Light intensity detection-based automatic following method

A technology of light intensity detection and automatic follow-up, which is applied in the direction of finding the target control, etc., can solve the problems of high seat belt friction, student burden, seat belt weight, etc., and achieve the effects of high reliability, good stability, and convenient connection

Inactive Publication Date: 2017-05-31
江苏世丰企业管理咨询有限公司
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  • Abstract
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  • Claims
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Problems solved by technology

[0002] In outdoor sports, the Myanmar bridge is a commonly used project. In this project, there are 3 main steel cables arranged in parallel, one of which is at the bottom for walking, and the other two are at the top for students to grasp with both hands. live; this project can exercise the students' courage, physical coordination ability, and it is exciting, thrilling and inter

Method used

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  • Light intensity detection-based automatic following method
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  • Light intensity detection-based automatic following method

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Embodiment 1

[0083] Embodiment 1: as Figure 1~4 , an automatic following method based on light intensity detection, a walking vehicle 1 is provided on the guide rail 3; a light-emitting module 14 is provided on the safety helmet worn by the target below the guide rail; a light intensity detection device 11 is provided at the bottom of the walking vehicle;

[0084] The intensity detection device has an arc surface; 16 light intensity sensors 5 are arranged on the arc surface; the 16 light intensity sensors are arranged at equal intervals along the circumference of the arc surface;

[0085] The light intensity detection device is used to detect the light intensity obtained by each light intensity sensor from the light emitting module;

[0086] The trolley is provided with a battery 8, a circuit board 9 and a motor 10 for driving the trolley;

[0087] The MCU can determine the angle of the target object relative to the trolley according to the light intensity signal detected by the light in...

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Abstract

The invention discloses a light intensity detection-based automatic following method. The light intensity detection-based automatic following method comprises the following steps: step 1, light intensity detection: polling and detecting light intensity signals obtained by each light intensity sensor by an MCU (Micro Controller Unit) through a one-out-multiple switching switch and an A/D (Analog to Digital) converter; finding out a light intensity sensor i corresponding to a strongest light intensity signal; step 2, calculating an angle of a target object relative to a walking vehicle, wherein the angle is as follows: a=(i-1)*A/(N-1), N is the total number of the light intensity sensors, the angle unit is degree, A is the angle of an arc surface, and the horizontal direction is used as 0 degree; step 3, calculating the distance S which is required to walk, wherein S=L*tan(a), tan(.) is a tangent function, and L is the vertical distance from a guide rail to the target object; step 4, driving the walking vehicle move at S by the MCU; then returning to step 1, and carrying out control in a next round. The light intensity detection-based automatic following method disclosed by the invention is ingenious in structure, is capable of automatically following and is high in automation degree.

Description

technical field [0001] The invention relates to an automatic following method based on light intensity detection. Background technique [0002] In outdoor sports, the Burmese bridge is a commonly used project. In this project, there are 3 main steel cables arranged in parallel, one of which is at the bottom for walking, and the other two are at the top for students to grasp with both hands. This project can exercise students' courage and physical coordination ability, and it is exciting, thrilling and interesting; for the sake of safety, a safety cable is set up at high altitude, and the safety belt hangs from the cable and is tied to the waist of the students. However, this safety belt is heavy, and the friction between the safety belt and the steel cable at the top is relatively large, so this safety protection device brings great burden and inconvenience to the students. [0003] In addition, in some assembly workshops, it is also necessary to set up a follow-up system t...

Claims

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Application Information

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IPC IPC(8): G05D1/12
CPCG05D1/12
Inventor 程文云
Owner 江苏世丰企业管理咨询有限公司
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