CN212031416U - Atmospheric particulate source resolving vehicle - Google Patents

Abstract

The utility model provides an atmospheric particulate source analysis car, including the automobile body and install sampling rod and the miniature ambient air monitor at the outer top of automobile body, miniature ambient air monitor is used for monitoring atmospheric pollutants and particulate matter, be provided with cockpit and operation cabin in the automobile body, operation cabinet and display have been placed to the instrument operating area in the operation cabin, and the instrument is deposited the district and is placed atmospheric particulate source analysis appearance and the industrial computer of being connected with atmospheric particulate source analysis appearance and miniature ambient air monitor electricity, atmospheric particulate source analysis appearance gathers volatile organic compound and malodorous compound in the atmosphere through the sampling rod, the industrial computer is connected with the display electricity; the top outside the vehicle body is provided with an overhaul platform and a parking air conditioner communicated with the cockpit and the operation cabin. The utility model discloses can realize fixed monitoring point field's sample analysis and gain the correlation data, improve accuracy, comprehensive and the high efficiency of monitoring result, provide a comfortable, comprehensive, specialty and efficient removal operation platform.

Description

Atmospheric particulate source resolving vehicle

Technical Field

The utility model relates to an environmental monitoring technical field, in particular to analytic car in atmospheric particulates source.

Background

With the continuous and rapid development of economy in China, the production scale and the field are continuously enlarged, the industry, agriculture, traffic and the like are rapidly developed, a large amount of pollutants are discharged into the atmosphere, the atmospheric particulate matters have many sources and strong regional characteristics, and the pollutants are one of the most complex chemical compositions and the most harmful pollutants in the atmospheric environment. Increasingly complex atmospheric pollution conditions are challenging traditional atmospheric pollution source monitoring modes, the number of monitoring point positions of the currently implemented atmospheric particulate source monitoring system is limited, the cost is high, data monitoring is usually in a point-to-point mode, the monitoring result is inaccurate, the timeliness is insufficient, the target of fine control cannot be achieved, and deep mining of the capabilities of time-space dynamic trend analysis, pollution emission reduction evaluation, pollution source tracking, environmental early warning and forecasting and the like in a monitoring system cannot be realized.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing an analytic car of atmospheric particulates source to solve current atmospheric particulates source monitoring system and lead to the unsafe problem of monitoring result with the mode of point area face.

In order to achieve the above object, the utility model provides an atmospheric particulates source analysis car, the atmospheric particulates source analysis car includes automobile body, sampling rod and miniature ambient air monitor interval install at the outer top of automobile body, miniature ambient air monitor is used for monitoring atmospheric pollutants and particulate matter, be provided with cockpit and operation cabin in the automobile body, be provided with the driver's seat in the cockpit, have instrument operation area and instrument storage area in the operation cabin, the instrument operation area is close to the cockpit setting, operation cabinet and display have been placed to the instrument operation area, atmospheric particulates source analysis appearance and industrial computer have been placed to the instrument storage area, atmospheric particulates source analysis appearance gathers volatile organic compound and malodorous compound in the atmosphere through the sampling rod, the miniature environmental air monitor and the atmospheric particulate source analyzer are both electrically connected with the industrial personal computer, the industrial personal computer is used for data acquisition, storage and control of the miniature environmental air monitor and the atmospheric particulate source analyzer, and the industrial personal computer is electrically connected with the display;

the top is installed outside the automobile body and is overhauld the platform, the sampling pole and miniature ambient air monitor all installs overhaul on the platform, still install the parking air conditioner on the maintenance platform, the parking air conditioner intercommunication the cockpit with the operation cabin.

The technical scheme of the utility model, the utility model discloses the analytic car in atmospheric particulates source is when using, and the driver makes and drives this analytic car in atmospheric particulates source and travel in the cockpit, and miniature ambient air monitor monitors atmospheric pollutants and particulate matter, for example SO₂、NO₂、CO、O₃Data such as PM10, PM2.5, can also monitor data such as atmospheric humidity simultaneously, temperature, wind speed and wind direction, and volatile organic compounds and foul smell compound's kind, concentration and other relevant data in the atmosphere are gathered through the sampling pole to the atmospheric pollutants monitoring analysis appearance in the operation cabin in real time, and the analysis atmosphere volatile organic compounds and foul smell compound, the industrial computer acquires and stores the monitoring data of miniature environmental air monitor and the data that atmospheric pollutants monitoring analysis appearance provided, and send each data and give the display screen, the display screen shows this data, look over for operating personnel. The utility model discloses the analytic car in atmospheric particulates source can regard as the analytic operation platform of mobile monitoring in atmospheric particulates source, realizes obtaining relevant data to the sample analysis of fixed monitoring point outer scene, has improved accuracy, comprehensive and the high efficiency of monitoring result, reaches the target of the management and control that becomes more meticulousAnd deep mining of capabilities such as time-space dynamic trend analysis, pollution emission reduction evaluation, pollution source tracking, environmental early warning and forecasting and the like in a monitoring system is realized.

And, the utility model discloses the analytic car in atmospheric particulates source is provided with overhauls the platform, overhauls the platform mounting at the outer top of automobile body, makes things convenient for the maintainer to overhaul, and still installs the parking air conditioner on the maintenance platform, and parking air conditioner intercommunication cockpit and operation cabin guarantee driver and operating personnel's work travelling comfort to a remove operation platform has comfortablely concurrently, comprehensively, specialty and efficient is provided one kind.

Further, the outer top of automobile body still installs the five parameter appearance of meteorology, five parameter appearance of meteorology are used for monitoring atmospheric pressure, air temperature, air humidity, wind direction and wind speed, five parameter appearance of meteorology with the industrial computer electricity is connected.

Further, the atmospheric particulate source analyzer comprises a volatile organic compound analyzer, a sulfide analyzer and an amide analyzer, the sampling rod comprises a volatile organic compound sampling rod and a malodorous compound sampling rod, the volatile organic compound analyzer collects volatile organic compounds in the atmosphere through the volatile organic compound sampling rod, and the sulfide analyzer and the amide analyzer collect malodorous compounds in the atmosphere through the malodorous compound sampling rod; and an instrument cabinet is also placed in the instrument storage area, and the industrial personal computer, the sulfide analyzer and the amide analyzer are all installed on the instrument cabinet.

Further, the calibration system has still been placed in the instrument storage area, the calibration system includes dynamic calibration appearance, air compressor machine, mark gas cylinder and zero gas generator, the air compressor machine with mark gas cylinder intercommunication, mark gas cylinder reaches zero gas generator all with the input intercommunication of dynamic calibration appearance, the dynamic calibration appearance is installed on the instrument cabinet, just the output of dynamic calibration appearance with atmospheric particulates source analysis appearance intercommunication.

Further, an operation seat and a fire extinguisher are further placed in the instrument operation area, the operation seat is close to the operation cabinet, and the fire extinguisher is close to the operation seat.

Further, the automobile body has the window, the analytic car in atmospheric particulates source still includes safe hammer, safe hammer is hung and is located in the automobile body, safe hammer is close to the setting of operation seat.

Furthermore, the cockpit and the operation cabin are separated through a partition plate, the display is installed on the partition plate, and a vehicle-mounted two-way interphone is further installed on the partition plate.

Further, the analytic car of atmospheric particulates source still includes warning sign and pilot lamp, the warning sign is installed the outer top of automobile body, the pilot lamp is installed the outer afterbody of automobile body.

Furthermore, the tail part outside the vehicle body is provided with a stair for climbing to the top, and the bottom outside the vehicle body is provided with an electrostatic belt.

Further, the analytic car of atmospheric particulates source still includes power supply system, power supply system is including installing lithium cell, lead-acid storage battery, the invertion power supply in the operation cabinet and installing external commercial power interface cabin, supply socket, dual supply automatic transfer switch on the automobile body, the lithium cell with lead-acid storage battery with the invertion power supply electricity is connected, dual supply automatic transfer switch is used for making external commercial power interface cabin with the supply socket electricity is connected, perhaps makes invertion power supply with the supply socket electricity is connected.

Drawings

Fig. 1 is a schematic structural view of an atmospheric particulate source analysis vehicle according to an embodiment of the present invention;

fig. 2 is a schematic rear view of the atmospheric particulate source analysis vehicle according to an embodiment of the present invention;

fig. 3 is a schematic view of an overlooking internal structure of the atmospheric particulate source analysis vehicle according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic cross-sectional view taken along line B-B of FIG. 3;

FIG. 6 is a schematic cross-sectional view taken at C-C of FIG. 3;

fig. 7 is a schematic cross-sectional view taken along line D-D of fig. 3.

Description of the main element symbols:

the following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Several embodiments of the invention are given in the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 7, an embodiment of the present invention provides an atmospheric particulate source analysis vehicle, which includes a vehicle body 100, a sampling rod 1 and a micro ambient air monitor 2, wherein the sampling rod 1 and the micro ambient air monitor 2 are installed at the top outside the vehicle body 100 at an interval, the micro ambient air monitor 2 is used for monitoring atmospheric pollutants and particulate matters, a cockpit 20 and an operation cabin 10 are arranged in the vehicle body 100, a driving seat 21 is arranged in the cockpit 20, an instrument operation area 101 and an instrument storage area 102 are arranged in the operation cabin 10, the instrument operation area 101 is arranged near the cockpit 20, an operation cabinet 3 and a display 4 are placed in the instrument operation area 101, an atmospheric particulate source analyzer 5 and an industrial personal computer 6 are placed in the instrument storage area 102, the atmospheric particulate source analyzer 5 collects volatile organic compounds and malodorous compounds in the atmosphere through the sampling rod 1, the micro ambient air monitor 2 and the atmospheric particulate source analyzer 5 are both electrically connected with the industrial personal computer 6, the industrial personal computer 6 is used for data acquisition, storage and control of the micro ambient air monitor 2 and the atmospheric particulate source analyzer 5, and the industrial personal computer 6 is electrically connected with the display 4; the top is installed at the outer top of automobile body 100 and is overhauld platform 7, and sampling rod 1 and miniature ambient air monitor 2 all install on overhauing platform 7, overhauls and still installs parking air conditioner 26 on the platform 7, and parking air conditioner 26 communicates cockpit 20 and operation cabin 10.

Specifically, the cockpit 20 is provided with not only a cockpit seat 21 for a pilot to sit on, but also a double-seat front passenger seat 22 for other staff to sit on. The instrument operating area 101 in the work compartment 10 is located close to the cockpit 20 and the instrument storage area 102 is located far from the cockpit 20, i.e. the instrument operating area 101 is located between the cockpit 20 and the instrument storage area 102, the instrument operating area 101 being operated by the operator.

When the atmospheric particulate matter source analysis vehicle is used, a driver drives the atmospheric particulate matter source analysis vehicle to run in the cab 20, and the micro ambient air monitor 2 monitors atmospheric pollutants and particulate matters, such as SO₂、NO₂、CO、O₃The data such as PM10, PM2.5 and the like can be monitored, meanwhile, the data such as atmospheric humidity, temperature, wind speed, wind direction and the like can be monitored, the atmospheric pollutant monitoring analyzer in the operation cabin 10 collects volatile organic compounds and malodorous compounds in the atmosphere in real time through the sampling rod 1 and analyzes the types, concentrations and other related data of the volatile organic compounds and the malodorous compounds in the atmosphere, and the industrial personal computer 6 acquires and stores the monitoring number of the micro environmental air monitor 2According to the data provided by the atmospheric pollutant monitoring analyzer, the data are sent to the display screen, and the display screen displays the data for operators to check. The atmospheric particulate source analysis vehicle can be used as a mobile monitoring analysis operation platform of an atmospheric particulate source, sampling analysis of sites outside fixed monitoring points is achieved, relevant data are obtained, accuracy, comprehensiveness and high efficiency of monitoring results are improved, the goal of refined management and control is achieved, and deep excavation of capabilities of space-time dynamic trend analysis, pollution emission reduction evaluation, pollution source tracking, environment early warning and forecasting and the like in a monitoring system is achieved.

And, this embodiment atmospheric particulates source analysis car is provided with overhauls platform 7, overhauls platform 7 and installs at the outer top of automobile body 100, makes things convenient for the maintainer to overhaul, and overhauls and still install parking air conditioner 26 on the platform 7, and parking air conditioner 26 communicates cockpit 20 and operation cabin 10, guarantees driver and operating personnel's work travelling comfort to a comfortable, comprehensive, professional and efficient removal operation platform is provided.

In this embodiment, a weather five-parameter instrument 8 is further installed on the top outside the vehicle body 100, the weather five-parameter instrument 8 is used for monitoring atmospheric pressure, air temperature, air humidity, wind direction and wind speed, and the weather five-parameter instrument 8 is electrically connected with the industrial personal computer 6. The monitoring of atmospheric pressure, air temperature, air humidity, wind direction and wind speed is carried out through the meteorological five-parameter instrument 8, and the comprehensiveness and comprehensiveness of the monitoring of the atmospheric particulate matter source analysis vehicle are improved.

Further, the atmospheric particulate source analyzer 5 comprises a volatile organic compound analyzer 51, a sulfide analyzer 52 and an amide analyzer 53, the sampling rod 1 comprises a volatile organic compound sampling rod 11 and a malodorous compound sampling rod 12, the volatile organic compound analyzer 51 collects volatile organic compounds in the atmosphere through the volatile organic compound sampling rod 11, and the sulfide analyzer 52 and the amide analyzer 53 collect malodorous compounds in the atmosphere through the malodorous compound sampling rod 12; the instrument storage area 102 is also provided with an instrument cabinet 9, and the industrial personal computer 6, the sulfide analyzer 52 and the amide analyzer 53 are all arranged on the instrument cabinet 9. The volatile organic compound analyzer 51, the sulfide analyzer 52 and the amide analyzer 53 are used for collecting and analyzing volatile organic compounds and malodorous compounds in the atmosphere, so that the atmospheric particulate matter source analysis vehicle can quantitatively analyze the contribution of each pollution source to the particulate matters in the environmental atmosphere by adopting a receptor model method. In order to improve the structure compactness, the industrial personal computer 6, the sulfide analyzer 52 and the amide analyzer 53 are all arranged on the instrument cabinet 9, and the occupied volume is small.

In this embodiment, the calibration system 200 has still been placed in the instrument storage area 102, and the calibration system 200 includes dynamic calibration instrument 201, air compressor 202, gas marking bottle 203 and zero gas generator (not shown), and air compressor 202 and gas marking bottle 203 intercommunication, gas marking bottle 203 and zero gas generator all communicate with the input of dynamic calibration instrument 201, and dynamic calibration instrument 201 installs on instrument cabinet 9, and the output of dynamic calibration instrument 201 and atmospheric particulates source analysis appearance 5 intercommunication. Wherein, the air compressor 202 supplies standard gas for the gas bottle 203.

Specifically, the calibration system 200 is used for zero-point, cross-point, and linear calibration of the volatile organic compound analyzer 51, the sulfide analyzer 52, and the amide analyzer 53. The dynamic calibrator 201 is in communication with the voc analyzer 51, the sulfide analyzer 52, and the amide analyzer 53. When the zero point is calibrated, clean air without pollutants is generated by the zero gas generator and is supplied to an instrument needing to be calibrated through the dynamic calibrator 201; when cross-point or linear calibration is carried out, clean air and standard gas are mixed through the dynamic calibrator 201, the mixed concentration can be set on the dynamic calibrator 201, the mixed gas with the known concentration is supplied to an instrument needing to be calibrated, calibration of the instrument is realized, and the specialty of the atmospheric particulate source analysis vehicle and the accuracy of a monitoring result are improved.

In this embodiment, an operation seat 13 and a fire extinguisher 14 are further placed in the instrument operation area 101, the operation seat 13 is disposed near the operation cabinet 3, and the fire extinguisher 14 is disposed near the operation seat 13. The operation seat 13 can be used for an operator to sit at a position close to the operation cabinet 3, so that the office comfort is improved. If a fire breaks out in the vehicle body 100, an operator can timely take the fire extinguisher 14 to extinguish the fire, so that potential safety hazards are eliminated, and the safety of the atmospheric particulate source analysis vehicle is improved.

In this embodiment, the vehicle body 100 has a window 103, and the atmospheric particulate source analysis vehicle further includes a safety hammer 15, the safety hammer 15 is hung in the vehicle body 100, and the safety hammer 15 is disposed near the operation seat 13. When an accident happens, the safety hammer 15 can break the vehicle window 103 and then escape, so that the safety of personnel is guaranteed.

In this embodiment, the cockpit 20 and the operation cabin 10 are separated by a partition 16, the display 4 is mounted on the partition 16, and the vehicle-mounted two-way interphone 17 is further mounted on the partition 16. The cockpit 20 and the operation cabin 10 are independently arranged so as to prevent the operator and the driver from interfering with each other, and the display 4 is mounted on the partition 16 so as to be convenient for the operator to view. In addition, a vehicle-mounted two-way interphone 17 is further mounted on the partition plate 16 for a driver to communicate with an operator.

In this embodiment, the atmospheric particulates source analysis car further includes warning sign 18 and pilot lamp 19, and warning sign 18 is installed at the outer top of automobile body 100, and pilot lamp 19 is installed at the outer afterbody of automobile body 100. The warning board 18 can be provided with luminous warning characters, such as warning characters of 'special vehicle operation, rear vehicle detouring', and the like, so that other warning characters can be set according to actual conditions, the indicator lamp 19 is lightened, the operation of a vehicle in front of the rear vehicle is further reminded, and the operation safety of the atmospheric particulate matter source analysis vehicle is improved.

In this embodiment, the outer afterbody of automobile body 100 installs the stair 23 of climbing to the top, and maintainer can climb toward the roof with the help of the stair 23 of climbing to overhaul, and is both safe and convenient. In addition, the electrostatic belt 24 is installed at the bottom outside the vehicle body 100 of the vehicle for comprehensively detecting the atmospheric pollutants, and the electrostatic belt 24 can guide the static electricity in the vehicle to the air outside the vehicle or the ground so as to eliminate the static electricity in the vehicle and ensure the use safety of the vehicle for comprehensively detecting the atmospheric pollutants.

In this embodiment, the atmospheric particulate source analysis vehicle further includes a power supply system 300, where the power supply system 300 includes a lithium battery 301, a lead-acid storage battery, an inverter power supply 302 installed in the operation cabinet 3, and an external commercial power interface cabin 303, a power socket 304, and a dual power automatic transfer switch 305 installed on the vehicle body 100, where the lithium battery 301 and the lead-acid storage battery 307 are electrically connected to the inverter power supply 302, and the dual power automatic transfer switch 305 is used to electrically connect the external commercial power interface cabin 303 and the power socket 304, or electrically connect the inverter power supply 302 and the power socket 304. As can be appreciated, the vehicle for resolving atmospheric particulates may utilize the external mains interface compartment 303 to connect with the mains, and at this time, the external mains interface compartment 303 is electrically connected with the power socket 304 through the power wire spool 306. When the atmospheric particulate source analysis vehicle works, the lithium battery 301, the lead-acid storage battery 307 and the inverter power supply 302 supply power to the in-vehicle instrument, the in-vehicle instrument needs to work continuously for a long time, and if the inverter, the lead-acid storage battery 307 and the lithium battery 301 cannot meet the long-time power supply requirement, the dual-power automatic transfer switch 305 can enable the in-vehicle instrument to be switched to be connected with a mains supply, so that the normal use of the in-vehicle instrument is ensured.

An illumination lamp (not shown) is further installed in the body 100 of the atmospheric particulate source analysis vehicle of the present embodiment, and is used for illuminating the interior of the body 100. An electrical appliance control panel 25 is further installed on the operation cabinet 3, and the electrical appliance control panel 25 is used for controlling starting and stopping of a power supply, interior lighting and the like. Install electrical apparatus control panel 25 on operation cabinet 3, make things convenient for operating personnel to operate.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an atmospheric particulates source analysis car, its characterized in that, atmospheric particulates source analysis car includes automobile body, sampling pole and miniature ambient air monitor, the sampling pole with miniature ambient air monitor interval is installed the top outside the automobile body, miniature ambient air monitor is used for monitoring atmospheric pollutants and particulate matter, be provided with cockpit and operation cabin in the automobile body, be provided with driver's cabin in the cockpit, instrument operation district and instrument storage area have in the operation cabin, instrument operation district is close to the cockpit sets up, operation cabinet and display have been placed to instrument operation district, atmospheric particulates source analysis appearance and industrial computer have been placed to the instrument storage area, atmospheric particulates source analysis appearance passes through sampling pole gathers volatile organic compound and malodorous compound in the atmosphere, miniature ambient air monitor with atmospheric particulates source analysis appearance all with the industrial computer electricity is connected, the industrial personal computer is used for data acquisition, storage and control of the micro ambient air monitor and the atmospheric particulate source analyzer and is electrically connected with the display;

the top is installed outside the automobile body and is overhauld the platform, the sampling pole and miniature ambient air monitor all installs overhaul on the platform, still install the parking air conditioner on the maintenance platform, the parking air conditioner intercommunication the cockpit with the operation cabin.

2. The atmospheric particulate source resolving vehicle of claim 1, wherein a five-parameter meteorological instrument is further mounted on the top outside the vehicle body and used for monitoring atmospheric pressure, air temperature, air humidity, wind direction and wind speed, and the five-parameter meteorological instrument is electrically connected with the industrial personal computer.

3. The atmospheric particulate source analysis vehicle according to claim 1, wherein the atmospheric particulate source analyzer comprises a volatile organic compound analyzer, a sulfide analyzer, and an aminated compound analyzer, the sampling rods comprise a volatile organic compound sampling rod and a malodorous compound sampling rod, the volatile organic compound analyzer collects volatile organic compounds in the atmosphere through the volatile organic compound sampling rod, and the sulfide analyzer and the aminated compound analyzer collect malodorous compounds in the atmosphere through the malodorous compound sampling rod; and an instrument cabinet is also placed in the instrument storage area, and the industrial personal computer, the sulfide analyzer and the amide analyzer are all installed on the instrument cabinet.

4. The atmospheric particulate source analysis vehicle of claim 3, wherein a calibration system is further placed in the instrument storage area, the calibration system comprises a dynamic calibrator, an air compressor, a standard gas cylinder and a zero gas generator, the air compressor is communicated with the standard gas cylinder, the standard gas cylinder and the zero gas generator are both communicated with an input end of the dynamic calibrator, the dynamic calibrator is mounted on the instrument cabinet, and an output end of the dynamic calibrator is communicated with the atmospheric particulate source analyzer.

5. The atmospheric particulate source resolving vehicle of claim 1, wherein an operation seat and a fire extinguisher are further placed in the instrument operation area, the operation seat is disposed near the operation cabinet, and the fire extinguisher is disposed near the operation seat.

6. The atmospheric particulate source resolving vehicle of claim 5, wherein the vehicle body has a window, and further comprising a safety hammer suspended in the vehicle body, the safety hammer being disposed adjacent to the operation seat.

7. The atmospheric particulate source vehicle of any one of claims 1-6, wherein the cockpit and the working cabin are separated by a partition, the display is mounted on the partition, and an on-board two-way interphone is further mounted on the partition.

8. The atmospheric particulate source resolving vehicle as claimed in any one of claims 1 to 6, further comprising a warning board and an indicator light, wherein the warning board is mounted on the top outside the vehicle body, and the indicator light is mounted on the tail outside the vehicle body.

9. The atmospheric particulate source resolution vehicle of any one of claims 1-6, wherein the outer tail of the vehicle body is provided with a stair for climbing, and the outer bottom of the vehicle body is provided with an electrostatic belt.

10. The atmospheric particulate source analysis vehicle according to any one of claims 1-6, further comprising a power supply system, wherein the power supply system comprises a lithium battery, a lead-acid battery, an inverter power supply, and an external commercial power interface cabin, a power socket, and a dual-power automatic transfer switch, the lithium battery and the lead-acid battery are installed in the operation cabinet, the external commercial power interface cabin, the power socket, and the dual-power automatic transfer switch are installed on the vehicle body, the lithium battery and the lead-acid battery are electrically connected with the inverter power supply, and the dual-power automatic transfer switch is used for electrically connecting the external commercial power interface cabin with the power socket, or electrically connecting the inverter power supply with.

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