CN215794445U - Atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platforms - Google Patents

Abstract

The utility model relates to the technical field of monitoring equipment, in particular to an atmospheric pollution monitoring device based on a multi-rotor unmanned aerial vehicle platform. The utility model has the advantages that: the device can accomodate monitoring devices into dust cover when not needing to monitor in, thereby prevent that too many deposition of monitoring devices and air contact from leading to the not accurate problem of monitoring devices monitoring too much to take place, flash signal lamp through unmanned aerial vehicle body top carries out the night light strip of scintillation and the four sides of unmanned aerial vehicle body that does not stop and shines the reflection for unmanned aerial vehicle also can make the accurate position of its judgement flight of staff even work at night.

Description

Atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platforms

Technical Field

The utility model relates to the technical field of atmosphere monitoring equipment, in particular to an atmosphere pollution monitoring device based on a multi-rotor unmanned aerial vehicle platform.

Background

Atmospheric environmental monitoring is a process of determining the concentration of pollutants in the atmospheric environment, observing and analyzing the changes and the influence on the environment. The atmospheric pollution monitoring is to measure the kind and concentration of pollutants in the atmosphere and observe the time-space distribution and change rule of the pollutants. The monitored molecular pollutants mainly comprise sulfur oxides, nitrogen oxides, carbon monoxide, ozone, halogenated hydrocarbons, hydrocarbons and the like; the particulate pollutants mainly comprise dust fall, total suspended particles, floating dust and acid sedimentation. The atmospheric quality monitoring is to perform point distribution sampling and analysis on main pollutants in the atmosphere of a certain area. Regular monitoring of a prescribed project is generally performed based on factors such as the size of a region, the distribution and intensity of atmospheric pollution sources, weather conditions, and the topography of the terrain.

In the existing atmosphere monitoring device, certain defects still exist: firstly, atmospheric monitoring generally monitors air below, and is difficult to carry out effective monitoring to air above, and monitoring devices are exposed to air for a long time, so that a large amount of dust is easily accumulated on the surfaces of the monitoring devices, and inaccurate monitoring results are easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides an atmospheric pollution monitoring device based on a multi-rotor unmanned aerial vehicle platform.

The purpose of the utility model is realized by the following technical scheme: the utility model provides an atmospheric pollution monitoring devices based on many rotor unmanned aerial vehicle platform, includes unmanned aerial vehicle body and monitoring devices, the bottom fixed mounting of unmanned aerial vehicle body has the monitoring devices shell, the top fixed mounting of monitoring devices shell has monitoring devices, the inside of monitoring devices shell is provided with the balancing weight, the top fixedly connected with fixed column of balancing weight, the top fixed mounting of fixed column has dust cover, dust cover is located monitoring devices under.

Preferably, the inner wall of monitoring devices shell is provided with the spout, the inside sliding connection of spout has the slider, one side fixedly connected with bradyseism board of slider, bradyseism board fixed mounting is at the top of balancing weight, one side fixed mounting that the slider was kept away from to the bradyseism board has elastic fixation post and compression spring.

Preferably, the number of the cushioning plates is two, the two cushioning plates are symmetrically distributed at the top of the balancing weight, the number of the elastic fixing columns and the number of the compression springs are two, the two ends of the elastic fixing columns and the two ends of the compression springs are fixedly installed on one side, away from the sliding block, of the two cushioning plates, and the cushioning plates are made of elastic materials capable of deforming.

Preferably, one side fixed mounting of monitoring devices shell has the dead lever, the surface of dead lever rotates and is connected with the joint and detains, one side fixed mounting of balancing weight has the joint pole of detaining the looks adaptation with the joint, the quantity of monitoring devices shell is four.

Preferably, one side fixed mounting of unmanned aerial vehicle body has the bradyseism shell, the inside top fixed mounting of bradyseism shell has the flexible post of bradyseism and bradyseism spring, the flexible post of bradyseism is kept away from the one end fixedly connected with bradyseism board of bradyseism shell, the quantity of bradyseism shell is four, four bradyseism shell symmetric distribution is in four angle departments of unmanned aerial vehicle body.

Preferably, the top fixed mounting of unmanned aerial vehicle body has control center, the top fixed mounting of unmanned aerial vehicle body has flashing signal lamp, one side fixed mounting of unmanned aerial vehicle body has the night light strip, the top fixed mounting of unmanned aerial vehicle body has the wing, the quantity of flashing signal lamp and night light strip is four, one side of monitoring devices shell is provided with the air intake.

The utility model has the following advantages:

1. this atmosphere pollution monitoring devices based on many rotor unmanned aerial vehicle platform, detain balancing weight and monitoring devices shell separation through rotating the joint, then control the unmanned aerial vehicle body and take off, the balancing weight makes the slider slide along the spout under the effect of gravity, when sliding to the bottom, monitoring devices breaks away from out from the inside of dust cover and carries out work, when accomplishing the during operation, the unmanned aerial vehicle body descends to ground, the balancing weight contacts ground at first makes the slider slide with the dust cover surface of receiving monitoring devices, accomplish the protection, the device can accomodate into dust cover monitoring devices in when need not monitoring, thereby prevent that too many deposition of monitoring devices and air contact from leading to the not accurate problem of monitoring devices monitoring too much and taking place.

2. This atmosphere pollution monitoring devices based on many rotor unmanned aerial vehicle platform can carry out the night light strip of scintillation and the four sides of unmanned aerial vehicle body that does not stop through the flashing signal lamp at unmanned aerial vehicle body top and shine the reflection, can make unmanned aerial vehicle also can make the accurate position of judging its flight of staff at night work, carries on atmosphere monitoring devices through unmanned aerial vehicle simultaneously, can effectually monitor the air of top, has saved the manpower greatly.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure at position A of the present invention;

FIG. 4 is a partial schematic view of the present invention;

in the figure: 1-unmanned aerial vehicle body, 2-control center, 3-flashing signal lamp, 4-wing, 5-shock absorption shell, 6-shock absorption telescopic column, 7-shock absorption spring, 8-shock absorption plate, 9-monitoring device shell, 10-fixed rod, 11-clamping buckle, 12-clamping rod, 13-counterweight block, 14-fixed column, 15-dustproof shell, 16-monitoring device, 17-shock absorption plate, 18-sliding block, 19-elastic fixed column, 20-compression spring, 21-sliding chute, 22-air inlet and 23-night light bar.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1-4, an atmosphere pollution monitoring devices based on many rotor unmanned aerial vehicle platform, including unmanned aerial vehicle body 1 and monitoring devices 16, the bottom fixed mounting of unmanned aerial vehicle body 1 has monitoring devices shell 9, the top fixed mounting of monitoring devices shell 9 has monitoring devices 16, the inside of monitoring devices shell 9 is provided with balancing weight 13, the top fixedly connected with fixed column 14 of balancing weight 13, the top fixed mounting of fixed column 14 has dust cover 15, dust cover 15 is located monitoring devices 16 under, it makes dust cover 15 can protect monitoring devices 16 to slide through balancing weight 13.

As an optional technical scheme of the utility model: the inner wall of the monitoring device shell 9 is provided with a sliding chute 21, the inside of the sliding chute 21 is connected with a sliding block 18 in a sliding way, one side of the sliding block 18 is fixedly connected with a shock absorption plate 17, the shock absorption plate 17 is fixedly arranged at the top of the balancing weight 13, one side of the shock absorption plate 17 far away from the sliding block 18 is fixedly provided with an elastic fixed column 19 and a compression spring 20, under the action of the gravity of the counterweight block 13, the slide block 18 can slide in the slide groove 21 to lift or lower the dust-proof shell 15, thereby effectively protecting the monitoring device 16, simultaneously taking out the balancing weight 13 from the inside of the monitoring device shell 9 by pressing the two shock absorption plates 17 inwards, enabling the two shock absorption plates 17 to recover the original state through the resilience force of the elastic fixing column 19 and the compression spring 20, the inside of the monitoring device housing 9 is wiped and then the bumper plate 17 is pressed inward to align the slider 18 with the chute 21 and connect them together.

As an optional technical scheme of the utility model: the quantity of bradyseism board 17 is two, and two bradyseism boards 17 symmetric distribution are at the top of balancing weight 13, and the quantity of elastic fixation post 19 and compression spring 20 is two, and the both ends fixed mounting of elastic fixation post 19 and compression spring 20 is in the one side that slider 18 was kept away from to two bradyseism boards 17, and bradyseism board 17 is the elastic material that can take place deformation.

As an optional technical scheme of the utility model: one side fixed mounting of monitoring devices shell 9 has dead lever 10, and the surface of dead lever 10 rotates and is connected with the joint and detains 11, and one side fixed mounting of balancing weight 13 has the joint pole 12 of detaining 11 looks adaptations with the joint, and monitoring devices shell 9's quantity is four, detains 11 joints through the joint and can lock monitoring devices shell 9 and balancing weight 13 to joint pole 12, prevents that too much air from contacting with monitoring devices 16 when need not monitoring.

As an optional technical scheme of the utility model: one side fixed mounting of unmanned aerial vehicle body 1 has bradyseism shell 5, the inside top fixed mounting of bradyseism shell 5 has bradyseism post 6 and bradyseism spring 7 that stretch out and draw back, bradyseism post 6 is kept away from the one end fixedly connected with bradyseism board 8 of bradyseism shell 5, the quantity of bradyseism shell 5 is four, four 5 symmetric distribution of bradyseism shell in four angle departments of unmanned aerial vehicle body 1, when unmanned aerial vehicle descends, bradyseism board 8 contacts ground at first, simultaneously can effectually prevent unmanned aerial vehicle and ground contact through bradyseism spring 7 and bradyseism post 6, fine cushioning effect has simultaneously.

As an optional technical scheme of the utility model: there is control center 2 at the top fixed mounting of unmanned aerial vehicle body 1, the top fixed mounting of unmanned aerial vehicle body 1 has flashing signal lamp 3, one side fixed mounting of unmanned aerial vehicle body 1 has night light strip 23, the top fixed mounting of unmanned aerial vehicle body 1 has wing 4, the quantity of flashing signal lamp 3 and night light strip 23 is four, one side of monitoring devices shell 9 is provided with air intake 22 and can transmits the result of monitoring devices 16 monitoring through control center 2, it flies to drive unmanned aerial vehicle through wing 4, through night light strip 23 and flashing signal lamp 3 and make that unmanned aerial vehicle also can carry out normal work at night, can make more air admission monitoring devices shell 9's inside through air intake 22.

The working process of the utility model is as follows: this atmosphere pollution monitoring devices based on many rotor unmanned aerial vehicle platform, detain 11 with balancing weight 12 and monitoring devices shell 9 separation through rotating the joint, then control unmanned aerial vehicle body 1 and take off, balancing weight 13 makes slider 18 slide along spout 21 under the effect of gravity, when sliding to the bottom, monitoring devices 16 break away from out from dust cover 15's inside and carry out work, when accomplishing the during operation, unmanned aerial vehicle body 1 descends to ground, balancing weight 13 contacts ground at first makes slider 18 slide and cup joints monitoring devices 16's surface with dust cover 15, accomplish the protection, the device can accomodate into dust cover 15 with monitoring devices 16 when need not monitoring in, thereby prevent that too many deposition of monitoring devices 16 and air contact from leading to monitoring devices 16 to monitor not accurate problem emergence, can carry out scintillation that does not stop and the night striation 23 of four sides of unmanned aerial vehicle body through the flashing signal lamp 3 at unmanned aerial vehicle body 1 top and take place The luminous reflection can make unmanned aerial vehicle also can make the accurate position of judging its flight of staff even work at night, carries on the atmosphere monitoring devices through unmanned aerial vehicle simultaneously, can effectually monitor the air of top, has saved the manpower greatly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an atmosphere pollution monitoring devices based on many rotor unmanned aerial vehicle platform, includes unmanned aerial vehicle body (1) and monitoring devices (16), its characterized in that: the utility model discloses an unmanned aerial vehicle monitoring device, including unmanned aerial vehicle body (1), the bottom fixed mounting of monitoring device shell (9), the top fixed mounting of monitoring device shell (9) has monitoring device (16), the inside of monitoring device shell (9) is provided with balancing weight (13), the top fixedly connected with fixed column (14) of balancing weight (13), the top fixed mounting of fixed column (14) has dust cover (15), dust cover (15) are located monitoring device (16) under.

2. The atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platform of claim 1, its characterized in that: the inner wall of monitoring devices shell (9) is provided with spout (21), the inside sliding connection of spout (21) has slider (18), one side fixedly connected with bradyseism board (17) of slider (18), bradyseism board (17) fixed mounting is at the top of balancing weight (13), one side fixed mounting that slider (18) were kept away from in bradyseism board (17) has elastic fixation post (19) and compression spring (20).

3. The atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platform of claim 2, its characterized in that: the damping device is characterized in that the number of the damping plates (17) is two, the two damping plates (17) are symmetrically distributed at the top of the balancing weight (13), the number of the elastic fixing columns (19) and the number of the compression springs (20) are two, the two ends of the elastic fixing columns (19) and the two ends of the compression springs (20) are fixedly installed on one sides, far away from the sliding blocks (18), of the two damping plates (17), and the damping plates (17) are made of elastic materials capable of deforming.

4. The atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platform of claim 2, its characterized in that: one side fixed mounting of monitoring devices shell (9) has dead lever (10), the surface of dead lever (10) rotates and is connected with the joint and detains (11), one side fixed mounting of balancing weight (13) has joint pole (12) of detaining (11) looks adaptation with the joint, the quantity of monitoring devices shell (9) is four.

5. The atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platform of claim 1, its characterized in that: one side fixed mounting of unmanned aerial vehicle body (1) has bradyseism shell (5), the inside top fixed mounting of bradyseism shell (5) has bradyseism post (6) and bradyseism spring (7), the one end fixedly connected with bradyseism board (17) of bradyseism shell (5) are kept away from in bradyseism post (6), the quantity of bradyseism shell (5) is four, four bradyseism shell (5) symmetric distribution is in four angles of unmanned aerial vehicle body (1).

6. The atmospheric pollution monitoring device based on many rotor unmanned aerial vehicle platform of claim 1, its characterized in that: the utility model discloses an unmanned aerial vehicle, including unmanned aerial vehicle body (1), the top fixed mounting of unmanned aerial vehicle body (1) has control center (2), the top fixed mounting of unmanned aerial vehicle body (1) has flashing signal lamp (3), one side fixed mounting of unmanned aerial vehicle body (1) has night light strip (23), the top fixed mounting of unmanned aerial vehicle body (1) has wing (4), the quantity of flashing signal lamp (3) and night light strip (23) is four, one side of monitoring devices shell (9) is provided with air intake (22).

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