CN117516634B - Ecological environment monitoring device based on big data - Google Patents

Abstract

The invention relates to the field of environment monitoring devices, in particular to an ecological environment monitoring device based on big data. The technical problems to be solved are as follows: the existing navigation vehicle cannot protect equipment when the monitoring equipment is not used, and meanwhile, when the monitoring equipment passes through the trees which are not trimmed at two sides of a road in running, a driver cannot control the monitoring equipment to descend in time, so that the monitoring equipment is impacted, the accuracy of monitoring data is affected, and even the equipment is damaged. The technical scheme of the invention is as follows: an ecological environment monitoring device based on big data comprises a navigation vehicle, a first fixing seat and the like; the first fixing seat is movably arranged on the navigation vehicle. According to the invention, the periphery of the monitoring equipment is shielded by the protective curtain and the protective cover, so that the monitoring equipment is prevented from being exposed to sunlight for a long time in hot weather, meanwhile, the phenomenon that rain water drops on the monitoring equipment to cause inaccurate monitoring data is avoided, and leaves and other impurities which float on the first fixing seat are cleaned by wind power.

Description

Ecological environment monitoring device based on big data

Technical Field

The invention relates to the field of environment monitoring devices, in particular to an ecological environment monitoring device based on big data.

Background

The invention relates to a Chinese patent with application number of CN202121649700.5, in particular to a sailing monitoring vehicle, which is provided with a water tank and a spray head, wherein rainwater can be collected in the water tank when the outside rains, when a detector enters a tray seat along with a moving shaft, the spray head is started, so that the spray head sprays water on the surface of a shell of the detector, and the dust on the surface of the detector is cleaned, and when the surface of the detector is too dirty or unnecessary, the detector can be manually detached, so that the detector is convenient to process.

Secondly, although a structure capable of moving up and down is arranged below the monitoring equipment of the existing environment monitoring navigation vehicle roof, when the navigation vehicle passes through the trees which are not trimmed at the two sides of the road in the driving process, the monitoring equipment cannot be controlled to descend in time due to vision difference, so that branches falling down on the trees which are not trimmed at the two sides of the road cause impact on the monitoring equipment of the roof, the accuracy of monitoring data is affected, and even the monitoring equipment is damaged.

Disclosure of Invention

The invention provides an ecological environment monitoring device based on big data, which aims to overcome the defects that the existing navigation vehicle cannot protect equipment when the monitoring equipment is not used, and a driver cannot timely control the monitoring equipment to descend when the monitoring equipment passes through the trees which are not trimmed at two sides of a road during running, so that the monitoring equipment is impacted, the accuracy of monitoring data is affected, and even the equipment is damaged.

The technical scheme of the invention is as follows: an ecological environment monitoring device based on big data comprises a navigation vehicle; the device also comprises a first fixing seat, a supporting rod, a protective cover, a protective curtain, a ventilation assembly and a protective system; the first fixing seat is movably arranged on the navigation vehicle; the first fixing seat is provided with monitoring equipment for monitoring the environment; a plurality of support rods are arranged on the first fixing seat, the support rods are made of deformable materials, and each support rod is arranged to accord with the streamline shape of the body of the navigation vehicle; a protective cover for protecting the monitoring equipment is movably connected between two adjacent support rods, the protective cover is made of soft waterproof materials, and the protective cover is positioned above the monitoring equipment; the rear side of the protective cover is rotatably provided with a ventilation plate for ventilation; a plurality of curtains which move left and right and are used for covering the monitoring equipment are arranged on the first fixing seat; a cavity is formed between two adjacent protective curtains and the protective cover; a ventilation assembly for ventilating the monitoring equipment is arranged on the first fixing seat; and a protection system for preventing the monitoring equipment from being knocked by branches on two sides of the road is arranged on the first fixing seat.

More preferably, the ventilation assembly comprises a fixed plate, a connecting rod and a first air guiding plate; a plurality of fixing plates are fixedly connected on the first fixing seat; each fixing plate is rotatably connected with a connecting rod; a spring is fixedly connected between the front side of each connecting rod and the fixed plate; each protection curtain front side all is provided with a first air guiding plate used for guiding the wind direction of the traveling process of the traveling vehicle, each first air guiding plate is made of deformable materials, and each first air guiding plate is arranged into a backward bent arc shape.

More preferably, the device further comprises a fixed rod; a plurality of fixing rods are movably arranged on the first fixing seat; each protection curtain front side is fixedly connected with the adjacent fixed rod, and each first air guiding plate is fixedly connected with the adjacent fixed rod.

More preferably, the protection system comprises a second fixing seat and a protection plate; the first fixing seat is connected with a second fixing seat in a sliding way; the front side of the second fixing seat is fixedly connected with a protection plate for preventing the monitoring equipment from being knocked by branches on two sides of a road.

More preferably, the device also comprises an arc bending piece; the lower part of the front side of the protection plate is fixedly connected with a curved arc piece which is used for buffering the monitoring equipment during impact, and the curved arc piece is made of deformable materials.

More preferably, the device also comprises a rotating shaft and a connecting rope; the first fixing seat is provided with a turnover plate; the overturning plate is fixedly connected with the monitoring equipment; the turnover plate is provided with a plurality of deformable sheets for preventing impurities from falling below the turnover plate; a rotating shaft for driving the monitoring equipment to deflect so as to reduce the impact force is fixedly connected to the overturning plate, and the rotating shaft is rotationally connected with the first fixing seat; the rear side of the turnover plate of the first fixing seat is fixedly connected with a plurality of connecting ropes, and the right side of each connecting rope is fixedly connected with the adjacent second fixing seat.

More preferably, the device further comprises an extrusion block; the second fixing base is movably connected with an extrusion block for preventing the protective cover from shaking, and the protective cover is positioned in the middle of the first fixing base.

More preferably, the device further comprises a second wind guiding plate and an impact rod; a plurality of second air guiding plates are fixedly connected on the extrusion block; and a plurality of impact rods which move up and down and are used for cleaning dirt on the top of the protective cover are arranged on each second air guiding plate.

More preferably, the height of the striking rod is set to gradually decrease from the middle part of the second induced draft plate to the left and right sides.

More preferably, the device further comprises a unidirectional film; the protective cover is movably connected with a plurality of unidirectional films for assisting in cleaning dirt; each second air guiding plate is positioned below the corresponding unidirectional film; the right side of each second air guiding plate is arranged in a curved arc shape which is bent towards one side close to the unidirectional film.

The beneficial effects are that: the invention realizes shielding of the periphery of the monitoring equipment through the protective curtain and the protective cover, thereby preventing the monitoring equipment from being exposed to sunlight for a long time in hot weather and simultaneously avoiding inaccurate monitoring data caused by rainy water dropping on the monitoring equipment in rainy weather;

the ventilation plate is extruded by the connecting rod, so that ventilation is performed in the cavity, meanwhile, leaves and other impurities falling on the first fixing seat are cleaned by wind power, and therefore the workload of a user is reduced;

shielding and protecting the monitoring equipment through the protection plate, so that the monitoring equipment is prevented from being damaged due to collision of branches on two sides of a road, meanwhile, buffering is realized when the monitoring equipment is impacted through the curved arc piece, and the upper side of the monitoring equipment is wrapped, so that the damage degree of the equipment is further reduced;

the protective cover is extruded by the extrusion block to be in a triangle-shaped stretching state, so that the protective cover is prevented from shaking to interfere with the operation of monitoring equipment, and the accuracy of monitoring data is prevented from being influenced;

the left side and the right side of the protective cover in a straight state are impacted through the impact rod, and meanwhile, the leaves and other impurities stuck on the protective cover due to rain are enabled to be separated from the protective cover smoothly through wind power in the running process of the sailing vehicle, so that the protective cover is prevented from being folded and unfolded difficultly due to dirt accumulation.

Drawings

FIG. 1 is a schematic perspective view of an ecological environment monitoring device based on big data;

FIG. 2 is a schematic perspective view of a first portion of the present invention;

FIG. 3 is a schematic perspective view of a second portion of the present invention;

FIG. 4 is a schematic perspective view of a protection system according to the present invention;

FIG. 5 is a schematic view of a combined three-dimensional structure of a protection plate and an arc piece of the invention;

FIG. 6 is a schematic view showing a combined structure of a second fixing base and an extrusion block according to the present invention;

FIG. 7 is a schematic perspective view of a second deflector and striker rod combination of the present invention;

FIG. 8 is a schematic perspective view of the combination of the extrusion block, the second deflector and the impact bar of the present invention;

fig. 9 is a front view of a second deflector and striker rod combination of the present invention.

In the reference numerals: 1-a navigation vehicle, 2-a first fixing seat, 2001-a turnover plate, 3-a supporting rod, 4-a protective cover, 4001-a ventilation plate, 5-a protective curtain, 101-a first driving piece, 102-a sliding rail, 103-an electric sliding block, 104-a fixing rod, 201-a fixing plate, 202-a connecting rod, 203-a first wind guiding plate, 301-a second fixing seat, 302-a protective plate, 303-a curved plate, 304-a rotating shaft, 305-a connecting rope, 401-a second driving piece, 402-a pressing block, 501-a second wind guiding plate, 502-a striking rod and 503-a unidirectional film.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 2 and 3, an ecological environment monitoring device based on big data comprises a carrier vehicle 1;

the air conditioner also comprises a first fixing seat 2, a supporting rod 3, a protective cover 4, a protective curtain 5, a ventilation assembly and a protective system; a first fixed seat 2 is movably arranged on the navigation vehicle 1; the first fixing seat 2 is provided with monitoring equipment; two bilaterally symmetrical support rods 3 are arranged on the first fixing seat 2, the support rods 3 are made of deformable materials, and each support rod 3 is arranged to be in line with the vehicle body streamline shape of the navigation vehicle 1; a protective cover 4 is movably connected between two adjacent support rods 3, the protective cover 4 is made of soft waterproof materials, and the protective cover 4 is positioned above the monitoring equipment; the rear side of the protective cover 4 is rotatably provided with a ventilation plate 4001; two bilaterally symmetrical protective curtains 5 are arranged on the first fixing seat 2; a chamber is formed between two adjacent protective curtains 5 and the protective cover 4; a ventilation assembly is arranged on the first fixing seat 2; the first fixing seat 2 is provided with a protection system; the shielding is carried out on the periphery of the monitoring equipment through the shielding curtain 5 and the protective cover 4, so that the monitoring equipment is prevented from being exposed to sunlight for a long time in hot weather, meanwhile, raindrops are prevented from falling on the monitoring equipment in raining, the monitoring equipment is damaged, and the follow-up monitoring data are inaccurate.

The ventilation assembly comprises a fixed plate 201, a connecting rod 202 and a first air guiding plate 203; two bilaterally symmetrical fixing plates 201 are fixedly connected to the first fixing base 2; each fixing plate 201 is rotatably connected with a connecting rod 202; a spring is fixedly connected between the front side of each connecting rod 202 and the fixed plate 201, and the connecting rods 202 are reset through the springs; a first air guiding plate 203 is arranged on the front side of each curtain 5, each first air guiding plate 203 is made of deformable materials, and each first air guiding plate 203 is in a backward bending arc shape; through connecting rod 202 extrusion ventilation board 4001, make the cavity in ventilate, simultaneously, clear up leaf and other impurity that waft on the first fixing base 2 through wind-force to reduce user's work load.

Also included is a securing lever 104; two bilaterally symmetrical fixing rods 104 are movably arranged on the first fixing seat 2; the front side of each protection curtain 5 is fixedly connected with the adjacent fixed rod 104, and each first air guiding plate 203 is fixedly connected with the adjacent fixed rod 104; the front side of the protective curtain 5 is driven to move back and forth by the fixing rod 104, so that the monitoring equipment is covered.

The device also comprises a first driving piece 101, a sliding rail 102 and an electric sliding block 103; four first driving pieces 101 are fixedly connected to the lower side of the first fixing seat 2, and the first driving pieces 101 are electric push rods; the first driving piece 101 drives the first fixing seat 2 to move up and down, so that the supporting rod 3 and the protective cover 4 are driven to move up and down, and the resistance of the travel carriage 1 in the travel process is reduced; two bilaterally symmetrical sliding rails 102 are fixedly connected on the first fixing seat 2; each sliding rail 102 is connected with an electric sliding block 103 in a sliding way; the front side of each protection curtain 5 is movably connected with the adjacent electric sliding block 103; the curtain 5 is driven to move back and forth through the electric sliding block 103, so that the monitoring equipment is covered, rainwater is prevented from drifting on the monitoring equipment from the side surface during raining, and accuracy of monitoring data obtained by the monitoring equipment is affected.

The following describes the process of protecting the monitoring device in detail: when the traveling car 1 suddenly encounters heavy rain or when monitoring equipment is not used in the monitoring process, the front side of the protective cover 4 is controlled to move on the supporting rod 3 to shield the upper side of the monitoring equipment, then the first driving piece 101 is controlled to drive the first fixing seat 2, the monitoring equipment, the supporting rod 3 and the protective cover 4 to move downwards, and as the shape of the supporting rod 3 is set to be consistent with the shape of the body of the traveling car 1, when the protective cover 4 moves to the forefront end of the supporting rod 3, the blocking force on the upper side of the traveling car 1 is minimum at the moment, meanwhile, the electric sliding block 103 is controlled to drive the fixing rod 104 and the front side of the protective curtain 5 to move forwards on the sliding rail 102, so that the protective curtain 5 shields the left side and the right side of the monitoring equipment, and the periphery of the monitoring equipment is shielded through the protective curtain 5 and the protective cover 4, thereby preventing direct insolation of the monitoring equipment from being carried out by sunlight in hot weather, and meanwhile, rainwater from being scattered on the monitoring equipment from the side during raining, so that damage is caused to the monitoring equipment is avoided, and follow-up monitoring equipment is caused, and follow-up monitoring data are inaccurate.

Meanwhile, according to the coverage range of the curtain 5 to the monitoring equipment, the electric sliding block 103 is controlled to drive the fixed rod 104 and the curtain 5 to move forwards and backwards, so that the air volume in a cavity formed between the curtain 5 and the protective cover 4 is controlled to enter, when the fixed rod 104 drives the curtain 5 to move backwards and forwards, the first air guiding plate 203 gradually extrudes the front side of the connecting rod 202, meanwhile, the first air guiding plate 203 gradually bends towards the front side to guide air to blow into the cavity, at the moment, the rear side of the connecting rod 202 gradually extrudes the ventilating plate 4001 at the rear side of the protective cover 4, the ventilating plate 4001 is anticlockwise turned from right to left, air in the cavity formed between the curtain 5 and the protective cover 4 is enabled to circulate with the outside, and accordingly inaccuracy of monitoring data is prevented, meanwhile, the ventilating plate 4001 is extruded through the connecting rod 202, the cavity is enabled to be ventilated, meanwhile, leaves and other impurities which float on the first fixing seat 2 are not required to be cleaned through wind force, so that the user work load is reduced, when the monitoring equipment is protected, the protective cover 4 and the curtain 5 is controlled to move backwards, and the monitoring equipment is in a state is folded.

Example 2

On the basis of embodiment 1, as shown in fig. 4 and 5, the protection system includes a second fixing base 301 and a protection plate 302; the first fixing seat 2 is connected with a second fixing seat 301 in a sliding way; the front side of the second fixing seat 301 is fixedly connected with a protection plate 302; shielding and protection are carried out on the monitoring equipment through the protection plate 302, so that the monitoring equipment is prevented from being damaged due to collision of branches on two sides of a road.

Also included are curved tabs 303; the lower part of the front side of the protection plate 302 is fixedly connected with an arc bending sheet 303, and the arc bending sheet 303 is made of deformable materials; the monitoring equipment is buffered when impacted by the arc bending piece 303, and the upper side of the monitoring equipment is wrapped, so that the damage degree of the equipment is further reduced.

The device also comprises a rotating shaft 304 and a connecting rope 305; the first fixing base 2 is provided with a turnover plate 2001; the turnover plate 2001 is fixedly connected with the monitoring equipment; the turnover plate 2001 is provided with two deformable sheets which are symmetrical in front and back; the turnover plate 2001 is fixedly connected with a rotating shaft 304, and the rotating shaft 304 is rotationally connected with the first fixing seat 2 through a torsion spring; two connecting ropes 305 which are bilaterally symmetrical are fixedly connected to the rear side of the turnover plate 2001 of the first fixing base 2, and the right side of each connecting rope 305 is fixedly connected with the adjacent second fixing base 301.

The following describes the process of protecting the monitoring device in detail: in the running process of the sailing vehicle 1, the tree which is not trimmed on the two sides of the road often has falling branches, the falling branches impact the passing vehicle, in order to prevent the damage caused by the impact of the branches on the monitoring equipment, the protection plate 302 above the monitoring equipment shields the monitoring equipment, when the branches impact the protection plate 302 and squeeze the protection plate 302, and meanwhile, when the impact force is large, the protection plate 302 gradually presses the monitoring equipment downwards, the space between the arc bending piece 303 and the protection plate 302 gradually reduces, so that the impact is buffered, thereby reducing the damage of the monitoring equipment, at the same time, the arc bending piece 303 gradually contacts the monitoring equipment and gradually deforms, and as the front side of the arc bending piece 303 is fixedly connected with the protection plate 302, the rear side of the arc bending piece 303 gradually slides backwards, and is attached to the arc surface on the lower side of the protection plate 302 through the extrusion of the monitoring equipment, therefore, the curved arc piece 303 is made to be larger to wrap the upper part of the monitoring equipment, the damage degree of the equipment is further reduced, because the monitoring equipment capable of moving up and down is arranged on the upper side of the traveling vehicle 1, when the traveling vehicle 1 passes through the height limiting rod, a user cannot grasp the height of the vehicle in real time, so that the monitoring equipment is impacted by the height limiting rod, when the protection plate 302 is impacted by larger force, the protection plate 302 and the curved arc piece 303 gradually squeeze the monitoring equipment, because the lower side of the monitoring equipment is a rotatable turnover plate 2001, the monitoring equipment gradually topples backwards through the turnover plate 2001, thereby further reducing the damage of the monitoring equipment, meanwhile, the turnover plate 2001 pulls the connecting rope 305 after being overturned, and the connecting rope 305 drives the second fixing seat 301 and the protection plate 302 to move forwards, thereby providing further protection for the monitoring device.

Example 3

Based on embodiments 1 and 2, as shown in fig. 1, 2 and 6-9, the extrusion block 402 is further included; the second fixing seat 301 is movably connected with an extrusion block 402, and the protective cover 4 is positioned in the middle of the first fixing seat 2; the protective cover 4 is extruded by the extrusion block 402 to be in a triangle-shaped stretching state, so that the protective cover 4 is prevented from shaking to interfere with the operation of the monitoring equipment, and the accuracy of monitoring data is prevented from being influenced.

A second driving member 401 is also included; two second driving pieces 401 which are bilaterally symmetrical are fixedly connected on the second fixing seat 301, and the second driving pieces 401 are electric push rods; the output ends of the two second driving pieces 401 are fixedly connected with the extrusion block 402; the second driving member 401 drives the extrusion block 402 to move up and down, so that the protective cover 4 is in a straightened state.

A second deflector 501 and a striker rod 502 are also included; three second air guiding plates 501 are fixedly connected to the extrusion block 402; a plurality of striking rods 502 are arranged on each second wind deflector 501; the left side and the right side of the protection cover 4 in a straight state are impacted through the impact rod 502, meanwhile, the leaves and other impurities stuck on the protection cover 4 due to rain are enabled to be separated from the protection cover 4 smoothly through wind power in the running process of the traveling vehicle 1, and the protection cover 4 is prevented from being folded and unfolded difficultly due to dirt accumulation.

The height of the striking rod 502 is gradually decreased from the middle part of the second wind guiding plate 501 to the left and right sides; through the striking rod 502 that highly sets up to the left and right sides and progressively decrease, when making striking rod 502 strike protection casing 4, prevent that remaining dirt from piling up to protection casing 4 middle part on the protection casing 4, improve the clearance effect to protection casing 4.

Also included is a unidirectional film 503; a plurality of unidirectional films 503 are movably connected to the protective cover 4, and the unidirectional films 503 are arranged to be opened upwards; each second air guiding plate 501 is positioned below the corresponding unidirectional film 503; the right side of each second wind deflector 501 is arranged in a curved arc shape which is curved towards the side close to the unidirectional film 503 based on the right-to-left view; the second wind guiding plate 501 guides wind to the lower side of the unidirectional film 503, so that the unidirectional film 503 is opened upwards, and the impact rod 502 impacts the protective cover 4, and simultaneously, the separation effect of dirt and the protective cover 4 is enhanced by wind blowing.

The process of cleaning the dirt above the hood 4 is described in detail below: because the protection casing 4 adopts soft waterproof material, therefore when protection casing 4 did not draw in, the in-process protection casing 4 that traveles at 1 traveles is owing to wind-force effect produces the shake, thereby beat the monitoring facilities of protection casing 4 below, simultaneously the air current around the monitoring facilities interferes, this moment control second driving piece 401 drives extrusion piece 402 and upwards moves, extrude protection casing 4 middle part, make protection casing 4 be the triangle form and straighten, thereby prevent protection casing 4 shake and disturb monitoring facilities work, improve monitoring data accuracy, simultaneously, through making protection casing 4 be triangle form and straighten the state, the left and right sides landing of protection casing 4 edges of remaining leaf of protection casing 4 top, impurity such as rainwater, prevent that the dirty accumulation is in protection casing 4 upper surface, influence protection casing 4 draws in and the expansion effect, avoid dirty whereabouts on the monitoring facilities simultaneously, lead to the mould, influence monitoring data.

When the travel car 1 passes through a hollow pavement, the travel car 1 integrally generates up-and-down shaking, at the moment, the striking rod 502 on the second air guiding plate 501 shakes up and down along with the travel car 1, and impacts the left side and the right side of the protective cover 4 in a straight state, meanwhile, the leaves and other impurities stuck on the protective cover 4 are separated from the protective cover 4 due to rain caused by wind force in the travel process of the travel car 1, meanwhile, the right side of the second air guiding plate 501 is provided with a curved arc shape bent towards the unidirectional film 503, wind is guided to the lower side of the unidirectional film 503 through the second air guiding plate 501, so that the unidirectional film 503 is upwards opened, and the striking rod 502 is used for blowing and enhancing the separation effect of dirt and the protective cover 4 when striking the protective cover 4, so that the dirt is prevented from accumulating and influencing the folding of the protective cover 4, and meanwhile, the dirt is prevented from falling on monitoring equipment to cause mildew, the accuracy of monitoring data is influenced, and equipment damage is prevented.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims (5)

1. An ecological environment monitoring device based on big data comprises a navigation vehicle (1); the method is characterized in that: the novel air conditioner also comprises a first fixing seat (2), a supporting rod (3), a protective cover (4), a protective curtain (5), a ventilation assembly and a protective system; a first fixing seat (2) is movably arranged on the navigation vehicle (1); the first fixing seat (2) is provided with monitoring equipment for monitoring the environment; a plurality of support rods (3) are arranged on the first fixing seat (2), the support rods (3) are made of deformable materials, and each support rod (3) is arranged to be in line with the vehicle body streamline shape of the navigation vehicle (1); a protective cover (4) for protecting the monitoring equipment is movably connected between two adjacent support rods (3), the protective cover (4) is made of soft waterproof materials, and the protective cover (4) is positioned above the monitoring equipment; the rear side of the protective cover (4) is rotatably provided with a ventilation plate (4001) for ventilation; a plurality of protective curtains (5) which move left and right and are used for covering monitoring equipment are arranged on the first fixing seat (2); a cavity is formed between two adjacent protective curtains (5) and the protective cover (4); a ventilation assembly for ventilating the monitoring equipment is arranged on the first fixing seat (2); a protection system for preventing the monitoring equipment from being knocked by branches at two sides of a road is arranged on the first fixing seat (2);

the ventilation assembly comprises a fixed plate (201), a connecting rod (202), a first air guiding plate (203) and a fixed rod (104); a plurality of fixing plates (201) are fixedly connected on the first fixing seat (2); each fixed plate (201) is rotatably connected with a connecting rod (202); a spring is fixedly connected between the front side of each connecting rod (202) and the fixed plate (201); the front side of each curtain (5) is provided with a first air guiding plate (203) for guiding the wind direction in the running process of the navigation vehicle (1), each first air guiding plate (203) is made of deformable materials, each first air guiding plate (203) is in a backward bent arc shape, and a plurality of fixing rods (104) are movably arranged on the first fixing seat (2); the front side of each protection curtain (5) is fixedly connected with the adjacent fixed rod (104), and each first air guiding plate (203) is fixedly connected with the adjacent fixed rod (104);

the protection system comprises a second fixing seat (301), a protection plate (302), an arc bending piece (303), a rotating shaft (304) and a connecting rope (305); a second fixing seat (301) is connected to the first fixing seat (2) in a sliding manner; the front side of the second fixing seat (301) is fixedly connected with a protection plate (302) for preventing the monitoring equipment from being knocked by branches on two sides of a road, the lower part of the front side of the protection plate (302) is fixedly connected with a curved arc piece (303) for buffering the monitoring equipment during collision, the curved arc piece (303) is made of a deformable material, and the first fixing seat (2) is provided with a turnover plate (2001); the overturning plate (2001) is fixedly connected with the monitoring equipment; the turnover plate (2001) is provided with a plurality of deformable sheets for preventing impurities from falling below the turnover plate (2001); a rotating shaft (304) for driving the monitoring equipment to deflect so as to reduce the impact force is fixedly connected to the turnover plate (2001), and the rotating shaft (304) is rotationally connected with the first fixing seat (2); the rear side of the turnover plate (2001) of the first fixing seat (2) is fixedly connected with a plurality of connecting ropes (305), and the right side of each connecting rope (305) is fixedly connected with the adjacent second fixing seat (301).

2. The big data based ecological environment monitoring device of claim 1, wherein: also comprises an extrusion block (402); the second fixing seat (301) is movably connected with an extrusion block (402) for preventing the protective cover (4) from shaking, and the protective cover (4) is positioned in the middle of the first fixing seat (2).

3. The big data based ecological environment monitoring device of claim 2, wherein: the device also comprises a second wind guiding plate (501) and an impact rod (502); a plurality of second air guiding plates (501) are fixedly connected on the extrusion block (402); and a plurality of impact rods (502) which move up and down and are used for cleaning dirt on the top of the protective cover (4) are arranged on each second air guiding plate (501).

4. A big data based ecological environment monitoring device according to claim 3, characterized in that: the height of the striking rod (502) is gradually decreased from the middle part of the second wind guiding plate (501) to the left and right sides.

5. A big data based ecological environment monitoring device according to claim 3, characterized in that: also comprises a unidirectional film (503); a plurality of unidirectional films (503) for assisting in cleaning dirt are movably connected to the protective cover (4); each second wind guiding plate (501) is positioned below the corresponding unidirectional film (503); the right side of each second wind guiding plate (501) is provided with a curved arc shape which is bent towards the side close to the unidirectional film (503).