Along the railroad poles, contact network pillars and other equipment, the structure is strong and stable, often attracting many birds to nest. In order to prevent birds nesting or collision train, triggering line tripping power failure, we must take targeted measures to repel birds.
True Bird Repellent Technology - IronRoad Directional Acoustic Shock Wave Intelligent Bird Repeller ZQN-TL-DX, which combines Directional Acoustic Shock Wave Bird Repeller and Radar Bird Detection technologies, works as follows:
1. Radar Detection: The built-in 2 radar detection devices can actively detect bird activities. Once there are birds close to the railroad power supply equipment and other critical areas, the equipment will quickly start the directional acoustic wave function.
2. Directional acoustic repulsion: through the embedded horn, the equipment can send out high-definition strong sound waves from a distance, with a sound wave frequency of 2KHz~25KHz, a sound wave intensity of more than 120dB, and a bird-repelling radius of 35 meters. This kind of sound wave is a kind of strong discomfort stimulation for birds, which can prompt them to actively stay away from the area along the railroad.
3, simulation deterrent sound: in addition to directional sound waves, the device can also simulate a variety of birds are afraid of the sound, such as the eagle's cry, the sound of firecrackers, etc., birds in the hearing of these sounds, out of the instinctive reaction, will be more inclined to stay away from the railroad line, and effectively reduce the risk of bird interference with railroad operations.
Railway Directional Acoustic Shock Wave Intelligent Bird RepellerZQN-TL-DX, support for remote control remote open and close, remote control distance of 15 meters, easy for operators to use. The equipment adopts solar energy plus battery power supply mode, applicable to outdoor environment, in the case of sufficient light, solar panels can provide sufficient power support for the equipment to ensure its continuous and stable operation.
