Submersible AGV abut-joint method and system and submersible AGV

A docking mechanism and docking space technology, applied in the field of AGV, can solve the problems of single handling operation process, adjustment of operation process, large changes in workload, etc., to achieve the effect of reducing errors, accurate docking, and more in the field of warehousing or logistics

Inactive Publication Date: 2017-02-08
NANJIANG ROBOT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the field of logistics and warehousing, the transportation of goods has the characteristics of large workload changes, strong dynamics, frequent adjustment of operation procedures, and single handling operation process.

Method used

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  • Submersible AGV abut-joint method and system and submersible AGV
  • Submersible AGV abut-joint method and system and submersible AGV
  • Submersible AGV abut-joint method and system and submersible AGV

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Experimental program
Comparison scheme
Effect test

Embodiment approach 12

[0043] Embodiment 12: directly moving the AGV in the first translation direction reduces the first deviation distance to within the threshold range, and directly moving the AGV in the second translation direction reduces the second deviation distance to within the threshold range.

Embodiment approach 13

[0044] Embodiment 13: Rotate the AGV so that the advancing direction of the AGV is parallel to the first translation direction, and move the AGV in the first translation direction to reduce the first deviation distance to within the threshold range; rotate the AGV so that the advancing direction of the AGV is parallel to the first translation direction Two translation directions, moving the AGV in the second translation direction reduces the second deviation distance to within a threshold range. In order to enable the AGV to rotate in the docking space, the docking space reserves a space for the AGV to rotate.

[0045] In addition, the present invention provides a submerged AGV, including an acquisition unit, an operation unit, and a drive control unit,

[0046] The acquisition unit collects an image including at least one label on the first plane of the shelf; the calculation unit calculates the deviation of the current position of the AGV relative to the docking position acc...

Embodiment approach 22

[0058] Embodiment 22: the drive control unit controls the AGV to directly move the AGV in the first translation direction to reduce the first deviation distance to within a threshold range, and the drive control unit controls the AGV to directly move the AGV in the second translation direction to reduce the first deviation distance The second deviation distance is reduced to within the threshold range.

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Abstract

The invention discloses a submersible AGV abut-joint method. The submersible AGV abut-joint method is used for abut joint of abut-joint space allowing an AGV to enter the bottom of a goods shelf and the goods shelf, specifically, a collection unit on the AGV collects an image, including at least one label, of the first plane of the goods shelf, according to the position information of the label in the image, the deviation of the current position of the AGV relative to the abut-joint position is calculated, and the deviation comprises a deviation angle and a deviation position; according to the deviation, the position of the AGV is adjusted so as to enable the AGV to be in the abut-joint position, and meanwhile, a submersible AGV abut-joint method and the submersible AGV are provided; through the submersible AGV abut-joint method and system and the submersible AGV, the error caused by abut-joint of the submersible AGV and the goods shelf can be greatly reduced, and the warehousing or logistics field is more intelligent. Meanwhile, the problem that when the position of the goods shelf deviates due to impact or carrying, the AGV cannot find the position of the goods shelf is solved, and an abut-joint mechanism on the AGV and the goods shelf further enables the AGV and the goods shelf to be in precise abut joint without errors.

Description

technical field [0001] The invention relates to the field of AGVs, in particular to a submerged AGV docking method, a submerged AGV docking system and a submerged AGV. Background technique [0002] It has become a trend to use automatic guided vehicles to pull shelves, but in the process of docking automatic guided vehicles and shelves, the docking accuracy between automatic guided vehicles and shelves directly affects the success rate of docking; High arbitrariness, which requires automatically guiding the small fleet to make a judgment on the placement of the shelves, and correct its own position and posture to perform precise docking. [0003] In the Internet era, online shopping allows consumers to buy things with just a click of the mouse, but the task of "picking up the goods on the shelf" still needs someone to do it; and compared with the past, this task is heavier. "Strikes" often occur due to large-scale workers and low wages. Promoting "machine replacement for...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B65G1/137B65G35/00
CPCB65G1/1373B65G35/00
Inventor 章逸丰刘金勇戴舒炜陈胜辉
Owner NANJIANG ROBOT
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