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Total station robot based on big data

A total station robot and big data technology, applied in the field of measuring robots, can solve the problems of unfavorable and safe transportation and storage, scratches on sharp parts of the feet, and small force-bearing area of ​​the feet, so as to reduce labor intensity and achieve high tracking Effects of measurement accuracy, safe transport and storage

Pending Publication Date: 2022-07-05
BEIJING DACHENG GUOCE TECH
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  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, the measuring robot is usually installed on a tripod for working use. The existing tripod has a simple structure. However, in order to ensure stability, a plurality of screws and threaded holes are usually used to fix the measuring robot on the tripod, which leads to the disassembly of the measuring robot. During the installation process, multiple screws need to be turned repeatedly, which is time-consuming and labor-intensive; at the same time, the feet of existing tripods are mostly sharp-shaped structures. Provide stable support, and the sharp part of the foot will cause scratches to objects or people after use, which is not conducive to safe transportation and storage; for this reason, we propose a total station robot based on big data

Method used

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  • Total station robot based on big data
  • Total station robot based on big data
  • Total station robot based on big data

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Embodiment 1

[0041] like Figure 1-Figure 8 As shown, a big data-based total station robot according to an embodiment of the present invention includes a measuring robot body 1, an installation component 2, a support component 3, and an auxiliary support component 4:

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Abstract

The invention discloses a total station robot based on big data, and the robot comprises a measurement robot body which is used for carrying out the tracking measurement of a target. The mounting assembly is used for stably clamping the measuring robot body, and the mounting assembly is located at the bottom of the measuring robot body; the supporting assemblies are used for stably supporting the mounting assembly, and the number of the supporting assemblies is three; according to the total station robot disclosed by the invention, through the arrangement of the mounting assembly, a user does not need to repeatedly screw a plurality of screws, so that the labor intensity of workers is reduced, the time for disassembly and assembly is saved, the time-saving and labor-saving effects are realized, and the convenience for disassembling and assembling the total station robot based on the big data is further improved; through the arrangement of the auxiliary supporting assembly, the stable footing can be suitable for different ground conditions, the phenomenon that sharp parts of the stable footing scratch objects or people after use is effectively avoided, and the purposes of safe transportation and storage are achieved.

Description

technical field [0001] The invention relates to the technical field of measurement robots, in particular to a big data-based total station robot. Background technique [0002] Measuring robot, also known as automatic total station, is a measuring platform that integrates automatic target recognition, automatic sighting, automatic angle measurement and ranging, automatic target tracking and automatic recording. Its technical composition includes eight major parts, including coordinate system, manipulator, transducer, computer and controller, closed-circuit control sensor, decision making, target acquisition and integrated sensor. It is widely used in the fields of precision engineering measurement or deformation monitoring such as large-scale buildings above ground and underground tunnel construction. Some automatic total stations also provide users with a secondary development platform, and the software developed using this platform can run directly on the total station. C...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16M11/32F16M11/36G01C15/00
CPCF16M11/32F16M11/36G01C15/00Y02E10/50
Inventor 康秋静安良程高玉亮王鹤高飞蒋梦张淮孙云蓬丁海有黄玉君曹钰
Owner BEIJING DACHENG GUOCE TECH
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