Tsunami warning device of wind power generation system for supplying power to image sensor

A technology of wind power generation system and image sensor, which is applied to alarms, instruments, climate change adaptation, etc., and can solve problems such as scarcity of alarm devices, tsunami loss of personnel and property, casualties, etc.

Inactive Publication Date: 2012-01-18
WUXI TONGCHUN NEW ENERGY TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Because the earthquake was caused by the vertical movement between the plates rather than the horizontal movement, a large tsunami was triggered, and the waves of the tsunami hit the coast of Japan, causing a large number of casualties and economic losses
[0003] Since seismic waves travel faster along the earth's crust than tsunami waves in the ocean, countries around the world have achieved some results in forecasting tsunamis by monitoring seismic waves, but the speed of issuing tsunami warnings is not fast enough, and tsunamis still cause damage to people and property. loss
[0004] At the same time, there are few alarm devices for monitoring tsunami installed by humans on the sea surface, and the equipment is not advanced enough, which affects the timely and effective alarm of tsunami.

Method used

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  • Tsunami warning device of wind power generation system for supplying power to image sensor
  • Tsunami warning device of wind power generation system for supplying power to image sensor

Examples

Experimental program
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Effect test

Embodiment 1

[0017] The wind blows the wind generator 2 to generate current, and the current passes through the conductive wire 4 passing through the wind power hollow pillar 3 and enters the controller 5 for adjustment, and then passes through the conductive wire 4 passing through the image transmission hollow pillar 7 to the motorized turntable 8. The interline transmission type CCD image sensor 9 and the wireless transmitting device 10 supply power, the interline transmission type CCD image sensor 9 collects the seascape image on the sea surface, converts the seascape image into a digital signal, and transmits it to the wireless transmission device 10, and the wireless transmission antenna 11 The electrical signal is sent to the tsunami warning center, which processes the information and issues an alarm. Electric current also can input lithium-ion energy storage battery 6 to charge and discharge as required.

Embodiment 2

[0019] The wind blows the wind generator 2 to generate current, and the current passes through the conductive wire 4 passing through the wind power hollow pillar 3 and enters the controller 5 for adjustment, and then passes through the conductive wire 4 passing through the image transmission hollow pillar 7 to the motorized turntable 8. The full-frame transfer type CCD image sensor 9 and the wireless transmitter 10 are powered. The full-frame transfer type CCD image sensor 9 collects seascape images on the sea surface, converts the seascape images into digital signals, and transmits them to the wireless transmitter 10. The wireless transmitter antenna 11 The electrical signal is sent to the tsunami warning center, which processes the information and issues an alarm. Electric current also can input lithium-ion energy storage battery 6 to charge and discharge as required.

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Abstract

The invention relates to a tsunami warning device of a wind power generation system for supplying power to an image sensor, belonging to the technical field of new energy resource internet of things. The wind power generation system and the tsunami warning device are installed on a hollow buoy of the tsunami warning device floating on sea; a heavy object voltage-stabilizing bin is installed at the lower part of the hollow buoy; and a lithium-ion energy storage cell used as a voltage-stabilizing heavy object is arranged in the hollow buoy. Wind blows a wind power generation motor to generate current, the current is input to a controller for regulation through a conductive wire penetrating through a wind power hollow pillar, and then is supplied to the image sensor and a wireless transmitting device which are arranged on an electric rotary disk through conductive wires penetrating an image transmission hollow pillar, the image sensor acquires a seascape image on the sea surface and converts the optical seascape image into a digital signal to be transmitted to a wireless emitting device, an electric signal is transmitted to the tsunami warning device through a wireless transmitting antenna and information is processed by a tsunami early warning center so that tsunami warning is issued. The current can be input to a lithium ion accumulation battery which can perform charge and discharge according to demands.

Description

technical field [0001] The invention relates to a tsunami alarm device for supplying power to an image sensor by a wind power generation system, and belongs to the technical field of new energy Internet of Things. Background technique [0002] At 14:46 on March 11, 2011, the Miyagi Earthquake, the highest magnitude earthquake in the history of earthquake observation in Japan, occurred in Japan, with a magnitude of 9.0 on the Richter scale. Because the earthquake was caused by the vertical movement between the plates rather than the horizontal movement, a large tsunami was triggered, and the waves of the tsunami hit the coast of Japan, causing a large number of casualties and economic losses. [0003] Since seismic waves travel faster along the earth's crust than tsunami waves in the ocean, countries around the world have achieved some results in forecasting tsunamis by monitoring seismic waves, but the speed of issuing tsunami warnings is not fast enough, and tsunamis still ...

Claims

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Application Information

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IPC IPC(8): G08B21/10
CPCY02A50/00
Inventor 缪同春
Owner WUXI TONGCHUN NEW ENERGY TECH
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