valve for water, now whole system completes the decontamination system that Ozone Water is run.PLC pulse system is mainly in charge of all electromagnetic valve passages of booth pipeline, and utilizes touch screen opening time of each electromagnetic valve of scalable, the working time at any time.
When aeration condition reaches, gas electromagnetic valve is opened, and solenoid valve for water is closed.When meeting gas condition, ozone gas system start-up.When gas electromagnetic valve is opened, ozonator work, release high-concentrated ozone gas, and enter blower fan.This blower fan can suck air and ozone gas simultaneously, mixes and suppress to send into gas split cylinder.Now ozone gas concentration detector can control the work speed of ozonator, uses the value that halitosis oxygen concentration keeps certain.When gas is with the pipe pressure sensor of the gas on split cylinder induction certain value, booth region gas main pipeline is open-minded, and No. 1 electromagnetic valve of PLC pulse system (gas is used) is opened.When No. 1 electromagnetic valve stops, No. 2 electromagnetic valves are opened ... last electromagnetic valve work is complete, and close and hold one's breath with hand-operated valve pathway closure gas electromagnetic valve passage, now whole system completes the decontamination system that ozone gas is run.
The present invention, temperature, humidity, illuminance sensor Cascade System, can start shooting by commander equipment when three conditions all reach, and because plant morbidity has certain condition just can grow, as space relative humidity <50%, disease may occur hardly.When temperature, humidity, illumination reach setting value, namely reach electrical instruction.Reach electrical instruction, water (gas) electromagnetic valve can be energized work, and water (gas) electromagnetic valve is started shooting instruction ozone complete machine start work again.When ozone machine work and in tank, ozone concentration and pressure all reach certain value time start to put Ozone Water or ozone gas enters pipeline.At this moment there are again two time switches (day or night) to limit power on condition, make it control Ozone Water electromagnetic valve or the unlatching of ozone gas electromagnetic valve.When in main pipeline, pressure reaches certain value, pipeline valve is started working, and worked No. two valve work ... last work is complete, makes master instruction closed electromagnetic valve, thus turns off ozone machine complete machine and quit work.The a set of micro-spray system of each valve management and control, namely manages a kind of vegetable or a slice vegetable, and often kind of vegetable needs sterilization how long corresponding adjustment valve opening time.
Above-described specific embodiment; the technical problem of solution of the present invention, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any amendment made, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (1)
1. an intelligent ozone decontamination system, is characterized in that, it comprises entering water electromagnetic valve, tank bottoms Inlet and outlet water hand-operated valve, tank cocycle hand-operated valve, go out water solenoid valve, tank body air bleeding valve, normally closed blowoff electromagnetic valve, hand reducing pressure valve, solenoid valve for water, gas hand-operated valve, gas electromagnetic valve, ozone gas concentration detector, pressure transducer, consistency of ozone water detector, water level detection gauge, relief valve, Pressure gauge, pressure-relief valve, ozonator, ejector, multistage pressure pump, blending tank, blower fan, water split cylinder, manual blowdown valve, ozonizer remains discharge solenoid valve, gas split cylinder, water pipe pressure sensor, gas pipe pressure sensor, check-valves, booth regional water main pipeline, booth region gas main pipeline, close solenoid valve for water passage, hold one's breath and use hand-operated valve passage in pass, automatic feeding water control valve, first circulating water outlet, second circulating water outlet, PLC pulse system, entering water electromagnetic valve, check-valves, automatic feeding water control valve all with multistage pressure pump, blending tank connects, tank bottoms Inlet and outlet water hand-operated valve, tank cocycle hand-operated valve, go out water solenoid valve, tank body air bleeding valve, normally closed blowoff electromagnetic valve, hand reducing pressure valve, pressure transducer, consistency of ozone water detector, water level detection gauge, relief valve, Pressure gauge, pressure-relief valve, manual blowdown valve, first circulating water outlet is all connected with blending tank, and ejector is positioned at blending tank, and ejector is connected with solenoid valve for water, goes out water solenoid valve, booth regional water main pipeline is all connected with water split cylinder, solenoid valve for water, gas hand-operated valve, ozonizer remains discharge solenoid valve and is all connected with ozonator, and close solenoid valve for water passage and be connected with booth regional water main pipeline, gas electromagnetic valve is connected with ozone gas concentration detector, ozone gas concentration detector, booth region gas main pipeline is all connected with blower fan, gas electromagnetic valve, gas pipe pressure sensor, PLC pulse system is all connected with gas split cylinder, and close and hold one's breath with hand-operated valve expanding channels between gas hand-operated valve and PLC pulse system, water pipe pressure sensor is arranged on water split cylinder, and the second circulating water outlet is connected with entering water electromagnetic valve.
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CN201510348870.2A CN104958772B (en) | 2015-06-19 | 2015-06-19 | Intelligent ozone decontamination system |
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CN104958772B CN104958772B (en) | 2018-09-18 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109382008A (en) * | 2017-08-08 | 2019-02-26 | 肇庆市高新区笙辉机械有限公司 | A kind of Multi-function ozone water treating machine |
CN111620403A (en) * | 2020-04-29 | 2020-09-04 | 南京林业大学 | Device for eliminating bubbles in ozone water liquid for crystal silicon surface treatment |
Citations (4)
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CN2314789Y (en) * | 1997-07-30 | 1999-04-21 | 唐昌全 | Generating machine for ozone sterilizing liquid |
CN2476294Y (en) * | 2001-04-23 | 2002-02-13 | 尹玉振 | Sterilizing machine using ozone |
GB2468520A (en) * | 2009-03-12 | 2010-09-15 | Steritrox Ltd | Sterilisation of a environment with ozone and increased humidity |
CN202589995U (en) * | 2012-04-17 | 2012-12-12 | 南京盟博环保科技有限公司 | Ozone sterilization processor |
-
2015
- 2015-06-19 CN CN201510348870.2A patent/CN104958772B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2314789Y (en) * | 1997-07-30 | 1999-04-21 | 唐昌全 | Generating machine for ozone sterilizing liquid |
CN2476294Y (en) * | 2001-04-23 | 2002-02-13 | 尹玉振 | Sterilizing machine using ozone |
GB2468520A (en) * | 2009-03-12 | 2010-09-15 | Steritrox Ltd | Sterilisation of a environment with ozone and increased humidity |
CN202589995U (en) * | 2012-04-17 | 2012-12-12 | 南京盟博环保科技有限公司 | Ozone sterilization processor |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109382008A (en) * | 2017-08-08 | 2019-02-26 | 肇庆市高新区笙辉机械有限公司 | A kind of Multi-function ozone water treating machine |
CN111620403A (en) * | 2020-04-29 | 2020-09-04 | 南京林业大学 | Device for eliminating bubbles in ozone water liquid for crystal silicon surface treatment |
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Effective date of registration: 20180807 Address after: 201101 619, room 20, Lane 8633, Chung Chun Road, Minhang District, Shanghai. Applicant after: Shanghai AI e agricultural science and Technology Co., Ltd. Address before: 201199 Minhang District West Ring Road No. 82, Minhang District, Shanghai, 401 Applicant before: Hu Jinyan |
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