Basic Info.
Dimension
1500mm*750mm*1750mm
Control
PLC Control Technology
Laser Model
Technicians Education Equipment
Transport Package
Wooden Box with Pallets
Specification
ISO 9001, ISO 14001, WORLDDIDACTIC certificate
Product Description
Optical Electromechanical Integration Training Equipment DLFA-555D
1 Equipment overview
DLDS-555D type mechatronics training system is to simulate the process of industrial field environments, different types of workpieces detect and identify handling and automatic sorting of the training system, in which a large number of applications, a variety of sensors to achieve the workpiece detection and identification, and then through the mechanical arm and moving the workpiece transfer mechanism, and ultimately by sorting mechanism in place for the handling of the workpiece finish sorting.
The equipment whole is composed of aluminum training platform, feeding mechanism, the transmission unit, a detection unit, waste launch unit, rotate manipulator, warning lights and other parts.
The control system adopts module combine type, composed of PLC module, converter module, touch screen module, power supply module and all kinds of sensors, according to the need of training, combine, install and debug modules flexibly.
During the process, you need to use many application technologies in the electromechanical integration professional study such as motor drive, mechanical transmission, pneumatic control, PLC, sensor, variable frequency speed regulation and so on, provide a typical system comprehensive training environment for students, make the students master professional knowledge and deepen consolidate fully, comprehensively and flexible application.
DLDS-555D type mechatronics training assessment system for teaching, according to the work process-oriented mode of work and study planning teaching activities, complete the following tasks:
1. Installation and commissioning project of the Pneumatic system:
The system configuration used single-acting cylinder, double acting cylinder, vacuum generator, gas fingers pneumatic actuators and single solenoid valve, double solenoid valve and pneumatic control components such as magnetic switches, to be completed by the following pneumatic technology tasks:
Pneumatic directional control loop installation;
Installation of pneumatic speed control loop;
Pneumatic sequential control loop installation;
Pneumatic system installation and commissioning;
2. Electrical control circuit installation and PLC programming project:
The system configuration used servo motors, stepper motors, sensors, etc., to be completed by the following Application Technology Working tasks:
Motor reversing control circuit connection and control;
Motor speed control circuit connection and control;
Stepper motor direction control;
Stepper motor speed control;
Servo motor direction control;
Servo motor speed control;
Pneumatic directional control;
Sequential pneumatic motion control;
Belt conveyor control;
Electromechanical integration equipment control;
Automatic production line control.
3. Mechanical and electrical equipment installation and commissioning project
The system configuration used electromechanical integration equipment parts, servo motors, stepper motors, sensors, etc., to be completed by the following electrical equipment installation and mechatronics technology tasks:
Concentricity adjustment drive;
Conveyor belt installation and adjustment;
Robotic handling equipment installation and commissioning;
Object sorting equipment installation and commissioning;
Feeding equipment installation and commissioning;
Upright walking robot installation and commissioning;
Automatic production line equipment installation and commissioning.
4. Automatic control system installation and commissioning project
The system configuration used electromechanical integration equipment parts, servo motors, stepper motors, sensors, etc., to be completed by the following electrical equipment installation and mechatronics technology tasks:
A variety of sensor installation and commissioning;
Robot pneumatic control;
Automatic control of the conveyor belt;
Electromechanical integration equipment, automatic control;
Upright walking robot control;
Automatic production line installation and commissioning;
DLDS-555D type mechatronics training assessment system for assessment or skills competitions, can examine the professional competence:
Mechanical components assembly and adjustment capacity;
Mechanical and electrical equipment installation and debugging capabilities;
Circuit installed capacity;
Pneumatic system installation and debugging capabilities;
Electromechanical integration equipment control procedures for the preparation capabilities;
Automatic control system installation and debugging capabilities;
2 Equipment feature
Personal and equipment safety protection measures:
1)Short-circuit protection: any two phase of power section have contact, means cut off power supply.
2)Overload protection: overload means load is oversize, exceed normal load of equipment itself, generating phenomenon is excessive current, electrical equipment fever, the long-term overload of line would reduce line insulation level, and even burn device or circuit;
3)Leakage protection: Power section has leakage phenomenon, current exceed certain value, and means cut off power supply.
4)Connection line and socket: whole closed structure, use safe, reliable, protection against electric shock
5)Ground protection: protective grounding is using enough thick metal wires connect metal shell of electrical equipment with ground depend on ground.
6)Emergence stop protection: when the equipment appear emergency or accident, press this switch, quickly cut off power supply.
System feature:
1)Equipment intuitive: Main equipment using installation form of directly expose, the equipment can be more intuitive showed before the students, decrease the transition and adjustment time from classroom to industry site.
2)Structure flexible: The system using module type structure, hanging box easy to change, the system use and combine more flexible, can meet content acquirements of experiment and training, etc.
3)Strong systematicness: this platform put Mitsubishi PLC, touch screen, transducer, industry AC/DC transmission, and industry sensor, etc industry site together. It can real simulate various control mode of industry site, make students can systematic learn automatic control, and also systematic know automatic control, avoided defect that single electricity components is very proficient, but not muti-electricity components control each other.
4)Equipment has strong openness and extensibility: teachers can according to their own teaching need replace major equipment easily and quickly.
5)Close to the site actuality: the equipment training content is for industrial site mainstream technology application, meet the development of the modern control technology, can satisfy students do experiments and curriculum design, meet needs of graduation project and school carry on project.
6)Outstanding training: The system can use the way that flexible patch board combine to the hanging box, can easily carry out all the small project design, fully exercise the students' practical ability and problem solving ability.
7)Strong discipline ductility: the training device can meet teaching training requirements of the electrotechnics, the electrician skills training, the electric drive control circuit and skills training, the electrician training ", "advanced electric skill training, the maintenance electrician skills training, the PLC programming training", "the electrical control technology", and other relevant course and electrical instrumentation and measurement, electrical and automation class major in the technical secondary school and technical colleges.
3 Technical parameter
1,Temperature:-10ºC~40ºC
2,Humidity: ≤90%(25ºC)
3,Capacity:≤1KVA
6,Pump capacity: Single-phaseAC220V 0.37KVA Air flow:10L Discharge pressure:0.6~0.8MPa
7,Work pressure:0.6MPa
4 Training projects
Automatic detection technology training;
Pneumatic technology training;
Stepper motor control applications training;
Servo motor control applications training;
Control-driven technology training;
Mechanical systems installation and commissioning of training;
System maintenance and fault detection training;
Training system communication technology applications;
Motor reversing control circuit connection and control;
Motor speed control circuit connection and control;
Stepper motor direction control;
Stepper motor speed control;
Servo motor direction control;
Servo motor speed control;
Pneumatic directional control;
Sequential pneumatic motion control;
Belt conveyor control;
Electromechanical integration equipment control;
Automatic production line control;
A variety of sensor installation and commissioning;
Robot pneumatic control;
Automatic control of the conveyor belt;
Electromechanical integration equipment, automatic control;
Upright walking robot control;
Automatic production line installation and commissioning.