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Dynamic three-dimensional model for teaching and action construction method thereof

A 3D model and dynamic technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve the problems of complex operation and inflexible use of 3D models for simulation, and achieve scalability, flexibility, The effect of lowering the threshold of use

Active Publication Date: 2019-09-27
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

[0014] The technical problem to be solved by the present invention is to provide a dynamic three-dimensional model for teaching and its action construction method, which solves the problem that the three-dimensional model used for simulation in the prior art is complicated to operate and cannot be used flexibly

Method used

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  • Dynamic three-dimensional model for teaching and action construction method thereof
  • Dynamic three-dimensional model for teaching and action construction method thereof
  • Dynamic three-dimensional model for teaching and action construction method thereof

Examples

Experimental program
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specific Embodiment 1

[0057] Specific embodiment one, such as image 3 , Figure 4 Shown:

[0058] Taking the three-dimensional model of the jacking mechanism as an example, the dynamic three-dimensional model of the scheme and its action construction method are introduced in detail

[0059] The 3D model of the jacking mechanism with dynamic attributes includes the jacking mechanism body, the property panel, the input port and the output port packaged on the jacking mechanism body, and the properties of the input port are set through the property panel. When running, the output port will be the jacking mechanism The action parameters of the jacking mechanism are output to the body of the jacking mechanism, so that the action of the body of the jacking mechanism is displayed on the simulation interface;

[0060] The main parts of the jacking mechanism body include a fixed support plate 1, a linear guide shaft 2, a linear bearing 3, a top plate 4, and a cylinder 5. The cylinder 5 includes a cylinde...

specific Embodiment 2

[0072] Specific embodiment two, such as Figure 5 , Image 6 Shown:

[0073] Taking the 3D model of the single-station feeding system as an example, the dynamic 3D model of the scheme and its action construction method are introduced in detail:

[0074] The 3D model of the single-station feeding system with dynamic attributes includes the single-station feeding system body, the property panel, the input port and the output port packaged on the single-station feeding system body, and the properties of the input port are set through the property panel. During operation, the output port outputs the action parameters of the single-station feeding system to the single-station feeding system body, so that the action of the single-station feeding system body is displayed on the simulation interface;

[0075] The main components of the single-station feeding system include a workbench 7, a jig base 8, a linear slide rail 9, and a rodless cylinder 10, wherein the linear slide rail is...

specific Embodiment 3

[0091] Specific embodiment three, such as Figure 7 , Figure 8 Shown:

[0092] Taking the 3D model of the positioner as an example, the dynamic 3D model of the program and its action construction method are introduced in detail:

[0093] The 3D model of the positioner with dynamic properties includes the positioner body, the property panel, the input port and the output port packaged on the positioner body, and the properties of the input port are set through the property panel. When running, the output port will be the positioner The action parameters of the positioner are output to the body of the positioner, so that the action of the body of the positioner is displayed on the simulation interface;

[0094] The main components of the positioner body include positioner column 12, positioner longitudinal beam 13, flange 14, column slewing support 15, first longitudinal beam slewing support 16, second longitudinal beam slewing support 19, wherein the variable The position m...

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Abstract

The invention discloses a dynamic three-dimensional model for teaching and an action construction method thereof, the dynamic three-dimensional model comprises a body, an attribute panel, an input port and an output port, the attribute of the input port is set through the attribute panel, and during operation, the output port outputs the action of the dynamic three-dimensional model to a simulation interface. The action construction method comprises the following steps: firstly, creating a unified structured framework, and secondly, defining action parameters and action parameter boundaries of a dynamic three-dimensional model; defining an action inlet and an action outlet for each dynamic three-dimensional model, and binding the action of the model with the action inlet; and finally, calling an action API of the model according to the action inlet of the dynamic three-dimensional model to drive the three-dimensional model. The model adopts a unified structured mode, input and output signals have high reusability, the principle of repeated use is defined at a time, a user can define model actions needed by himself / herself through parameter input, and the purpose 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 dynamic three-dimensional model for teaching and an action construction method thereof. Background technique [0002] In order to enable the dynamic 3D model to run in the simulation process, it is generally necessary to configure the trigger mode for the running posture of the dynamic 3D model. The relevant signals of the running posture are associated with each other, and the specific operation is as follows: [0003] 1. Create an action component: [0004] Create a new action component controlled by signals and attributes, and add the required sub-object components under this component to set the defined pose in the dynamic 3D model movement. Different poses need to add corresponding sub-object components. [0005] 2. Configure the properties of each sub-object component: [0006] Select the dynamic 3D model, motion posture, and running time to...

Claims

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Application Information

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IPC IPC(8): G06F17/50
CPCG06F30/17
Inventor 王强汪睿婷江坤韩心远
Owner 上海明材数字科技有限公司
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