CN213246587U - Bird condition monitoring and protecting device for airport - Google Patents

Abstract

The application provides an airport bird condition monitoring protector, including the base, set up horizontal drive subassembly on the base, set up the laser on horizontal drive subassembly upper portion and drive the bird subassembly, set up and establish on base upper portion and cover and drive the rain subassembly that the bird subassembly outside was driven to the laser, set up monitoring devices on the subassembly that keeps off the rain and drive the bird subassembly at the wind energy on subassembly upper portion that keeps off the rain. The bird condition monitoring device is arranged, so that the bird condition can be monitored in real time; the laser bird repelling component is arranged, so that accurate bird repelling can be performed, and the bird repelling efficiency and effect are greatly improved due to the matching of the monitoring device and the laser bird repelling component; the wind energy bird repelling component is arranged, the laser bird repelling component and the wind energy bird repelling component are matched, so that the bird repelling efficiency and effect are further improved, the using frequency of the laser bird repelling component is reduced, and the bird repelling cost is reduced; be equipped with the subassembly that keeps off the rain, can avoid the rainwater to drive bird subassembly and monitoring devices's harm to laser, solar panel can utilize solar energy to provide electric power simultaneously, has practiced thrift use cost.

Description

Bird condition monitoring and protecting device for airport

Technical Field

The application relates to the technical field of airport safety, in particular to an airport bird condition monitoring and protecting device.

Background

With the rapid development of civil airports in China, the number of flights of airports is gradually increased, the bird situation problem caused by airport site selection and change of surrounding environment is more serious, the majority of bird strike events of airports occur in the takeoff and climbing stage and the approach landing stage of airplanes close to the airports, civil aircrafts have huge loss caused by bird strikes, the loss of airports is up to hundred million yuan each year caused by bird strikes, and the number of affected flights is also huge, however, the current main method for preventing birds in airports adopts visual inspection or telescope visual inspection of bird activity and then adopts some method to drive birds, the limitation of the method is obvious, particularly under the condition that surrounding buildings and vegetation are complicated, birds can be found and driven more and more complicated, and the birds can not be found and driven in time in advance.

Disclosure of Invention

The application provides an airport bird condition monitoring protector for solving the technical problem.

The technical scheme adopted by the application is as follows: a bird condition monitoring and protecting device for an airport is characterized by comprising a base, a horizontal driving assembly arranged on the base, a laser bird repelling assembly arranged on the upper portion of the horizontal driving assembly, a rain shielding assembly arranged on the upper portion of the base and sleeved outside the laser bird repelling assembly, a monitoring device arranged on the rain shielding assembly and a wind energy bird repelling assembly arranged on the upper portion of the rain shielding assembly;

the base is of a box structure, and the horizontal driving assembly comprises a driving motor arranged in the base, a vertical rotating shaft with one end connected with the output end of the driving motor and the other end penetrating through the top wall of the base, and a horizontal rotating table arranged on the vertical rotating shaft; the laser bird repelling assembly comprises an L-shaped support arranged on the horizontal rotary table, a support plate, a laser bird repelling device, visible light cameras, a dual-spectrum infrared night vision device, a rectangular frame and a driving cylinder, wherein one side of the support plate is hinged to the upper part of the L-shaped support, the laser bird repelling device is arranged above the support plate, the visible light cameras and the dual-spectrum infrared night vision device are symmetrically arranged on the left side and the right side of the support plate, the rectangular frame is arranged below the support plate and is vertical to the support plate, and one;

the rain shielding assembly comprises a cuboid support arranged on the upper portion of the base, a solar assembly arranged on the upper portion of the cuboid support and a storage battery arranged in the base and connected with the solar assembly, the solar assembly comprises a frustum frame arranged on the upper portion of the cuboid support, a solar panel arranged on the frustum frame and a transparent protective plate arranged on the upper portion of the solar panel, and the solar panel is connected with the storage battery;

the monitoring device comprises a circular supporting seat arranged below the top of the cuboid support, a control chip arranged in the circular supporting seat, a plurality of monitoring cameras arranged on the periphery of the circular supporting seat in an annular array mode, and an exchanger arranged below the circular supporting seat, wherein the monitoring cameras are in signal connection with the control chip, the control chip is in signal connection with the exchanger, the exchanger is in signal connection with a controller arranged in a control room, and monitoring data are transmitted to the controller;

the storage battery is connected with the driving motor, the driving cylinder, the visible light camera, the dual-spectrum infrared night vision device, the laser bird repeller, the control chip, the monitoring camera and the switch;

the wind energy bird repelling assembly is arranged above the frustum frame.

Furthermore, be equipped with annular support frame between horizontal turntable and the base, annular support frame includes the support frame body, sets up the annular groove on support frame body upper portion and sets up in horizontal turntable below and annular groove matched with lead the sliding ring.

Furthermore, the wind energy bird repelling assembly comprises a support shaft arranged above the transparent protection plate, a sleeve rotatably arranged on the upper portion of the support shaft, a plurality of wind arms arranged outside the sleeve in an annular array mode and a wind bowl arranged at one end, far away from the sleeve, of each wind arm, and a light reflecting layer is arranged on each wind bowl.

Further, be equipped with sound production subassembly on the back shaft, sound production subassembly includes the mounting of being connected with the back shaft is perpendicular, one end and sleeve swivelling joint and the auxiliary member parallel with the mounting, set up the sound production piece between mounting and auxiliary member, set up the subassembly of strikeing between sound production piece and sleeve and set up on the sleeve and with strike subassembly matched with lug.

Further, strike the subassembly including setting up connecting rod, the rotatory striking stick that sets up on the connecting rod of middle part between mounting and auxiliary member and setting up on the connecting rod and be located the reset spring of striking stick one side, striking stick one end and sound producing part contact one end and lug cooperation.

Furthermore, the lug is a polygonal cylinder sleeved outside the sleeve.

The application has the advantages and positive effects that: the monitoring and protecting device for the bird condition in the airport is provided with the monitoring device, so that the situation of a bird group can be monitored in real time; the laser bird repelling component is arranged, bird repelling can be accurately performed according to bird conditions fed back by the monitoring device, and the efficiency and effect of bird repelling are greatly improved due to the fact that the monitoring device is matched with the laser bird repelling component; the wind energy bird repelling component is arranged, the wind energy bird repelling component is taken as a main component in the daytime, the laser bird repelling component is taken as an auxiliary component, the laser bird repelling component is taken as a main component at night, the wind energy bird repelling component is taken as an auxiliary component, the laser bird repelling component and the wind energy bird repelling component are matched, so that the bird repelling efficiency and effect are further improved, the using frequency of the laser bird repelling component is reduced, and the bird repelling cost is reduced; be equipped with the subassembly that keeps off the rain, can effectually avoid the rainwater to drive bird subassembly monitoring devices's harm to laser, solar panel can utilize solar energy to provide electric power simultaneously, has practiced thrift use cost.

In addition to the technical problems addressed by the present application, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions described above, other technical problems solved by the present application, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural view of an airport bird condition monitoring and protecting device provided in the background of the present application;

fig. 2 is a schematic structural view of a horizontal driving assembly and a laser bird repelling assembly provided in the embodiment of the application;

FIG. 3 is a schematic diagram of a visible light camera and a dual-spectrum infrared night vision device provided by an embodiment of the present application;

FIG. 4 is a schematic structural view of a rain shield assembly provided in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a monitoring device provided in an embodiment of the present application;

FIG. 6 is a schematic structural view of an annular bracing frame provided in an embodiment of the present application;

FIG. 7 is a schematic structural diagram of a wind energy bird repelling assembly provided by an embodiment of the application;

FIG. 8 is a schematic structural diagram of a sound emitting assembly provided in an embodiment of the present application;

FIG. 9 is a structural schematic diagram of a knocking assembly provided in the embodiments of the present application.

In the figure: 1, a base; 2 a horizontal driving component; 210 driving a motor; 220 vertical rotation axis; 230 a horizontal turn table; 3, a laser bird repelling component; a 310L-shaped bracket; 320 a support plate; 330 laser bird repeller; 340 a visible light camera; 350 dual-spectrum infrared night vision device; a 360 rectangular frame; 370 driving the cylinder; 4 a rain shield assembly; 410 a cuboid bracket; 420 a solar module; a 421 cone table; 422 a solar panel; 423 transparent protective plate; 430 a battery; 5 a monitoring device; 510 a circular support seat; 520 a control chip; 530 a surveillance camera; 540 a switch; 6, a wind energy bird repelling component; 610 supporting a shaft; 620, a sleeve; 630 a wind arm; 640 wind bowl; 7, an annular supporting frame; 710 a support frame body; 720 an annular groove; 730 a slip ring; 8, a sound production component; 810 a fixing member; 820 an auxiliary member; 830 a sound producing member; 840 knocking the assembly; 841 a connecting rod; a tapping bar 842; 843 a reset spring; 850 g bump

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, an airport bird condition monitoring and protecting device is characterized by comprising a base 1, a horizontal driving component 2 arranged on the base 1, a laser bird repelling component 3 arranged on the upper part of the horizontal driving component 2, a rain shielding component 4 arranged on the upper part of the base 1 and sleeved outside the laser bird repelling component 3, a monitoring device 5 arranged on the rain shielding component 4 and a wind energy bird repelling component 6 arranged on the upper part of the rain shielding component 4;

the base 1 is of a box structure, and the horizontal driving assembly 2 comprises a driving motor 210 arranged in the base 1, a vertical rotating shaft 220 with one end connected with the output end of the driving motor 210 and the other end penetrating through the top wall of the base 1, and a horizontal turntable 230 arranged on the vertical rotating shaft 220; the laser bird repelling assembly 3 comprises an L-shaped support 310 arranged on the horizontal turntable 230, a support plate 320 with one side hinged to the upper part of the L-shaped support 310, a laser bird repelling device 330 arranged above the support plate 320, visible light cameras 340 and a dual-spectrum infrared night vision device 350 symmetrically arranged on the left side and the right side of the support plate 320, a rectangular frame 360 arranged below the support plate 320 and perpendicular to the support plate 320, and a driving cylinder 370 with one end hinged to the lower part of the L-shaped support 310 and one end hinged to the rectangular frame 360;

the rain shielding assembly 4 comprises a cuboid support 410 arranged on the upper part of the base 1, a solar assembly 420 arranged on the upper part of the cuboid support 410 and a storage battery 430 arranged in the base 1 and connected with the solar assembly 420, the solar assembly 420 comprises a frustum frame 421 arranged on the upper part of the cuboid support 410, a solar panel 422 arranged on the frustum frame 421 and a transparent protective plate 423 arranged on the upper part of the solar panel 422, and the solar panel 422 is connected with the storage battery 430;

the monitoring device 5 comprises a circular supporting seat 510 arranged below the top of the cuboid support 410, a control chip 520 arranged in the circular supporting seat 510, a plurality of monitoring cameras 530 arranged on the periphery of the circular supporting seat 510 in an annular array, and an exchanger 540 arranged below the circular supporting seat 510, wherein the monitoring cameras 530 are in signal connection with the control chip 520, the control chip 520 is in signal connection with the exchanger 540, and the exchanger 540 is in signal connection with a controller arranged in a control room and transmits monitoring data to the controller;

the storage battery 430 is connected with the driving motor 210, the driving cylinder 370, the visible light camera 340, the dual-spectrum infrared night vision device 350, the laser bird dispeller 330, the control chip 520, the monitoring camera 530 and the switch 540;

the wind energy bird repelling assembly 6 is arranged above the frustum 421.

In this embodiment, the base 1 is a box structure, which is a supporting structure of the laser bird repelling device, the horizontal driving assembly 2 is arranged on the base 1, and is provided with the driving motor 210, the vertical rotating shaft 220 and the horizontal rotary table 230, wherein the driving motor 210 is arranged in the base 1, thereby effectively avoiding the influence of external dust, humid air and the like on the driving motor 210, greatly prolonging the service life of the driving motor 210, the output shaft of the driving motor 210 is connected with the vertical rotating shaft 220, the upper end of the vertical rotating shaft 220 penetrates through the top of the base 1 and is connected with the horizontal rotary table 230 arranged on the upper part of the base 1, and during operation, the driving motor 210 drives the horizontal rotary table 230 to horizontally rotate through the vertical rotating shaft 220;

in this embodiment, the laser bird repelling assembly 3 is disposed on the horizontal turntable 230 and can rotate with the horizontal turntable 230, which is a key component of the laser bird repelling device, in this embodiment, the laser bird repelling assembly 3 is provided with an L-shaped bracket 310, a support plate 320, a laser bird repelling device 330, a visible light camera 340, a dual-spectrum infrared night vision device 350, a rectangular bracket 360 and a driving cylinder 370, wherein the L-shaped bracket 310 is provided with a vertical portion and a horizontal portion, the L-shaped bracket 310 is fixedly disposed on the horizontal turntable 230 through the horizontal portion, preferably, the vertical portion and the horizontal portion are both in an H-shaped structure, the support plate 320 is disposed on one side of the vertical portion away from the horizontal portion, preferably, the support plate 320 is in a rectangular structure, one side of the support plate 320 is hinged above the vertical portion, the laser bird repelling device 330 is disposed on the support plate 320 and is a key component of the laser bird repelling assembly 3, the visible light camera 340 and the dual-spectrum infrared night vision device 350, for the eyes of the laser bird repelling device, the laser bird repelling device 330 can be accurately positioned to the direction of a bird group by being matched with the laser bird repelling device 330, and then bird is repelled accurately, in the embodiment, the laser bird repelling device 330, the visible light camera 340 and the dual-spectrum infrared night vision device 350 can rotate up and down along with the supporting plate 320, so that the bird repelling range of the laser bird repelling device 330 in the vertical direction is greatly improved, in the embodiment, the rectangular frame 360 is arranged below the supporting plate 320, the rectangular frame 360 is vertically arranged with the supporting plate 320, one end of the driving cylinder 370 body is hinged on the horizontal part, and the output end is hinged on the rectangular frame 360, and in operation, the driving cylinder 370 can push the supporting plate 320 to rotate through the rectangular frame 360 as required, so as to drive the laser bird repelling device 330, the visible light camera 340 and the dual-;

in the embodiment, the horizontal driving assembly 2 is a horizontal rotating component and can drive the bird repeller, the visible light camera 340 and the dual-spectrum infrared night vision device to rotate at 350 degrees, the driving cylinder 370 can push the laser bird repeller 330, the visible light camera 340 and the dual-spectrum infrared night vision device 350 to rotate up and down, and the horizontal driving assembly 2 and the driving cylinder 370 are matched to greatly improve the bird repelling range of the laser bird repelling device;

in the embodiment, the rain shielding component 4 is sleeved outside the bird repelling component, which can effectively avoid the damage and influence of rainwater on the driving cylinder 370, the laser bird repelling device 330, the visible light camera 340 and the dual-spectrum infrared night vision device 350, in the embodiment, the rain shielding component 4 is provided with a cuboid bracket 410, a solar component 420 and a storage battery 430, wherein, the cuboid bracket 410 is arranged on the base 1, the solar energy component 420 is arranged above the inner part of the cuboid bracket 410, the storage battery 430 is arranged in the base 1, in the embodiment, the solar energy component 420 is provided with a cone rack 421, a solar panel 422 and a transparent protection plate 423, the frustum 421 is arranged at the top of the cuboid support 410, preferably, the frustum 421 is a quadrangular frustum, four side surfaces and the top surface of the quadrangular frustum are respectively provided with a solar panel 422, the frustum 421 greatly improves the erection area of the solar panels 422, and further greatly improves the efficiency of converting solar energy into electric energy; be equipped with transparent backplate 423 on solar panel 422, the influence to solar panel 422 such as dust, rainwater that can effectually avoid has improved solar panel 422's life, and in this embodiment, battery 430 links to each other with solar panel 422, and solar panel 422 utilizes solar energy to charge for battery 430 daytime.

In this embodiment, the monitoring device 5 is an accurate monitoring and detecting device for bird conditions, and is provided with a circular supporting seat 510, a control chip 520, a plurality of monitoring cameras 530 and a switch 540, wherein the circular supporting seat 510 is arranged in the middle of the lower portion of the top of the rectangular support 410, the control chip 520 is arranged in the circular supporting seat 510, the monitoring cameras 530 are arranged on the periphery of the circular supporting seat 510 in an annular array manner, and can monitor the bird conditions around, and the switch 540 is arranged below the circular supporting seat 510.

In this embodiment, the battery 430 is connected to the driving motor 210, the driving cylinder 370, the visible light camera 340, the dual-spectrum infrared night vision device 350, the laser bird repeller 330, the control chip 520, the surveillance camera 530 and the switch 540 for supplying power thereto, and meanwhile, the driving motor 210, the driving cylinder 370, the visible light camera 340, the dual-spectrum infrared night vision device 350, the laser bird repeller 330, the control chip 520, the surveillance camera 530 and the switch 540 are all connected to the controller, and when the bird repelling device works, the controller controls the driving motor 210 and the driving cylinder 370 through the controller according to the bird group information fed back by the surveillance camera 530 transmitted by the switch 540, and simultaneously cooperates with the visible light camera 340 and the dual-spectrum infrared night vision device 350, so that the laser bird repeller 330 accurately positions bird groups and further repels birds.

In this embodiment, the wind energy bird-repelling component 6 is arranged above the transparent protective plate 423 on the top of the frustum frame 421, and the wind energy bird-repelling component 6 is matched with the laser bird-repelling component 3, so that the bird-repelling effect of the laser bird-repelling device is further improved.

As shown in fig. 6, in a preferred embodiment, an annular supporting frame 7 is disposed between the horizontal turntable 230 and the base 1, and the annular supporting frame 7 includes a supporting frame body 710, an annular groove 720 disposed at an upper portion of the supporting frame body 710, and a sliding guide ring 730 disposed below the horizontal turntable 230 and engaged with the annular groove 720.

In this embodiment, be equipped with annular support frame 7 between horizontal turntable 230 and the base 1, annular support frame 7 has improved the rotatory stability of horizontal turntable 230 greatly, and in this embodiment, annular support frame 7 includes support frame body 710, set up at the annular groove 720 on support frame body 710 upper portion and set up and lead slip ring 730 in horizontal turntable 230 below and annular groove 720 matched with, and annular groove 720 cooperatees with leading slip ring 730, has further improved the horizontal rotation's of horizontal turntable 230 stability.

As shown in fig. 7, in a preferred embodiment, the wind energy bird repelling assembly 6 includes a supporting shaft 610 disposed above the transparent protection plate 423, a sleeve 620 rotatably disposed on an upper portion of the supporting shaft 610, a plurality of wind arms 630 disposed outside the sleeve 620 in an annular array, and a wind bowl 640 disposed at an end of the wind arms 630 away from the sleeve, wherein a reflective layer is disposed on the wind bowl 640.

In this embodiment, wind energy drives bird subassembly 6 and is equipped with back shaft 610, sleeve 620, a plurality of wind arms 630 and wind bowl 640, back shaft 610 sets up in transparent backplate 423 top, the rotatory upper portion that sets up at the support column of sleeve 620, wind arms 630 is the ring array and sets up on the sleeve 620 periphery, each wind arm 630 keeps away from sleeve 620 one side and all is equipped with wind bowl 640, can promote wind bowl 640 and rotate under the drive of wind energy, be equipped with the reflector layer on wind bowl 640, can drive the bird through the sunlight of reflector layer reflection daytime, wind energy drives bird subassembly 6 and laser and drives bird subassembly 3 and cooperate and improve greatly and drive the bird effect.

As shown in fig. 8, in a preferred embodiment, the supporting shaft 610 is provided with a sounding assembly 8, and the sounding assembly 8 includes a fixing member 810 perpendicularly connected to the supporting shaft 610, an auxiliary member 820 having one end rotatably connected to the sleeve 620 and being parallel to the fixing member 810, a sounding member 830 disposed between the fixing member 810 and the auxiliary member 820, a striking assembly 840 disposed between the sounding member 830 and the sleeve 620, and a protrusion 850 disposed on the sleeve 620 and cooperating with the striking assembly 840.

In this embodiment, the supporting shaft 610 is further provided with a sound generating assembly 8, the sound generating assembly 8 is provided with a fixing element 810, an auxiliary element 820, a sound generating element 830, a knocking assembly 840 and a bump 850, wherein the fixing element 810 is located below the sleeve 620 and vertically arranged on the supporting shaft 610, one end of the auxiliary element 820 is rotatably arranged on the sleeve 620 and parallel to the fixing element 810, the sound generating element 830 is arranged between the fixing element and the auxiliary element 820, the knocking assembly 840 is arranged between the sound generating element 830 and the sleeve 620 and used for knocking the sound generating element 830, and the bump 850 is arranged on the sleeve 620 and used for shifting the knocking assembly 840; in the embodiment, when the wind energy pushes the wind bowl 640 to rotate, the sleeve 620 is driven to rotate, the bump 850 rotates along with the sleeve 620, and the overturning and knocking component 840 is poked to knock the sounding part 830 to make a sound so as to repel the birds; in this embodiment, the reflecting layer on sound production subassembly 8 and the wind bowl 640 cooperatees, has further improved and has driven the bird effect.

As shown in fig. 9, in a preferred embodiment, the knocking assembly 840 includes a connecting rod 841 disposed between the fixing member 810 and the auxiliary member 820, a tapping rod 842 rotatably disposed at the connecting rod 841 in the middle, and a return spring 843 disposed at the connecting rod 841 and at one side of the tapping rod 842, wherein one end of the tapping rod 842 is in contact with the sound generating member 830 and the other end is engaged with the protrusion 850.

In this embodiment, the knocking component 840 is provided with a connecting rod 841, a knocking rod 842 and a return spring 843, wherein the connecting rod 841 is arranged between the fixing part 810 and the auxiliary part 820, the middle part of the knocking rod 842 is rotatably arranged on the connecting rod 841, one end of the knocking rod 842 is abutted against the sounding part 830, one end of the knocking rod 842 is matched with the bump 850, the return spring 843 is arranged on the connecting rod 841 and is positioned on one side of the knocking rod 842, when the sleeve 620 is pushed by wind energy to rotate, the bump 850 is driven to rotate, the knocking rod 842 is pushed to turn over by the edge angle of the bump 850, one end of the knocking rod 842, which is in contact with the sounding part 830, is far away from the sounding part 830, and when the edge angle of the bump 850 is away from the knocking rod 842, the knocking rod 842 can make a sound to make a.

In a preferred embodiment, the protrusion 850 is a polygonal cylinder disposed outside the sleeve 620.

In this embodiment, the protrusion 850 is a polygonal cylinder sleeved outside the sleeve 620, and the corners of the polygonal cylinder can resist and stir the tapping rod 842 in the rotating process, so that the tapping rod 842 can tap the sounding part of the sounding part 830 to sound to repel birds when resetting after turning, and preferably, the sounding part 830 is a triangular prism.

The embodiments of the present application have been described in detail, but the description is only for the preferred embodiments of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications made within the scope of the present application shall fall within the scope of the present application.

Claims (6)

1. A bird condition monitoring and protecting device for an airport is characterized by comprising a base (1), a horizontal driving assembly (2) arranged on the base (1), a laser bird repelling assembly (3) arranged on the upper portion of the horizontal driving assembly (2), a rain shielding assembly (4) arranged on the upper portion of the base (1) and sleeved outside the laser bird repelling assembly (3), a monitoring device (5) arranged on the rain shielding assembly (4) and a wind energy bird repelling assembly (6) arranged on the upper portion of the rain shielding assembly (4);

the base (1) is of a box structure, and the horizontal driving assembly (2) comprises a driving motor (210) arranged in the base (1), a vertical rotating shaft (220) and a horizontal rotating table (230), wherein one end of the vertical rotating shaft is connected with the output end of the driving motor (210), and the other end of the vertical rotating shaft penetrates through the top wall of the base (1); the laser bird repelling component (3) comprises an L-shaped support (310) arranged on a horizontal rotary table (230), a support plate (320) with one side hinged to the upper part of the L-shaped support (310), a laser bird repelling device (330) arranged above the support plate (320), visible light cameras (340) and a dual-spectrum infrared night vision device (350) symmetrically arranged on the left side and the right side of the support plate (320), a rectangular frame (360) arranged below the support plate (320) and perpendicular to the support plate (320), and a driving cylinder (370) with one end hinged to the lower part of the L-shaped support (310) and one end hinged to the rectangular frame (360);

the rain shielding assembly (4) comprises a cuboid support (410) arranged on the upper portion of the base (1), a solar assembly (420) arranged on the upper portion of the cuboid support (410) and a storage battery (430) arranged in the base (1) and connected with the solar assembly (420), the solar assembly (420) comprises a frustum frame (421) arranged on the upper portion of the cuboid support (410), a solar panel (422) arranged on the frustum frame (421) and a transparent protective plate (423) arranged on the upper portion of the solar panel (422), and the solar panel is connected with the storage battery;

the monitoring device (5) comprises a circular supporting seat (510) arranged below the top of the cuboid support (410), a control chip (520) arranged in the circular supporting seat (510), a plurality of monitoring cameras (530) arranged on the periphery of the circular supporting seat (510) in an annular array mode and a switch (540) arranged below the circular supporting seat (510), wherein the monitoring cameras (530) are in signal connection with the control chip (520), the control chip (520) is in signal connection with the switch (540), and the switch (540) is in signal connection with a controller arranged in a control room and transmits monitoring data to the controller;

the storage battery (430) is connected with the driving motor (210), the driving cylinder (370), the visible light camera (340), the dual-spectrum infrared night vision device (350), the laser bird dispeller (330), the control chip (520), the monitoring camera (530) and the switch (540);

the wind energy bird repelling component (6) is arranged above the cone rack (421).

2. The airfield bird situation monitoring and protecting device as claimed in claim 1, wherein an annular supporting frame (7) is arranged between the horizontal turntable (230) and the base (1), and the annular supporting frame (7) comprises a supporting frame body (710), an annular groove (720) arranged at the upper part of the supporting frame body (710) and a sliding guide ring (730) arranged below the horizontal turntable (230) and matched with the annular groove (720).

3. The airport bird situation monitoring and protecting device of claim 2, wherein the wind energy bird repelling assembly (6) comprises a supporting shaft (610) arranged above the transparent protecting plate (423), a sleeve (620) rotatably arranged on the upper portion of the supporting shaft (610), a plurality of wind arms (630) arranged on the outer side of the sleeve (620) in an annular array, and a wind bowl (640) arranged at one end of each wind arm (630) far away from the sleeve, wherein a reflective layer is arranged on each wind bowl (640).

4. The airfield bird situation monitoring and protecting device of claim 3, wherein the supporting shaft (610) is provided with a sounding component (8), the sounding component (8) comprises a fixing part (810) vertically connected with the supporting shaft (610), an auxiliary part (820) with one end rotatably connected with the sleeve (620) and parallel to the fixing part (810), a sounding part (830) arranged between the fixing part (810) and the auxiliary part (820), a knocking component (840) arranged between the sounding part (830) and the sleeve (620), and a bump (850) arranged on the sleeve (620) and matched with the knocking component (840).

5. An airport bird condition monitoring and protecting device as claimed in claim 4, wherein the knocking assembly (840) comprises a connecting rod (841) disposed between the fixing member (810) and the auxiliary member (820), a knocking rod (842) rotatably disposed at the connecting rod (841) at a middle portion thereof, and a return spring (843) disposed at the connecting rod (841) at a side of the knocking rod (842), wherein one end of the knocking rod (842) is in contact with the sound generating member (830) and the other end thereof is engaged with the protrusion (850).

6. The airfield bird monitoring and protection device of claim 5 wherein the protrusion (850) is a polygonal cylinder fitted over the outside of the sleeve (620).

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