CN211746462U - Sound wave bird-repelling equipment system - Google Patents

Abstract

The utility model discloses a sound wave bird-driving equipment system, which comprises a shelter, wherein an air compressor is arranged in the shelter, the output end of the air compressor is connected with an air storage tank through a pipeline, and a gas outlet of the air storage tank is sequentially connected with a pressure reducing valve, a solenoid valve and a rotary joint through pipelines; the shelter top sets up qxcomm technology sound wave bird repellent device, qxcomm technology sound wave bird repellent device includes rotary platform, and rotary platform bottom sets up carousel bearing and servo motor, sets up pneumatic sounder on the rotary platform, and public address loudspeaker are connected to the output of pneumatic sounder, rotary joint is connected with the air supply input of pneumatic sounder. The utility model provides a system can drive the bird technique through the sound production technique of the sound wave that excels in and qxcomm technology, can effectively drive away various birds in the airport, guarantees the safety of airport aircraft take off and land.

Description

Sound wave bird-repelling equipment system

Technical Field

The utility model belongs to the sound wave drives the bird field, concretely relates to utilize the sound wave that excels in sound wave to drive bird drives bird equipment system.

Background

In recent years, birds have been increasing in number with improvement of ecological environment and improvement of consciousness of people for protecting birds. This has brought a disaster to the world and the civil aviation industry of the military. When the airplane takes off or lands on an airport, birds are very easy to be sucked into the airplane engine to damage the blades of the engine, so that the aviation safety is seriously influenced. Bird damage is therefore one of the most major hazards affecting flight safety. Bird strikes severely compromise aviation safety, and as counted by the authorities, every year, bird strikes inflict more than 20 billion dollars in aircraft losses to the military and civilian aviation industries worldwide, not including service delays and loss of personnel lives. Bird strikes are the first hazards affecting the world's aviation industry. In 2008, the famous Hadamard grand river crash event in the United states was caused by flying birds. At present, a great amount of manpower, financial resources and material resources are put into important military and civil airports in the world to reduce bird damage of the airports.

Bird strikes aircraft may pose the following hazards: the method comprises the steps of firstly, enabling a bird to impact a windshield of an airplane to influence a pilot to pilot the airplane, secondly, enabling the bird to impact a navigation system of the airplane to cause the airplane to lose guidance of the navigation system, thirdly, enabling the bird to impact a front edge or a tail part of an airplane wing to damage an operation control surface of the airplane to influence operation of the airplane, and fourthly, enabling fan blades of a turbine engine to bend, deform or clamp the engine after the bird is sucked into an air inlet of the engine, even possibly causing engine failure or damage to cause the airplane to lose power.

In order to protect aviation safety and maintain the property and life safety of passengers, various bird repelling measures are taken in airports. Such as: the bird scarer can be used for scaring scarecrow, aerators, firecracker bullets, popping bird scarers, coal guns, bird scaring agents, bird scarers, bird scaring falcon and bird scaring vehicles, and the means have certain effects. Meanwhile, the defects exist, and the requirements of taking off and landing of the airplane at the airport can not be met.

At present, the sound wave bird repelling has many successful cases. The existing sound wave bird repelling device has the defects of small sound power, narrow action range, single sound production frequency, incapability of overcoming bird adaptability and the like.

Disclosure of Invention

For solving above problem, overcome the shortcoming that present sound wave drives bird ware, the utility model provides a sound wave drives bird equipment system drives the bird technique through high-strength sound wave sound production technique and qxcomm technology sound wave, can effectively drive the various birds in the airport, guarantees the safety of airport aircraft take off and land.

The technical scheme of the utility model as follows:

a sound wave bird repelling equipment system comprises a square cabin, wherein an air compressor is arranged in the square cabin, the output end of the air compressor is connected with an air storage tank through a pipeline, and the gas outlet of the air storage tank is sequentially connected with a pressure reducing valve, an electromagnetic valve and a rotary joint through pipelines; the shelter top sets up qxcomm technology sound wave bird repellent device, qxcomm technology sound wave bird repellent device includes rotary platform, and rotary platform bottom sets up carousel bearing and servo motor, sets up pneumatic sounder on the rotary platform, and public address loudspeaker are connected to the output of pneumatic sounder, rotary joint is connected with the air supply input of pneumatic sounder.

Furthermore, the sound wave drives bird equipment system, the inside switch board that still is provided with of shelter, inside router, plug, PLC, servo controller, signal source, air switch group, the power amplifier of being provided with of switch board, wherein the plug passes through the cable conductor and is connected with the air switch group, and the air switch group is connected with air compressor, solenoid valve, router, PLC, servo controller, signal source, power amplifier and servo motor through the cable conductor respectively.

Furthermore, in the sound wave bird repelling device system, the rotary joint is connected with the air source input end of the pneumatic sounder through a metal hose.

Further, the sound wave drives bird equipment system, carousel bearing sets up between shelter and rotary platform, wherein carousel bearing's inside carousel and shelter top fixed connection, carousel bearing's outside carousel and rotary platform fixed connection.

Furthermore, in the sound wave bird repelling device system, the servo motor is connected with the turntable bearing in a worm gear connection mode.

Further, the sound wave drives bird equipment system, the shelter bottom is provided with the wheel.

Furthermore, the sound wave bird repellent equipment system, the plug can be waterproof aviation plug.

The utility model discloses well plug can adopt waterproof aviation plug, and waterproof aviation plug is connected to near power for provide the total electric power that equipment needs, servo motor installs in the turntable bearing outside, be used for controlling rotary platform and rotate. The pneumatic sound generator may be bolted to the rotary platform.

The pneumatic sound generator of the present invention can be the pneumatic generator provided in the patent 201510396628.2, or other pneumatic generators in the field that can be used in the technical solution of the present invention.

The utility model discloses a compressed air supply route as follows: compressed air generated by the air compressor reaches the pneumatic sounder through the air storage tank, the pressure reducing valve, the electromagnetic valve, the rotary joint and the corresponding pipeline and is sprayed out of the sound amplifying horn.

The utility model discloses a power supply route as follows: electric power enters through the waterproof aviation plug and is respectively supplied to the air compressor, the electromagnetic valve, the router, the PLC, the servo controller, the signal source, the power amplifier and the servo motor through the air switch group.

The utility model discloses a control route as follows: the utility model provides a bird equipment system is driven to sound wave can be through outside signal source transmission control signal, if the control signal who sends through the computer, through router, PLC in proper order, servo motor is reachd to servo controller, and servo motor realizes rotatoryly according to control signal.

The utility model discloses a drive bird signal route as follows: the bird repelling signal sent by the external signal source sequentially passes through the router, the PLC, the signal source and the power amplifier to reach the pneumatic sounder, and the pneumatic sounder sends corresponding sound waves according to the obtained bird repelling signal.

By adopting the sound wave bird-repelling equipment system provided by the utility model, a high-strength sound wave sounding technology and an omnidirectional sound wave bird-repelling technology are adopted, and the action radius of the high-strength sound wave can reach more than 1.5 km; meanwhile, the control system can be internally provided with a bird repelling database, can be externally connected with a radar for directionally repelling birds and can automatically operate for omni-directionally repelling the birds.

Drawings

Fig. 1 is a schematic view of a sound wave bird repelling device system provided by an embodiment of the utility model;

fig. 2 is a schematic view of an internal structure of a shelter provided by an embodiment of the present invention;

fig. 3 is a schematic view of the inside of a control cabinet according to an embodiment of the present invention;

fig. 4 is a schematic view of an omnidirectional sound wave bird repelling device provided by an embodiment of the utility model;

fig. 5 is a schematic diagram of a system power supply provided by an embodiment of the present invention;

fig. 6 is a schematic diagram of a compressed air supply system according to an embodiment of the present invention;

fig. 7 is a schematic view of bird repelling signals and control provided by the embodiment of the present invention;

in the above fig. 1-4, 1 is a shelter, 11 is an air compressor, 12 is an air storage tank, 13 is a pressure reducing valve, 14 is an electromagnetic valve, 15 is a rotary joint, 16 is a control cabinet, 161 is a router, 162 is a plug, 163 is a PLC, 164 is a servo controller, 165 is a signal source, 166 is an air switch group, 167 is a power amplifier, 17 is a wheel, 2 is an omnidirectional sound wave bird repelling device, 21 is a rotary platform, 22 is a servo motor, 23 is a turntable bearing, 24 is a pneumatic sounder, and 25 is a loudspeaker.

The specific implementation mode is as follows:

the following is combined with the accompanying drawings to further explain the sound wave bird-driving equipment system provided by the utility model.

Examples

As shown in fig. 1 and 2, a schematic diagram of a sound wave bird repelling device system provided in this embodiment includes a shelter 1, an air compressor 11 is disposed inside the shelter 1, an output end of the air compressor 11 is connected to an air storage tank 12 through a pipeline, and a gas outlet of the air storage tank 12 is sequentially connected to a pressure reducing valve 13, an electromagnetic valve 14 and a rotary joint 15 through a pipeline; the top of the shelter 1 is provided with an omnidirectional sound wave bird repelling device 2; the shelter 1 is provided with wheels 17.

Further, as shown in fig. 4, the omnidirectional sound wave bird repelling device 2 comprises a rotating platform 21, a turntable bearing 23 and a servo motor 22 are arranged at the bottom of the rotating platform 21, a pneumatic sounder 24 is arranged on the rotating platform 21, an output end of the pneumatic sounder 24 is connected with a loudspeaker 25, and the rotary joint 15 is connected with an air source input end of the pneumatic sounder 24.

Further, a control cabinet 16 is further disposed inside the shelter 1, as shown in fig. 3, a router 161, a plug 162, a PLC 163, a servo controller 164, a signal source 165, an air switch group 166 and a power amplifier 167 are disposed inside the control cabinet 16, wherein the plug 162 is connected with the air switch group 166 through a cable, and the air switch group 166 is respectively connected with the air compressor 11, the electromagnetic valve 14, the router 161, the PLC 163, the servo controller 164, the signal source 165, the power amplifier 167 and the servo motor 22 through cables.

Further, the turntable bearing 23 is arranged between the shelter 1 and the rotating platform 21, wherein an inner turntable of the turntable bearing 23 is fixedly connected with the top of the shelter 1, and an outer turntable of the turntable bearing 23 is fixedly connected with the rotating platform 21.

When the sound wave bird repelling device system provided by the embodiment works, the sound wave bird repelling device system is placed at any position of an airport runway according to requirements, and the plug 162 is connected to a nearby power supply and used for providing total electric power required by the device.

As shown in fig. 5, for the schematic power supply diagram of the acoustic bird repelling device system provided in this embodiment, the air switch group 166 is turned on, and power is supplied to the air compressor 11, the electromagnetic valve 14, the router 161, the PLC 163, the servo controller 164, the signal source 165, the power amplifier 167, and the servo motor 22.

As shown in fig. 6, which is a schematic diagram of compressed air supply in this embodiment, compressed air generated by the air compressor 11 is stored in the air tank 12, the pressure of the pressure reducing valve 13 is reduced, and then reaches the electromagnetic valve 14, and at this time, the electromagnetic valve 14 is in a closed state.

As shown in fig. 7, which is a schematic view of the bird repelling signal and the control in this embodiment, the bird repelling signal sent by an external signal source, such as a computer, sequentially passes through the router 161, the PLC 163, the signal source 165, and the power amplifier 167 to reach the pneumatic sound generator 24, and the pneumatic sound generator 24 sends out a corresponding sound wave according to the obtained bird repelling signal.

An air flow signal sent by a computer sequentially reaches the electromagnetic valve 14 through the router 161 and the PLC 163, so that the electromagnetic valve 14 is in an open state, at the moment, compressed air sequentially reaches the pneumatic sound generator 24 through the electromagnetic valve 14 and the rotary joint 15, sound waves sent by the pneumatic sound generator 24 are amplified, and the sound waves are diffused out from the loudspeaker 25.

The rotation signal sent by the computer sequentially reaches the servo motor 22 through the router 161, the PLC 163 and the servo controller 164, and the servo motor 22 drives the rotation platform 21 to rotate through the turntable bearing 23. At the moment, the sound wave bird repelling device system is in an omnidirectional sound wave bird repelling mode.

Through using the utility model provides a bird equipment system is driven to sound wave can solve that traditional sound wave drives bird equipment acoustic power little, the coverage is narrow and the single scheduling problem of vocal frequency.

Claims (7)

1. A sound wave bird repelling equipment system is characterized by comprising a square cabin (1), wherein an air compressor (11) is arranged in the square cabin (1), the output end of the air compressor (11) is connected with an air storage tank (12) through a pipeline, and the gas outlet of the air storage tank (12) is sequentially connected with a pressure reducing valve (13), an electromagnetic valve (14) and a rotary joint (15) through pipelines; shelter (1) top sets up omnidirectional sound wave bird repellent device (2), omnidirectional sound wave bird repellent device (2) are including rotary platform (21), and rotary platform (21) bottom sets up slewing bearing (23) and servo motor (22), sets up pneumatic sounder (24) on rotary platform (21), and public address loudspeaker (25) are connected to the output of pneumatic sounder (24), rotary joint (15) are connected with the air supply input of pneumatic sounder (24).

2. The sound wave bird repelling device system according to claim 1, characterized in that a control cabinet (16) is further arranged inside the shelter (1), a router (161), a plug (162), a PLC (163), a servo controller (164), a signal source (165), an air switch group (166) and a power amplifier (167) are arranged inside the control cabinet (16), wherein the plug (162) is connected with the air switch group (166) through a cable, and the air switch group (166) is connected with the air compressor (11), the electromagnetic valve (14), the router (161), the PLC (163), the servo controller (164), the signal source (165), the power amplifier (167) and the servo motor (22) through cables.

3. A sonic bird scaring apparatus system according to claim 1, characterised in that the swivel (15) is connected to the air supply input of the pneumatic sounder (24) by a metal hose.

4. The acoustic bird repelling device system of claim 1, wherein the turntable bearing (23) is disposed between the shelter (1) and the rotating platform (21), wherein an inner turntable of the turntable bearing (23) is fixedly connected to the top of the shelter (1), and an outer turntable of the turntable bearing (23) is fixedly connected to the rotating platform (21).

5. A sonic bird repelling device system according to claim 1 wherein the servo motor (22) is connected to the turntable bearing (23) in the form of a worm gear.

6. A sonic bird scaring apparatus system according to claim 1 characterised in that the cabin (1) is provided with wheels (17) at its bottom.

7. A sonic bird repellent device system according to claim 2, wherein the plug (162) is a waterproof aircraft plug.

Images