Smart gear transmission experimental device

Gear reducer transmission efficiency test

Device structure

The experimental table adopts the iron double -layer sub -light -dense -dense -densely spraying structure, the tablet table, and the aluminum panel. There are lock cabinets, accessories and data can be placed. There are also four brake universal wheels with the experimental table, which is convenient for movement and fixation.

Technical Parameters

1. Input power supply: single -phase three -line AC220V ± 10% 50Hz 50Hz

2. 1 DC speed regulating motor: the rated power is 600W, the speed regulation range is 0 to 1200R/min

3. 1 magnetic powder brake: rated torque 50n · m

4. Corner displacement sensor pulse number: 1000P, 1 accurate measurement of the speed of the motor speed

5. Two weighing sensors: 5kg of rated load, 1.0mV/V in sensitivity; 50kg of rated load, 1.0mv/V sensitivity

6. Computer test analysis software: It has functions such as data collection, test analysis, curve fitting, saving and printing experimental results. The real -time data of parameters such as torque, speed, and efficiency can be measured, and efficiency curves can be drawn to draw an efficiency curve. Each curve coordinate can be set arbitrarily.

7. Dimensions: about 700*600*1200mm

system introduction

The software supports user drag and dragging methods to quickly create its own 3D industrial scenarios, and can control 3D industrial scenes through internal virtual PLC, or real -time external real PLC. It acts as a real -time automated sandbox, and realizes the simulation, analysis and optimization process of product before actual product manufacturing. The system cont--ns functions such as industrial 3D scene construction, PLC programming, and PLC control system debugging. It has high teaching value in industrial automation, electromechanical integration, electrical engineering, mechanical engineering, and other courses.

In the primary concept stage of automated product design, the entire system can be fully analyzed, observing and experimenting with the mutual movement of each component. In the virtual scenario, it can easily modify the design defects, simulate different layout solutions, and continuously improve the automated product system until the design scheme is obt--ned.

Provide users with independent modeling and independent layout functions, and open the underlying interface to support users' secondary development. It is a comprehensive design simulation verification platform for industrial 4.0 automation, and provides rich teaching resources.

Hardware requirements:

In order to ensure the smooth use of the system, this lists the configuration requirements for computer systems:

Operating system: Windows 7 SP1 and above versions

System type: 64 -bit operating system

Processor (CPU): ≥2.5GHz (if VR glasses are used, ≥3.2GHz)

Memory: ≥8GB

Hard disk: ≥5GB (storage space)

Graphics card: GPU ≥800MHz video memory ≥1GB (if VR glasses are used, GPU ≥1.6GHz, video memory ≥6GB, such as GTX1070)

Net framework version: V4.6.2 and above versions