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Geological monitoring radar displacement platform

A technology of displacement platform and radar, which is applied in the direction of measuring device, radio wave measurement system, radio wave reflection/reradiation, etc. It can solve the problems that the electronic control platform cannot adapt to bad weather and poor reliability, and achieves the improvement of waterproof ability and the use of Long life, high reliability and good stability

Active Publication Date: 2019-09-10
CHONGQING THREE GORGES UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a geological monitoring radar displacement platform to solve the problem of poor reliability caused by the inability of the electronic control platform to adapt to severe weather in the background technology

Method used

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  • Geological monitoring radar displacement platform

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Geological monitoring radar displacement platform, combined with attached figure 1 and attached figure 2As shown, it is mainly composed of a base 1, a radar base 2, a driving structure, a groove structure, a heat dissipation structure and a waterproof structure. The four corners of the base 1 are provided with jacks, and the jacks are equipped with inserting rods 23. The bottom of the inserting rods 23 passes through the jacks and is inserted into the ground, so as to fix the base 1 and prevent the base 1 from moving or tipping over and causing radar, etc. Electrical components are damaged.

[0039] The trough-shaped structure is fixed on the base 1 by bolts. The trough-shaped structure is mainly composed of a back plate 7 and an inverted U-shaped arched plate 6. The arched plate is made of non-conductive materials such as plastics to prevent electromagnetic waves from being absorbed or weakened, ensuring Radar monitoring function. Both the front side and the rear s...

Embodiment 2

[0053] The difference between this embodiment and Embodiment 1 is that the heat dissipation structure in this embodiment also includes several heat dissipation groups arranged on the backplane 7, combined with the attached Figure 4 and attached Figure 5 As shown, each cooling group includes an inclined hole 19 and a through hole 20 opened therein. The inclined hole 19 runs through the back plate 7 and is arranged obliquely. The through hole 20 is arranged horizontally, downward or upward, and one side of the through hole 20 communicates with the outside of the back plate 7 , and the other side of the through hole 20 communicates with the middle of the inclined hole 19 . Preferably, a dust-proof net can be installed on the rear side of the backboard 7 to cover all the through holes 20 and inclined holes 19 to prevent dust from entering the accommodation chamber 5 .

[0054] Since the backplane 7 is closest to the electrical components, several heat dissipation groups are arr...

Embodiment 3

[0056] The difference between this embodiment and Embodiments 1 and 2 is that: Image 6 As shown, the top surface of the base 1 is provided with several diversion grooves 21, and the diversion grooves 21 are inclined from the direction close to the back plate 7 to the direction close to the opening of the arched plate 6, and the inclination angle of the diversion grooves 21 is 20-45°, preferably 30°. In addition, a water tank 22 can be set respectively on the left and right sides of the arched plate 6 for collecting water in rainy days, which can increase the weight of the whole platform and enhance the stability of the platform; The water can cool down the arched plate 6 and the storage chamber 5 in hot weather.

[0057] With such arrangement, rainwater can be discharged out of the base 1 as soon as possible along the diversion groove 21, preventing rainwater from spreading along the base 1 to the vicinity of the electrical components and damaging the electrical components, ...

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Abstract

The application relates to the technical field of monitoring radars, and discloses a geological monitoring radar displacement platform. The geological monitoring radar displacement platform comprisesa base, wherein the base is provided with a groove-shaped structure; the groove-shaped structure comprises an arc-shaped plate; one side of the arc-shaped plate is provided with a back plate used forsealing one side of the arc-shaped plate; a mounting room for accommodating an electric element is formed among the arc-shaped plate, the base and the back plate; the radar base and the driving structure are positioned in the mounting room; the groove-shaped structure is further provided with a heat-dissipation structure and a waterproof structure; the waterproof structure comprises a sliding chute formed in the arc-shaped plate; the sliding chute is of an inverted-U shape; a cylinder is arranged in the sliding chute; an output end of the cylinder is connected with an inverted-U shapes extension board; and the extension board is in slide connection with the sliding chute. According to the technical scheme, electric elements such as the radar are accommodated in the groove-shaped structure,so that the problem that the electric elements have poor reliability when being exposed to natural environments such as wind and rainy days, high temperature and high moisture environment is solved;the normal work of the electric elements can be ensured; and the electric elements can be protected well.

Description

technical field [0001] The invention belongs to the technical field of monitoring radar. Background technique [0002] With the development of science and technology and the times, radar devices have played an important role from the beginning of their birth to the present. They are used in fields ranging from aerospace to deep-sea voyages, and their role is irreplaceable, especially in geological monitoring. The same irreplaceable role. [0003] Geological disasters refer to geological effects (phenomena) that are formed under the action of natural or human factors and cause damage and loss to human life, property and the environment, such as collapse, landslide, debris flow, ground fissure, soil erosion, land desertification and swampy , soil salinization, and earthquakes, volcanoes, geothermal damage, etc. The occurrence of geological disasters can easily cause serious personal injury and property loss. The geological monitoring platform is used to monitor the geologic...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/02G01S13/88
CPCG01S7/02G01S13/885
Inventor 胡政权聂祥飞雷国平姚佳佳
Owner CHONGQING THREE GORGES UNIV
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