CN215603435U - Multi-change simulation organism for bird repelling of fruit trees - Google Patents

Abstract

The utility model discloses a multi-change simulation organism for bird repelling of fruit trees, and relates to the technical field of bird repelling equipment. Comprises a simulation object shell and a supporting seat; the simulation shell comprises a main body part, the main body part is provided with a jack, the main body part is connected with a fan fin part through a rotating shaft, the fan fin part is provided with a programmable control colored lamp, and the programmable control colored lamp is electrically connected with the jack. The supporting part is internally provided with a processor, a memory, a power supply, a loudspeaker and a motor. The memory, the loudspeaker and the motor are all electrically connected with the processor and the power supply; and a plug is arranged on the upper surface of the supporting part and is used for connecting the jack and is electrically connected with the processor and the power supply. The scheme realizes the detachable connection of the simulation shell and the supporting seat, and achieves the effect of bird repelling with high efficiency and long term by regularly replacing different simulation shells, various sounds played by the loudspeaker, various changes of colors of the programmable control colored lamps and frequency changes of the fan wings.

Description

Multi-change simulation organism for bird repelling of fruit trees

Technical Field

The utility model relates to the technical field of simulation equipment, in particular to a multi-change simulation organism for bird repelling of fruit trees.

Background

Birds are friends of human beings, but can cause certain troubles to our lives at the same time. Birds graze crops greatly, which causes great economic loss to farmers. Meanwhile, birds are the chief culprits of many air disasters. Birds also have great harm to electric power facilities, nest is made on the iron tower by the birds, iron wires can be possibly arranged inside the bird, and tripping or short circuit of a line can be easily caused. For this reason, various bird repelling apparatuses have been put into operation.

At present, most of common high-simulation hawks for repelling birds are fixed, even if the hawks can move, the bird repelling mode is single, and after the hawks are observed for a period of time and are adapted, the bird repelling effect can be lost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem of single existing bird repelling mode mentioned in the background, and provides a multi-change simulation organism for fruit trees to repel birds so as to enhance the bird repelling effect. In order to realize the purpose of the utility model, the utility model provides the following technical scheme:

a multi-change simulation creature for bird repelling of fruit trees comprises a simulation object shell and a supporting seat, wherein the simulation object shell and the supporting seat comprise the simulation object shell and the supporting seat, the simulation object shell is fixed on the supporting seat, and the simulation object shell is a shell with a changeable color.

It can be understood that this scheme mainly includes two structures, simulation thing casing and supporting seat promptly, and wherein the colour of simulation thing casing can change, and this scheme passes through birds to the most sensitive habit of colour, reaches better bird effect of driving.

Furthermore, the simulation object shell is detachably connected with the supporting seat; and/or a plurality of colored lamps which can control the color change in a programmable way are arranged in the shell of the simulation object.

It can be understood that the simulation shell and the supporting seat are detachably connected, so that different simulation shells can be replaced conveniently and regularly, and a better bird repelling effect is achieved. Meanwhile, the color lamps with the color change capable of being controlled in a programmable mode can achieve the color change of the shell of the simulation object.

Furthermore, a power supply and a processor are arranged in the supporting seat; the upper surface of the supporting seat is provided with a metal plug which is electrically connected with the processor and the power supply; and a metal socket is arranged on the lower surface of the simulation shell and is electrically connected with the color lamp with the color change capable of being controlled by programming.

It can be understood that the emulator housing and the supporting seat in the present embodiment can be installed and separated through the metal jack and the metal plug. When the metal jack is connected with the metal plug, the programmable control small colored lamp is electrically connected with the power supply and the processor in the supporting seat. The processor can control the color change of the colored lamps according to a certain rule by programming.

Furthermore, the power supply is a rechargeable power supply, a charging interface is further arranged on the supporting seat, the charging interface is connected with the power supply, and the charging interface is used for being connected with an external solar power supply device.

It can be understood that the design of the charging interface is convenient for the device to be used outdoors without repeatedly replacing the battery, and the device can be directly powered by the existing solar power supply device, thereby simplifying the use of the device and saving resources.

Furthermore, the simulation object shell and the supporting seat are respectively provided with a magnetic attraction piece, and the simulation object shell and the supporting seat are detachably connected through the magnetic attraction piece.

It can be understood that the design of the magnetic part can further fixedly connect the supporting seat and the main body part, so that the simulation shell can be prevented from accidentally falling off when in use, and meanwhile, the magnetic part is convenient to detach and replace.

Further, the upper surface of the support seat and the main body are both arched.

It will be appreciated that the upper surface of the support portion and the body portion are designed to be arcuate to facilitate a more secure mounting, whilst the arcuate upper surface of the support portion also prevents rain from flowing to the spigot of the support portion after mounting.

Further, a motor is further installed inside the supporting seat, and the motor is electrically connected with the power supply and the processor; the simulation shell comprises a main body part, wherein both sides of the main body part are respectively connected with a left fan-shaped fin part and a right fan-shaped fin part through rotating shafts, and the left fan-shaped fin part and the right fan-shaped fin part are respectively provided with a flapping connecting seat assembly; the support seat is provided with a flapping connecting head assembly, the flapping connecting head assembly is used for being detachably connected with the flapping connecting seat assembly, and the flapping connecting head assembly is connected with the motor through a gear box.

When the flapping-connecting head assembly is installed and used, the flapping-connecting head assembly is connected with the flapping-connecting seat assembly, the motor drives the flapping-connecting head assembly and the flapping-connecting seat assembly to move, the motion of the wing part of the simulation object shell is realized, and the bird repelling effect is further enhanced.

Further, the flapping connecting seat component comprises a sliding groove, a sliding block is arranged in the sliding groove in a sliding mode, and the sliding block is provided with a connecting groove;

the flapping connecting head assembly comprises a rotating rod; one end of the rotating rod is hinged with a rotating joint; the other end is connected with the motor through a gear box, and the rotating joint is used for connecting the connecting groove.

It can be understood that the rotating joint can be connected with the connecting groove of the sliding block, and the connecting mode can be a buckling mode; meanwhile, the rotary motion of the motor can be changed into the up-and-down swing of the rotating rod through the gear box; the rotating rod drives the rotating joint and the sliding block to move, so that the wings of the simulation object can be flapped.

Furthermore, a loudspeaker is also arranged in the supporting seat, and the loudspeaker is electrically connected with the power supply and the processor;

the sound file playing device is characterized in that a storage is further installed inside the supporting seat, the storage is electrically connected with the power source and the processor, the storage provides an external downloading interface, sound files are stored in the storage, and the processor is used for controlling the loudspeaker to sequentially and circularly play the sound files in the storage.

It will be appreciated that the memory of the device may be adapted to store a variety of sound files transmitted from the computer. Preferably, the sound of the artificial creature, the sound of a gun, the sound of people's repugnance and the sound of a bird's sadness are stored in the bird scaring device, and the bird scaring effect of the four sounds is best through tests.

Furthermore, when the loudspeaker plays the sound of the simulation creature, the processor controls the motor to rotate at a certain initial speed; when a stimulation voice file is played by a loudspeaker, the processor controls the motor to rotate at a higher rotation speed than the initial speed; when the loudspeaker plays the bird griping voice file, the processor controls the motor to stop rotating.

It can be understood that the simulated biological sound can be optimized to be hawk sound, the stimulated voice file can be optimized to be human sound, gun sound and firecracker sound, and the bird griping voice file can be optimized to be griping sound when hawk or other birds are attacked.

Compared with the prior art, the utility model has the beneficial effects that:

the scheme designs a changeable bird-repelling simulation object, and solves the problems that the existing bird-repelling device has a single bird-repelling mode or simple mechanical repetition and loses the bird-repelling effect after a period of time. And the design of bird habit aiming is combined, so that the excellent bird repelling effect is achieved.

Drawings

FIG. 1 is a schematic diagram of the front structure of the shell of the simulator of the present invention;

FIG. 2 is a schematic diagram of the back structure of the simulator housing of the present invention;

FIG. 3 is a schematic top view of the supporting base of the present invention;

FIG. 4 is a front view of the supporting base of the present invention;

1-a simulation object shell and 2-a supporting seat;

11-main body part, 12-fan wing part;

111-rotating shaft, 113-metal jack, 114-first magnet N pole, 115-second magnet N pole, 121-programmable color lamp, 122-left sliding groove, 123-left sliding block, 124-right sliding groove, 125-right sliding block, 126-right connecting groove, 127-left connecting groove

201-first magnet south pole, 202-second magnet south pole, 203-power supply, 204-right motor, 205-left motor, 206-processor, 207-external memory, 208-loudspeaker, 209-metal plug, 210-right rotating rod, 211-right rotating joint, 212-left rotating rod, 213-left rotating joint.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Please refer to FIG. 1 to FIG. 4

The utility model discloses a multi-change simulation organism for bird repelling of fruit trees, which comprises a simulation object shell 1 and a supporting seat 2; the simulation shell 1 comprises a main body part 11 and fan-shaped fins 12, wherein metal jacks 113 are formed in the upper surface of the main body part 11, two sides of the main body part 11 are respectively connected with a left fan-shaped fin part and a right fan-shaped fin part through rotating shafts 111, the left fan-shaped fin part and the right fan-shaped fin part are respectively provided with a flapping connection seat assembly and a programmable control colored lamp 121, and the programmable control colored lamp 121 is electrically connected with the metal jacks 113;

a metal plug 209 is mounted on the upper surface of the support seat 2, the metal plug 209 is used for connecting with the metal jack 113, flapping connector assemblies are arranged on two sides of the metal plug 209, and a processor 206, an external memory 207, a power supply 203, a loudspeaker 208 and a motor are mounted inside the support seat 2;

the power source 203 is a rechargeable power source, a charging interface is further arranged at the bottom of the support seat 2, and the charging interface is electrically connected with the power source 203. The metal plug 209 is electrically connected to the processor 206 and the power source 203. The motors include a left motor 205 and a right motor 204.

The flapping connecting seat component of the left fan wing comprises a left sliding groove 122, a left sliding block 123 is installed in the left sliding groove 122 in a sliding mode, and a left connecting groove 127 is formed in the left sliding block 123;

the flapping connecting seat assembly of the right wing part comprises a right sliding groove 124, a right sliding block 125 is installed in the right sliding groove 124 in a sliding mode, and a right connecting groove 126 is formed in the right sliding block 125;

the flapping connector assembly on the left side of the plug 209 comprises a left rotating rod 212; one end of the left rotating rod 212 is hinged with a left rotating joint 213; the other end is connected with the left motor 205 through a gear box;

the flapping connector assembly on the right side of the plug 209 comprises a right rotating rod 210; one end of the right rotating rod 210 is hinged with a right rotating joint 211; the other end is connected with the right motor 204 through a gear box.

It will be appreciated that the above-described gear box can change the rotational motion of the motor into an up-and-down swinging motion of the left and right rotating levers 212 and 210 through an internal gear and crank lever combination, and the rotational speed of the motor determines the swinging frequency of the rotating levers.

In this embodiment, the left and right rotary joints 213 and 211 are connected to the 127-left and 126-right connecting grooves by means of a snap-fit.

It can be understood that, when the left and right connectors are correspondingly connected to the left and right connecting slots, the swinging of the rotating rod will drive the swinging of the fan wing 12.

In this embodiment, the upper surface of the support base 2 and the main body 11 are both arcuate.

Furthermore, in this embodiment, the surface of the main body 11 is provided with a first magnet N pole 114 and a second magnet N pole 115, and the first magnet N pole 114 and the second magnet N pole 115 are located on the same surface of the main body 11 as the metal insertion hole 113; and the surface of the supporting part 2 is correspondingly provided with a first magnet S pole 201 and a second magnet S pole 202, the first magnet S pole 201 can be connected with the first magnet N pole 114, and the second magnet S pole 202 can be connected with the second magnet N pole 115.

Further, in the present embodiment, the main body 11 includes a trunk, a head and a tail; the front part and the rear part of the trunk are also connected with the head part and the tail part in a buckling mode.

In the later use process, the head and the tail are parts which are easy to be accidentally damaged; due to the detachable design, only the damaged part is convenient to replace after the damage occurs, and the resources are saved; meanwhile, the detachable design is convenient for storage and transportation.

Further, the programmable color light 121 includes LED lights of several colors.

The processor can control the programmable control color lamps to emit different colors according to a certain rule, preferably, the programmable control color lamps emit seven colors in a circulating mode, and the duration time of each color is one day. This way the colour memory and adaptability of birds to the device can be reduced. Thereby ensuring better bird repelling effect.

Further, the external memory 207 of the embodiment stores the simulant chirping sound, the gunshot sound, the human chirping sound and the bird chirping sound, and the processor 206 is configured to control the speaker 208 to sequentially and cyclically play the simulant chirping sound, the gunshot sound, the human chirping sound and the bird chirping sound.

When the speaker 208 plays the simulation chirping sound, the processor 206 controls the left motor 205 and the right motor 204 to rotate at a certain initial speed; when the speaker 208 plays a gunshot sound and a human repulses a sound, the processor 206 controls the left motor 205 and the right motor 204 to stop rotating; when the speaker 208 plays a bird pessimistic sound, the processor 206 controls the left motor 205 and the right motor 204 to rotate at a higher rotational speed than the initial rotational speed.

In this embodiment, the processor 206 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and so on. The processor 206 may be implemented in at least one hardware form of a DSP (Digital Signal Processing), an FPGA (Field-Programmable Gate Array), and a PLA (Programmable Logic Array). The processor 206 may also include a main processor and a coprocessor, the main processor is a processor for processing data in an awake state, and is also called a Central Processing Unit (CPU); a coprocessor is a low power processor for processing data in a standby state.

The external memory 207 may include one or more computer-readable storage media, such as one or more magnetic disk storage devices, flash memory storage devices.

It will be appreciated that the device may include a plurality of different simulant housings, all of the same construction but of different colours and simulant birds. Namely, the supporting seats can be detachably connected; according to the characteristic that birds are most sensitive to color change, the shell bodies of the simulative objects with different colors are replaced manually at regular intervals, and further the situation that the birds start to adapt to the shell bodies to cause the reduction of bird repelling effect is further prevented.

The utility model is not limited to the foregoing embodiments. The utility model extends to any novel feature or any novel combination of features disclosed in this specification and any novel method or process steps or any novel combination of features disclosed.

Claims (10)

1. The utility model provides a fruit tree drives bird changeable emulation biology, its characterized in that includes emulation thing casing and supporting seat, emulation thing casing is fixed the supporting seat, emulation thing casing is the casing that the colour can change.

2. The fruit tree bird repelling multivariable simulation creature of claim 1, wherein the simulation object shell is detachably connected with the supporting seat; and/or a plurality of colored lamps which can control the color change in a programmable way are arranged in the shell of the simulation object.

3. The fruit tree bird repelling multivariable simulation creature of claim 2, wherein a power supply and a processor are installed inside the supporting seat; the upper surface of the supporting seat is provided with a metal plug which is electrically connected with the processor and the power supply; and a metal socket is arranged on the lower surface of the simulation shell and is electrically connected with the color lamp with the color change capable of being controlled by programming.

4. The fruit tree bird repelling multivariable simulation creature as claimed in claim 3, wherein the power source is a rechargeable power source, the support base is further provided with a charging interface, the charging interface is connected with the power source, and the charging interface is used for connecting an external solar power supply device.

5. The fruit tree bird repelling multivariable simulation creature of claim 4, wherein the simulation object shell and the supporting seat are respectively provided with a magnetic attraction piece, and the simulation object shell and the supporting seat are detachably connected through the magnetic attraction piece.

6. The fruit tree bird repelling multivariable simulation creature of claim 5, wherein a motor is further installed inside the supporting seat, and the motor is electrically connected with the power supply and the processor; the simulation shell comprises a main body part, wherein both sides of the main body part are respectively connected with a left fan-shaped fin part and a right fan-shaped fin part through rotating shafts, and the left fan-shaped fin part and the right fan-shaped fin part are respectively provided with a flapping connecting seat assembly; the support seat is provided with a flapping connecting head assembly, the flapping connecting head assembly is used for being detachably connected with the flapping connecting seat assembly, and the flapping connecting head assembly is connected with the motor through a gear box.

7. The multi-change simulation creature for repelling birds by fruit trees of claim 6, wherein the upper surface of the supporting seat and the main body part are both arched.

8. The fruit tree bird repelling multivariable simulation creature of claim 7, wherein the flapping connecting seat component comprises a sliding groove, a sliding block is slidably mounted in the sliding groove, and the sliding block is provided with a connecting groove;

the flapping connecting head assembly comprises a rotating rod; one end of the rotating rod is hinged with a rotating joint; the other end is connected with the motor through a gear box, and the rotating joint is used for connecting the connecting groove.

9. The fruit tree bird repelling multivariable simulation creature of claim 8, wherein a speaker is further installed inside the support base, and the speaker is electrically connected with the power supply and the processor;

the sound file playing device is characterized in that a storage is further installed inside the supporting seat, the storage is electrically connected with the power source and the processor, the storage provides an external downloading interface, sound files are stored in the storage, and the processor is used for controlling the loudspeaker to sequentially and circularly play the sound files in the storage.

10. The multi-change simulation creature for driving birds by fruit trees of claim 9, wherein when the speaker plays the sound of the simulation creature, the processor controls the motor to rotate at a certain initial speed; when a stimulation voice file is played by a loudspeaker, the processor controls the motor to rotate at a higher rotation speed than the initial speed; when the loudspeaker plays the bird griping voice file, the processor controls the motor to stop rotating.

Images