CN104020738A - Low-altitude fog settlement system in campus area and method thereof - Google Patents

Abstract

A low-altitude fog settlement system in a campus area comprises the components of: a remote monitoring service center, a PM2.5 dust monitoring device which is used for being set in a campus area, a field monitoring service center and a low-altitude area fog settlement device. The PM2.5 dust monitoring device acquires dust content in a target area in the campus area, generates air quality data and furthermore transmits air quality data to the field monitoring service center. The field monitoring service center receives the air quality data, pre-stored reference air quality data and a starting time regulation for controlling operation state of the low-altitude area fog settlement device. The low-altitude area fog settlement device converts water to micron-grade water mist under controlling by the field monitoring service center, and sprays the water mist to the target area in the campus area for settling the dust in the target area, thereby eliminating fog in the campus. The invention further provides low-altitude fog settlement method in the campus area.

Description

Campus area low latitude haze sedimenting system and method

Technical field

The present invention relates to open-air purification techniques field, particularly a kind of campus area low latitude haze sedimenting system and method.

Background technology

In recent years, along with air quality runs down, the frequency that haze weather phenomenon occurs is more and more higher, they invade human body when people have no to take precautions against, thereby cause the diseases such as respiratory disease, disease of cardiovascular system, hematological system, reproductive system, inflammation such as sphagitis, pulmonary emphysema, asthma, rhinitis, bronchitis, also can bring out lung cancer, myocardial ischemia and damage in this environment for a long time.

With regard to school, haze is especially serious to the student who is under age, children's harm, and faculty and staff's physical and mental health is also subject to serious threat simultaneously, and campus air pollution affects student's living and studying constantly.

Summary of the invention

In view of this, the campus area low latitude haze sedimenting system that is necessary to provide a kind of monitoring and eliminates a large amount of particulates that suspend in the air in campus area.

The campus area low latitude haze sedimentation method that is also necessary to provide a kind of monitoring and eliminates a large amount of particulates that suspend in the air in campus area.

A kind of campus area low latitude haze sedimenting system comprises remote monitoring service centre, for being arranged on PM2.5 level monitoring device of powder-like waste, on-site supervision service centre and the low dummy section haze sedimentation device of the target area in school zone, PM2.5 level monitoring device of powder-like waste is used for gathering the dust content in school zone target area, and produces air quality data, and sends air quality data to on-site supervision service centre, the air quality data that on-site supervision service centre transmits for receiving PM2.5 level monitoring device of powder-like waste, on-site supervision service centre is also for according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device, on-site supervision service centre is also for gathering the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter collecting produces campus air quality and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre, and the control command of receiving remote monitor service center transmission, and carry out corresponding operation according to the control command receiving.Under the control of low dummy section haze sedimentation device for monitor service center at the scene, water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area; Campus air quality and equipment operation form that remote monitoring service centre transmits for receiving on-site supervision service centre, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre.

A campus area low latitude haze sedimentation method, comprises the following steps:

Target area in school zone arranges PM2.5 level monitoring device of powder-like waste, on-site supervision service centre and low dummy section haze sedimentation device;

Utilize PM2.5 level monitoring device of powder-like waste to gather the dust content in target area in school zone, and produce air quality data, and send air quality data to on-site supervision service centre;

Utilize on-site supervision service centre to receive the air quality data that PM2.5 level monitoring device of powder-like waste transmits, and according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device;

Utilize on-site supervision service centre to gather the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter generation campus air quality collecting and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre;

The control command of utilizing on-site supervision service centre receiving remote monitor service center to transmit, and carry out corresponding operation according to the control command receiving;

Utilize the low dummy section haze of on-site supervision service center controls sedimentation device that water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area;

Utilize remote monitoring service centre to receive campus air quality and equipment operation form that on-site supervision service centre transmits, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre.

Campus area provided by the invention low latitude haze sedimenting system and method, PM2.5 level monitoring device of powder-like waste gathers the dust content in target area in school zone, and produces air quality data, and sends air quality data to on-site supervision service centre, on-site supervision service centre receives the air quality data that PM2.5 level monitoring device of powder-like waste transmits, according to the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device, on-site supervision service centre also gathers the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter collecting produces campus air quality and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre, and the control command of receiving remote monitor service center transmission, and carry out corresponding operation according to the control command receiving, low dummy section haze sedimentation device changes into micron order water smoke by water under the control at monitor service center at the scene, and by water mist spray to the target area in school zone with the dust in sedimentation target area.So eliminate haze in campus, create a clean living space to the teachers and students in campus.

Accompanying drawing explanation

Accompanying drawing 1 is the high-level schematic functional block diagram of the campus area low latitude haze sedimenting system of a better embodiment.

Accompanying drawing 2 is high-level schematic functional block diagram of PM2.5 level monitoring device of powder-like waste in Fig. 1.

Accompanying drawing 3 is layout schematic diagram of remote monitoring service centre, PM2.5 level monitoring device of powder-like waste, low dummy section haze sedimentation device.

Accompanying drawing 4 is structural representations of Fig. 1 low-to-medium altitude region haze sedimentation device.

Accompanying drawing 5 is structural representations of noise absorption curtain wall in Fig. 4.

In figure: campus area low latitude haze sedimenting system 10, remote monitoring service centre 20, PM2.5 level monitoring device of powder-like waste 30, communication module 31, mobile module 32, detection module 33, processing module 34, GPS module 35, on-site supervision service centre 40, low dummy section haze sedimentation device 50, support platform 520, , micron order atomization jetting device 540, blower fan 541, air duct 542, micron order spray circle 543, high-pressure hydraulic pump 544, noise absorption curtain wall 550, back up pad 551, abatvoix 552, display device 553, spray angle adjusting gear 560, engine chamber 561, horizontally rotate adjusting mechanism 562, drive motor 5621, gear 5622, support bar 5623, hydraulic jack 563, clamping device 564, base 5640, clamping limb 5641, solution heating device 570, solution apparatus for placing 571, stirring apparatus 572, heating arrangement 573, water back 574, precision filter 575, lifting seal bootr 580, captation 590.

Embodiment

Please refer to as Fig. 1, campus area low latitude haze sedimenting system 10 comprises remote monitoring service centre 20, for being arranged on PM2.5 level monitoring device of powder-like waste 30, on-site supervision service centre 40 and the low dummy section haze sedimentation device 50 of the target area in school zone.

Campus air quality and equipment operation form that remote monitoring service centre 20 transmits for receiving on-site supervision service centre 40, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre 40.Wherein, the 20Yu of remote monitoring service centre on-site supervision service centre 40 realizes exchanges data by wireless transmission or internet.

PM2.5 level monitoring device of powder-like waste 30 is for gathering the dust content in school zone target area, and produces air quality data, and sends air quality data to on-site supervision service centre 40.Wherein, for the air quality data accuracy that guarantees that PM2.5 level monitoring device of powder-like waste 30 produces, can utilize on-site supervision service centre 40 to send the detection position coordinate information prestoring obtaining to PM2.5 level monitoring device of powder-like waste, to instruct PM2.5 level monitoring device of powder-like waste 30 to move to a plurality of different check point in target area in school zone, to obtain a plurality of air quality data, then try to achieve one can be compared with the average air qualitative data in this target area of accurate response, provide following PM2.5 level monitoring device of powder-like waste 30 schemes: referring to Fig. 2 for this reason, PM2.5 level monitoring device of powder-like waste 30 comprises communication module 31, mobile module 32, detection module 33, processing module 34 and GPS module 35, mobile module 32 is for moving under the control in processing module 34, GPS module 35 is for the current coordinate information of reaction PM2.5 level monitoring device of powder-like waste 30 current locations that receive gps satellite and provide, and current coordinate information is offered to processing module 34, detection module 33 is for gathering the dust content in the place that Nei Yu detection position, school zone target area coordinate information is corresponding, and produce air mass signal, and air mass signal is offered to processing module 34, wherein the range ability of detection module 33 is 1 μ m～1000g/m3, the detection position coordinate information that communication module 31 transmits for receiving on-site supervision service centre 40, and the detection position coordinate information of reception is offered to processing module 34, the air quality data that communication module 31 also provides for receiving processing module 34, and send the air quality data of reception to on-site supervision service centre 40, processing module 34 moves for controlling mobile module 32 according to the detection position coordinate information receiving and current coordinate information, judging detection position coordinate information when corresponding with current coordinate information, control mobile module 32 and stop mobile and control detection module 33 beginning testings, wherein, mobile module 32 can be the model of an airplane, model dolly etc., the air mass signal that processing module 34 also transmits for receiving detection module 33, and produce corresponding air quality data according to the air mass signal receiving, and air quality data is offered to communication module 34.

The air quality data that on-site supervision service centre 40 transmits for receiving PM2.5 level monitoring device of powder-like waste 30, on-site supervision service centre 40 is also for according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device 50, on-site supervision service centre 40 is also for gathering the running state parameter of low dummy section haze sedimentation device 50, and according to the air quality data receiving, the running state parameter collecting produces campus air quality and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre 20, and the control command of receiving remote monitor service center 20 transmission, and carry out corresponding operation according to the control command receiving, for example, what remote monitoring service centre 20 transmitted is the order of report current device operation conditions, 40 operational factors that gather each assembly of on-site supervision service centre, and each parameter collecting is sent to remote monitoring service centre 20, for example, what remote monitoring service centre 20 transmitted is the order that starts low dummy section haze sedimentation device 50, 40 of on-site supervision service centres control low dummy section haze sedimentation device 50 and start working.Wherein, rule referred to according to student's active situation and formulated start-up time, for example, start-up time, rule was for carrying out spray operation for 10 minutes before the class under student, time break stops action, when air quality data that on-site supervision service centre 40 judges reception is greater than the benchmark air quality data that prestores and time while being 11: 50 (under before the class the time of 10 minutes), on-site supervision service centre 40 controls low dummy section haze sedimentation device 50 and starts working, so can guarantee that student has a rest in the pure air environment that can make out except haze system, motion, amusement.On-site supervision service centre 40 can be for having the electronic equipment of data processing function, such as computing machine, Single Chip Microcomputer (SCM) system equipment etc., on-site supervision service centre 40 can receive the control signal that operator sends, and according to the control signal receiving, control the work of other equipment in low dummy section haze sedimentation device 10, for example, control signal can be that remote monitoring service centre 20 provides.

Under the control of low dummy section haze sedimentation device 50 for monitor service center 40 at the scene, water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area.In the present embodiment, referring to Fig. 3, target area is the rectangle playground of school, campus area low latitude haze sedimenting system 10 comprises three low dummy section haze sedimentation devices 50, wherein low dummy section haze sedimentation device 50 is arranged on the minor face on playground and is positioned at the centre position of minor face, and another two low dummy section haze sedimentation devices 50 are arranged on the same long limit on playground.

Referring to Fig. 4, low dummy section haze sedimentation device 50 comprises support platform 520, micron order atomization jetting device 540, noise absorption curtain wall 550, spray angle adjusting gear 560; On-site supervision service centre 40, noise absorption curtain wall 550, spray angle adjusting gear 560 are arranged in support platform 520, on-site supervision service centre 40 and micron order atomization jetting device 540, spray angle adjusting gear 560 are electrically connected to control the work of micron order atomization jetting device 540, spray angle adjusting gear 560, micron order atomization jetting device 540 is connected with spray angle adjusting gear 560, to adjust the spray angle of micron order atomization jetting device 540 by spray angle adjusting gear 560; Noise absorption curtain wall 550 is positioned at the rear of micron order atomization jetting device 540, the noise producing to absorb micron order atomization jetting device 540, the impact on student's academic environment while reducing low dummy section haze sedimentation device 50 work with this.Simultaneously, micron order atomization jetting device 540 is carried micron order water smoke to administering a large amount of moments in region, increase regional space humidity, reduce surface temperature simultaneously, the haze of micron order atomization jetting device 540 ejections in a large number, fast, repeatedly adsorbs dust haze particle in the capable process of wafing, the ash that has wrapped up dust haze drips and repeats mutually to condense, assemble again, and finally forms large droplet and be deposited to ground under Action of Gravity Field.

Further, low dummy section haze sedimentation device 50 also comprises solution heating device 570, solution heating device 570 is arranged in support platform 520, the liquid inlet of solution heating device 570 connects for water supply line, solution heating device 570 liquid outlet be connected with micron order atomization jetting device 540, with by heating after aqueous solution flow to micron order atomization jetting device 540.Low dummy section haze sedimentation device 50 also comprises lifting seal bootr 580, lifting seal bootr 580 is arranged in support platform 520, lifting seal bootr 580 is located at on-site supervision service centre 40, micron order atomization jetting device 540, spray angle adjusting gear 560, on solution heating device 570, lifting seal bootr 580Yu on-site supervision service centre 40 is electrically connected, lifting seal bootr 580 is opened under the control at monitor service center 40 at the scene, shutoff operation, for example, lifting seal bootr 580 is hemispherical, lifting seal bootr 580 left and right two lobes are split, each lobe adopts the stacked structure of arc page plate, and by driving guide to drive arc page plate development or folding, to realize lifting seal bootr 580, put into and open, close.Low dummy section haze sedimentation device 50 also comprises captation 590; captation 590 is arranged on micron order atomization jetting device 540; and the injection orifice near micron order atomization jetting device 540; to collect micron order atomization jetting device 40, shut down the remaining water dripping that moment overflows from injection orifice; captation 590 is also connected with solution heating device 570, so that the remaining water dripping of collecting is flowed to solution heating device 570.Wherein, support platform 520 comprises bracing frame and fork type elevator, fork type elevator is fixed on bracing frame, on-site supervision service centre 40, noise absorption curtain wall 550, spray angle adjusting gear 560, solution heating device 570, lifting seal bootr 580, captation 590 are arranged on fork type elevator, so by fork type elevator, improve the height of low dummy section haze sedimentation device 50, to increase the spraying area coverage of low dummy section haze sedimentation device 50.So, when the air of school is good, low dummy section haze sedimentation device 50 folds into ground and lifting seal bootr 580 is closed, and low dummy section haze sedimentation device 50 enters dormancy state.

In the present embodiment, please refer to as Fig. 5, noise absorption curtain wall 550 comprises back up pad 551, abatvoix 552 and display device 553, abatvoix 552 and display device 553 are respectively on corresponding two opposing faces that are fixed on back up pad 551, and abatvoix 552 is relative with micron order atomization jetting device 540, display device 553Yu on-site supervision service centre 40 is electrically connected, the information providing with displaying scene monitor service center 40.Wherein, back up pad 551, abatvoix 552 can be designed to different shapes according to the actual needs, for example semicircle, two board connecting structures, three board connecting structures, as long as while guaranteeing that spray angle adjusting gear 560 is controlled micron order atomization jetting devices 540 and moved, it is just passable that noise absorption curtain wall 550 can block the afterbody of micron order atomization jetting device 540.

In the present embodiment, micron order atomization jetting device 540 comprises blower fan 541, air duct 542, micron order spray circle 543, high-pressure hydraulic pump 544; Air duct 542 is round table-like, blower fan 541 is arranged in one end of great circle of air duct 541, micron order spray circle 543 is arranged in one end of roundlet of air duct 542, the freeing port of high-pressure hydraulic pump 544 is connected with micron order spray circle 543 by woven hose, and the water inlet of high-pressure hydraulic pump 544 is connected with the liquid outlet of solution heating device 570 by woven hose.

In the present embodiment, spray angle adjusting gear 560 comprises engine chamber 561, horizontally rotate adjusting mechanism 562, hydraulic jack 563, clamping device 564, horizontally rotating adjusting mechanism 562 is arranged in support platform 520, engine chamber 561 is located at and horizontally rotates adjusting mechanism 562, on high-pressure hydraulic pump 544, hydraulic jack 563 and clamping device 564 are arranged on engine chamber 561, clamping device 564 comprises base 5640 and is arranged on two clamping limbs 5641 on base 5640, two clamping limb 5641 clamping air ducts 542, and air duct 542 can relatively rotate with clamping limb 5641, the base of hydraulic jack 563 is fixed on engine chamber 561, the telescopic end of hydraulic jack 563 is connected with air duct 542, and the telescopic end of hydraulic jack 563 is extending, in the process shortening, the telescopic end of hydraulic jack 563 and air duct 542 relatively rotate, so that raise one end that micron order spray circle 543 is installed of air duct 542, reduce, the base of clamping device 564 with horizontally rotate adjusting mechanism 562 and be fixedly connected with, horizontally rotate adjusting mechanism 562 and comprise drive motor 5621, gear 5622, support bar 5623, one end of support bar 5623 is vertically fixed on gear 5622, and the other end of support bar 5623 is fixedly connected with the base 5640 of clamping device 564 from engine chamber 561 stretches out, with this, by drive motor 5621 driven wheels 5622, rotate to drive the base 5640 of clamping device 564 to rotate, and then realize the left and right movement in one end that micron order spray circle 543 is installed of air duct 542.

In the present embodiment, solution heating device 570 comprises solution apparatus for placing 571, stirring apparatus 572, heating arrangement 573, water back 574, precision filter 575, the water inlet of solution apparatus for placing 571 connects with water supply line, solution apparatus for placing 571 is also connected with captation 590, the stirring end of stirring apparatus 572 and heating arrangement 573 are arranged in solution apparatus for placing 571 to realize mixing and heating of water and surfactant, the water delivering orifice of solution apparatus for placing 571 is connected with the water inlet of water back 574, the water delivering orifice of water back 574 is connected with the water inlet of precision filter 575, the water delivering orifice of precision filter 575 is connected with the water inlet of high-pressure hydraulic pump 544.Wherein, in solution heating device 570, adding surfactant mixes and obtains with water, to reduce the surface tension of water fog particle, strengthen the ability of water fog particle absorption haze particle, in addition, in solution heating device 570, can also add the materials such as disinfectant, flavouring agent, suppress breathing and the sense of smell comfort level of personnel in bacterium in air, increase region.In addition, by heating arrangement 573, water back 574, realized the ladder of water is heated, improve the temperature of water, the water surface tension after heating is destroyed, and the water fog particle of low surface tension can the airborne haze particle of efficient adsorption.

Further, the present invention also provides a kind of campus area low latitude haze sedimentation method, comprises the following steps:

Step S600, the target area in school zone arranges PM2.5 level monitoring device of powder-like waste, on-site supervision service centre and low dummy section haze sedimentation device.Wherein, target area is the rectangle playground of school, three low dummy section haze sedimentation devices are set, and wherein low dummy section haze sedimentation device is arranged on the minor face on playground and is positioned at the centre position of minor face, and another two low dummy section haze sedimentation devices are arranged on the same long limit on playground.

Step S601, the detection position coordinate information that utilizes on-site supervision service centre to obtain to prestore, and send the detection position coordinate information obtaining to PM2.5 level monitoring device of powder-like waste.

Step S602, utilizes PM2.5 level monitoring device of powder-like waste to gather the dust content in target area in school zone, and produces air quality data, and send air quality data to on-site supervision service centre.Wherein, PM2.5 level monitoring device of powder-like waste comprises communication module, mobile module, detection module, processing module and GPS module.Step S602 is specially: utilize GPS module to receive the current coordinate information of the reaction PM2.5 level monitoring device of powder-like waste current location that gps satellite provides, and current coordinate information is offered to processing module; Utilize detection module to gather the dust content in target area in school zone, and produce air mass signal, and air mass signal is offered to processing module; Utilize communication module to receive the detection position coordinate information that on-site supervision service centre transmits, and the detection position coordinate information of reception is offered to the air quality data that processing module and receiving processing module provide, and send the air quality data of reception to on-site supervision service centre; Utilize processing module to judge detection position coordinate information when corresponding with current coordinate information, control mobile module and stop mobile and control detection module and start testing; Utilize processing module to receive the air mass signal that detection module transmits, and utilize processing module to produce corresponding air quality data according to the air mass signal receiving, and air quality data is offered to communication module.

Step S603, utilize on-site supervision service centre to receive the air quality data that PM2.5 level monitoring device of powder-like waste transmits, and according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device.

Step S604, utilize on-site supervision service centre to gather the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter generation campus air quality collecting and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre.

Step S605, the control command of utilizing on-site supervision service centre receiving remote monitor service center to transmit, and carry out corresponding operation according to the control command receiving.

Step S606, utilizes the low dummy section haze of on-site supervision service center controls sedimentation device that water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area.

Step S607, utilize remote monitoring service centre to receive campus air quality and equipment operation form that on-site supervision service centre transmits, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre.

Claims (10)

1. a campus area low latitude haze sedimenting system, is characterized in that: comprise remote monitoring service centre, for being arranged on PM2.5 level monitoring device of powder-like waste, on-site supervision service centre and the low dummy section haze sedimentation device of the target area in school zone;

PM2.5 level monitoring device of powder-like waste is used for gathering the dust content in school zone target area, and produces air quality data, and sends air quality data to on-site supervision service centre;

The air quality data that on-site supervision service centre transmits for receiving PM2.5 level monitoring device of powder-like waste, on-site supervision service centre is also for according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device, on-site supervision service centre is also for gathering the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter collecting produces campus air quality and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre, and the control command of receiving remote monitor service center transmission, and carry out corresponding operation according to the control command receiving,

Under the control of low dummy section haze sedimentation device for monitor service center at the scene, water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area;

Campus air quality and equipment operation form that remote monitoring service centre transmits for receiving on-site supervision service centre, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre.

2. campus area as claimed in claim 1 low latitude haze sedimenting system, it is characterized in that: the rectangle playground that target area is school, campus area low latitude haze sedimenting system comprises three low dummy section haze sedimentation devices, wherein low dummy section haze sedimentation device is arranged on the minor face on playground and is positioned at the centre position of minor face, and another two low dummy section haze sedimentation devices are arranged on the same long limit on playground.

3. campus area as claimed in claim 1 low latitude haze sedimenting system, it is characterized in that: on-site supervision service centre is also for obtaining the detection position coordinate information prestoring, and send the detection position coordinate information obtaining to PM2.5 level monitoring device of powder-like waste, PM2.5 level monitoring device of powder-like waste comprises communication module, mobile module, detection module, processing module and GPS module, mobile module for moving under the control of processing module, GPS module is for receiving the current coordinate information of the reaction PM2.5 level monitoring device of powder-like waste current location that gps satellite provides, and current coordinate information is offered to processing module, detection module is for gathering the dust content in school zone target area, and produce air mass signal, and air mass signal is offered to processing module, the detection position coordinate information that communication module transmits for receiving on-site supervision service centre, and the detection position coordinate information of reception is offered to processing module, the air quality data that communication module also provides for receiving processing module, and send the air quality data of reception to on-site supervision service centre, processing module moves for controlling mobile module according to the detection position coordinate information receiving and current coordinate information, judging detection position coordinate information when corresponding with current coordinate information, controlling mobile module and stop mobile and control detection module and start testing, the air mass signal that processing module also transmits for receiving detection module, and produce corresponding air quality data according to the air mass signal receiving, and air quality data is offered to communication module.

4. campus area as claimed in claim 3 low latitude haze sedimenting system, is characterized in that: comprise support platform, micron order atomization jetting device, noise absorption curtain wall, spray angle adjusting gear; On-site supervision service centre, noise absorption curtain wall, spray angle adjusting gear are arranged in support platform, on-site supervision service centre and micron order atomization jetting device, spray angle adjusting gear are electrically connected to control the work of micron order atomization jetting device, spray angle adjusting gear, micron order atomization jetting device is connected with spray angle adjusting gear, to adjust the spray angle of micron order atomization jetting device by spray angle adjusting gear; Noise absorption curtain wall is positioned at the rear of micron order atomization jetting device, the noise producing to absorb micron order atomization jetting device.

5. campus area as claimed in claim 4 low latitude haze sedimenting system, it is characterized in that: low dummy section haze sedimentation device also comprises solution heating device, solution heating device is arranged in support platform, the liquid inlet of solution heating device connects for water supply line, solution heating device liquid outlet be connected with micron order atomization jetting device, with by heating after aqueous solution flow to micron order atomization jetting device.

6. campus area as claimed in claim 5 low latitude haze sedimenting system, it is characterized in that: solution heating device comprises solution apparatus for placing, stirring apparatus, heating arrangement, water back, precision filter, the water inlet of solution apparatus for placing connects with water supply line, the stirring end of stirring apparatus and heating arrangement are arranged in solution apparatus for placing to realize mixing and heating of water and surfactant, the water delivering orifice of solution apparatus for placing is connected with the water inlet of water back, the water delivering orifice of water back is connected with the water inlet of precision filter, the water delivering orifice of precision filter is connected with the water inlet of high-pressure hydraulic pump.

7. campus area as claimed in claim 5 low latitude haze sedimenting system, is characterized in that: micron order atomization jetting device comprises blower fan, air duct, micron order spray circle, high-pressure hydraulic pump, air duct is round table-like, assembling is in one end of the great circle of air duct, micron order spray is enclosed in one end of the roundlet that is arranged on air duct, the freeing port of high-pressure hydraulic pump is connected by woven hose and micron order spray circle, the water inlet of high-pressure hydraulic pump by woven hose and solution heating device liquid outlet be connected, spray angle adjusting gear comprises engine chamber, horizontally rotate adjusting mechanism, hydraulic jack, clamping device, horizontally rotating adjusting mechanism is arranged in support platform, engine chamber is located at and horizontally rotates adjusting mechanism, on high-pressure hydraulic pump, hydraulic jack and clamping device are arranged on engine chamber, clamping device comprises base and is arranged on two clamping limbs on base, two clamping limb clamping air ducts, and air duct and clamping limb can relatively rotate, the base of hydraulic jack is fixed on engine chamber, the telescopic end of hydraulic jack is connected with air duct, and the telescopic end of hydraulic jack is extending, in the process shortening, telescopic end and the air duct of hydraulic jack relatively rotate, so that raise one end that micron order spray circle is installed of air duct, reduce, the base of clamping device with horizontally rotate adjusting mechanism and be fixedly connected with, horizontally rotate adjusting mechanism and comprise drive motor, gear, support bar, one end of support bar is vertically fixed on gear, and the other end of support bar is fixedly connected with the base of clamping device from engine chamber stretches out, with this, by drive motor driven wheel, rotate to drive the base of clamping device to rotate, and then realize the moving left and right of one end that micron order spray circle is installed of air duct.

8. campus area as claimed in claim 4 low latitude haze sedimenting system, it is characterized in that: noise absorption curtain wall comprises back up pad, abatvoix and display device, abatvoix and display device are respectively on corresponding two opposing faces that are fixed on back up pad, and abatvoix is relative with micron order atomization jetting device, display device and on-site supervision service centre are electrically connected, the information providing with displaying scene monitor service center; Low dummy section haze sedimentation device also comprises lifting seal bootr, lifting seal bootr is arranged in support platform, lifting seal bootr is located on on-site supervision service centre, micron order atomization jetting device, spray angle adjusting gear, solution heating device, lifting seal bootr and on-site supervision service centre are electrically connected, and lifting seal bootr is opened under the control at monitor service center at the scene, shutoff operation.

9. a campus area low latitude haze sedimentation method, is characterized in that, comprises the following steps:

Target area in school zone arranges PM2.5 level monitoring device of powder-like waste, on-site supervision service centre and low dummy section haze sedimentation device;

Utilize PM2.5 level monitoring device of powder-like waste to gather the dust content in target area in school zone, and produce air quality data, and send air quality data to on-site supervision service centre;

Utilize on-site supervision service centre to receive the air quality data that PM2.5 level monitoring device of powder-like waste transmits, and according to the air quality data receiving, the benchmark air quality data prestoring and start-up time rule control the duty of low dummy section haze sedimentation device;

Utilize on-site supervision service centre to gather the running state parameter of low dummy section haze sedimentation device, and according to the air quality data receiving, the running state parameter generation campus air quality collecting and equipment operation form, and send the campus air quality of generation and equipment operation form to remote monitoring service centre;

The control command of utilizing on-site supervision service centre receiving remote monitor service center to transmit, and carry out corresponding operation according to the control command receiving;

Utilize the low dummy section haze of on-site supervision service center controls sedimentation device that water is changed into micron order water smoke, and by water mist spray to the target area in school zone with the dust in sedimentation target area;

Utilize remote monitoring service centre to receive campus air quality and equipment operation form that on-site supervision service centre transmits, and response monitoring personnel order input operation to produce corresponding control command, and control command is offered to on-site supervision service centre.

10. campus area as claimed in claim 9 low latitude haze sedimentation method, it is characterized in that: the rectangle playground that target area is school, three low dummy section haze sedimentation devices are set, wherein low dummy section haze sedimentation device is arranged on the minor face on playground and is positioned at the centre position of minor face, and another two low dummy section haze sedimentation devices are arranged on the same long limit on playground;

Campus area low latitude haze sedimentation method is further comprising the steps of: the detection position coordinate information that utilizes on-site supervision service centre to obtain to prestore, and send the detection position coordinate information obtaining to PM2.5 level monitoring device of powder-like waste; Wherein, PM2.5 level monitoring device of powder-like waste comprises communication module, mobile module, detection module, processing module and GPS module;

The step of " utilizing PM2.5 level monitoring device of powder-like waste to gather the dust content in target area in school zone, and producing air quality data, and send air quality data to on-site supervision service centre " is specially:

Utilize GPS module to receive the current coordinate information of the reaction PM2.5 level monitoring device of powder-like waste current location that gps satellite provides, and current coordinate information is offered to processing module;

Utilize detection module to gather the dust content in target area in school zone, and produce air mass signal, and air mass signal is offered to processing module;

Utilize communication module to receive the detection position coordinate information that on-site supervision service centre transmits, and the detection position coordinate information of reception is offered to the air quality data that processing module and receiving processing module provide, and send the air quality data of reception to on-site supervision service centre;

Utilize processing module to judge detection position coordinate information when corresponding with current coordinate information, control mobile module and stop mobile and control detection module and start testing;

Utilize processing module to receive the air mass signal that detection module transmits, and utilize processing module to produce corresponding air quality data according to the air mass signal receiving, and air quality data is offered to communication module.