Computerized stands Electric Drive educational equipment for schools Electrician Trainer

Computerized stands Electric Drive educational equipment for schools Electrician Trainer

ZE3322K Computerized stands Electric Drive educational equipment for schools Electrician Trainer for college, vocational training center, university. 

  • Description
  • Inquiry

ZE3322K Computerized stands Electric Drive educational equipment for schools Electrician Trainer

1 Product overview

1.1 Overview

This training device includes various types of induction motors and industrial control components. Through relevant experiments, you can be familiar with the operating characteristics of AC motors, DC motors and transformers, master their control principles and control methods, and cultivate students’ corresponding knowledge and skills. It is suitable for teaching and skill training and assessment of related majors in vocational colleges, vocational schools, secondary vocational schools and technical schools.

1.2 Features

(1) The training platform adopts aluminum profile column frame structure, the whole is simple and generous, and a universal wheel is installed at the bottom, which can be flexibly moved and the height can be adjusted independently according to the ground situation. The measuring instrument and the training power supply are installed with a built-in integrated hanging box, which is convenient to use and not easy to damage.

(2) Various types of motors are fully equipped and can be used in combination.

(3) The combination of software and hardware can complete the training content of a variety of courses

(4) The training platform has a good safety protection system.

2 Performance parameter

(1) Input power: three-phase five-wire system 380V ± 10% 60Hz

(2) Dimensions: 1600mm × 800mm × 1810mm

(3) Total capacity: <2KVA

(4) Weight: <250kg

(5) Working conditions: ambient temperature -10 ℃ ~ + 40 ℃ relative humidity < 85% (25 ℃)

3 Product composition

3.1   Training table

The training table is supported by aluminum profile columns, and a universal wheel is installed at the bottom, which can be flexibly moved and the height can be adjusted independently according to the ground conditions. The desktop is made of 25mm thick high-density substrate, and the surface is treated with high-temperature and high-pressure fireproof board. The structure is firm. It is equipped with a keyboard holder and a cabinet. The whole is simple and elegant.

3.2 Supporting module

(1)Power module

(2)Single-phase power module

(3)Single-phase thyristor converter hanging box

(4)Inverter module

(5)Three-pole switch module

(6)Excitation rheostat module

(7)Armature rheostat hanging box

(8)DC generator generating magnetic field rheostat hanging box

(9)Voltmeter module hanging box 1

(10)Voltmeter module hanging box 2

(11)Three-phase multi-function table hanging box

(12)Terminal Module

(13)Illuminated button module

(14)Button module

(15)AC contactor module

(16)Multimeter module

(17)Tachometer module

(18)Magnetic powder brake module

(19)Payload module

(20)Three-phase load box

(21)Rectifier module

(22)Signage module

(23)Three-phase transformer

(24)Single-phase autocouple voltage regulator

(25)Rotary encoder

(26)Magnetic powder brake

(27)DC shunt motor

(28)Three-phase squirrel-cage asynchronous motor

(29)Multimeter test leads, wiring and USB communication cable

6 Training content can be completed

6.1 Button recognition and use experiment

6.2 Understanding and using experiment of three-pole switch

6.3 Understanding and using experiment of rotary encoder

6.4 AC contactor recognition and type selection experiment

6.5 Understanding and using experiment of magnetic powder brake

6.6 Cognition of DC Parallel Excitation Motor and Static Measurement Experiment

6.7 Cognition and static measurement experiment of three-phase squirrel-cage asynchronous motor

6.8 Star start experiment of three-phase squirrel-cage asynchronous motor

6.9 Triangle start experiment of three-phase squirrel-cage asynchronous motor

6.10 DC parallel excitation motor measurement speed experiment

6.11 “Voltage Regulation” Speed ​​Regulation Experiment of DC Parallel Excitation Motor

6.12 “DC Magnetization” Speed ​​Regulation Experiment of DC Parallel Excitation Motor

6.13 DC series motor “string resistance” speed regulation experiment

6.14 Three-phase squirrel-cage asynchronous motor measurement speed experiment

6.15 DC parallel excitation motor with load experiment

6.16 Three-phase squirrel cage asynchronous motor with load experiment

6.17 DC parallel excitation experiment

6.18 Jog operation experiment of three-phase squirrel-cage asynchronous motor

6.19 Self-sustaining operation experiment of three-phase squirrel-cage asynchronous motor

6.20 Cognition experiment of single-phase rectification

6.21 Single-phase rectification electrical parameter measurement experiment

6.22 Three-phase rectification experiment

6.23 Three-phase rectification electrical parameter measurement experiment

6.24 Three-phase transformer recognition and static measurement experiment

6.26 Three-phase transformer “Triangle connection” experiment

6.25 Three-phase transformer “star connection” experiment

6.27 Three-phase transformer load test

6.28 Cognition and static measurement experiment of single-phase autocouple voltage regulator

6.29 Single-phase auto-coupler voltage regulator load test

6.30 Motor electrical parameter measurement experiment

6.31 Inverter controls motor operation (panel control)

6.32 Frequency converter controls motor operation (multi-speed control)

6.33 Inverter controls the motor running forward and reverse

6.34 Software monitoring electrical system

Contact Us