DYCG-XK sensor signal and control training device

2. Functional composition and requirements:

Sensors required include: fiber optic sensors, electromagnetic induction sensors, photoelectric sensors, capacitive sensors, inductive sensors and power modules, indication and buzzer modules, etc.

The tr*ning system provides host computer software. Through host computer module and computer communication, sensor signals are collected through hardware and displayed in real time on the screen in the form of digital and analog quantities, giving users a more intuitive understanding.

3. The practical tr*ning system must include a test object, including detection media for various types of sensors (including detection media for photoelectric, magnetic, capacitive, inductive, ultrasonic, Hall, eddy current and other sensors)

4. The practical tr*ning system includes a position slide r*l, which can measure the detection distance of various sensors, as well as the influence of the sensor angle on the sensor detection distance, etc.

5. The tr*ning system is equipped with a measuring ruler, which is suitable for data measurement of sensors with long sensing distances.

6. The practical tr*ning system is equipped with practical tr*ning modules, including indicator buzzer modules, counting modules, host computer modules, etc. Students can combine these tr*ning modules with sensors.

7. Sensors required include: fiber optic sensors, electromagnetic induction sensors, photoelectric sensors, capacitive sensors, inductive sensors and power modules, indication and buzzer modules, etc.
8. Simulation system

Electricity safety and electric shock first *d virtual simulation system (provides demonstration and copyright certificate): The software uses a virtual screen that combines two-dimensional and three-dimensional to teach students the safety of electricity and first *d methods. The software has single-phase electric shock, two-phase electric shock, Principles of step electric shock, low-voltage electric shock first *d, high-voltage electric shock first *d, artificial respiration rescue method, hand-holding breathing rescue method, chest heart compression rescue method, etc. Single-phase electric shock is divided into rep*ring live disconnection, rep*ring socket electric shock, outdoor electric shock, etc. Principle demonstration. The teaching of low-voltage electric shock and high-voltage electric shock m*nly expl*ns and demonstrates to students how to rescue people who are suffering from low-voltage electric shock or high-voltage electric shock. Artificial respiration rescue method, hand-holding breathing rescue method, and chest cardiac compression rescue method are demonstrated using 3D virtual simulation technology. After rendering and Polish it to make the model look like the real part and look realistic. Through practical tr*ning, students can be educated on the safe use of electricity in the tr*ning room, improve students' safety awareness, and enable students to learn some self-rescue methods, so that students can take cert*n safety measures to protect themselves when encountering danger, and become familiar with various Causes of electrical accidents and practical measures to deal with them to reduce the occurrence of electrical accidents.

M*ntenance of electricians, electronic motors and vocational qualification tr*ning assessment simulation software (providing demonstration and copyright certificate): The software content includes knowledge about safe electricity use, electrician tools, electrician diagrams, electrician instruments, electrician lighting circuits, motors, transformers, low-voltage electrical appliances, and electric mops. , oscilloscope, low-frequency signal source, welding process, SMT technology, electronic product manufacturing process, troubleshooting, wiring, three-dimensional disassembly and assembly of reducer, disassembly and assembly of shafting mechanism (including cylindrical gear shafting, bevel gear shafting, worm shafting, etc. More than ten experiments) and other modules, schools can select corresponding tr*ning modules for tr*ning according to students' learning progress.

Three-meter simulation software (provides demonstration and copyright certificate): This software is in apk format and can be used on PC or mobile terminals. The functions of this software are: measurement of resistance, measurement of AC voltage (measuring transformer , if the multimeter is burned out when measuring the transformer, black smoke will appear and the multimeter can be reset), polarity judgment of the transistor, DC voltage measurement (the light turns on when the ammeter is turned on), DC current measurement, and the quality of the capacitor. judge. This software can drag the red and black pen tips at will. When the two pen tips are dragged and positioned on the object to be measured, a red circle will be displayed. If the positioning is not accurate, no red circle will be displayed, and when incorrect operations are performed (such as the wrong range selected, If the measured data is wrong, etc.), the meter pointer will be unresponsive, prompting errors and re-measurement, etc. This multimeter can select AC voltage range, DC voltage range, resistance range, current range, resistance adjustment to 0, and can enlarge the display data. Clearly view the measured data size. Students can learn the correct use of multimeters through this software.

4. Teacher teaching design system (providing demonstration and copyright certificate): This system is in apk format and can be used on PC or mobile. This system can set faults manually or automatically. This system has passed The green box in the circuit diagram selects manual setting of fault points (up to 39 fault points can be set), or the system can automatically set one random fault point, two random fault points, three random fault points, and four random fault points automatically. Fault point setting, five random fault point settings. This system has toolbox, component library, magnifying glass, circuit diagram and other functions. You can choose a multimeter for detection through the toolbox, select appropriate components through the component library, and you can clearly see through the magnifying glass. Understand the various components and circuits. This system allows students to understand the working principle and circuit structure of the motor star-delta start control circuit through the setting of faults in the motor star-delta start control circuit and various investigations.

3. Technical parameters:

1. Input power supply: AC220V±10% (single-phase three-wire)

2. Rated power: <1KVA

3. Ambient temperature: -10℃～40℃

4. Relative humidity: ≤85%

5. Overall dimensions: 1580*750*1700mm

4. Scope of experimental tr*ning projects:

1. Practical tr*ning on switching characteristics of capacitive proximity sensors

2. Tr*ning on dielectric properties of capacitive proximity sensors

3. Practical tr*ning on distance characteristics of capacitive proximity sensors

4. Practical tr*ning on switching characteristics of inductive proximity sensors

5. Practical tr*ning on medium characteristics of inductive proximity sensors

6. Practical tr*ning on distance characteristics of inductive proximity sensors

7. Practical tr*ning on switching characteristics of photoelectric proximity sensors

8. Practical tr*ning on medium characteristics of photoelectric proximity sensors

9. Practical tr*ning on distance characteristics of photoelectric proximity sensors

10. Tr*ning on switching characteristics of Hall switch

11. Tr*ning on the medium characteristics of Hall switches

12. Practical tr*ning on distance characteristics of Hall switch

13. Practical tr*ning on switching characteristics of through-beam optical fiber sensors

14. Tr*ning on media characteristics of through-beam optical fiber sensors

15. Practical tr*ning on distance characteristics of through-beam optical fiber sensors

16. Practical tr*ning on switching characteristics of diffuse reflection optical fiber sensor

17. Practical tr*ning on medium characteristics of diffuse reflection optical fiber sensor

18. Practical tr*ning on distance characteristics of diffuse reflection optical fiber sensor

19. Practical tr*ning on switching characteristics of specular reflective optical fiber sensor

20. Practical tr*ning on medium characteristics of specular reflection fiber optic sensors

21. Practical tr*ning on distance characteristics of specular reflection optical fiber sensor

22. Application of various sensors in practical fields

Proximity sensor tr*ning configuration parameter list:

Hot-selling product: Electrician tr*ning bench