TD1002 Heat Transfer Experiments Base Unit School Educational Equipment Vocational Trainer Workbench Electrical Training Equipment1. Equipment Introduction
1.1 Overview
In nature, energy changes occur every moment, such as heat transfer from one surface to another, but no matter how they are transferred, they will follow the law of conservation of energy. The law of conservation of energy is one of the universal basic laws of nature. Generally speaking, energy will neither be created nor destroyed, it will only be transformed from one form to another, or transferred from one object to another, while the total amount of energy remains unchanged. Therefore, the total amount of heat will not change, it will only be transferred. The transfer of heat cannot be directly observed through phenomena. How heat is transferred on different structural objects is a problem we need to study, and the law of heat transfer is also the focus of our research.
In order to more intuitively obtain the temperature change law during heat transfer, we designed and produced the TD1002 heat transfer experiment host equipment and matching experimental module components. The combination of modules can meet a variety of experimental needs.
1.2 Features
(1) Safer. The product fully considers the user's safety at the beginning of the design, and adopts excellent electrical layout and grounding reliability solutions.
(2) Easier to use. The product adopts modular design. Both the electrical structure and the mechanical structure use modular design. The structure and principle are clear and can be more convenient for users to use.
(3) More beautiful. The product adopts an integrated design. The equipment is small and beautiful, and still has very rich functions. Due to the integrated design, the equipment has extremely low environmental requirements.
(4) More durable. The product uses more solid and corrosion-resistant materials, which can greatly extend the service life of the equipment.
2. Technical parameters
Input power: single-phase three-wire AC220V.
Dimensions: 700mm*530mm*650mm
Weight:35kg
Working conditions: ambient temperature -10℃~+40℃; relative humidity < 85% (25℃).
3. Component list
3.1 Main part
No. Name
1 Touch screen
2 Single control switch
3 Power adjustment knob
4 Heater power supply port
5 Temperature sensor interface
6 PT100 temperature sensor
7 TD1002A experimental module heater
8 Fixing buckle
9 Interchangeable metal material experimental kit
10 Fixing knob
11 Cold water inlet control valve
12 Cooling return pipe
13 Cooling inlet pipe
14 Support foot
3.3 Equipment Configuration List
No. Name Qty
Component 1 Interchangeable brass metal material experiment kit 1
Component 2 Interchangeable copper metal material experiment kit 1
Component 3 Interchangeable stainless steel metal material experiment kit 1
Component 4 Interchangeable aluminum material experiment kit 1
Component 5 Touch screen display 1
Component 6 TD1002 Experimental Module 1
3.4 Accessory
No. Name Qty
1 Software CD 1
2 Network cable 1
3 Thermal grease 1
4 Interchangeable copper metal material experiment kit 1
5 Interchangeable brass metal material experiment kit 1
6 Interchangeable aluminum metal material experiment kit 1
7 Power extension cable 1
4. Experiment list
Experiment 1 Understand the basic electrical operation of the TD1002 heat transfer experiment host
Experiment 2 Demonstrate the heat transfer experiment of aluminum metal materials with the TD1002A linear conduction experiment module
Experiment 3 Demonstrate the heat transfer experiment of stainless steel metal materials with the TD1002A linear conduction experiment module
Experiment 4 Demonstrate the heat transfer experiment of copper metal materials with the TD1002A linear conduction experiment module
Experiment 5 Demonstrate the heat transfer experiment of brass metal materials with the TD1002A linear conduction experiment module
Experiment 6 Demonstrate the software acquisition experiment with the TD1002A linear conduction experiment module
