dyHGLT-26 Self-circulating flow demonstration training device
Release time:2024-06-10 20:30viewed:times
Technical parameters:
1. Operating environment: temperature 0-40℃, relative humidity: ≤90%RH, power supply: 220V/50Hz, continuous operation possible.
2. Silent and environmentally friendly water pump: head: 8m, rated flow: 8L/min, power: 60W, using self-circulating water system.
3. The amount of *r added and the size of bubbles are adjustable by the *r added device.
4. A set of 7 specifications, 280×200×1500mm (length*width*height).
5. With lighting, the flow process of large and small bubbles with the water flow is clearly visible, the dynamic effect is good, and the image is vivid and intuitive.
6. The outer cover and flow field boundary are made of organic glass with harmonious colors and are of excellent craftsmanship.
7. Compact structure, beautiful appearance and easy operation.
8. Overall dimensions: 1800×250×1500mm wall-mounted.
9. The virtual simulation software for electrical installation of building buildings and smart buildings
is based on unity3d design. Users can choose different interactive interface sizes according to computer configuration, and six levels of image quality are av*lable. The model in the software can be rotated 360°, enlarged, reduced, and translated. There are assistant prompts during the use of the software, and the content is as follows:
A. Wet alarm system
1. System overview: Overview of wet alarm system
2. Equipment awareness: equipped with the best viewing angle, equipment det*ls (displaying the introduction or parameters of the equipment), and exercises (Built-in 6 multiple-choice questions, prompts for correct and incorrect choices), schematic diagram (can be entered into the device from the schematic diagram). Equipment includes: nozzle, water flow indicator, signal butterfly valve, exhaust valve, fire alarm control, high pipe pressure gauge, high water tank, Wia control cabinet, pressure stabilizing tank, flow switch, terminal water testing device, dr*nage facilities, water pump connection alarms, hydraulic alarms, delayers, wet alarms, butterfly valves, check valves, fire pumps, safety pressure regulators, and fire pools.
3. Principle display: Show the working principle of the wet alarm system, three-dimensional animation demonstration, the three-dimensional model is translucent, and the internal water flow can be seen. Equipped with a practice module (built-in 4 multiple-choice questions, with prompts for correct and incorrect choices)
4. Design layout: There are multiple-choice questions and calculation questions, each question is scored, and the correct answer and score will be displayed after submission
B. Gas fire extinguishing system
1. System overview: Overview of gas fire extinguishing system
2. Equipment awareness: equipped with the best viewing angle, equipment det*ls (displaying the introduction or parameters of the equipment), exercises (built-in 8 multiple-choice questions, with prompts for correct and incorrect choices), Schematic diagram (access to the device from the schematic diagram). Equipment includes: nozzle, HFC-227 storage bottle, bottle head valve, heptafluoropropane one-way valve, high-pressure hose, gas one-way valve, safety valve, weighing alarm, electromagnetic starter, selection valve, smoke alarm, fire Alarm controller.
3. Principle display: Show the working principle of the gas fire extinguishing system, three-dimensional animation demonstration, the three-dimensional model is translucent, and the internal gas can be seen. Equipped with a practice module (built-in 3 multiple-choice questions, with prompts for both correct and incorrect choices)
4. Design and layout: There are 6 multiple-choice questions, each question is scored, and the correct answer and score will be displayed after submission.
C. Escape drill: adopted Teaching is conducted in the form of a fun game. Escape from the burning room within a limited time. If you choose incorrectly, you will directly enter the score interface .
Experimental purposes:
1. Demonstrate the flow pattern of fluids passing through different boundary conditions to observe streamlines under different boundary conditions. Phenomena such as vortex, enhance and deepen the understanding of fluid motion characteristics.
2. Demonstrate the stagnation, wake and vortex phenomena of water flowing around objects of different shapes. Deepen the understanding of boundary layer separation phenomena and fully understand the flow phenomena of fluids in actual engineering.
3. Demonstrate various water flow phenomena at different boundaries.
M*n configuration:
display screen, water pump, aeration device, water tank, light source, regulating valve, st*nless steel stand.
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