SMTFS1 Drainage And Seepage Tank Fluids Engineering Training Equipment Teaching Equipment Educational Equipment1. Equipment introduction
1.1 Overview
Osmosis is a process that occurs every moment in nature, and the types of osmosis are extremely rich. In engineering construction, infiltration sometimes facilitates the project, but sometimes it causes construction difficulties. For example, in the mining industry, accidental disasters caused by infiltration are often encountered. Therefore, people need to better understand the basic laws of infiltration so that infiltration can better provide people with controllable help. Understanding the basic laws of infiltration requires professional experimental demonstration equipment to help users understand the various forms of infiltration and demonstrate how infiltration proceeds through tangible streamlines.
The drainage anti-seepage pool device is a device used to study various types of permeability. The device provides a variety of experimental module components, allowing users to freely design experiments and explore permeability properties under different working conditions.
1.2 Features
(1) The experimental equipment adopts excellent electrical design and waterproof measures, and has excellent electrical grounding performance to ensure the safety of users.
(2) The experimental equipment adopts a modular design. The advantages of this design can help users understand the experimental principles and methods more intuitively.
(3) The experimental equipment provides a variety of experimental modules and can provide a richer variety of experiments.
(4) The experimental equipment uses visual glass, which can provide higher pressure-bearing capacity and better experimental visualization capabilities.
2. Technical parameters
Input power supply: single-phase three-wire AC 220V 50Hz
Size: 1650mm*650mm*1500mm
Weight:158kg
Working conditions: Ambient temperature -10℃~+40℃; relative humidity < 85% (25℃)
3. Components list and detailed introduction
3.1 Main part
|
No.
|
Name
|
|
1
|
Upstream overflow pipe
|
|
2
|
Visual experiment container
|
|
3
|
Experimental desktop frame
|
|
4
|
Circuit breaker with leakage protection
|
|
5
|
Water pump
|
|
6
|
Filter
|
|
7
|
Drain valve
|
|
8
|
Water tank
|
|
9
|
Downstream overflow pipe
|
|
10
|
Colored dye bottles
|
|
11
|
Control valve
|
3.2 Configuration list
|
No.
|
Name
|
Qty
|
|
Component 1
|
Water tank
|
1
|
|
Component 2
|
water pump
|
1
|
|
Component 3
|
filter
|
1
|
|
Component 4
|
Circuit breaker with leakage protection
|
1
|
|
Component 5
|
Colored dye bottles
|
1
|
|
Component 6
|
drain valve
|
1
|
|
Component 7
|
control valve
|
5
|
|
Component 8
|
Curved Penetration Module
|
1
|
|
Component 9
|
Right angle penetration module
|
1
|
|
Component 10
|
Basic pressure measurement module
|
1
|
|
Component 11
|
Side pressure measurement module
|
1
|
|
Component 12
|
Tile gutter module
|
2
|
|
Component 13
|
Anti-seepage baffle
|
1
|
3.3 Accessories
|
No.
|
Name
|
Qty
|
|
1
|
Curved Penetration Module
|
1
|
|
2
|
Basic pressure measurement module
|
1
|
|
3
|
Anti-seepage baffle
|
1
|
|
4
|
Right angle penetration module
|
1
|
|
5
|
Tile gutter module
|
2
|
|
6
|
Side pressure measurement module
|
1
|
4. Experiment list
Experiment 1 Study of penetration experiments under sheet pile walls
Experiment 2 Study Earth Dam Penetration Experiment
Experiment 3: Experiment on the drainage effect of ceramic tile lines
Experiment 4: Study on open channel drainage experiment
Experiment 5 studies the lifting pressure distribution experiment on the basic structure
Experiment 6 investigates how to change the lifting pressure experiment on the basic structure
Experiment 7: Study on lateral side pressure distribution experiment
