Bird deterrent device for electrical equipment

By combining a servo motor and stepper motor drive system with a laser bird repeller and a photovoltaic panel, the problem of moving and flipping the bird-repelling device was solved, achieving multi-directional bird driving and long-term battery life, thus improving the bird-repelling effect.

CN224482754UActive Publication Date: 2026-07-14JIANGSU RUNKAI POWER EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU RUNKAI POWER EQUIP CO LTD
Filing Date
2025-07-05
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing bird deterrence devices are not convenient for easy reciprocating movement and angle rotation to drive away birds, cannot be rotated in multiple directions to increase visibility, and are not suitable for long-term use in the field, thus affecting the bird deterrence effect.

Method used

The device employs a servo motor to drive the rotating shaft and a stepper motor to drive the worm gear system. Combined with a laser bird deterrent and a photovoltaic panel, it enables convenient reciprocating movement, angle-flipping bird deterrence, and multi-directional rotation. It also generates electricity through the photovoltaic panel, supporting long-term outdoor use.

Benefits of technology

It enables convenient reciprocating movement and tilting angle of the bird deterrent device, improving the visibility and practicality of bird deterrence, and supports long-term outdoor operation, thus enhancing the bird deterrence effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of anti-bird damage devices for electric power equipment, including support seat and rotary disc, the outside of the support seat is provided with rotary disc, the top of rotary disc is equipped with storage battery box, inverter is installed on the lateral wall of storage battery box, the top of storage battery box is equipped with L type board, the outside of L type board is provided with lengthened rack, the outside of lengthened rack is provided with laser bird repeller, the side of rotary disc top away from storage battery box is equipped with support frame. The utility model not only realizes that anti-bird damage device reciprocating type movement and turning angle are conveniently driven to birds, reciprocating movement is conveniently driven to birds visually, multi-directional rotation is conveniently driven to birds, and multi-angle rotation is conveniently improved, long time field endurance use is facilitated, and the effect of bird repelling of anti-bird damage device is improved.
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Description

Technical Field

[0001] This utility model relates to the technical field of bird protection devices, specifically a bird protection device for power equipment. Background Technology

[0002] Power equipment refers to the general term for equipment used in power generation, transmission, transformation, distribution and consumption. It mainly includes two categories: power generation equipment and power supply equipment, covering the entire process from power production to end consumption. Bird protection devices for power equipment are devices used to prevent birds from nesting and roosting on power equipment, thereby reducing power failures and accidents caused by bird activity.

[0003] For example, the bird protection device for power equipment disclosed in the authorization announcement number CN221653498U includes a storage base with a storage cavity. The lower part of the storage base is fixedly connected to a mounting base for installation on a transmission tower. The upper end face of the storage base has a through hole communicating with the storage cavity. The storage base is provided with a lifting plate that slides vertically and is connected to the storage cavity. The upper end face of the lifting plate is fixedly connected to a spike seat that passes through the through hole. The outer peripheral wall of the spike seat is provided with bird-proof spike bundles.

[0004] While it achieves the following: when maintenance personnel need to perform maintenance, the lifting plate is lowered by pulling the unlocking rope, allowing the spiked head to slide and be stored in the storage cavity. During the continuous descent of the lifting plate, the bird-proof spikes are restricted by the through holes and then closed. The unlocking rope is then fixed by the limiting component, thus fixing the position of the lifting plate. At this time, the elastic element undergoes elastic deformation and has elastic potential energy. After the parts are repaired, the maintenance personnel unlock the limiting component and remove the force on the unlocking rope. The lifting plate moves back to its original position under the action of the elastic element, allowing the bird-proof spikes to unfold again. During the rotation of the windmill, the bell rotates along with it, making a sound to scare away birds and improve the bird-repelling effect. The rotation of the windmill also causes the bell to move on the collision plate. During the movement of the bell on the collision plate, it collides with the ribs, thereby increasing the degree of collision and shaking of the bell, increasing the sound of the bell, and improving the bird-repelling effect.

[0005] However, the existing bird deterrent devices are not conducive to convenient reciprocating movement and rotation angles to drive away birds. They are not convenient for visually deterring birds through reciprocating movement, nor for driving away birds from multiple directions or increasing visibility through multi-angle rotation. They are also not convenient for long-term use in the field, which affects the bird deterrent effect of the devices. Utility Model Content

[0006] The purpose of this utility model is to provide a bird deterrent device for power equipment, in order to solve the problems mentioned in the background art that the bird deterrent device is not convenient to move back and forth and rotate at different angles to drive away birds, is not convenient to move back and forth to visually drive away birds, is not convenient to rotate in multiple directions to drive away birds, is not convenient to rotate at multiple angles to improve visibility, and is not convenient to use in the field for a long time, which affects the bird deterrent effect of the bird deterrent device.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a bird-proof device for power equipment, comprising a support base and a rotating disk. The rotating disk is disposed outside the support base. A storage box is mounted on the top of the rotating disk. An inverter is mounted on the side wall of the storage box. An L-shaped plate is mounted on the top of the storage box. An extended rack is disposed outside the L-shaped plate. A laser bird deterrent is disposed outside the extended rack. A support frame is mounted on the side of the rotating disk away from the storage box. A tripod is disposed outside the support frame. A photovoltaic panel is mounted on the side wall of the tripod. A servo motor is mounted on the top of the L-shaped plate. A rotating shaft is mounted on the output end of the servo motor. The rotating shaft extends through the L-shaped plate to its outside. A support shaft is movably mounted on the side wall of the L-shaped plate on one side of the rotating shaft. The support shaft extends through the L-shaped plate to its outside. A rotating shaft is movably mounted on the side wall of the L-shaped plate on the other side of the rotating shaft.

[0008] Preferably, the rotating shaft extends through the L-shaped plate to its exterior. A first small gear is fitted onto the surface of the rotating shaft outside the L-shaped plate, a second large gear is fitted onto the surface of the supporting shaft outside the L-shaped plate, and the first small gear meshes with the first large gear and the second large gear. A first sector gear is fitted onto the surface of the rotating shaft outside the first large gear, and a second sector gear is fitted onto the surface of the supporting shaft outside the second large gear. The first sector gear and the second sector gear mesh with an extended rack.

[0009] Preferably, a base plate is installed at the top of the extended rack, electric push rods are movably installed on both sides of the base plate, and a movable shaft is movably installed at the output end of each electric push rod. A flip plate is provided on the outside of the base plate.

[0010] Preferably, all the movable shafts are movably connected to the flip plate, and a first shaft is movably installed at the end of the flip plate away from the movable shaft. The flip plate is movably connected to the base plate through the first shaft, and the flip plate is connected to the laser bird deterrent.

[0011] Preferably, a stepper motor is installed at the top of the support base, a worm gear is installed at the output end of the stepper motor, a rotating column is installed at the bottom of the rotating disk, the rotating column extends to the surface of the support base and is movably connected thereto, a worm wheel is fitted on the surface of the rotating column, and the worm gear meshes with the worm wheel.

[0012] Preferably, a second shaft is movably mounted on the side wall of the support frame, a housing is fitted onto the surface of the second shaft, a power motor is mounted on the side wall of the housing, and a third shaft is mounted on the output end of the power motor.

[0013] Preferably, the third shaft extends into the interior of the housing and is movably connected thereto. A second pinion is fitted on the surface of the third shaft. A fifth shaft is movably mounted on the side wall of the tripod. A first rack is fitted on the surface of the fifth shaft.

[0014] Preferably, the first rack extends through the housing to its exterior, the first rack meshes with the second pinion, the bottom end of the tripod is symmetrically and movably mounted with a fourth shaft, the tripod is movably connected to the support frame through the fourth shaft, and a controller is installed on the side wall of the energy storage box on one side of the inverter.

[0015] Compared with the prior art, the beneficial effects of this utility model are: the bird deterrent device not only realizes the convenient reciprocating movement and rotation angle of the bird deterrent device to drive away birds, but also facilitates the visual impact of reciprocating movement to drive away birds, facilitates multi-directional rotation to drive away birds, and facilitates multi-angle rotation to improve visibility, facilitates long-term outdoor use, and improves the bird deterrent effect of the bird deterrent device.

[0016] A servo motor drives a rotating shaft to rotate, which in turn drives a first small gear to rotate. The first small gear then drives a first large gear and a second large gear to rotate. The first large gear drives a rotating shaft and a first sector gear to rotate. The second large gear drives a support shaft and a second sector gear to rotate. The first sector gear drives an extended rack and a laser bird deterrent to move downwards, and then the second sector gear drives the extended rack and the laser bird deterrent to move upwards. This cycle repeats, causing the extended rack to move back and forth to drive away birds. An electric push rod drives a movable shaft to move. With the movable support of the first shaft, the movable shaft drives a flipping plate to flip around the first shaft at a certain angle. This allows the bird deterrent device to move back and forth and flip at different angles to drive away birds. The back-and-forth movement provides a visual impact to drive away birds, and the multi-angle rotation increases visibility, thus improving the bird deterrent effect of the device.

[0017] A stepper motor drives a worm gear to rotate, which in turn drives a worm wheel, a rotating column, a rotating disk, a support frame, a power storage box, an L-shaped plate, and a laser bird deterrent to rotate around the rotating column as an axis to drive away birds. This enables the bird deterrent device to rotate in multiple directions to drive away birds, increasing its practicality.

[0018] The motor drives the third shaft and the second pinion to rotate. The second pinion drives the first rack to move. The first rack drives the fifth shaft, the tripod, and the photovoltaic panel to tilt at a certain angle around the two sets of fourth shafts to collect solar energy. The solar energy collected by the photovoltaic panel is converted into electrical energy by the inverter and stored in the storage box for use. This enables the bird protection device to conveniently use solar energy to generate electricity, facilitating long-term outdoor use. Attached Figure Description

[0019] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0020] Figure 2 This is a front view structural diagram of the present utility model;

[0021] Figure 3 This is a three-dimensional structural diagram of the L-shaped plate of this utility model;

[0022] Figure 4 This is a three-dimensional structural diagram of the extended rack of this utility model;

[0023] Figure 5 This is a three-dimensional structural diagram of the flip plate of this utility model;

[0024] Figure 6 This is a three-dimensional structural diagram of the support base of this utility model;

[0025] Figure 7 This is a front view cross-sectional structural diagram of the box body of this utility model;

[0026] Figure 8 This is a three-dimensional structural diagram of the support frame of this utility model.

[0027] In the diagram: 1. Support base; 2. Rotary disk; 3. Energy storage box; 4. Inverter; 5. L-shaped plate; 6. Laser bird deterrent; 7. Support frame; 8. Tripod; 9. Photovoltaic panel body; 10. Extended rack; 11. Servo motor; 12. Rotating shaft; 13. Support shaft; 14. Rotating shaft; 15. First pinion; 16. First large gear; 17. First sector gear; 18. Second large gear; 19. Second sector gear; 20. Base plate; 21. Electric push rod; 22. Movable shaft; 23. First shaft; 24. Flipping plate; 25. Stepper motor; 26. Worm gear; 27. Rotating column; 28. Worm wheel; 29. ​​Second shaft; 30. Housing; 31. Power motor; 32. First rack; 33. Third shaft; 34. Second pinion; 35. Fourth shaft; 36. Fifth shaft; 37. Controller. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0029] Please see Figure 1-8 One embodiment of this utility model provides a bird-proof device for power equipment, comprising a support base 1 and a rotating disk 2. The rotating disk 2 is disposed on the outside of the support base 1. A storage box 3 is installed on the top of the rotating disk 2. An inverter 4 is installed on the side wall of the storage box 3. An L-shaped plate 5 is installed on the top of the storage box 3. An elongated rack 10 is disposed on the outside of the L-shaped plate 5. A laser bird deterrent 6 is disposed on the outside of the elongated rack 10. A support frame 7 is installed on the side of the top of the rotating disk 2 away from the storage box 3. A tripod 8 is provided on the outside of the support frame 7. A photovoltaic panel body 9 is installed on the side wall of the tripod 8. A servo motor 11 is installed on the top of the L-shaped plate 5. A rotating shaft 12 is installed on the output end of the servo motor 11. The rotating shaft 12 extends through the L-shaped plate 5 to its outside. A support shaft 13 is movably installed on the side wall of the L-shaped plate 5 on one side of the rotating shaft 12. The support shaft 13 extends through the L-shaped plate 5 to its outside. A rotating shaft 14 is movably installed on the side wall of the L-shaped plate 5 on the other side of the rotating shaft 12.

[0030] The rotating shaft 14 extends through the L-shaped plate 5 to its outside. A first small gear 15 is fitted on the surface of the rotating shaft 12 outside the L-shaped plate 5. A second large gear 18 is fitted on the surface of the supporting shaft 13 outside the L-shaped plate 5. A first large gear 16 is fitted on the surface of the rotating shaft 14 outside the L-shaped plate 5. The first small gear 15 meshes with the first large gear 16 and the second large gear 18. A first sector gear 17 is fitted on the surface of the rotating shaft 14 outside the first large gear 16. A second sector gear 19 is fitted on the surface of the supporting shaft 13 outside the second large gear 18. The first sector gear 17 and the second sector gear 19 mesh with the extended rack 10.

[0031] A base plate 20 is installed at the top of the extended rack 10, and electric push rods 21 are movably installed on both sides of the base plate 20. A movable shaft 22 is movably installed at the output end of each electric push rod 21, and a flip plate 24 is provided on the outside of the base plate 20.

[0032] All movable shafts 22 are movably connected to the flip plate 24. The first shaft 23 is movably installed at the end of the flip plate 24 away from the movable shaft 22. The flip plate 24 is movably connected to the base plate 20 through the first shaft 23. The flip plate 24 is connected to the laser bird repeller 6.

[0033] When using a bird deterrent device for power equipment, the laser bird repeller 6 adopts the same model as ZQN-DL-JG. The support base 1 is fixed to the power tower with bolts. The servo motor 11 is turned on, and under the support of the L-shaped plate 5, the servo motor 11 drives the rotating shaft 12 to rotate. The rotating shaft 12 drives the first pinion 15 to rotate. With the first pinion 15 meshing with the first large gear 16 and the second large gear 18, and supported by the rotating shaft 14 and the support shaft 13, the first pinion 15 drives the first large gear 16 and the second large gear 18 to rotate clockwise. The first large gear 16 drives the rotating shaft 14 and the first sector gear 17 to rotate clockwise. The second large gear 18 drives the support shaft 13 and the second sector gear 19 to rotate clockwise. With the extended rack 10 meshing with the first sector gear 17 and the second sector gear 19, the first sector gear 17 drives the extended rack 10 and the laser bird repeller 6 to move downwards. The second sector gear 19 then... When the first sector gear 17 drives the extended rack 10 to move downwards to its maximum stroke, the second sector gear 19 just comes into contact with the extended rack 10. At this time, the first sector gear 17 disengages from the extended rack 10, and the second sector gear 19 then drives the extended rack 10 and the laser bird repeller 6 to move upwards. This cycle is repeated to reciprocate the lifting and lowering of the extended rack 10 and the laser bird repeller 6 to drive away birds. When it is necessary to rotate the laser bird repeller 6 to a certain angle, the two sets of electric push rods 21 are opened. Under the movable support of the base plate 20, the electric push rods 21 drive the movable shaft 22 to move. Under the movable support of the first shaft 23, the movable shaft 22 drives the flip plate 24 to rotate to a certain angle around the first shaft 23. This realizes the convenient reciprocating movement and rotation angle of the bird-repelling device to drive away birds. It facilitates the visual impact of reciprocating movement to drive away birds, facilitates multi-angle rotation to improve visibility, and improves the bird-repelling effect of the bird-repelling device.

[0034] A stepper motor 25 is installed at the top of the support base 1, and a worm gear 26 is installed at the output end of the stepper motor 25. A rotating column 27 is installed at the bottom of the rotating disk 2. The rotating column 27 extends to the surface of the support base 1 and is movably connected thereto. A worm wheel 28 is fitted on the surface of the rotating column 27, and the worm gear 26 meshes with the worm wheel 28.

[0035] When it is necessary to rotate the device to drive away birds from different directions, the stepper motor 25 is turned on. With the support of the support base 1, the stepper motor 25 drives the worm gear 26 to rotate. Under the meshing of the worm gear 26 and the worm wheel 28, the worm gear 26 drives the worm wheel 28, the rotating column 27, the rotating disk 2, the support frame 7, the power storage box 3, the L-shaped plate 5, and the laser bird repeller 6 to rotate around the rotating column 27 as the axis to drive away birds. This realizes the multi-directional rotation of the bird protection device to drive away birds and increases the practicality of the bird protection device.

[0036] A second shaft 29 is movably mounted on the side wall of the support frame 7. A housing 30 is fitted onto the surface of the second shaft 29. A power motor 31 is mounted on the side wall of the housing 30. A third shaft 33 is mounted on the output end of the power motor 31.

[0037] The third shaft 33 extends into the interior of the housing 30 and is movably connected thereto. The surface of the third shaft 33 is fitted with a second pinion 34. The fifth shaft 36 is movably mounted on the side wall of the tripod 8. The surface of the fifth shaft 36 is fitted with a first rack 32.

[0038] The first rack 32 extends through the housing 30 to its outside. The first rack 32 meshes with the second pinion 34. The fourth shaft 35 is symmetrically and movably installed at the bottom of the tripod 8. The tripod 8 is movably connected to the support frame 7 through the fourth shaft 35. A controller 37 is installed on the side wall of the energy storage box 3 on one side of the inverter 4. The output end of the controller 37 is electrically connected to the input ends of the inverter 4, the laser bird repeller 6, the photovoltaic panel body 9, the power motor 31, the energy storage box 3, the servo motor 11, the electric push rod 21, the stepper motor 25, and the power motor 31.

[0039] When the power motor 31 is turned on, supported by the housing 30, the power motor 31 drives the third shaft 33 and the second pinion 34 to rotate. Under the meshing of the first rack 32 and the second pinion 34, the second pinion 34 drives the first rack 32 to move. Under the movable support of the fifth shaft 36, the first rack 32 drives the fifth shaft 36, the tripod 8, and the photovoltaic panel body 9 to tilt at a certain angle around the two sets of fourth shafts 35 to collect light energy. The light energy collected by the photovoltaic panel body 9 is converted into electrical energy by the inverter 4 and stored inside the energy storage box 3 for use. This realizes the convenient use of light energy to generate electricity for the bird protection device, which facilitates long-term outdoor use.

[0040] Working principle: Servo motor 11 drives rotating shaft 12 to rotate, rotating shaft 12 drives first pinion 15 to rotate, first pinion 15 drives first large gear 16 and second large gear 18 to rotate, first large gear 16 drives rotating shaft 14 and first sector gear 17 to rotate, second large gear 18 drives support shaft 13 and second sector gear 19 to rotate. First sector gear 17 drives extended rack 10 and laser bird repeller 6 to move downwards, then second sector gear 19 immediately drives extended rack 10 and laser bird repeller 6 to move upwards. This cycle repeats to reciprocate the movement of extended rack 10 to drive away birds. Electric push rod 21 drives movable shaft 22 to move, movable shaft 22 drives tilting plate 24 to move upwards. A stepper motor 25 drives a worm gear 26 to rotate around a certain angle, with the first axis 23 rotating as the axis. The worm gear 26 drives the worm wheel 28, rotating column 27, rotating disk 2, support frame 7, energy storage box 3, L-shaped plate 5, and laser bird deterrent 6 to rotate around the rotating column 27 to drive birds away. A power motor 31 drives the third axis 33 and the second pinion 34 to rotate. The second pinion 34 drives the first rack 32 to move. With the movable support of the fifth axis 36, the first rack 32 drives the fifth axis 36, the tripod 8, and the photovoltaic panel body 9 to tilt around the two sets of fourth axes 35 at a certain angle to collect light energy. The light energy collected by the photovoltaic panel body 9 is converted into electrical energy by the inverter 4 and stored inside the energy storage box 3 for use, thus completing the operation of the bird prevention device.

Claims

1. A bird-proofing device for power equipment, characterized in that: The device includes a support base (1) and a rotating disk (2). The rotating disk (2) is provided on the outside of the support base (1). A storage box (3) is installed on the top of the rotating disk (2). An inverter (4) is installed on the side wall of the storage box (3). An L-shaped plate (5) is installed on the top of the storage box (3). An elongated rack (10) is provided on the outside of the L-shaped plate (5). A laser bird deterrent (6) is provided on the outside of the elongated rack (10). A support frame (7) is installed on the side of the top of the rotating disk (2) away from the storage box (3). A three-element support frame (6) is provided on the outside of the support frame (7). A tripod (8) is provided with a photovoltaic panel body (9) mounted on its side wall. A servo motor (11) is mounted on the top of the L-shaped plate (5). A rotating shaft (12) is mounted on the output end of the servo motor (11). The rotating shaft (12) extends through the L-shaped plate (5) to its outside. A support shaft (13) is movably mounted on the side wall of the L-shaped plate (5) on one side of the rotating shaft (12). The support shaft (13) extends through the L-shaped plate (5) to its outside. A rotating shaft (14) is movably mounted on the side wall of the L-shaped plate (5) on the other side of the rotating shaft (12).

2. The bird protection device for power equipment according to claim 1, characterized in that: The rotating shaft (14) extends through the L-shaped plate (5) to its outside. The surface of the rotating shaft (12) outside the L-shaped plate (5) is fitted with a first small gear (15). The surface of the supporting shaft (13) outside the L-shaped plate (5) is fitted with a second large gear (18). The surface of the rotating shaft (14) outside the L-shaped plate (5) is fitted with a first large gear (16). The first small gear (15) meshes with the first large gear (16) and the second large gear (18). The surface of the rotating shaft (14) outside the first large gear (16) is fitted with a first sector gear (17). The surface of the supporting shaft (13) outside the second large gear (18) is fitted with a second sector gear (19). The first sector gear (17) and the second sector gear (19) mesh with the extended rack (10).

3. A bird-proofing device for power equipment according to claim 2, characterized in that: The top of the extended rack (10) is fitted with a base plate (20), and electric push rods (21) are movably mounted on both sides of the base plate (20). The output ends of the electric push rods (21) are movably mounted with movable shafts (22), and a flip plate (24) is provided on the outside of the base plate (20).

4. A bird protection device for power equipment according to claim 3, characterized in that: All the movable shafts (22) are movably connected to the flip plate (24). The flip plate (24) is movably mounted with a first shaft (23) at one end away from the movable shaft (22). The flip plate (24) is movably connected to the base plate (20) through the first shaft (23). The flip plate (24) is connected to the laser bird deterrent (6).

5. A bird-proofing device for power equipment according to claim 1, characterized in that: A stepper motor (25) is installed at the top of the support base (1), and a worm gear (26) is installed at the output end of the stepper motor (25). A rotating column (27) is installed at the bottom of the rotating disk (2). The rotating column (27) extends to the surface of the support base (1) and is movably connected thereto. A worm wheel (28) is fitted on the surface of the rotating column (27), and the worm gear (26) meshes with the worm wheel (28).

6. A bird-proofing device for power equipment according to claim 1, characterized in that: A second shaft (29) is movably mounted on the side wall of the support frame (7). A housing (30) is fitted on the surface of the second shaft (29). A power motor (31) is mounted on the side wall of the housing (30). A third shaft (33) is mounted on the output end of the power motor (31).

7. A bird protection device for power equipment according to claim 6, characterized in that: The third shaft (33) extends into the interior of the housing (30) and is movably connected thereto. A second pinion (34) is fitted on the surface of the third shaft (33). A fifth shaft (36) is movably mounted on the side wall of the tripod (8). A first rack (32) is fitted on the surface of the fifth shaft (36).

8. A bird protection device for power equipment according to claim 7, characterized in that: The first rack (32) extends through the housing (30) to its outside. The first rack (32) meshes with the second pinion (34). The bottom end of the tripod (8) is symmetrically and movably mounted with a fourth shaft (35). The tripod (8) is movably connected to the support frame (7) through the fourth shaft (35). A controller (37) is installed on the side wall of the energy storage box (3) on one side of the inverter (4).