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Roller backpack type AGV three-dimensional model for teaching, building method and simulation system

A technology of three-dimensional model and construction method, applied in the direction of educational tools, teaching aids, 3D modeling, etc., can solve the problems of inflexible use, complex model construction and simulation operations, and unsuitable teaching, so as to improve scalability and flexibility The effect of high degree and convenient operation

Inactive Publication Date: 2020-01-21
上海明材数字科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0022] The technical problem to be solved by the present invention is to provide a three-dimensional model, construction method and simulation system of the roller backpack AGV for teaching, which solves the problem that the model construction and simulation operation of the roller backpack AGV in the prior art are complicated, cannot be used flexibly and are not Questions Applicable to Teaching

Method used

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  • Roller backpack type AGV three-dimensional model for teaching, building method and simulation system
  • Roller backpack type AGV three-dimensional model for teaching, building method and simulation system
  • Roller backpack type AGV three-dimensional model for teaching, building method and simulation system

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specific Embodiment 1

[0072] Specific embodiment one, such as image 3 , Figure 4 Shown:

[0073] Taking the three-dimensional model of the roller backpack AGVA as an example, the three-dimensional model of the roller backpack AGV and its construction method are introduced in detail.

[0074] The three-dimensional model of the roller backpack AGV includes a roller backpack AGV three-dimensional model body and an attribute panel; wherein, the roller backpack AGV three-dimensional model body includes an AGV body 1 and a roller 3 arranged on the upper part of the AGV body 1, and the roller 3 has motion properties Configuration port, the motion attribute configuration port of drum 3 is matched and bound with the corresponding editing module in the property panel, and the rolling speed and rolling direction of drum 3 are set through the property panel to make the AGV three-dimensional model have dynamic properties.

[0075] The bottom of the AGV car body 1 is installed with a roller 4 with a motion a...

specific Embodiment 2

[0090] Specific embodiment two, such as Figure 5 , Image 6 Shown:

[0091] Taking the three-dimensional model of the roller backpack AGVB as an example, the three-dimensional model of the roller backpack AGV and its construction method are introduced in detail.

[0092] The three-dimensional model of the roller backpack AGV is consistent with the structure of the first embodiment, but the specific structural shape and configuration are different, and both include the roller backpack AGV three-dimensional model body and attribute panel; wherein, the roller backpack AGV three-dimensional model body includes the AGV car body 1. The drum 3 is set on the upper part of the AGV body 1. The drum 3 has a motion attribute configuration port. The motion attribute configuration port of the drum 3 is matched and bound with the corresponding editing module in the attribute panel, and the rolling speed of the drum 3 is set through the attribute panel. The rolling direction makes the AGV ...

specific Embodiment 3

[0108] Specific embodiment three, such as Figure 7 , Figure 8 Shown:

[0109] Taking the three-dimensional model of the roller backpack AGVC as an example, the three-dimensional model of the roller backpack AGV and its construction method are introduced in detail.

[0110] The three-dimensional model of the roller backpack AGV includes a roller backpack AGV three-dimensional model body and an attribute panel; wherein, the roller backpack AGV three-dimensional model body includes an AGV body 1 and a roller 3 arranged on the upper part of the AGV body 1, and the roller 3 has motion properties Configuration port, the motion attribute configuration port of drum 3 is matched and bound with the corresponding editing module in the property panel, and the rolling speed and rolling direction of drum 3 are set through the property panel to make the AGV three-dimensional model have dynamic properties.

[0111] The side of the AGV body 1 has a display and control panel; the display an...

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Abstract

The invention discloses a roller backpack type three-dimensional model for teaching, a building method and a simulation system. The roller backpack type AGV three-dimensional model comprises a body and an attribute panel, wherein attribute information of enabling a roller to roll forwards, enabling the roller to roll backwards, enabling the roller to stop rolling and the like is set by the attribute panel, and a user sets a path editing interface of an AGV through the attribute panel. The building method comprises the following steps of firstly, binding specification parameter information of the roller backpack type AGV through a unified structured framework, and then limiting a motion boundary of the model according to the specification parameter information of the roller backpack type AGV; and finally, setting use methods of a motion path and the like for the AGV according to the attribute panel of the roller backpack type AVG three-dimensional model. According to the roller backpacktype three-dimensional model, a unified structured mode is adopted, the user sets a motion track of the AGV through a path setting panel in the attribute panel, the modes that what you see is what you get and adjustment is flexible are achieved, and the goal of improving the flexibility is achieved.

Description

technical field [0001] The invention belongs to the field of simulation software for teaching, and in particular relates to a three-dimensional model, a construction method and a simulation system of a roller backpack AGV for teaching. Background technique [0002] In commonly used simulation software, the construction and simulation operation of the roller piggyback AGV are usually imported into the simulation software by the digital simulation file made by the 3D digital simulation software, and the motion simulation control definition is performed in the simulation software, and then controlled by logic The instruction calls the execution of the simulation motion, and the operation steps of the simulation software in the prior art are as follows: [0003] The first step is to import the digital model: [0004] Import the 3D model file of the roller knapsack AGV into the simulation software; [0005] The second step is to add motion capabilities to the model, the operati...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G09B19/00G06T17/00
CPCG06T17/00G09B19/0053
Inventor 任志平王强韩心远汪睿婷
Owner 上海明材数字科技有限公司
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