CN208313935U - Mobile air quality sensing network monitor - Google Patents
Mobile air quality sensing network monitor Download PDFInfo
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- CN208313935U CN208313935U CN201820802872.3U CN201820802872U CN208313935U CN 208313935 U CN208313935 U CN 208313935U CN 201820802872 U CN201820802872 U CN 201820802872U CN 208313935 U CN208313935 U CN 208313935U
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- air quality
- upper casing
- sensing network
- network monitor
- mobile air
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Abstract
The utility model belongs to air quality monitoring equipment field, and in particular to a kind of mobile air quality sensing network monitor.Monitor disclosed by the utility model uses carbon fiber shell, integrated micro design, it is light-weight, small in size, windage is small, conveniently it is carried to unmanned plane or vehicle-mounted use, when using the unmanned plane for carrying monitor, the pollutant inspection that can complete a garden in a short period of time, improves the efficiency of law enforcement, and be provided with specific aim and real-time.Unmanned plane during flying platform is acquired pollutant spatial distribution, while can obtain photos and videos information, and monitor data have position coordinates and elevation information, it may be determined that pollute the direct source of generation.Monitor is deployed on the vehicles such as bus, taxi, is completed the collection analysis of traffic route pollutant, is reached large area, the monitoring effect that precise treatment is layouted.
Description
Technical field
The utility model belongs to air quality monitoring equipment field, and in particular to a kind of mobile air quality sensing network prison
Survey instrument.
Background technique
The existing air quality prison designed based on gas eletrochemistry sensor technology and optical scatter object sensor technology
Instrument is surveyed, the monitoring data that fixed point is arranged are difficult to judge pollution sources migration and spread condition, and there are no pollute from determining
The direct source occurred.
In addition, law enforcement for environmental protection person is mostly inspection of knocking at the door from house to house, the equipment of dependence when checking that row steals in enterprise at present
It is hand-held gas monitoring instrument, efficiency is extremely low.Existing instrument either fixed point monitoring equipment or common portable equipment, to dirt
The acquisition for contaminating object data is all in one plane.Pollutant spatial distribution can not be acquired.
For this status, need one kind can be realized it is removable, high-efficient, pollutant spatial distribution can be monitored
Equipment.
Utility model content
In order to solve above-mentioned problems of the prior art, the utility model provides a kind of mobile empty the utility model
Makings amount sensing network monitor, can be by UAV flight or vehicle-mounted, to realize removable, high-efficient and to space
The effect that different points are monitored.
The specific technical solution that the utility model uses is:
Mobile air quality sensing network monitor, including shell and the monitoring system being arranged in shell cavity body structure,
The monitoring system includes monitoring gas circuit and sensing unit, and the sensing unit includes controller and monitoring sensor, institute
The shell stated includes upper casing, rear baffle and bottom plate, and the upper casing, rear baffle and bottom plate surround closed cavity body structure, described
Upper casing be additionally provided with suspension connection structure, suspension connection structure includes hanging plate and is connected between the upper surface of upper casing and hanging plate
Connecting rod.
The monitoring gas circuit includes diaphragm pump, gas chamber, and the diaphragm pump steam inlet is provided with filter, it is described every
The gas outlet of membrane pump is connect with gas chamber, and the controller is connected with monitoring sensor by sensor amplification module, described
The induction end of monitoring sensor is connect with gas chamber.
Gas chamber, monitoring sensor, sensor amplification module and the controller is set gradually from the bottom to top on bottom plate,
Battery is additionally provided on the bottom plate, the battery is electrically connected with the controller.
The air inlet of the filter is arranged on bottom plate, and the gas outlet of the gas chamber is also disposed on bottom plate.
The controller is also connected with antenna terminal, and the antenna terminal is arranged on rear baffle.
The upper casing is in truncated rectangular pyramids structure, and the lower edge of upper casing is provided with the receipts side inclined-plane to contraction on the inside of upper casing.
The shell connection sheet of multiple groups L-type, shell connection are provided between the medial surface of the upper casing, rear baffle and bottom plate
On piece is provided with bolt hole, and the shell connection sheet is detachably connected by bolt and the formation of upper casing, rear baffle or bottom plate.
Attaching nut is additionally provided on the hanging plate.
The sensing unit further includes particulate matter sensors and Temperature Humidity Sensor, the sense of the particulate matter sensors
It should hold and be arranged on bottom plate, the Temperature Humidity Sensor setting exists in gas chamber bottom, the induction end setting of Temperature Humidity Sensor
In gas chamber, particulate matter sensors and Temperature Humidity Sensor signal output end are connect with controller.
The controller is also connected with self-lock switch, and the self-lock switch is connected between battery and controller, institute
The battery stated is also connected with charging interface, and the charging interface and self-lock switch are separately positioned on rear baffle.
The beneficial effects of the utility model are:
Monitor disclosed by the utility model uses carbon fiber shell, integrated micro design, light-weight, small in size, wind
It hinders small, is conveniently carried to unmanned plane or vehicle-mounted use, it, can be in the very short time when using the unmanned plane for carrying monitor
The interior pollutant inspection for completing a garden, improves the efficiency of law enforcement, and be provided with specific aim and real-time.Unmanned plane flies
Row platform is acquired pollutant spatial distribution, while can obtain photos and videos information, and monitor data are sat with position
Mark and elevation information, it may be determined that pollute the direct source of generation.Monitor is deployed on the vehicles such as bus, taxi, is completed
The collection analysis of traffic route pollutant reaches large area, the monitoring effect that precise treatment is layouted.
Detailed description of the invention
Fig. 1 is the external structure schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of front right axle side direction inside the utility model;
Fig. 3 is the structural schematic diagram of left front axis side direction inside the utility model;
Fig. 4 is the monitoring system block diagram of the utility model;
In attached drawing, 1, controller, 2, monitoring sensor, 3, upper casing, 4, rear baffle, 5, bottom plate, 6, hanging plate, 7, connecting rod,
8, diaphragm pump, 9, gas chamber, 10, filter, 11, charging interface, 12, battery, 13, antenna terminal, 14, receipts side inclined-plane, 15, shell
Connection sheet, 16, attaching nut, 17, particulate matter sensors, 18, Temperature Humidity Sensor, 19, self-lock switch, 20, sensor amplification
Module.
Specific embodiment
With reference to the accompanying drawing and specific embodiment the utility model is described in further detail:
Specific embodiment is as shown in fig. 1 to fig. 4, and the utility model is a kind of mobile air quality sensing network monitor,
Including shell and the monitoring system being arranged in shell cavity body structure, the monitoring system includes that monitoring gas circuit and sensing are single
Member, the sensing unit include controller 1 and monitoring sensor 2, and the shell includes upper casing 3, rear baffle 4 and bottom plate 5,
Upper casing 3, rear baffle 4 and the bottom plate 5 surrounds closed cavity body structure, and the upper casing 3 is additionally provided with suspension connection structure,
Suspension connection structure includes the connecting rod 7 between hanging plate 6 and the upper surface for being connected to upper casing 3 and hanging plate 6.The utility model uses
When by unmanned plane or it is vehicle-mounted be used as mobile monitoring platform, be attached by hanging plate 6 and these mobile monitoring platforms, connection
Monitor is fixed on hanging plate 6 by bar 7, is connect to guarantee that monitor facilitates with the stabilization of mobile monitoring platform.
Further, the monitoring gas circuit includes diaphragm pump 8, gas chamber 9, and 8 air inlet of diaphragm pump was provided with
The gas outlet of filter 10, the diaphragm pump 8 is connect with gas chamber 9, and the controller 1 is connected by sensor amplification module 20
There is monitoring sensor 2, the induction end of the monitoring sensor 2 is connect with gas chamber 9.Gasmetry uses pump suction type, and measurement is steady
Qualitative and precision greatly improves, at the same eliminate be carried to unmanned plane or it is vehicle-mounted on windage effect, filter 10, diaphragm pump
8, it is connected between gas chamber 9 using lined with polyethylene hose, air-tightness is good, and monitoring effect accuracy is high.
Further, the gas chamber 9, monitoring sensor 2, sensor amplification module 20 and controller 1 on bottom plate 5 by
Under it is supreme set gradually, be additionally provided with battery 12 on the bottom plate 5, as shown in Figures 2 and 3, the described setting of battery 12 exists
Between gas chamber 9 and rear baffle 4, it both can guarantee various equipment power supplies, and also acted the effect of balance 9 weight of gas chamber, guarantee equipment
Whole weight balancing, the battery 12 are electrically connected with controller 1.Gas enters filter 10 by air inlet, then
Entering gas chamber 9 by diaphragm pump 8, then arrives gas outlet, integral layout maximumlly reduces piping connection, gas circuit length is reduced,
The sensitivity of measurement is greatly improved, and monitors sensor 2 and is directly connect by sensor amplification module 20 with controller 1, it is this
The mode that all the sensors are directly connected to, integrated level greatly promote, and reduce connecting line, and the battery 12 is lithium battery,
Energy density is high and light-weight, helps to reduce body weight, is suitably applied unmanned aerial vehicle platform.
Gas chamber 9 uses compact all-in-one design, and squared design, upper layer assembly monitoring sensor 2, bottom is temperature and humidity biography
Sensor 18, reduces gas chamber quantity and gas circuit length, reduces absorption of the gas circuit to gas to a certain extent.Simultaneously in gas chamber 9
Using teflon coatings, greatly reduces the absorption to gas, gas absorption is avoided to impact measurement result.
Further, in order to reduce windage effect caused by mobile platform, the air inlet of the filter 10 is arranged the bottom of at
On plate 5, the gas outlet of the gas chamber 9 is also disposed on bottom plate 5.By air inlet/outlet setting in the lesser bottom surface of windage, pump is reduced
Resistance when inhaling and being vented guarantees smooth flow of the gas in gas circuit, to help to improve the accuracy of monitoring.
Further, the controller 1 is also connected with antenna terminal 13, and the antenna terminal 13 is arranged in rear baffle
On 4.The antenna terminal 13 includes GPRS and GPS antenna connector is used for connection signal antenna, and controller 1 carries out data acquisition
And calculation process obtains the related data of monitoring, sends data to server by GPRS signal.Data acquisition can achieve
Second grade (>=1s), and increase data and reissue mechanism, prevention in the weaker situation of signal data not really.
Further, monitor monitoring data have GPS coordinate information, include altitude info ination in coordinate information, often
Data has spatial coordinated information, convenient to carry out solid space analysis to data.
Further, the upper casing 3 is in truncated rectangular pyramids structure, and the lower edge of upper casing 3 is provided with shrinks on the inside of upper casing 3
Receipts side inclined-plane 14.The whole upper casing 3 is in diamond, is arranged using inclined-plane, windage is smaller, and the receipts side inclined-plane 14 of setting is just
In raising 3 integral strength of upper casing, while facilitating and assembling bottom plate 5 and 3 bottom of upper casing, whole is in pyramid, and center of gravity is leaned on
Under, especially in carry on unmanned plane in use, can guarantee whole flight stability.
Further, the shell that multiple groups L-type is provided between the medial surface of the upper casing 3, rear baffle 4 and bottom plate 5 connects
Contact pin 15, is provided with bolt hole in shell connection sheet 15, the shell connection sheet 15 by bolt and upper casing 3, rear baffle 4 or
The formation of bottom plate 5 is detachably connected, and when assembly is fixed inside the housing by shell connection sheet 15, good fixing effect and shape
Preferable flatness is maintained, windage is small and bonding strength is high, facilitates the progress of mobile monitoring.
Further, it is additionally provided with attaching nut 16 on the hanging plate 6, facilitated by attaching nut 16 monitor is same
Mobile monitoring platform is attached, and is also equipped with through slot on the hanging plate 6, can be attached by through slot using bolt, with
Guarantee the firm stable of connection.
Further, the sensing unit further includes particulate matter sensors 17 and Temperature Humidity Sensor 18,
The induction end of grain object sensor 17 is arranged on bottom plate 5, and the setting of Temperature Humidity Sensor 18 is used for gas in 9 bottom of gas chamber
The monitoring sensor 2 and Temperature Humidity Sensor 18 of body monitoring share gas chamber 9, and the two be arranged improve gas chamber 9 and outside above and below
Space utilization rate in shell improves the degree of integration of equipment, helps to reduce equipment volume, the induction of Temperature Humidity Sensor 18
End is arranged in gas chamber 9, and particulate matter sensors 17 and 18 signal output end of Temperature Humidity Sensor are connect with controller 1.By
Grain object sensor 17 and Temperature Humidity Sensor 18 are acquired environmental parameter, analyze convenient for the later period atmospheric condition.
Further, the controller 1 is also connected with self-lock switch 19, and the self-lock switch 19 is connected on battery 12
Between controller 1, the battery 12 is also connected with charging interface 11, and the charging interface 11 and self-lock switch 19 are distinguished
It is arranged on rear baffle 4, convenient for carrying out switch control to equipment, the charging interface 11 makes as the charging end of battery 12
With, when charging is required only power supply line need to be connect with charging interface 11, can be battery 12 charging, save dismount shell behaviour
Make, improves service efficiency.
The utility model can be realized the multi-parameters such as PM10, PM2.5, SO2, NO2, O3, CO in on-line monitoring atmospheric environment,
And different sensors module measurement such as VOCs, HCN, CL2, H2S, NH3 and HCL can be replaced as needed.Applied to exploding, let out
The air environmental pollution emergency monitoring that the environmental burst accidents such as dew, fire cause, the normal atmospheric quality condition of risk place patrol
It looks into, the monitoring of city lower atmosphere quality condition.Unmanned plane can not only be carried to be monitored in the air, can also be deployed in bus,
On the vehicles such as taxi, the collection analysis of traffic route pollutant is completed, to instruct the formulation of traffic policy, city is reduced and hands over
The logical pollution to air.
Claims (10)
1. mobile air quality sensing network monitor, including shell and the monitoring system being arranged in shell cavity body structure, institute
The monitoring system stated includes monitoring gas circuit and sensing unit, and the sensing unit includes controller (1) and monitoring sensor
(2), it is characterised in that: the shell includes upper casing (3), rear baffle (4) and bottom plate (5), the upper casing (3), rear baffle
(4) and bottom plate (5) surrounds closed cavity body structure, and the upper casing (3) is additionally provided with suspension connection structure, hangs connection structure
Including hanging plate (6) and the connecting rod (7) that is connected between the upper surface of upper casing (3) and hanging plate (6).
2. mobile air quality sensing network monitor according to claim 1, it is characterised in that: the monitoring gas circuit
Including diaphragm pump (8), gas chamber (9), the diaphragm pump (8) air inlet is provided with filter (10), the diaphragm pump (8)
Gas outlet is connect with gas chamber (9), and the controller (1) is connected with monitoring sensor (2) by sensor amplification module (20),
The induction end of the monitoring sensor (2) is connect with gas chamber (9).
3. mobile air quality sensing network monitor according to claim 2, it is characterised in that: the gas chamber (9),
Monitoring sensor (2), sensor amplification module (20) and controller (1) are set gradually from the bottom to top on bottom plate (5), described
It is additionally provided on bottom plate (5) battery (12), the battery (12) is electrically connected with controller (1).
4. mobile air quality sensing network monitor according to claim 2, it is characterised in that: the filter (10)
Air inlet be arranged on bottom plate (5), the gas outlet of the gas chamber (9) is also disposed on bottom plate (5).
5. mobile air quality sensing network monitor according to claim 2, it is characterised in that: the controller
(1) it is also connected with antenna terminal (13), the antenna terminal (13) is arranged on rear baffle (4).
6. mobile air quality sensing network monitor according to claim 1, it is characterised in that: the upper casing (3)
In truncated rectangular pyramids structure, the lower edge of upper casing (3) is provided with the receipts side inclined-plane (14) to contraction on the inside of upper casing (3).
7. mobile air quality sensing network monitor according to claim 1, it is characterised in that: the upper casing (3),
The shell connection sheet (15) of multiple groups L-type is provided between the medial surface of rear baffle (4) and bottom plate (5), in shell connection sheet (15)
It is provided with bolt hole, the shell connection sheet (15) forms by bolt with upper casing (3), rear baffle (4) or bottom plate (5) removable
Unload connection.
8. mobile air quality sensing network monitor according to claim 1, it is characterised in that: the hanging plate (6)
On be additionally provided with attaching nut (16).
9. mobile air quality sensing network monitor according to claim 1, it is characterised in that: the sensing unit
It further include particulate matter sensors (17) and Temperature Humidity Sensor (18), the induction end setting of the particulate matter sensors (17) exists
On bottom plate (5), the Temperature Humidity Sensor (18) is arranged in gas chamber (9) bottom, and the induction end of Temperature Humidity Sensor (18) is set
It sets in gas chamber (9), particulate matter sensors (17) and Temperature Humidity Sensor (18) signal output end are connect with controller (1).
10. mobile air quality sensing network monitor according to claim 3, it is characterised in that: the controller
(1) it is also connected with self-lock switch (19), the self-lock switch (19) is connected between battery (12) and controller (1), described
Battery (12) be also connected with charging interface (11), the charging interface (11) and self-lock switch (19) are kept off after being separately positioned on
On plate (4).
Priority Applications (1)
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CN201820802872.3U CN208313935U (en) | 2018-05-28 | 2018-05-28 | Mobile air quality sensing network monitor |
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CN201820802872.3U CN208313935U (en) | 2018-05-28 | 2018-05-28 | Mobile air quality sensing network monitor |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109911229A (en) * | 2019-03-23 | 2019-06-21 | 佛山昊航科技有限公司 | A kind of environment monitoring unmanned vehicle |
CN110780042A (en) * | 2019-11-20 | 2020-02-11 | 佛山科学技术学院 | Air quality monitoring method for atmospheric pollution treatment |
CN113984977A (en) * | 2021-12-27 | 2022-01-28 | 河北先河环保科技股份有限公司 | Industrial health monitoring station |
CN114113467A (en) * | 2021-09-07 | 2022-03-01 | 深圳市自由度环保科技有限公司 | Airborne atmospheric monitoring module and GPS-based atmospheric pollution traceability analysis system |
CN114280243A (en) * | 2021-12-27 | 2022-04-05 | 河北先河环保科技股份有限公司 | Control unit and air quality monitoring equipment |
WO2023124297A1 (en) * | 2021-12-27 | 2023-07-06 | 河北先河环保科技股份有限公司 | Air quality monitoring apparatus |
-
2018
- 2018-05-28 CN CN201820802872.3U patent/CN208313935U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109911229A (en) * | 2019-03-23 | 2019-06-21 | 佛山昊航科技有限公司 | A kind of environment monitoring unmanned vehicle |
CN110780042A (en) * | 2019-11-20 | 2020-02-11 | 佛山科学技术学院 | Air quality monitoring method for atmospheric pollution treatment |
CN114113467A (en) * | 2021-09-07 | 2022-03-01 | 深圳市自由度环保科技有限公司 | Airborne atmospheric monitoring module and GPS-based atmospheric pollution traceability analysis system |
CN113984977A (en) * | 2021-12-27 | 2022-01-28 | 河北先河环保科技股份有限公司 | Industrial health monitoring station |
CN114280243A (en) * | 2021-12-27 | 2022-04-05 | 河北先河环保科技股份有限公司 | Control unit and air quality monitoring equipment |
WO2023124297A1 (en) * | 2021-12-27 | 2023-07-06 | 河北先河环保科技股份有限公司 | Air quality monitoring apparatus |
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