CN113080183A - 6G communication tower bird repellent device - Google Patents

Abstract

A6G communication iron tower bird repellent device, the said fixed equipment part is installed on the insulator, the upper end of the fixed equipment part is fitted with the inside and driven the bird part, guarantee the apparatus is fixed on insulator through the fixed equipment part, make the wind energy blow the internal gear operation that drives the inside and drives the bird part of internal bird part on the dwang driving the part, guarantee the part of internal bird driving can be used normally; the rotary bird repelling mechanism rotates through wind power to drive the internal gear to rotate, so that the rotary circular tube is driven to rotate, and the problems of line tripping and the like caused by birds falling on the insulator can be prevented; the rotating air box mechanism drives the rotating air box mechanism to rotate through rotating the bird repelling mechanism, so that a cylinder in the rotating air box mechanism can make a sound, birds are repelled, and the circuit is prevented from being damaged.

Description

6G communication tower bird repellent device

Technical Field

The invention relates to the technical field of communication iron towers, in particular to a bird repelling device for a 6G communication iron tower.

Background

In recent years, along with the enhancement of environmental awareness and the continuous improvement of ecological environment of people, the bird population living in nature, quantity and range of motion are also gradually increased, because the overhead transmission line of china mostly runs in the field, be difficult to in time receive the control of manpower, consequently receive the influence of birds activity great, in case meet rainy weather, wet branch forms the conductor and takes place the ground fault, arouse the tripping operation outage then, not only bring inconvenience for thousands of households, still can bring the loss for the mill, and not few iron wire steel wire has appeared in the material of bird nest, it is dangerous, the excrement of the birds who live on the iron tower also can cause the threat to electric power system, birds arrange excrement on high voltage iron tower, pollute insulating vase easily and electrically conduct, the safe operation of the electric wire netting has received serious threat importantly.

Disclosure of Invention

Aiming at the technical problems, the invention provides a bird repelling device for a 6G communication iron tower, which not only solves the problems, but also reduces the loss of manpower and material resources and protects the safety of a power grid.

The utility model provides a 6G communication tower bird repellent device, includes: a fixed equipment part and an internal bird repelling part;

the fixed equipment part is arranged on the insulator, the upper end surface of the fixed equipment part is provided with the internal bird repelling part, and the equipment is ensured to be fixed on the insulator through the fixed equipment part, so that the wind energy blows a rotating rod on the internal bird repelling part to drive a gear inside the internal bird repelling part to rotate, and the internal bird repelling part can be ensured to be normally used;

the inside drive bird part include: the bird repelling device comprises a rotary bird repelling mechanism, a rotary air box mechanism, a rotation direction switching mechanism and an internal bird repelling shell;

the rotary bird repelling mechanism rotates through wind power to drive the internal gear to rotate, so that the rotary circular tube is driven to rotate, and the problems of line tripping and the like caused by birds falling on the insulator can be prevented; the rotary air box mechanism drives the rotary air box mechanism to rotate through the rotation of the rotary bird repelling mechanism, so that a cylinder in the rotary air box mechanism can make a sound, birds are repelled, and the circuit is prevented from being damaged; the rotary bird repelling mechanism, the rotary air box mechanism and the rotary direction converting mechanism are arranged in an internal bird repelling shell, and the internal bird repelling shell is arranged on the fixed equipment part;

preferably, the fixing device portion includes: a rotating round pipe, a sliding semi-round pipe, a handle and a clamp;

an electromagnet is arranged at an opening on the side face of the rotating circular tube, one end of the rotating circular tube is buckled with one end of the circular tube, teeth are arranged at the buckled end of the rotating circular tube and the circular tube, the number of the rotating circular tubes is two, a sliding semicircular tube is respectively and slidably arranged in the rotating circular tubes, a hairbrush is arranged on one sliding semicircular tube, and the two rotating circular tubes are rotatably connected through a shaft; two round tubes are provided and are rotationally connected through a shaft,

two handles are fixedly arranged on the side surface of the circular tube, a clamp is slidably arranged at the front end of each handle, rotating shafts on the two clamps are fixedly arranged inside the circular tube, a spring is arranged on the outer side of each clamp and fixedly connected with the inside of the circular tube, and the spring plays a role in pulling force; two groups of wheels are fixedly arranged inside the clamp, a motor is fixedly arranged on the side face of one wheel in each group of wheels, and a motor shaft of the motor is fixedly connected with a shaft in the middle of the wheels.

Preferably, the rotary bird repelling mechanism comprises: the device comprises a wind driven generator, a bird repelling mirror, a bevel gear A, a gear combination, a bevel gear B, a rotating shaft A, a spiral spring, a bevel gear C, a bevel gear D, a rotating shaft B, a sliding block, a limiting cylinder, a level gauge, a controller, a pushing mechanism and a rubber ball;

the wind driven generator is rotatably arranged on the upper end surface of the internal bird repelling shell; the upper end face of the bird repelling mirror is fixedly provided with a wind driven generator, a storage battery is arranged in the bird repelling shell inside the bird repelling mirror and can store electric power generated by the wind driven generator, the lower end face of the bird repelling mirror is fixedly provided with a bevel gear A, and teeth of the bevel gear A are respectively meshed with a bevel gear B and a bevel gear in a gear combination; a straight gear in the gear combination is rotatably arranged on the side surface of the internal bird repelling shell, and the straight gear in the gear combination is meshed with teeth on the rotating circular pipe; an input shaft at one end of the rotation direction conversion mechanism is fixedly connected with a shaft of the bevel gear B, an output shaft at the other end of the rotation direction conversion mechanism is fixedly connected with one end of the rotating shaft A, an electromagnetic buckle is arranged at one end of the rotating shaft A, and the rotating shaft A is connected with the rotation direction conversion mechanism through the electromagnetic buckle; one end of the clockwork spring is fixedly connected with the other end of the rotating shaft A, the other end of the clockwork spring is fixedly connected with one end of the rotating shaft B, the other end of the rotating shaft B is provided with a lead screw, a sliding block is slidably arranged on the lead screw, the thread of the lead screw is matched with the threaded hole of the sliding block, the sliding block is slidably arranged in the limiting cylinder, and one end of the limiting cylinder is fixedly arranged in the shell; the bevel gear C is fixedly arranged on one surface of the spiral spring;

the shaft of the bevel gear D is fixedly connected with the output shaft of the other rotation direction conversion mechanism, and the teeth of the bevel gear D are meshed with the teeth of the bevel gear C; the input shaft of the rotation direction conversion mechanism is fixedly connected with the shaft of the bird repelling mirror, and the upper end surface of the bird repelling mirror is fixedly connected with the wind driven generator; the controller is fixedly arranged in the shell, and a level gauge is fixedly arranged on the side surface of the controller; the pushing mechanism is fixedly arranged inside the shell, a sliding groove is formed inside the pushing mechanism, a sliding block is arranged inside the sliding groove, and a push plate is arranged at one end of the sliding block; the rubber ball is arranged inside the shell, and a small round hole is formed in the rubber ball and can make a sound when being pressed.

Preferably, said rotary bellows mechanism comprises: a transmission mechanism and a rotating barrel;

one belt pulley in the transmission mechanism is fixedly arranged on the rotating shaft A, the other belt pulley in the transmission mechanism is rotatably arranged on the bracket, the two belt pulleys are connected through a belt in the transmission mechanism, and the rotating barrel is connected with the transmission mechanism through a bevel gear on the lower end surface of the rotating barrel.

Preferably, the mechanism for converting the direction of rotation comprises: the device comprises a circular cylinder shell, a rotating shaft C, a bevel gear E, a ratchet wheel A, a pawl A, a rotating shaft D, a ratchet wheel B, a pawl B, a bevel gear F and a bevel gear G;

one end of the rotating shaft C is fixedly connected with a bevel gear E, a clamping groove is formed in the bevel gear E, and a pawl A is slidably mounted on the clamping groove; the ratchet wheel A and the ratchet wheel B are fixedly connected through a rotating shaft D, one end of the rotating shaft D is rotatably installed on the pawl A, and the other end of the rotating shaft D is rotatably installed on the circular cylinder shell; the bevel gear F is rotatably arranged on the rotating shaft D, a clamping groove is formed in the bevel gear F, and a pawl B is slidably arranged on the clamping groove; the bevel gear G is rotatably arranged inside the circular cylinder shell, surrounds the bevel gear E and the bevel gear F, and has teeth meshed with the teeth of the bevel gear E and the bevel gear F.

Preferably, the material of the rotating barrel is butadiene, and the butadiene has the characteristics of enhancing flexibility, keeping the toughness, elasticity and impact strength of the material.

Compared with the prior art, the invention has the beneficial effects that:

1. when wind power is too large, the device can be blown down or inclined, normal use of the equipment is affected, and when the level gauge senses that the equipment is inclined, the motor on the clamp wheel is controlled to rotate through the controller, so that the equipment can be kept in a horizontal state.

2. When using, hold the handle through the manual work, the round bar of pulling clip rear end makes the clip drive two pipes and opens, and then drives two and rotate the pipe and open, through cliping the insulator with two clips, the rethread rotates the pipe and rotates the slip semicircle pipe that drives inside and rotate, makes the slip semicircle pipe rotate along the insulator, both can prevent that birds from dropping off, can clean the insulator again.

3. When wind can not blow the wind driven generator and the bird repelling mirror rotates, the rotating shaft A is driven to rotate through the force released by the clockwork spring, so that the bevel gear A and the gear are driven to rotate in a combined manner, the rotating circular tube can be further continuously driven to rotate, and the situation that birds fall down and circuits are damaged under the windless condition is guaranteed.

4. When axis of rotation A rotated, driven through drive mechanism and rotated the bucket and rotate, made outside wind get into from the quad slit that is equipped with on rotating the bucket, sent sound and dispelled birds, when rotating the bucket and rotate with higher speed, sound can grow gradually, and the effect that possesses has also been strengthened.

Drawings

Fig. 1-2 are schematic diagrams of the overall structure of the present invention.

Fig. 3 is an internal schematic view of the overall structure of the present invention.

Fig. 4-6 are schematic structural views of the fastening device portion of the present invention.

Fig. 7 is a schematic structural view of an internal bird repelling portion of the present invention.

Fig. 8 is a schematic structural view of a rotary bird repelling mechanism of the internal bird repelling part of the invention.

Fig. 9 is a schematic structural view of a rotary bellows mechanism of the internal bird repelling part of the invention.

Fig. 10-13 are schematic structural views of a rotation direction conversion mechanism of the internal bird repelling part of the invention.

Reference numerals: 1-a stationary equipment part; 2-an internal bird repelling part; 101-rotating the circular tube; 102-sliding semicircular tube; 103-round tube; 104-a handle; 105-a clip; 21-rotating the bird repelling mechanism; 22-a rotating bellows mechanism; 23-a mechanism for converting the direction of rotation; 24-inner bird repellent shell; 2101-wind power generator; 2102-bird repelling mirror; 2103-bevel gear A; 2104-gear combination; 2105-bevel gear B; 2106-rotation axis a; 2107-clockwork spring; 2108-bevel gear C; 2109-bevel gear D; 2110-rotating shaft B; 2111-slider; 2112-a limiting cylinder; 2113-level gauge; 2114-controller; 2115-pushing mechanism; 2116-rubber ball; 2201-a transmission mechanism; 2202-rotating the barrel; 2301-a circular cartridge housing; 2302-axis of rotation C; 2303-bevel gear E; 2304-ratchet a; 2305-pawl a; 2306-rotation axis D; 2307-ratchet B; 2308-pawl B; 2309-bevel gear F; 2310-bevel gear G.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Please refer to fig. 1-13: the utility model provides a 6G communication tower bird repellent device, includes: a fixed equipment part 1 and an internal bird repelling part 2;

the fixed equipment part 1 is arranged on the insulator, the upper end surface of the fixed equipment part 1 is provided with the internal bird repelling part 2, and the equipment is ensured to be fixed on the insulator through the fixed equipment part 1, so that wind energy blows a rotating rod on the internal bird repelling part 2 to drive a gear inside the internal bird repelling part 2 to operate, and the internal bird repelling part 2 can be ensured to be normally used;

inside bird portion 2 that drives includes: a rotary bird repelling mechanism 21, a rotary air box mechanism 22, a rotary direction switching mechanism 23 and an internal bird repelling shell 24;

the rotary bird repelling mechanism 21 rotates through wind power to drive the internal gear to rotate, so that the rotary circular tube 101 is driven to rotate, and the problems that birds fall on the insulator, circuit tripping and the like are caused can be prevented; the rotating air box mechanism 22 drives the rotating air box mechanism 22 to rotate through the rotation of the rotating bird repelling mechanism 21, so that a cylinder in the rotating air box mechanism 22 can make a sound, birds are repelled, and the circuit is prevented from being damaged; the rotating direction conversion mechanism 23 is connected with a gear inside the rotating bird repelling mechanism 21, the transmitted force is converted through the rotating direction conversion mechanism 23, the situation that a coil spring inside the rotating bird repelling mechanism 21 cannot be tensioned or loosened is prevented, the rotating bird repelling mechanism 21, the rotating air box mechanism 22 and the rotating direction conversion mechanism 23 are installed inside a bird repelling shell 24, and the inside bird repelling shell 24 is installed on the fixing equipment part 1.

In an alternative implementation of the embodiment of the invention, the fixed equipment part 1 comprises, in addition to the same parts as the previous embodiment: a rotating round tube 101, a sliding semicircular tube 102, a round tube 103, a handle 104 and a clamp 105;

an electromagnet is arranged at an opening on the side face of the rotating circular tube 101, one end of the rotating circular tube 101 is buckled with one end of the circular tube 103, teeth are arranged at one end of the rotating circular tube 101 buckled with the circular tube 103, the rotating circular tube 101 is provided with two sliding semicircular tubes 102, one sliding semicircular tube 102 is slidably arranged in the rotating circular tube 101, a brush is arranged on one sliding semicircular tube 102, and the two rotating circular tubes 101 are rotatably connected through a shaft; there are two circular tubes 103, said two circular tubes 103 being rotatably connected by a shaft,

two handles 104 are fixedly arranged on the side surfaces of the circular tube 103, a clamp 105 is slidably arranged at the front end of each handle 104, rotating shafts on the two clamps 105 are fixedly arranged inside the circular tube 103, a spring is arranged on the outer side of each clamp 105 and fixedly connected with the inside of the circular tube 103, and the spring plays a role of tension; two groups of wheels are fixedly arranged in the clamp 105, a motor is fixedly arranged on the side surface of one wheel in each group of wheels, and a motor shaft of the motor is fixedly connected with a shaft in the middle of the wheels; specifically, when the insulator clamping device is used, the handle 104 is manually held, the round rod at the rear end of the clamp 105 is pulled to enable the clamp 105 to drive the two round tubes 103 to be opened, the two rotary round tubes 101 are further driven to be opened, the insulator is clamped by the two clamps 105, meanwhile, the rotary round tubes 101 are coated on the outer sides of the insulator, the rotary round tubes 101 are attracted by the electromagnets arranged on the rotary round tubes 101, the rotary round tubes 101 are guaranteed not to be separated from the insulator, and when the handle 104 is loosened, the two round tubes 103 and the two rotary round tubes 101 are closed under the action; the length of the sliding semicircular pipe 102 is adjusted by manually pulling the sliding semicircular pipe 102, and the sliding semicircular pipe 102 inside the sliding semicircular pipe is driven to rotate by rotating the circular pipe 101, so that the sliding semicircular pipe 102 rotates along the insulator, birds can be prevented from falling down, and the insulator can be cleaned. When the wind force is too large, the device can be blown down or inclined, so that the normal use of the equipment is influenced, and when the level gauge 2113 senses that the equipment is inclined, the motor on the wheel of the clamp 105 is controlled to rotate through the controller 2114, so that the equipment is kept in a horizontal state;

in an optional implementation manner of the embodiment of the present invention, except for the same components as those in the previous embodiment, the rotating bird repelling mechanism 21 includes: the device comprises a wind driven generator 2101, a bird repelling mirror 2102, a bevel gear A2103, a gear combination 2104, a bevel gear B2105, a rotating shaft A2106, a clockwork spring 2107, a bevel gear C2108, a bevel gear D2109, a rotating shaft B2110, a sliding block 2111, a limiting cylinder 2112, a level 2113, a controller 2114, a pushing mechanism 2115 and a rubber ball 2116;

the wind driven generator 2101 is rotatably arranged on the upper end surface of the internal bird repelling shell 24; the upper end face of the bird repelling mirror 2102 is fixedly provided with a wind driven generator 2101, a storage battery is arranged in the bird repelling shell 24 inside, the power generated by the wind driven generator 2101 can be stored, the lower end face of the bird repelling mirror 2102 is fixedly provided with a bevel gear A2103, and the teeth of the bevel gear A2103 are respectively meshed with a bevel gear B2105 and a bevel gear in a gear combination 2104; a straight gear in the gear combination 2104 is rotatably arranged on the side surface of the internal bird repelling shell 24, and the straight gear in the gear combination 2104 is meshed with teeth on the rotating circular tube 101; an input shaft at one end of the rotation converting direction mechanism 23 is fixedly connected with a shaft of the bevel gear B2105, an output shaft at the other end of the rotation converting direction mechanism 23 is fixedly connected with one end of a rotating shaft A2106, one end of the rotating shaft A2106 is provided with an electromagnetic buckle, and the rotating shaft A2106 is connected with the rotation converting direction mechanism 23 through the electromagnetic buckle; one end of a clockwork 2107 is fixedly connected with the other end of a rotating shaft A2106, the other end of the clockwork 2107 is fixedly connected with one end of a rotating shaft B2110, the other end of the rotating shaft B2110 is provided with a lead screw, a sliding block 2111 is slidably mounted on the lead screw, the thread of the lead screw is matched with the threaded hole of the sliding block 2111, the sliding block 2111 is slidably mounted inside a limiting barrel 2112, and one end of the limiting barrel 2112 is fixedly mounted inside a shell; bevel gear C2108 is fixedly arranged on one surface of spring 2107;

the shaft of the bevel gear D2109 is fixedly connected with the output shaft of the other rotation direction conversion mechanism 23, and the teeth of the bevel gear D2109 are meshed with the teeth of the bevel gear C2108; the input shaft of the rotation direction conversion mechanism 23 is fixedly connected with the shaft of the bird repelling mirror 2102, and the upper end surface of the bird repelling mirror 2102 is fixedly connected with the wind driven generator 2101; the controller 2114 is fixedly arranged in the shell, and a level 2113 is fixedly arranged on the side surface of the controller 2114; the pushing mechanism 2115 is fixedly arranged in the shell, a sliding groove is arranged in the pushing mechanism 2115, a sliding block is arranged in the sliding groove, and a push plate is arranged at one end of the sliding block; the rubber round ball 2116 is arranged in the shell, and a small round hole is arranged on the rubber round ball 2116 and can make a sound when being pressed;

specifically, the bird repelling mirror 2102 is blown by wind to rotate, and birds are repelled by utilizing the reflection principle;

the wind blows the wind power generator 2101 and the bird repelling mirror 2102 to rotate, so that the bevel gear A2103 is driven to rotate, the gear combination 2104 is driven to rotate, the rotating circular tube 101 is driven to rotate, the sliding semi-circular tube 102 is driven to rotate, and circuit faults caused by falling of birds are prevented; meanwhile, the wind driven generator 2101 and the bird repelling mirror 2102 rotate to drive the bevel gear B2105 to rotate to drive the rotating shaft A2106 to rotate, at the moment, the electromagnetic buckle at one end of the rotating shaft A2106 is not connected with the outside of the rotating direction converting mechanism 23, and the spring 2107 can be tensioned by transmitting output force through the rotating direction converting mechanism 23;

the bevel gear D2109 is driven to rotate through the rotation of the wind driven generator 2101 and the bird repelling mirror 2102, so that the bevel gear C2108 is driven to rotate, the clockwork spring 2107 is driven to rotate, and the clockwork spring 2107 can be tensioned at two ends at the same time;

when wind cannot blow the wind driven generator 2101 and the bird repelling mirror 2102 to rotate, the rotating shaft A2106 is driven to rotate by the power released by the spring 2107, the shell of the rotating direction conversion mechanism 23 is clamped by an electromagnetic buckle in the rotating shaft A2106, the rotating direction conversion mechanism 23 is driven to rotate, and further the bevel gear B2105 is driven to rotate, so that the bevel gear A2103 and the gear combination 2104 are driven to rotate, the rotating circular tube 101 can be further continuously driven to rotate, and the situation that under the condition of no wind, birds fall down and damage circuits can be still prevented;

meanwhile, the rotating shaft B2110 is driven to rotate by the power released by the spring 2107, when the rotating shaft B2110 rotates, the electromagnetic buckle in the bevel gear C2108 is released, so that the bevel gear C2108 is separated from the rotating shaft B2110, the sliding block 2111 is driven to move by the rotation of the lead screw connected with one end of the rotating shaft B2110, when the rotating shaft B2110 moves to a certain position, the sliding block on the upper end face of the pushing mechanism 2115 is pulled, a pushing plate on the sliding block is further pushed, the rubber ball 2116 is pressed by the pushing plate, and the rubber ball 2116 can make a sound to drive away birds every other section.

In an alternative embodiment of the present embodiment, the rotary bellows mechanism 22 includes, in addition to the same components as the previous embodiment: a transmission mechanism 2201, a rotating barrel 2202;

one belt pulley in the transmission mechanism 2201 is fixedly arranged on a rotating shaft A2106, the other belt pulley in the transmission mechanism 2201 is rotatably arranged on a support, the two belt pulleys are connected through a belt in the transmission mechanism 2201, the rotating barrel 2202 is connected with the transmission mechanism 2201 through a bevel gear on the lower end surface of the rotating barrel 2202, the rotating barrel 2202 is made of butadiene, and the butadiene has the characteristics of enhanced flexibility, and maintained material toughness, elasticity and impact strength; specifically, when axis of rotation A2106 rotated, drive through drive mechanism 2201 and rotate bucket 2202, made outside wind get into from the square hole that is equipped with on rotating bucket 2202, sent sound and driven birds, when rotating bucket 2202 rotation with higher speed, sound can grow gradually, and the effect that possesses has also been strengthened.

In an alternative embodiment of the present invention, the mechanism 23 for changing the direction of rotation comprises, in addition to the same components as in the previous embodiment: a cylindrical housing 2301, a rotation shaft C2302, a bevel gear E2303, a ratchet wheel a2304, a pawl a2305, a rotation shaft D2306, a ratchet wheel B2307, a pawl B2308, a bevel gear F2309, a bevel gear G2310;

one end of the rotating shaft C2302 is fixedly connected with a bevel gear E2303, a clamping groove is formed in the bevel gear E2303, and a pawl A2305 is slidably mounted on the clamping groove; the ratchet wheel A2304 and the ratchet wheel B2307 are fixedly connected through a rotating shaft D2306, one end of the rotating shaft D2306 is rotatably mounted on the pawl A2305, and the other end of the rotating shaft D2306 is rotatably mounted on the cylindrical shell 2301; a bevel gear F2309 is rotatably arranged on the rotating shaft D2306, a clamping groove is formed in the bevel gear F2309, and a pawl B2308 is slidably arranged on the clamping groove; a bevel gear G2310 is rotatably installed inside the cylindrical shell 2301, the bevel gear G2310 surrounds a bevel gear E2303 and a bevel gear F2309, and teeth of the bevel gear G2310 are meshed with teeth of the bevel gear E2303 and teeth of the bevel gear F2309; specifically, when the rotating shaft C2302 rotates counterclockwise, the rotating shaft C2302 drives the bevel gear E2303 to rotate counterclockwise, and further drives the pawl a2305 to rotate, at this time, the pawl a2305 blocks the ratchet a2304, pushes the ratchet a2304 to rotate counterclockwise, and further the ratchet a2304 drives the ratchet B2307 to rotate;

when the rotating shaft C2302 rotates clockwise, the rotating shaft C2302 drives the bevel gear E2303 to rotate clockwise, at this time, the pawl A2305 is disengaged from the ratchet wheel A2304, the bevel gear E2303 drives the bevel gear G2310 to rotate, and further the bevel gear F2309 rotates anticlockwise, at this time, the pawl B2308 is clamped with the rotating shaft D2306, and then the pawl B2308 pushes the ratchet wheel B2307 to rotate anticlockwise.

The working principle is as follows:

when the insulator clamping device is used, the handle 104 is manually held, the round rod at the rear end of the clamp 105 is pulled to enable the clamp 105 to drive the two round pipes 103 to be opened, then the two rotary round pipes 101 are driven to be opened, the insulator is clamped by the two clamps 105, meanwhile, the rotary round pipes 101 are coated on the outer sides of the insulator, the rotary round pipes 101 are sucked by the electromagnets arranged on the rotary round pipes 101, the rotary round pipes 101 are guaranteed not to be separated from the insulator, and when the handle 104 is released, the two round pipes 103 and the two rotary round pipes 101 are closed under the action; the length of the sliding semicircular tube 102 is adjusted by manually pulling the sliding semicircular tube 102, and then the rotating circular tube 101 rotates to drive the sliding semicircular tube 102 inside to rotate, so that the sliding semicircular tube 102 rotates along the insulator, birds can be prevented from falling down, and the insulator can be cleaned;

the bird repelling mirror 2102 is blown by wind to rotate, and birds are repelled by utilizing the reflection principle;

the wind blows the wind power generator 2101 and the bird repelling mirror 2102 to rotate, so that the bevel gear A2103 is driven to rotate, the gear combination 2104 is driven to rotate, the rotating circular tube 101 is driven to rotate, the sliding semi-circular tube 102 is driven to rotate, and therefore the purposes of preventing birds from falling down and causing circuit faults are achieved; meanwhile, the wind driven generator 2101 and the bird repelling mirror 2102 rotate to drive the bevel gear B2105 to rotate to drive the rotating shaft A2106 to rotate, at the moment, the electromagnetic buckle at one end of the rotating shaft A2106 is not connected with the outside of the rotating direction converting mechanism 23, and the spring 2107 can be tensioned by transmitting output force through the rotating direction converting mechanism 23;

the bevel gear D2109 is driven to rotate through the rotation of the wind driven generator 2101 and the bird repelling mirror 2102, so that the bevel gear C2108 is driven to rotate, the clockwork spring 2107 is driven to rotate, and the clockwork spring 2107 can be tensioned at two ends at the same time;

when wind cannot blow the wind driven generator 2101 and the bird repelling mirror 2102 to rotate, the rotating shaft A2106 is driven to rotate by the power released by the spring 2107, the shell of the rotating direction conversion mechanism 23 is clamped by an electromagnetic buckle in the rotating shaft A2106, the rotating direction conversion mechanism 23 is driven to rotate, and further the bevel gear B2105 is driven to rotate, so that the bevel gear A2103 and the gear combination 2104 are driven to rotate, the rotating circular tube 101 can be further continuously driven to rotate, and the situation that under the condition of no wind, birds fall down and damage circuits can be still prevented;

meanwhile, the rotating shaft B2110 is driven to rotate by the power released by the spring 2107, when the rotating shaft B2110 rotates, the electromagnetic buckle in the bevel gear C2108 is released, so that the bevel gear C2108 is separated from the rotating shaft B2110, the sliding block 2111 is driven to move by the rotation of the lead screw connected with one end of the rotating shaft B2110, when the rotating shaft B2110 moves to a certain position, the sliding block on the upper end face of the pushing mechanism 2115 is pulled, a pushing plate on the sliding block is further pushed, the rubber ball 2116 is pressed by the pushing plate, and the rubber ball 2116 can make a sound to drive away birds every other section;

specifically, when the rotating shaft a2106 rotates, the rotating barrel 2202 is driven to rotate by the transmission mechanism 2201, so that external wind enters from a square hole formed in the rotating barrel 2202 to make a sound to repel birds, when the rotating barrel 2202 rotates and accelerates, the sound gradually increases, and the possessed effect is also enhanced;

when the wind force is too large, the device can be blown down or inclined, the normal use of the equipment is affected, and when the level gauge 2113 senses that the equipment is inclined, the motor on the wheel of the clamp 105 is controlled to rotate through the controller 2114, so that the equipment is kept in a horizontal state.

Claims (6)

1. The utility model provides a 6G communication tower bird repellent device which characterized in that includes: a fixed equipment part (1) and an internal bird repelling part (2);

the fixed equipment part (1) is arranged on the insulator, the internal bird repelling part (2) is arranged on the upper end face of the fixed equipment part (1), and the equipment is ensured to be fixed on the insulator through the fixed equipment part (1), so that the wind energy blows a rotating rod on the internal bird repelling part (2) to drive a gear inside the internal bird repelling part (2) to operate, and the internal bird repelling part (2) can be ensured to be normally used;

the internal bird repelling part (2) comprises: a rotary bird repelling mechanism (21), a rotary air box mechanism (22), a rotation direction switching mechanism (23) and an internal bird repelling shell (24);

the rotary bird repelling mechanism (21) rotates through wind power to drive the internal gear to rotate, so that the rotary circular tube (101) is driven to rotate, and the problems of line tripping and the like caused by birds falling on the insulator can be prevented; the rotating air box mechanism (22) drives the rotating air box mechanism (22) to rotate through the rotation of the rotating bird repelling mechanism (21), so that a cylinder in the rotating air box mechanism (22) can make a sound, birds are repelled, and the circuit is prevented from being damaged; the bird repellent device is characterized in that the rotating direction conversion mechanism (23) is connected with a gear inside the rotating bird repellent mechanism (21), the force transmitted into the bird repellent device is converted through the rotating direction conversion mechanism (23), the situation that a coil spring inside the rotating bird repellent mechanism (21) cannot be tensioned or loosened is prevented, the rotating bird repellent mechanism (21), the rotating air box mechanism (22) and the rotating direction conversion mechanism (23) are installed in the inside bird repellent shell (24), and the inside bird repellent shell (24) is installed on the fixed equipment part (1).

2. A 6G communication tower bird repellent device according to claim 1, wherein the fixing equipment part (1) comprises: a rotary round tube (101), a sliding semi-round tube (102), a round tube (103), a handle (104) and a clamp (105);

an electromagnet is arranged at an opening on the side face of the rotating circular tube (101), one end of the rotating circular tube (101) is buckled with one end of the circular tube (103), teeth are arranged at the buckled end of the rotating circular tube (101) and the circular tube (103), the rotating circular tube (101) is provided with two sliding semicircular tubes (102), a brush is arranged on one sliding semicircular tube (102), and the two rotating circular tubes (101) are rotatably connected through a shaft; two circular tubes (103), wherein the two circular tubes (103) are rotationally connected through a shaft,

two handles (104) are fixedly installed on the side face of the circular tube (103), a clamp (105) is installed at the front end of each handle (104) in a sliding mode, rotating shafts on the two clamps (105) are fixedly installed inside the circular tube (103), a spring is arranged on the outer side of each clamp (105), the spring is fixedly connected with the inside of the circular tube (103), and the spring plays a role of pulling force; two groups of wheels are fixedly arranged in the clamp (105), a motor is fixedly arranged on the side face of one wheel in each group of wheels, and a motor shaft of the motor is fixedly connected with a shaft in the middle of the wheels.

3. A bird repelling device for 6G communication tower according to claim 1, wherein the rotating bird repelling mechanism (21) comprises: the device comprises a wind driven generator (2101), a bird repelling mirror (2102), a bevel gear A (2103), a gear combination (2104), a bevel gear B (2105), a rotating shaft A (2106), a clockwork spring (2107), a bevel gear C (2108), a bevel gear D (2109), a rotating shaft B (2110), a sliding block (2111), a limiting cylinder (2112), a level gauge (2113), a controller (2114), a pushing mechanism (2115) and a rubber ball (2116);

the wind driven generator (2101) is rotatably arranged on the upper end surface of the internal bird repelling shell (24); the upper end face of the bird repelling mirror (2102) is fixedly provided with a wind driven generator (2101), a storage battery is arranged in the bird repelling shell (24) inside, the power generated by the wind driven generator (2101) can be stored, the lower end face of the bird repelling mirror (2102) is fixedly provided with a bevel gear A (2103), and the teeth of the bevel gear A (2103) are respectively meshed with a bevel gear B (2105) and a bevel gear in a gear combination (2104); a spur gear in the gear combination (2104) is rotatably arranged on the side surface of the internal bird repelling shell (24), and the spur gear in the gear combination (2104) is meshed with teeth on the rotating circular tube (101); an input shaft at one end of the rotation direction conversion mechanism (23) is fixedly connected with a shaft of the bevel gear B (2105), an output shaft at the other end of the rotation direction conversion mechanism (23) is fixedly connected with one end of the rotation shaft A (2106), one end of the rotation shaft A (2106) is provided with an electromagnetic buckle, and the rotation shaft A (2106) is connected with the rotation direction conversion mechanism (23) through the electromagnetic buckle; one end of a clockwork spring (2107) is fixedly connected with the other end of the rotating shaft A (2106), the other end of the clockwork spring (2107) is fixedly connected with one end of a rotating shaft B (2110), the other end of the rotating shaft B (2110) is provided with a lead screw, a sliding block (2111) is installed on the lead screw in a sliding manner, the thread of the lead screw is matched with the threaded hole of the sliding block (2111), the sliding block (2111) is installed in a limiting barrel (2112) in a sliding manner, and one end of the limiting barrel (2112) is fixedly installed in; the bevel gear C (2108) is fixedly arranged on one surface of the clockwork spring (2107);

the shaft of the bevel gear D (2109) is fixedly connected with the output shaft of the other rotation direction conversion mechanism (23), and the teeth of the bevel gear D (2109) are meshed with the teeth of the bevel gear C (2108); an input shaft of the rotation direction conversion mechanism (23) is fixedly connected with a shaft of the bird repelling mirror (2102), and the upper end surface of the bird repelling mirror (2102) is fixedly connected with the wind driven generator (2101); the controller (2114) is fixedly arranged in the shell, and a level (2113) is fixedly arranged on the side surface of the controller (2114); the pushing mechanism (2115) is fixedly arranged in the shell, a sliding groove is arranged in the pushing mechanism (2115), a sliding block is arranged in the sliding groove, and a push plate is arranged at one end of the sliding block; the rubber round ball (2116) is arranged in the shell, and a small round hole is arranged on the rubber round ball (2116) and can make a sound when being pressed.

4. A 6G tower bird repellent device according to claim 1, wherein the rotary bellows mechanism (22) comprises: a transmission mechanism (2201) and a rotating barrel (2202);

one belt pulley in the transmission mechanism (2201) is fixedly arranged on the rotating shaft A (2106), the other belt pulley in the transmission mechanism (2201) is rotatably arranged on the bracket, the two belt pulleys are connected through a belt in the transmission mechanism (2201), and the rotating barrel (2202) is connected with the transmission mechanism (2201) through a bevel gear on the lower end surface of the rotating barrel (2202).

5. The 6G communication tower bird repelling device according to claim 1, wherein the rotation direction switching mechanism (23) comprises: a circular cylinder housing (2301), a rotating shaft C (2302), a bevel gear E (2303), a ratchet wheel A (2304), a pawl A (2305), a rotating shaft D (2306), a ratchet wheel B (2307), a pawl B (2308), a bevel gear F (2309) and a bevel gear G (2310);

one end of the rotating shaft C (2302) is fixedly connected with a bevel gear E (2303), a clamping groove is formed in the bevel gear E (2303), and a pawl A (2305) is slidably mounted on the clamping groove; the ratchet wheel A (2304) and the ratchet wheel B (2307) are fixedly connected through a rotating shaft D (2306), one end of the rotating shaft D (2306) is rotatably mounted on the pawl A (2305), and the other end of the rotating shaft D (2306) is rotatably mounted on the circular cylinder shell (2301); a bevel gear F (2309) is rotatably arranged on the rotating shaft D (2306), a clamping groove is formed in the bevel gear F (2309), and a pawl B (2308) is slidably arranged on the clamping groove; a bevel gear G (2310) is rotatably mounted inside the circular cylinder housing (2301), the bevel gear G (2310) surrounds the bevel gear E (2303) and the bevel gear F (2309), and teeth of the bevel gear G (2310) are meshed with teeth of the bevel gear E (2303) and teeth of the bevel gear F (2309).

6. The 6G communication tower bird repellent device as claimed in claim 1, wherein the rotating barrel (2202) is made of butadiene, and butadiene has the characteristics of enhancing flexibility, keeping material toughness, elasticity and impact strength.

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