CN216762169U - Urban greenhouse gas monitoring unmanned aerial vehicle device - Google Patents

Abstract

The utility model discloses an urban greenhouse gas monitoring unmanned aerial vehicle device, which comprises an unmanned aerial vehicle, wherein frames are welded at two ends of the unmanned aerial vehicle, a convenient installation mechanism is arranged in each frame, each convenient installation mechanism comprises a sliding rod, a connecting plate, a supporting spring, a limiting plate, a vertical plate, a top block, a placing plate, a monitor, a push rod, a knob and a clamping plate, the sliding rods are movably connected to one end of each frame at equal intervals, the connecting plates are welded to one ends of the sliding rods, the sliding rods and the limiting plates are driven to move by the telescopic characteristic of the supporting springs, the vertical plates are limited by the matching of the top blocks, the placing plates are conveniently fixed at the bottom end of the unmanned aerial vehicle, then the knobs are rotated to drive the push rods to rotate, the clamping plates are pushed to fix the monitor, and the convenience in installation of the monitor is improved, thereby make things convenient for unmanned aerial vehicle to take monitor flight.

Description

Urban greenhouse gas monitoring unmanned aerial vehicle device

Technical Field

The utility model relates to the technical field of monitoring unmanned aerial vehicles, in particular to an urban greenhouse gas monitoring unmanned aerial vehicle device.

Background

The atmospheric pollution is caused by the phenomenon that certain substances enter the atmosphere due to human activities or natural processes, present enough concentration and reach enough time, and therefore harm the comfort, health and welfare of human bodies or the environment, at the moment, an atmospheric monitoring device takes place at the right moment, and carries a monitor to fly through an unmanned aerial vehicle to monitor cities or industrial areas;

however, the monitor at the bottom end of the existing unmanned aerial vehicle is complex to install, the fixing effect on the monitor is poor, in the flying process, the monitor is easy to deviate and drop, the waste of resources is caused, and the monitoring effect is influenced, so that the urban greenhouse gas monitoring unmanned aerial vehicle device is necessary to be provided for avoiding the technical problems so as to overcome the defects in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model provides an urban greenhouse gas monitoring unmanned aerial vehicle device which can effectively solve the problems that in the background technology, a monitor is complex to install, the fixing effect on the monitor is poor, the monitor is easy to deviate and fall off in the flying process, the waste of resources is caused, and the monitoring effect is influenced.

In order to achieve the purpose, the utility model provides the following technical scheme: an urban greenhouse gas monitoring unmanned aerial vehicle device comprises an unmanned aerial vehicle, wherein frames are welded at two ends of the unmanned aerial vehicle, a convenient mounting mechanism is arranged inside each frame, and each convenient mounting mechanism comprises a sliding rod, a connecting plate, a supporting spring, a limiting plate, a vertical plate, a top block, a placing plate, a monitor, a push rod, a knob and a clamping plate;

frame one end equidistance swing joint has the slide bar, slide bar one end welding has the connecting plate, and has cup jointed supporting spring between the slide bar outside corresponds connecting plate and the frame, the slide bar other end corresponds the welding of frame inside position department and has a limiting plate, the frame is inside to correspond limiting plate one side position department swing joint and to have the riser, the founding in riser top has the kicking block, the board is placed through bolt fixedly connected with to the riser bottom, place the board top and install the monitor, riser one end equidistance is rotated and is connected with the push rod, and push rod one end melt-casting has the knob, the push rod other end corresponds monitor one side position department and rotates and be connected with splint.

Preferably, a wind collecting and filtering mechanism is arranged at the position, corresponding to one side of the monitor, of the top end of the placing plate, and the wind collecting and filtering mechanism comprises an air draft channel, a fixed plate, a rotating shaft, a rotating blade, a fixed frame, a sealing frame, a magnetic plate, a filter screen and a lug;

place board top and correspond monitor one side position department and pass through bolt fixedly connected with convulsions passageway, convulsions passageway inner wall equidistance joint has the fixed plate, fixed plate one end middle part position department rotates and is connected with the pivot, the pivot both ends correspond fixed plate both sides position department and all have welded the rotary vane, the joint of convulsions passageway inner wall correspondence rotary vane one side position department has fixed frame, the fixed frame outside position department swing joint that convulsions passageway inner wall corresponds has sealed frame, the adjacent one end of sealed frame and fixed frame is all through bolt fixedly connected with magnetic sheet, two correspond convulsions passageway inside position department joint between the magnetic sheet has the filter screen, sealed frame one end top and bottom position department are impartial apart from having welded the lug.

Preferably, the butt fusion of connecting plate one end has the handle, limiting plate one end is laminated with riser one end mutually, the width of kicking block is greater than the width of riser, and the kicking block top has seted up the inclined plane, the monitor supplies power through internal power source.

Preferably, the air inlet of convulsions passageway one end and monitor is laminated mutually, two the magnetic sheet adsorbs each other.

Preferably, the convex groove has been seted up to splint one end, the inside swing joint of convex groove has the expansion plate, and the equidistance welding of the corresponding convex inslot position department of expansion plate one end has the tensioning spring, the equal welding of the corresponding convex inslot position department in expansion plate top and bottom has the fixture block, the butt fusion of expansion plate one end has the baffle.

Preferably, the other end of the tension spring is connected with the inner wall of the convex groove, and one end of the baffle is attached to one end of the monitor.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has scientific and reasonable structure and safe and convenient use:

1. be provided with convenient installation mechanism, through the flexible characteristic of supporting spring, drive slide bar and limiting plate and remove to cooperation through the kicking block carries on spacingly to the riser, and the board is fixed in the unmanned aerial vehicle bottom to the convenience will be placed, then rotates the knob, makes the knob take the push rod rotatory, promotes splint and fixes the monitor, improves the convenience of monitor installation, thereby makes things convenient for unmanned aerial vehicle to take the monitor flight, detects city air.

2. Be provided with collection wind filtering mechanism, it is rotatory with the pivot to promote the rotary vane through the air current, thereby produce adsorption effect, inside inhaling the convulsions passageway with the gas in the urban air, the utilization ratio of the energy has been improved, then rethread convulsions passageway's cooperation, be convenient for send into inside the monitor with gas, improve the effect of monitoring, in addition through the cooperation of magnetic sheet, convenient fixed frame and sealed frame are connected, fix the filter screen, thereby at the in-process of convulsions, filter the dust, guarantee the inside clean and tidy of monitor, and when dismantling, through the sealed frame slip convulsions passageway of lug pulling, remove the spacing to the filter screen, be convenient for dismantle the washing to the filter screen.

3. Be provided with convex groove, expansion plate, tensioning spring, fixture block and baffle, through the flexible characteristic of tensioning spring, drive the expansion plate and slide in convex groove inside to through the cooperation of baffle, pushing away the monitor and removing, force monitor one end and exhaust passage one end to laminate mutually, guarantee the effect of exhaust passage collection wind, improved the efficiency of monitoring, carry on spacingly through the fixture block to the expansion plate in addition, avoid expansion plate roll-off convex groove, prevent that the skew from appearing in the expansion plate.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

In the drawings:

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

FIG. 2 is a schematic view of the structure of the area A in FIG. 1 according to the present invention;

FIG. 3 is a schematic structural view of a convenient mounting mechanism of the present invention;

FIG. 4 is a schematic structural view of the wind-collecting filter mechanism of the present invention;

FIG. 5 is a schematic view of the mounting structure of the expansion plate of the present invention;

reference numbers in the figures: 1. an unmanned aerial vehicle; 2. a frame;

3. a convenient installation mechanism; 301. a slide bar; 302. a connecting plate; 303. a support spring; 304. a limiting plate; 305. a vertical plate; 306. a top block; 307. placing the plate; 308. a monitor; 309. a push rod; 310. a knob; 311. a splint;

4. an air collection and filtration mechanism; 401. an air draft channel; 402. a fixing plate; 403. a rotating shaft; 404. rotating leaves; 405. a fixing frame; 406. a sealing frame; 407. a magnetic plate; 408. a filter screen; 409. a bump;

5. a convex groove; 6. a retractable plate; 7. tensioning the spring; 8. a clamping block; 9. and a baffle plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-5, the utility model provides a technical scheme, an urban greenhouse gas monitoring unmanned aerial vehicle device comprises an unmanned aerial vehicle 1, frames 2 are welded at two ends of the unmanned aerial vehicle 1, a convenient mounting mechanism 3 is arranged inside the frames 2, and the convenient mounting mechanism 3 comprises a sliding rod 301, a connecting plate 302, a supporting spring 303, a limiting plate 304, a vertical plate 305, a top block 306, a placing plate 307, a monitor 308, a push rod 309, a knob 310 and a clamping plate 311;

one end of the frame 2 is equidistantly and movably connected with a sliding rod 301, one end of the sliding rod 301 is welded with a connecting plate 302, a supporting spring 303 is sleeved between the outer side of the sliding rod 301 corresponding to the connecting plate 302 and the frame 2, the other end of the sliding rod 301 corresponding to the position inside the frame 2 is welded with a limiting plate 304, one side position inside the frame 2 corresponding to the limiting plate 304 is movably connected with a vertical plate 305, the top end of the vertical plate 305 is welded with a top block 306, the bottom end of the vertical plate 305 is fixedly connected with a placing plate 307 through bolts, the top end of the placing plate 307 is provided with a monitor 308, one end of the vertical plate 305 is equidistantly and rotatably connected with a push rod 309, one end of the push rod 309 is welded with a knob 310, the other end of the push rod 309 corresponding to one side position of the monitor 308 is rotatably connected with a clamping plate 311, for conveniently installing the placing plate 307, one end of the connecting plate 302 is welded with a handle, one end of the limiting plate 304 is attached to one end of the vertical plate 305, and the width of the top block 306 is larger than that of the vertical plate 305, the top end of the top block 306 is provided with an inclined plane, and the monitor 308 supplies power through an internal power supply;

the top end of the placing plate 307 is provided with an air collecting and filtering mechanism 4 at a position corresponding to one side of the monitor 308, and the air collecting and filtering mechanism 4 comprises an air draft channel 401, a fixed plate 402, a rotating shaft 403, a rotary vane 404, a fixed frame 405, a sealing frame 406, a magnetic plate 407, a filter screen 408 and a convex block 409;

an air draft channel 401 is fixedly connected to the top end of the placing plate 307 corresponding to one side of the monitor 308 through bolts, a fixing plate 402 is clamped on the inner wall of the air draft channel 401 at an equal distance, a rotating shaft 403 is rotatably connected to the middle position of one end of the fixing plate 402, rotary vanes 404 are respectively welded at the two ends of the rotating shaft 403 corresponding to the two sides of the fixing plate 402, a fixing frame 405 is clamped on the inner wall of the air draft channel 401 corresponding to one side of the rotary vanes 404, a sealing frame 406 is movably connected to the inner wall of the air draft channel 401 corresponding to the outer side of the fixing frame 405, magnetic plates 407 are respectively fixedly connected to the adjacent ends of the sealing frame 406 and the fixing frame 405 through bolts, a filter screen 408 is clamped between the two magnetic plates 407 corresponding to the inner position of the air draft channel 401, and convex blocks 409 are respectively welded at equal distances at the top and the bottom positions of one end of the sealing frame 406, in order to collect the gas conveniently, one end of the air draft channel 401 is attached to the air inlet of the monitor 308, and the two magnetic plates 407 are adsorbed to each other;

protruding groove 5 has been seted up to splint 311 one end, the inside swing joint in protruding groove 5 has expansion plate 6, and 6 one end of expansion plate corresponds 5 inside positions of protruding groove department equidistance butt joint has tensioning spring 7, 6 tops of expansion plate and bottom correspond 5 inside positions of protruding groove department butt joint have fixture block 8, 6 one end butt joints of expansion plate have baffle 9, fix monitor 308 for convenient sake, the tensioning spring 7 other end is connected with the 5 inner walls in protruding groove, the laminating of baffle 9 one end and monitor 308 one end mutually.

The working principle and the using process of the utility model are as follows: in the process of using an urban greenhouse gas monitoring unmanned aerial vehicle device, firstly, a vertical plate 305 is embedded into a frame 2, then a sliding rod 301 and a limiting plate 304 are driven to move through the telescopic characteristic of a supporting spring 303, the vertical plate 305 is limited through the matching of a top block 306, a placing plate 307 is conveniently fixed at the bottom end of the unmanned aerial vehicle 1, then a knob 310 is rotated, the knob 310 drives a push rod 309 to rotate, a clamping plate 311 is pushed to fix a monitor 308, the installation convenience of the monitor 308 is improved, so that the unmanned aerial vehicle 1 can conveniently fly with the monitor 308, and urban air is detected;

then, when the unmanned aerial vehicle 1 drives the placing plate 307 and the monitor 308 to move, the airflow is forced to drive the rotary vane 404 and the rotary shaft 403 to rotate, so that an adsorption effect is generated, gas in urban air is sucked into the air draft channel 401, the gas is conveniently sent into the monitor 308 through the matching of the air draft channel 401, the monitoring effect is improved, in addition, the fixing frame 405 and the sealing frame 406 are conveniently connected through the matching of the magnetic plate 407, the filter screen 408 is fixed, so that dust is filtered in the air draft process, the cleanness of the inside of the monitor 308 is ensured, when the unmanned aerial vehicle is disassembled, the sealing frame 406 is pulled through the bump 409 to slide the air draft channel 401, the limit of the filter screen 408 is removed, and the filter screen 408 is conveniently disassembled and cleaned;

finally, through the flexible characteristic of tensioning spring 7, drive expansion plate 6 and slide in convex groove 5 inside to through the cooperation of baffle 9, push away monitor 308 and remove, force monitor 308 one end and exhaust channel 401 one end to laminate mutually, guarantee the effect of exhaust channel 401 collection wind, improved the efficiency of monitoring, it is spacing to expansion plate 6 through fixture block 8 in addition, avoid expansion plate 6 roll-off convex groove 5, prevent that the skew from appearing in expansion plate 6.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an urban greenhouse gas monitoring unmanned aerial vehicle device, includes unmanned aerial vehicle (1), its characterized in that: frames (2) are welded at two ends of the unmanned aerial vehicle (1), a convenient mounting mechanism (3) is arranged inside the frame (2), and the convenient mounting mechanism (3) comprises a sliding rod (301), a connecting plate (302), a supporting spring (303), a limiting plate (304), a vertical plate (305), a top block (306), a placing plate (307), a monitor (308), a push rod (309), a knob (310) and a clamping plate (311);

one end of the frame (2) is movably connected with slide bars (301) at equal intervals, one end of each slide bar (301) is welded with a connecting plate (302), and a supporting spring (303) is sleeved between the corresponding connecting plate (302) at the outer side of the sliding rod (301) and the frame (2), a limiting plate (304) is welded at the other end of the sliding rod (301) corresponding to the inner position of the frame (2), a vertical plate (305) is movably connected at the position corresponding to one side of the limiting plate (304) in the frame (2), a top block (306) is cast at the top end of the vertical plate (305), a placing plate (307) is fixedly connected at the bottom end of the vertical plate (305) through a bolt, the top end of the placing plate (307) is provided with a monitor (308), one end of the vertical plate (305) is connected with a push rod (309) in an equidistance rotation way, and a knob (310) is cast at one end of the push rod (309), and a clamping plate (311) is rotatably connected at the position of the other end of the push rod (309) corresponding to one side of the monitor (308).

2. The urban greenhouse gas monitoring unmanned aerial vehicle device of claim 1, wherein: an air collecting and filtering mechanism (4) is arranged at the position, corresponding to one side of the monitor (308), of the top end of the placing plate (307), and the air collecting and filtering mechanism (4) comprises an air draft channel (401), a fixing plate (402), a rotating shaft (403), a rotating blade (404), a fixing frame (405), a sealing frame (406), a magnetic plate (407), a filter screen (408) and a convex block (409);

the top end of the placing plate (307) is connected with an air draft channel (401) through a bolt in a position corresponding to one side of the monitor (308), the inner wall of the air draft channel (401) is clamped with a fixing plate (402) in an equidistant mode, the middle position of one end of the fixing plate (402) is rotatably connected with a rotating shaft (403), two ends of the rotating shaft (403) are respectively welded with rotary vanes (404) in positions corresponding to two sides of the fixing plate (402), a fixing frame (405) is clamped in a position corresponding to one side of the rotary vanes (404) on the inner wall of the air draft channel (401), a sealing frame (406) is movably connected with the outer side position of the fixing frame (405) in a position corresponding to the inner wall of the air draft channel (401), the adjacent ends of the sealing frame (406) and the fixing frame (405) are respectively connected with magnetic plates (407) through bolts in a fixed mode, and a filter screen (408) is clamped in a position corresponding to the inner position of the air draft channel (401) between the two magnetic plates (407), the sealing frame (406) is welded with bumps (409) at equal distances at the top and bottom positions of one end.

3. The urban greenhouse gas monitoring unmanned aerial vehicle device according to claim 1, wherein: connecting plate (302) one end butt fusion has the handle, limiting plate (304) one end is laminated with riser (305) one end mutually, the width of kicking block (306) is greater than the width of riser (305), and kicking block (306) top is seted up there is the inclined plane, monitor (308) supply power through internal power source.

4. The urban greenhouse gas monitoring unmanned aerial vehicle device of claim 2, wherein: one end of the air draft channel (401) is attached to an air inlet of the monitor (308), and the magnetic plates (407) are mutually adsorbed.

5. The urban greenhouse gas monitoring unmanned aerial vehicle device of claim 1, wherein: convex groove (5) have been seted up to splint (311) one end, the inside swing joint in convex groove (5) has expansion plate (6), and expansion plate (6) one end corresponds convex groove (5) internal position department equidistance butt fusion and has tensioning spring (7), expansion plate (6) top and bottom correspond convex groove (5) internal position department and all butt fusion have fixture block (8), expansion plate (6) one end butt fusion has baffle (9).

6. The urban greenhouse gas monitoring unmanned aerial vehicle device of claim 5, wherein: the other end of the tension spring (7) is connected with the inner wall of the convex groove (5), and one end of the baffle plate (9) is attached to one end of the monitor (308).

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