Ionizing radiation detecting device based on remotely-piloted quadcopter

Abstract

The invention relates to an ionizing radiation detecting device based on a remotely-piloted quadcopter. The ionizing radiation detecting device comprises the quadcopter, a motor I, a rotary rod, a transverse rod, a swing rod, a camera, a transmission case I, a transmission case II, an ionizing radiation detector and a remote controller, wherein the motor I is mounted below the quadcopter and connected to a 2.4G wireless receiving module, the rotary rod is vertically mounted on the rotary shaft of the motor I, the transverse rod is transversely mounted on the rotary rod, the swing rod is mounted on the transverse rod through a pin, the camera is mounted at the head end of the swing rod, the transmission case I and the transmission case II are respectively fixed on the transverse rod and at the bottom of the rotary rod, the ionizing radiation detector is mounted on the transmission case II, and the remote controller is used for remotely controlling the quadcopter. The quadcopter is controlled by the remote controller to take off and fly to an appointed position, the motor I is controlled to rotate to allow the rotary rod to drive the two transmission cases to rotate, 360-degree video collecting is achieved, the ionizing radiation detector is driven to rotate to allow the detecting probe of the ionizing radiation detector to aim at a to-be-detected target, video signals are transmitted to the liquid crystal display screen of the remote controller for image display and are saved, and the detected data can be transmitted to the radiation data display screen in real time for real-time display and storage.

Description

Technical field [0001] The invention relates to an ionizing radiation detection device. Background technique [0002] The application of nuclear technology is becoming more and more widespread, and it is playing an increasingly important role in people’s daily activities. For example, nuclear medicine, medical electron accelerators, gyroscope knives, angiography devices DSA, industrial accelerators and flaw detectors, etc., all use the principle of radiation, Ionizing radiation will be generated during use. In order to avoid the impact of ionizing radiation on the surroundings during the application of nuclear technology, it is necessary to conduct ionizing radiation detection on radiation sources or radiation protection shielding facilities on a regular basis. [0003] Currently, there are a variety of ionizing radiation detectors on the market that are used in ionizing radiation detection. However, when using these detection instruments to detect, it is often encountered that t...

AI Technical Summary

Problems solved by technology

However, when using these testing instruments, it is often encountered that the exposure room to be tested is too high, and it is difficult to reach the top of the roof or the upper part of the wall, so it cannot be detected, or the site conditions in some places are complicated, and it is difficult for personnel to approach the wall for detection. , which affects the accuracy of detection

At the same time, due to the limitations of the above conditions, the inspectors cannot fully understand the details of the roof of the exposed chamber and its surroundings.

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