CN114047562A - Meteorological environment monitoring platform - Google Patents

Abstract

The invention relates to the field of environmental monitoring, in particular to a meteorological environment monitoring platform which comprises a heat dissipation mechanism, a ventilation mechanism, a cleaning mechanism, a supporting mechanism and a pulley mechanism, wherein a first shell is used for placing electric wires and sensors, when the temperature in the first shell is too high, a temperature sensor can drive a motor to rotate, the motor can drive fan blades to rotate to cool the interior of the first shell, a rubber ball can be pulled to inwards compress a first spring when the motor rotates, a rubber hole is opened to ventilate and match the interior of the first shell with the fan blades to dissipate heat, when the motor stops rotating, the first spring resets to extrude the rubber ball to block the rubber hole, meanwhile, the motor rotates to drive a brush to clean a solar cell panel, wheels are arranged at the bottom of the meteorological monitoring platform to facilitate moving, a pressing rod can be driven by a rotating handle to move downwards to penetrate into soil to increase the stability of the platform, and the wheels move upwards and retract upwards Into the second housing.

Description

Meteorological environment monitoring platform

Technical Field

The invention relates to the field of environmental monitoring, in particular to a meteorological environment monitoring platform.

Background

The meteorological environment monitoring system comprises a sensor, a data recorder, a power supply system, a field protection box, a stainless steel support and the like, wherein the sensors for wind speed, wind direction, rainfall, evaporation capacity and the like are JL-03 special sensors for a simple field meteorological station, and the system has the characteristics of high precision and high reliability, and the data recorder has the functions of data acquisition, data timing storage, parameter setting and standard communication.

Current meteorological environment monitoring platform is placing the sensor, the data recorder, electrical power generating system's case, place weather temperature high in outdoor long-time and weather environment monitoring platform temperature that produces when operation, can cause damage or even burning to equipment when the high temperature, and current environmental meteorological monitoring platform mostly all supplies power through solar cell panel, but solar cell panel places the upper surface for a long time and also can be stained with the power supply effect that dust influences solar cell panel, most meteorological environment monitoring platform below is equipped with the gyro wheel at present, so be difficult to when placing and stably take place to slide easily.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a meteorological environment monitoring platform.

The technical scheme adopted by the invention for solving the technical problems is as follows: the meteorological environment monitoring platform comprises a heat dissipation mechanism, a ventilation mechanism, a cleaning mechanism, a supporting mechanism and a pulley mechanism, wherein the ventilation mechanism is arranged at the lower end of the heat dissipation mechanism, the cleaning mechanism is arranged at the upper end of the ventilation mechanism, the supporting mechanism is arranged at the lower end of the cleaning mechanism, and the pulley mechanism is arranged on one side of the supporting mechanism; first shell is the place of placing electric wire and sensor, when the inside high temperature of first shell, temperature sensor can drive the motor and rotate, the motor rotates and can drive the flabellum and rotate, the flabellum rotates and can cool down first shell is inside, also can stimulate the first spring of rubber ball inside compression when the motor is in the pivoted simultaneously, the rubber hole is opened and can be ventilated and cooperate the flabellum to first shell inside and dispel the heat, first spring resets and will extrude the rubber ball and plug up the rubber hole when motor stall, the motor rotates simultaneously and also can drive the brush and clean solar cell panel, meteorological monitoring platform bottom is equipped with the wheel and conveniently removes, rotate and to drive down the depression bar downstream and prick soil the inside and increase the platform stability and shift up and receive the second shell simultaneously.

Specifically, the heat dissipation mechanism comprises a temperature sensor, the temperature sensor is fixedly connected with one end of an electric wire, one end of the electric wire is fixedly connected with a motor, the side wall of the motor is fixedly connected with a support frame, one end of the support frame is fixedly connected with a first shell, the motor is movably connected with one end of a rotor, the side wall of the rotor is fixedly connected with a first rotating wheel, the side wall of the first rotating wheel is tightly attached to a first conveying belt, the side wall of the first rotating wheel is tightly attached to the side wall of a second rotating wheel, the middle of the second rotating wheel is fixedly connected with a first rotating shaft, one end of the first rotating shaft is movably connected with a first bearing, the side wall of the first bearing is fixedly connected with a first shell, one end of the first rotating shaft is fixedly connected with a third rotating wheel, the side wall of the third rotating wheel is tightly attached to the second conveying belt, and one end of the second conveying belt is connected with a fourth rotating wheel, the middle of the fourth rotating wheel is fixedly connected with a second rotating shaft, the bottom end of the second rotating shaft is fixedly connected with a fan blade, the lower end of the fan blade is provided with a blocking net, one end of the blocking net is fixedly connected with the first shell, and the upper end of the second rotating shaft is movably connected with the first shell; when the temperature inside a first shell for placing an electric wire and a sensor is too high, the temperature sensor can transmit an electric signal to the electric wire, the electric wire transmits the electric signal to a motor, the motor rotates to drive a rotor to rotate, the rotor rotates to drive a first rotating wheel to rotate, the first rotating wheel rotates to drive a first conveying belt to rotate, the first conveying belt rotates to drive a second rotating wheel to rotate, the second rotating wheel rotates to drive a first rotating shaft to rotate, the first rotating shaft rotates to drive a third rotating wheel to rotate, the third rotating wheel rotates to drive a second conveying belt to rotate, the second conveying belt rotates to drive a fourth rotating wheel to rotate, the fourth rotating wheel rotates to drive a second rotating shaft to rotate, the second rotating shaft rotates to drive a fan blade to rotate, the fan blade rotates to dissipate heat of the electric wire and the sensor inside the first shell, and the lower end of the fan blade is provided with a blocking net to play a role in isolation, and the electric wire is prevented from being wound on the fan blade.

Specifically, the ventilation mechanism comprises a first worm, the side wall of the first worm is tightly attached to a first worm wheel, the middle of the first worm is fixedly connected with a first rotating shaft, the middle of the first worm wheel is fixedly connected with a first rotating rod, one end of the first rotating rod is movably connected with a first shell, the side wall of the first worm wheel is tightly attached to a first rack, the lower end of the first rack is fixedly connected with a sliding block, the lower end of the sliding block is fixedly connected with a first connecting rod, the lower end of the first connecting rod is fixedly connected with a steel wire rope, the steel wire rope is fixedly connected with the side wall of the first rotating pin, one end of the first rotating pin is movably connected with the first shell, the steel wire rope is tightly attached to a second rotating pin, one end of the steel wire rope is fixedly connected with a rubber ball, and the rubber ball is fixedly connected with one end of a first spring; meanwhile, the first rotating shaft rotates to drive the first worm to rotate, the first worm rotates to drive the first worm wheel to rotate, the first worm wheel rotates to drive the first rack to move upwards, the first rack moves upwards to drive the sliding block to move upwards, when the first worm wheel moves to the sliding block, the first worm wheel can stop on the side wall of the sliding block to rotate, and meanwhile the first rack moves upwards to push the second connecting rod to move upwards.

Specifically, the ventilation mechanism further comprises a first support body, one end of the first spring is fixedly connected with the first support body, the side wall of the first support body is fixedly connected with the first shell, one end of the rubber ball is provided with a rubber hole, the side wall of the rubber hole is fixedly connected with the first shell, the upper end of the first rack is fixedly connected with a second connecting rod, the upper end of the second connecting rod is fixedly connected with an extrusion rod, the extrusion rod is fixedly connected with the upper end of the first telescopic rod, the first telescopic rod is sleeved in the first telescopic barrel, the lower end of the first telescopic barrel is fixedly connected with a second support body, the side wall of the second support body is fixedly connected with the first shell, the extrusion rod is fixedly connected with the upper end of the second spring, and the lower end of the second spring is fixedly connected with the second support body; the second connecting rod upward movement promotes the extrusion pole upward movement, the extrusion pole upward movement promotes the second spring upward movement, first telescopic link and first flexible bucket play fixed effect and prevent that the position from taking place the skew, slider upward movement drives the first connecting rod upward movement, first connecting rod upward movement stimulates wire rope upward movement, wire rope upward movement stimulates rubber ball and opens the rubber hole, the rubber hole is opened and can be ventilated first shell inside, the second spring resets and can stimulate the extrusion pole downwards when motor stall, the extrusion pole downstream will drive first rack and reset, first rack resets and then the rubber ball also can reset and plug up the rubber hole, the rubber hole blocks up and can prevent that the rainwater from getting into first shell.

Specifically, the cleaning mechanism comprises a second worm, the side wall of the second worm is tightly attached to a second worm wheel, the middle of the second worm is fixedly connected with a first rotating shaft, the middle of the second worm wheel is fixedly connected with a second rotating rod, the middle of the second rotating rod is fixedly connected with a half gear, the side wall of the half gear is tightly attached to an oval inner gear, the oval inner gear is fixedly connected with a first sliding rod, the first sliding rod is sleeved inside a first sleeve, one end of the first sliding rod is fixedly connected with a brush, the side wall of the brush is slidably connected with a sliding chute, the lower end of the sliding chute is fixedly connected with a solar cell panel, the solar cell panel is fixedly connected with a support, the upper end of the support is fixedly connected with a wind direction monitor, and a wind speed monitor is arranged on one side of the wind direction monitor; the first rotating shaft can drive the second worm to rotate while rotating, the second worm rotates to drive the second worm wheel to rotate, the second worm wheel rotates to drive the second rotating rod to rotate, the second rotating rod rotates to drive the half gear to rotate, the half gear rotates to drive the oval inner gear to do reciprocating motion back and forth, the oval inner gear does reciprocating motion back and forth to drive the first sliding rod to do reciprocating motion back and forth, the first sliding rod does reciprocating motion back and forth to drive the brush to do reciprocating motion back and forth, the brush does reciprocating motion back and forth to clean dust at the upper end of the solar cell panel, and the top end of the support is respectively provided with the wind direction monitor and the wind speed monitor.

Specifically, the support mechanism comprises a rotating handle, the rotating handle is fixedly connected with a third rotating shaft, the side wall of the third rotating shaft is movably connected with a second shell, the third rotating shaft is sleeved inside a second bearing, the side wall of the second bearing is fixedly connected with the second shell, the third rotating shaft is fixedly connected with a third worm, the side wall of the third worm is tightly attached to a third turbine, the middle of the third turbine is fixedly connected with a third rotating rod, one end of the third rotating rod is movably connected with the second shell, the side wall of the third turbine is tightly attached to a second rack, and the upper end of the second rack is fixedly connected with a second sliding rod; when the soil geological land in the field is uneven, the rotating handle rotates to drive the third rotating shaft to rotate, the third rotating shaft rotates to drive the third worm to rotate, the third worm rotates to drive the third turbine to rotate, the third turbine rotates to drive the second rack to move upwards, and the second rack moves downwards to drive the second sliding rod to move downwards.

Specifically, the support mechanism further comprises a second sleeve, the second sliding rod is sleeved inside the second sleeve, the side wall of the second sleeve is fixedly connected with the second outer shell, the upper end of the second sliding rod is fixedly connected with the connecting shaft, one end of the connecting shaft is fixedly connected with the connecting body, one end of the connecting body is fixedly connected with the second telescopic rod, the second telescopic rod is sleeved inside the second telescopic barrel, the upper end of the second telescopic barrel is fixedly connected with the second outer shell, the lower end of the second telescopic rod is fixedly connected with the lower pressing rod, the side wall of the lower pressing rod is tightly attached to the straight gear, the middle of the straight gear is movably connected with a fourth rotating rod, and one end of the fourth rotating rod is fixedly connected with the second outer shell; second slide bar downstream drives the connecting axle downstream, and connecting axle downstream stimulates connector downstream, and connector downstream drives second telescopic link downstream, and depression bar downstream drives depression bar downstream down, and depression bar downstream can prick the stability that earth the inside reinforcing meteorological environment monitoring platform placed on ground, installs the rack at depression bar lateral wall down, and depression bar downstream can the spur gear rotate down.

Specifically, the pulley mechanism comprises a third rack, the side wall of the third rack is tightly attached to a fourth rotating rod, the upper end of the third rack is fixedly connected with a third telescopic rod, the third telescopic rod is sleeved inside a third telescopic barrel, the upper end of the third telescopic barrel is fixedly connected with a second shell, the side wall of the third rack is fixedly connected with a movable block, and the lower end of the movable block is fixedly connected with a wheel; the straight gear rotates to drive the movable block to move upwards, and the movable block moves upwards to drive the wheels to move upwards.

The invention has the beneficial effects that:

(1) according to the meteorological environment monitoring platform, when the temperature of the first shell is too high, the temperature sensor can drive the motor to rotate, the motor can drive the fan blades to rotate, and the fan blades can cool the interior of the first shell.

(2) According to the meteorological environment monitoring platform, the blocking net is arranged to prevent the fan blades from being wound together with an electric wire when the fan blades rotate, the rubber ball can be pulled to compress the first spring when the motor rotates, the rubber hole is opened to ventilate the interior of the first shell and radiate the heat of the fan blades, the rubber ball is extruded to block the rubber hole when the motor stops rotating, and rainwater can be prevented from entering the first shell when the rubber ball blocks the rubber hole.

(3) According to the meteorological environment monitoring platform, the motor can drive the brush to clean the solar cell panel when rotating, the wheels are arranged at the bottom of the meteorological environment monitoring platform to move conveniently, the rotating handle can drive the lower pressing rod to move downwards to penetrate into soil to increase the stability of the platform, and meanwhile, the wheels move upwards to be retracted into the second shell.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a cross-sectional view of the first housing A-A shown in FIG. 1;

FIG. 3 is a cross-sectional view of the second housing B-B shown in FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 2;

FIG. 5 is an enlarged view of the portion B shown in FIG. 2;

fig. 6 is an enlarged schematic view of the portion C shown in fig. 1.

In the figure: 1. a heat dissipation mechanism; 11. a temperature sensor; 12. an electric wire; 13. a support frame; 14. an electric motor; 15. a rotor; 16. a first rotating wheel; 17. a first conveyor belt; 18. a second rotating wheel; 19. a first rotating shaft; 110. a first bearing; 111. a barrier net; 112. a third rotating wheel; 113. a second conveyor belt; 114. a fourth rotating wheel; 115. a second rotating shaft; 116. a fan blade; 117. a first housing; 2. a ventilation mechanism; 21. a first worm; 22. a first turbine; 23. a first rack; 24. a slider; 25. a first connecting rod; 26. a wire rope; 27. a first rotation pin; 28. a second rotation pin; 29. a rubber ball; 210. a first spring; 211. a first support; 212. a rubber hole; 213. a second connecting rod; 214. an extrusion stem; 215. a first telescopic rod; 216. a first telescopic barrel; 217. a second spring; 218. a first rotating lever; 219. a second support; 3. a cleaning mechanism; 31. a second worm; 32. a second turbine; 33. a half gear; 34. an elliptical inner gear; 35. a first slide bar; 36. a first sleeve; 37. a brush; 38. a chute; 39. a solar panel; 310. a support; 311. a wind direction monitor; 312. a wind speed monitor; 313. a second rotating rod; 4. a support mechanism; 41. turning a handle; 42. a second housing; 43. a third rotating shaft; 44. a second bearing; 45. a third worm; 46. a third turbine; 47. a second rack; 48. a second slide bar; 49. a second sleeve; 410. a connecting shaft; 411. a linker; 412. a second telescopic rod; 413. a second telescopic barrel; 414. a lower pressure lever; 415. a spur gear; 416. a third rotating rod; 417. a fourth rotating rod; 5. a pulley mechanism; 51. a third rack; 52. a third telescopic rod; 53. a third telescopic barrel; 54. a movable block; 55. and (7) wheels.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-6, the meteorological environment monitoring platform of the present invention includes a heat dissipation mechanism 1, a ventilation mechanism 2, a cleaning mechanism 3, a supporting mechanism 4, and a pulley mechanism 5, wherein the lower end of the heat dissipation mechanism 1 is provided with the ventilation mechanism 2, the upper end of the ventilation mechanism 2 is provided with the cleaning mechanism 3, the lower end of the cleaning mechanism 3 is provided with the supporting mechanism 4, and one side of the supporting mechanism 4 is provided with the pulley mechanism 5; the first housing 117 is used for placing the wires and the sensor, when the temperature inside the first housing 117 is too high, the temperature sensor 11 will drive the motor 14 to rotate, the motor 14 will drive the fan blade 116 to rotate, the fan blade 116 will cool the inside of the first housing 117 by rotating, when the motor 14 rotates, the rubber ball 29 is pulled to compress the first spring 210 inwards, the rubber hole 212 is opened to ventilate the inside of the first housing 117 and the fan 116 is engaged to dissipate heat, when the motor 14 stops rotating, the first spring 210 is reset to press the rubber ball 29 to block the rubber hole 212, meanwhile, the motor 14 rotates to drive the brush 37 to clean the solar cell panel 39, the wheels 55 are arranged at the bottom of the meteorological monitoring platform to facilitate movement, the rotation 41 of the handle will drive the lower strut 414 to move downwardly and penetrate the soil to increase the stability of the platform while the wheel 55 moves upwardly into the second housing 42.

Specifically, the heat dissipation mechanism 1 includes a temperature sensor 11, the temperature sensor 11 is fixedly connected with one end of an electric wire 12, one end of the electric wire 12 is fixedly connected with a motor 14, a side wall of the motor 14 is fixedly connected with a support frame 13, one end of the support frame 13 is fixedly connected with a first housing 117, the motor 14 is movably connected with one end of a rotor 15, a side wall of the rotor 15 is fixedly connected with a first rotating wheel 16, a side wall of the first rotating wheel 16 is tightly attached to a first transmission belt 17, the first transmission belt 17 is tightly attached to a side wall of a second rotating wheel 18, the middle of the second rotating wheel 18 is fixedly connected with a first rotating shaft 19, one end of the first rotating shaft 19 is movably connected with a first bearing 110, a side wall of the first bearing 110 is fixedly connected with the first housing 117, one end of the first rotating shaft 19 is fixedly connected with a third rotating wheel 112, a side wall of the third rotating wheel 112 is tightly attached to a second transmission belt 113, one end of the second conveyor belt 113 is fixedly connected with a fourth rotating wheel 114, the middle of the fourth rotating wheel 114 is fixedly connected with a second rotating shaft 115, the bottom end of the second rotating shaft 115 is fixedly connected with fan blades 116, the lower ends of the fan blades 116 are provided with blocking nets 111, one end of each blocking net 111 is fixedly connected with a first shell 117, and the upper end of the second rotating shaft 115 is movably connected with the first shell 117; when the temperature inside the first housing 117 for placing the wires and sensors is too high, the temperature sensor 11 will transmit the electrical signal to the wires 12, the wires 12 transmit the electrical signal to the motor 14, the motor 14 rotates to drive the rotor 15 to rotate, the rotor 15 rotates to drive the first rotating wheel 16 to rotate, the first rotating wheel 16 rotates to drive the first conveyor belt 17 to rotate, the first conveyor belt 17 rotates to drive the second rotating wheel 18 to rotate, the second rotating wheel 18 rotates to drive the first rotating shaft 19 to rotate, the first rotating shaft 19 rotates to drive the third rotating wheel 112 to rotate, the third rotating wheel 112 rotates to drive the second conveyor belt 113 to rotate, the second conveyor belt 113 rotates to drive the fourth rotating wheel 114 to rotate, the fourth rotating wheel 114 rotates to drive the second rotating shaft 115 to rotate, the second rotating shaft 115 rotates to drive the fan blades 116 to rotate, the fan blades 116 rotate to dissipate the heat of the wires and sensors inside the first housing 117, the lower ends of the fan blades 116 are provided with the blocking nets 111 for isolation, preventing the wires from winding onto the fan blades 116.

Specifically, the ventilation mechanism 2 comprises a first worm 21, the side wall of the first worm 21 is tightly attached to a first worm wheel 22, the middle of the first worm 21 is fixedly connected with the first rotating shaft 19, the middle of the first worm wheel 22 is fixedly connected with the first rotating rod 218, one end of the first rotating rod 218 is movably connected with the first shell 117, the side wall of the first turbine 22 is tightly attached to the first rack 23, the lower end of the first rack 23 is fixedly connected with a slide block 24, the lower end of the slide block 24 is fixedly connected with a first connecting rod 25, the lower end of the first connecting rod 25 is fixedly connected with a steel wire rope 26, the steel wire rope 26 is fixedly connected with the side wall of a first rotating pin 27, one end of the first rotating pin 27 is movably connected with the first shell 117, the steel wire rope 26 is tightly attached to the second rotating pin 28, one end of the steel wire rope 26 is fixedly connected with the rubber ball 29, and the rubber ball 29 is fixedly connected with one end of the first spring 210; meanwhile, the first rotating shaft 19 rotates to drive the first worm 21 to rotate, the first worm 21 rotates to drive the first worm wheel 22 to rotate, the first worm wheel 22 rotates to drive the first rack 23 to move upwards, the first rack 23 moves upwards to drive the slider 24 to move upwards, when the first worm wheel 22 moves to the slider 24, the first worm wheel stops on the side wall of the slider 24 to rotate, and meanwhile, the first rack 23 moves upwards to push the second connecting rod 213 to move upwards.

Specifically, the ventilation mechanism 2 further includes a first supporting body 211, one end of the first spring 210 is fixedly connected to the first supporting body 211, the side wall of the first supporting body 211 is fixedly connected with the first casing 117, one end of the rubber ball 29 is provided with a rubber hole 212, the side wall of the rubber hole 212 is fixedly connected with the first shell 117, the upper end of the first rack 23 is fixedly connected with the second connecting rod 213, the upper end of the second connecting rod 213 is fixedly connected with the extrusion rod 214, the extrusion rod 214 is fixedly connected with the upper end of the first telescopic rod 215, the first telescopic rod 215 is sleeved inside the first telescopic barrel 216, the lower end of the first telescopic barrel 216 is fixedly connected with the second support 219, the side wall of the second support body 219 is fixedly connected with the first shell 117, the extrusion rod 214 is fixedly connected with the upper end of the second spring 217, and the lower end of the second spring 217 is fixedly connected with the second support body 219; the second connecting rod 213 moves upwards to push the extruding rod 214 to move upwards, the extruding rod 214 moves upwards to push the second spring 217 to move upwards, the first telescopic rod 215 and the first telescopic barrel 216 play a role in fixing to prevent position deviation, the slider 24 moves upwards to drive the first connecting rod 25 to move upwards, the first connecting rod 25 moves upwards to drive the steel wire rope 26 to move upwards, the steel wire rope 26 moves upwards to drive the rubber ball 29 to open the rubber hole 212, the rubber hole 212 is opened to ventilate the inside of the first shell 117, when the motor 14 stops rotating, the second spring 217 resets to drive the extruding rod 214 to move downwards, the extruding rod 214 moves downwards to drive the first rack 23 to reset, the first rack 23 resets to further reset the rubber ball 29 to block the rubber hole 212, and the rubber hole 212 is blocked to prevent rainwater from entering the first shell 117.

Specifically, the cleaning mechanism 3 comprises a second worm 31, the side wall of the second worm 31 is tightly attached to a second worm wheel 32, the second worm middle 31 is fixedly connected with the first rotating shaft 19, the second worm wheel 32 middle is fixedly connected with the second rotating rod 313, the second rotating rod 313 is fixedly connected with the middle of the half gear 33, the side wall of the half gear 33 is tightly attached with the oval inner gear 34, the oval internal gear 34 is fixedly connected with a first sliding rod 35, the first sliding rod 35 is sleeved inside a first sleeve 36, one end of the first sliding rod 35 is fixedly connected with a brush 37, the side wall of the brush 37 is slidably connected with a sliding chute 38, the lower end of the chute 38 is fixedly connected with a solar panel 39, the solar panel 39 is fixedly connected with a bracket 310, the upper end of the bracket 310 is fixedly connected with a wind direction monitor 311, and one side of the wind direction monitor 311 is provided with a wind speed monitor 312; the first rotating shaft 19 rotates and simultaneously drives the second worm 31 to rotate, the second worm 31 rotates and drives the second worm wheel 32 to rotate, the second worm wheel 32 rotates and drives the second rotating rod 313 to rotate, the second rotating rod 313 rotates and drives the half gear 33 to rotate, the half gear 33 rotates and drives the oval inner gear 34 to reciprocate back and forth, the oval inner gear 34 reciprocates back and forth and drives the first sliding rod 35 to reciprocate back and forth, the first sliding rod 35 reciprocates back and forth and drives the brush 37 to reciprocate back and forth, the brush 37 reciprocates back and forth to clean dust at the upper end of the solar cell panel 39, and the top end of the support 310 is respectively provided with the wind direction monitor 311 and the wind speed monitor 312.

Specifically, the supporting mechanism 4 includes a rotating handle 41, the rotating handle 41 is fixedly connected with a third rotating shaft 43, a side wall of the third rotating shaft 43 is movably connected with a second housing 42, the third rotating shaft 43 is sleeved inside a second bearing 44, a side wall of the second bearing 44 is fixedly connected with the second housing 42, the third rotating shaft 43 is fixedly connected with a third worm 45, a side wall of the third worm 45 is tightly attached to a third worm wheel 46, the middle of the third worm wheel 46 is fixedly connected with a third rotating rod 416, one end of the third rotating rod 416 is movably connected with the second housing 42, a side wall of the third worm wheel 46 is tightly attached to a second rack 47, and an upper end of the second rack 47 is fixedly connected with a second sliding rod 48; when the soil geological land in the field is uneven, the rotating handle 41 is rotated, the rotating handle 41 rotates to drive the third rotating shaft 43 to rotate, the third rotating shaft 43 rotates to drive the third worm 45 to rotate, the third worm 45 rotates to drive the third worm gear 46 to rotate, the third worm gear 46 rotates to drive the second rack 47 to move upwards, and the second rack 47 moves downwards to drive the second sliding rod 48 to move downwards.

Specifically, the support mechanism 4 further includes a second sleeve 49, the second sliding rod 48 is sleeved inside the second sleeve 49, a side wall of the second sleeve 49 is fixedly connected with the second housing 42, an upper end of the second sliding rod 48 is fixedly connected with a connecting shaft 410, one end of the connecting shaft 410 is fixedly connected with a connecting body 411, one end of the connecting body 411 is fixedly connected with a second telescopic rod 412, the second telescopic rod 412 is sleeved inside a second telescopic barrel 413, an upper end of the second telescopic barrel 413 is fixedly connected with the second housing 42, a lower end of the second telescopic rod 412 is fixedly connected with a lower pressing rod 414, a side wall of the lower pressing rod 414 is tightly attached to a spur gear 415, a middle of the spur gear 415 is movably connected with a fourth rotating rod 417, and one end of the fourth rotating rod 417 is fixedly connected with the second housing 42; the second sliding rod 48 moves downwards to drive the connecting shaft 410 to move downwards, the connecting shaft 410 moves downwards to pull the connecting body 411 to move downwards, the connecting body 411 moves downwards to drive the second telescopic rod 412 to move downwards, the second telescopic rod 412 moves downwards to drive the lower pressing rod 414 to move downwards, the lower pressing rod 414 moves downwards to be pricked into soil to enhance the stability of the meteorological environment monitoring platform placed on the ground, a rack is mounted on the side wall of the lower pressing rod 414, and the lower pressing rod 414 moves downwards to rotate the spur gear 415.

Specifically, the pulley mechanism 5 includes a third rack 51, a side wall of the third rack 51 is tightly attached to a fourth rotating rod 417, an upper end of the third rack 51 is fixedly connected to a third telescopic rod 52, the third telescopic rod 52 is sleeved inside a third telescopic barrel 53, an upper end of the third telescopic barrel 53 is fixedly connected to the second housing 42, a side wall of the third rack 51 is fixedly connected to a movable block 54, and a lower end of the movable block 54 is fixedly connected to a wheel 55; spur gear 415 rotates to move movable block 54 upward, and the upward movement of movable block 54 moves wheel 55 upward.

When the temperature sensor is used, firstly, when the temperature inside a first shell 117 for placing wires and sensors is overhigh, the temperature sensor 11 transmits an electric signal to the wires 12, the wires 12 transmit the electric signal to the motor 14, the motor 14 rotates to drive the rotor 15 to rotate, the rotor 15 rotates to drive the first rotating wheel 16 to rotate, the first rotating wheel 16 rotates to drive the first conveyor belt 17 to rotate, the first conveyor belt 17 rotates to drive the second rotating wheel 18 to rotate, the second rotating wheel 18 rotates to drive the first rotating shaft 19 to rotate, the first rotating shaft 19 rotates to drive the third rotating wheel 112 to rotate, the third rotating wheel 112 rotates to drive the second conveyor belt 113 to rotate, the second conveyor belt 113 rotates to drive the fourth rotating wheel 114 to rotate, the fourth rotating wheel 114 rotates to drive the second rotating shaft 115 to rotate, the second rotating shaft 115 rotates to drive the fan blades 116 to rotate, and the fan blades 116 rotate to dissipate heat of the wires and the sensors inside the first shell 117, the lower end of the fan blade 116 is provided with the isolation net 111 for isolation, so as to prevent the electric wire from being wound on the fan blade 116, meanwhile, the first rotating shaft 19 rotates to drive the first worm 21 to rotate, the first worm 21 rotates to drive the first worm wheel 22 to rotate, the first worm wheel 22 rotates to drive the first rack 23 to move upwards, the first rack 23 moves upwards to drive the sliding block 24 to move upwards, when the first worm wheel 22 moves to the sliding block 24, the first worm wheel stops on the side wall of the sliding block 24 to rotate, meanwhile, the first rack 23 moves upwards to push the second connecting rod 213 to move upwards, the second connecting rod 213 moves upwards to push the extrusion rod 214 to move upwards, the extrusion rod 214 moves upwards to push the second spring 217 to move upwards, the first telescopic rod 215 and the first telescopic barrel 216 play a role in fixing to prevent the position from being deviated, the sliding block 24 moves upwards to drive the first connecting rod 25 to move upwards, the first connecting rod 25 moves upwards to pull the steel wire rope 26 to move upwards, the steel wire rope 26 moves upwards to pull the rubber ball 29 to open the rubber hole 212, the rubber hole 212 is opened to ventilate the interior of the first shell 117, when the motor 14 stops rotating, the second spring 217 resets to pull the extrusion rod 214 downwards, the extrusion rod 214 moves downwards to drive the first rack 23 to reset, the first rack 23 resets and the rubber ball 29 also resets to block the rubber hole 212, the rubber hole 212 is blocked to prevent rainwater from entering the first shell 117, the first rotating shaft 19 rotates and simultaneously drives the second worm 31 to rotate, the second worm 31 rotates and drives the second turbine 32 to rotate, the second turbine 32 rotates and drives the second rotating rod 313 to rotate, the second rotating rod 313 rotates and drives the half gear 33 to rotate, the half gear 33 rotates and drives the elliptical inner gear 34 to reciprocate, the elliptical inner gear 34 reciprocates back and forth and drives the first sliding rod 35 to reciprocate back and forth, the first sliding rod 35 reciprocates back and forth to drive the brush 37 to reciprocate back and forth, the brush 37 reciprocates back and forth to clean dust on the upper end of the solar cell panel 39, the top end of the bracket 310 is respectively provided with the wind direction monitor 311 and the wind speed monitor 312, the bottom end of the meteorological environment monitoring platform is provided with the wheel 55 to move conveniently, when the soil geological land is uneven outdoors, the rotating handle 41 is rotated to drive the third rotating shaft 43 to rotate, the third rotating shaft 43 is rotated to drive the third worm 45 to rotate, the third worm 45 is rotated to drive the third worm 46 to rotate, the third worm 46 is rotated to drive the second rack 47 to move upwards, the second rack 47 moves downwards to drive the second sliding rod 48 to move downwards, the second sliding rod 48 moves downwards to drive the connecting shaft 410 to move downwards, the connecting shaft 410 moves downwards to drive the connecting body 411 to move downwards, the connecting body 411 moves downwards to drive the second telescopic rod 412 to move downwards, the second telescopic rod 412 moves downwards to drive the lower pressing rod 414 to move downwards, the lower pressing rod 414 moves downwards to penetrate into soil to enhance the stability of the meteorological environment monitoring platform placed on the ground, a rack is mounted on the side wall of the lower pressing rod 414, when the lower pressing rod 414 moves downwards, the straight gear 415 rotates to drive the movable block 54 to move upwards, and the movable block 54 moves upwards to drive the wheels 55 to move upwards.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A meteorological environment monitoring platform is characterized in that; the heat dissipation device comprises a heat dissipation mechanism (1), a ventilation mechanism (2), a cleaning mechanism (3), a supporting mechanism (4) and a pulley mechanism (5), wherein the ventilation mechanism (2) is arranged at the lower end of the heat dissipation mechanism (1), the cleaning mechanism (3) is arranged at the upper end of the ventilation mechanism (2), the supporting mechanism (4) is arranged at the lower end of the cleaning mechanism (3), and the pulley mechanism (5) is arranged on one side of the supporting mechanism (4);

the heat dissipation mechanism (1) comprises a temperature sensor (11), the temperature sensor (11) is fixedly connected with one end of an electric wire (12), one end of the electric wire (12) is fixedly connected with a motor (14), the side wall of the motor (14) is fixedly connected with a support frame (13), one end of the support frame (13) is fixedly connected with a first shell (117), the motor (14) is movably connected with one end of a rotor (15), the side wall of the rotor (15) is fixedly connected with a first rotating wheel (16), the side wall of the first rotating wheel (16) is tightly attached to a first conveying belt (17), the side wall of the first conveying belt (17) is tightly attached to a second rotating wheel (18), the middle of the second rotating wheel (18) is fixedly connected with a first rotating shaft (19), one end of the first rotating shaft (19) is movably connected with a first bearing (110), and the side wall of the first bearing (110) is fixedly connected with the first shell (117), first pivot (19) one end rotates wheel (112) fixed connection with the third, the third rotates wheel (112) lateral wall and second conveyer belt (113) and closely laminates, second conveyer belt (113) one end and fourth rotate wheel (114), fourth rotate wheel (114) middle and second pivot (115) fixed connection, second pivot (115) bottom and flabellum (116) fixed connection, flabellum (116) lower extreme is equipped with and blocks net (111), block net (111) one end and first shell (117) fixed connection, second pivot (115) upper end and first shell (117) swing joint.

2. The meteorological environment monitoring platform of claim 1, wherein; the ventilation mechanism (2) comprises a first worm (21), the side wall of the first worm (21) is tightly attached to a first worm wheel (22), the middle of the first worm wheel (21) is fixedly connected with a first rotating shaft (19), the middle of the first worm wheel (22) is fixedly connected with a first rotating rod (218), one end of the first rotating rod (218) is movably connected with a first shell (117), the side wall of the first worm wheel (22) is tightly attached to a first rack (23), the lower end of the first rack (23) is fixedly connected with a sliding block (24), the lower end of the sliding block (24) is fixedly connected with a first connecting rod (25), the lower end of the first connecting rod (25) is fixedly connected with a steel wire rope (26), the steel wire rope (26) is fixedly connected with the side wall of a first rotating pin (27), one end of the first rotating pin (27) is movably connected with the first shell (117), the steel wire rope (26) is tightly attached to the second rotating pin (28), one end of the steel wire rope (26) is fixedly connected with the rubber ball (29), and the rubber ball (29) is fixedly connected with one end of the first spring (210).

3. The meteorological environment monitoring platform of claim 2, wherein; the ventilation mechanism (2) further comprises a first support body (211), one end of the first spring (210) is fixedly connected with the first support body (211), the side wall of the first support body (211) is fixedly connected with the first shell (117), one end of the rubber ball (29) is provided with a rubber hole (212), the side wall of the rubber hole (212) is fixedly connected with the first shell (117), the upper end of the first rack (23) is fixedly connected with the second connecting rod (213), the upper end of the second connecting rod (213) is fixedly connected with the extrusion rod (214), the extrusion rod (214) is fixedly connected with the upper end of the first telescopic rod (215), the first telescopic rod (215) is sleeved inside the first telescopic barrel (216), the lower end of the first telescopic barrel (216) is fixedly connected with the second support body (219), the side wall of the second support body (219) is fixedly connected with the first shell (117), the extrusion rod (214) is fixedly connected with the upper end of a second spring (217), and the lower end of the second spring (217) is fixedly connected with a second support body (219).

4. The meteorological environment monitoring platform of claim 3, wherein: cleaning mechanism (3) includes second worm (31), second worm (31) lateral wall and second worm wheel (32) closely laminate, second worm (31) centre and first pivot (19) fixed connection, second worm wheel (32) centre and second bull stick (313) fixed connection, second bull stick (313) and half gear (33) centre fixed connection, half gear (33) lateral wall and oval internal gear (34) closely laminate, oval internal gear (34) and first slide bar (35) fixed connection, inside first sleeve (36) was located to first slide bar (35) cover, first slide bar (35) one end and brush (37) fixed connection, brush (37) lateral wall and spout (38) sliding connection, spout (38) lower extreme and solar cell panel (39) fixed connection, solar cell panel (39) and support (310) fixed connection, the upper end of the support (310) is fixedly connected with a wind direction monitor (311), and a wind speed monitor (312) is arranged on one side of the wind direction monitor (311).

5. The meteorological environment monitoring platform of claim 4, wherein; supporting mechanism (4) are including changeing handle (41), change handle (41) and third pivot (43) fixed connection, third pivot (43) lateral wall and second shell (42) swing joint, second bearing (44) inside is located to third pivot (43) cover, second bearing (44) lateral wall and second shell (42) fixed connection, third pivot (43) and third worm (45) fixed connection, third worm (45) lateral wall and third turbine (46) closely laminate, in the middle of third turbine (46) and third bull stick (416) fixed connection, third bull stick (416) one end and second shell (42) swing joint, third turbine (46) lateral wall and second rack (47) closely laminate, second rack (47) upper end and second slide bar (48) fixed connection.

6. The meteorological environment monitoring platform of claim 5, wherein; the supporting mechanism (4) further comprises a second sleeve (49), the second sliding rod (48) is sleeved inside the second sleeve (49), the side wall of the second sleeve (49) is fixedly connected with the second shell (42), the upper end of the second sliding rod (48) is fixedly connected with the connecting shaft (410), one end of the connecting shaft (410) is fixedly connected with a connecting body (411), one end of the connecting body (411) is fixedly connected with a second telescopic rod (412), the second telescopic rod (412) is sleeved inside the second telescopic barrel (413), the upper end of the second telescopic barrel (413) is fixedly connected with the second shell (42), the lower end of the second telescopic rod (412) is fixedly connected with a lower pressure rod (414), the side wall of the lower pressure rod (414) is tightly attached to a straight gear (415), the middle of the straight gear (415) is movably connected with a fourth rotating rod (417), and one end of the fourth rotating rod (417) is fixedly connected with the second shell (42).

7. The meteorological environment monitoring platform of claim 6, wherein: pulley mechanism (5) include third rack (51), third rack (51) lateral wall and fourth bull stick (417) closely laminate, third rack (51) upper end and third telescopic link (52) fixed connection, third telescopic link (52) cover is located inside third flexible bucket (53), third flexible bucket (53) upper end and second shell (42) fixed connection, third rack (51) lateral wall and movable block (54) fixed connection, movable block (54) lower extreme and wheel (55) fixed connection.

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