Function of Valve and Pressure Gauge of Container Water Cooling System
Summary table of the functions of each valve in the schematic diagram |
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Number |
Name |
Function |
State |
Note |
1. |
1# Ball Valve |
valve for drain |
Normally closed |
|
2. |
2#Ball Valve |
Main line drain valve |
Normally closed |
|
3. |
3#Ball Valve |
Main line drain valve |
Normally closed |
|
4. |
4#Ball Valve |
Safety valve, when the safety valve fails, the valve can be closed for inspection |
Closed when pressed, the rest are normally open |
|
5. |
5#Ball Valve |
The valve at the front of the rehydration filter, close this valve when the filter is overhauled |
Normally open |
|
6. |
6#Ball Valve |
Water tank refill valve, open this valve to refill the inside of the water tank |
Normally closed |
|
7. |
7#Ball Valve |
Internal system rehydration valve in the pipeline, open this valve to refill the system |
Normally open |
|
8. |
8#Ball Valve |
The water tank is connected to the system valve, open this valve, the water tank is connected to the internal system of the pipeline, and can be automatically replenished or discharged |
Normally open |
|
9. |
9#Ball Valve |
The liquid replenishment inlet of the whole system and the liquid discharge outlet of the water tank. Open this valve to replenish the external liquid into the system/water tank; open this valve when the liquid is discharged, and the liquid in the water tank will be discharged |
Normally closed |
|
10. |
10#Ball Valve |
Expansion tank valve, close this valve when overhauling the expansion tank |
Closed when pressed, the rest are normally open |
|
11. |
11#Ball Valve |
The exhaust valve at the top of the degassing tank, close this valve when overhauling the exhaust valve here |
Normally open |
|
12. |
12#Ball Valve |
Exhaust valve, close this valve when overhauling the exhaust valve here |
Normally open |
|
13. |
13#Ball Valve |
External Y-strainer valve, open when service filter drains |
Normally closed |
|
14. |
1#Welded Butterfly Valve |
Bypass valve, open this valve to allow internal circulation when the ambient temperature is low |
Normally closed |
|
15. |
2#Welded Butterfly Valve |
The valve of the left water distributor for the liquid return, cooperate with the 4# welded butterfly valve to isolate the left water distributor assembly |
Normally open |
|
16. |
3#Welded Butterfly Valve |
The valve on the right side of the water separator for the liquid return, cooperate with the 5# welded butterfly valve to isolate the left side water separator assembly |
Normally open |
|
17. |
4#Welded Butterfly Valve |
The valve of the left water distributor of the liquid supply, cooperate with the 2# welded butterfly valve to isolate the left water distributor assembly |
Normally open |
|
18. |
5#Welded Butterfly Valve |
The valve of the right water distributor of the liquid supply is matched with the 3# welded butterfly valve to isolate the left water distributor assembly |
Normally open |
|
19. |
6#Welded Butterfly Valve |
Container liquid supply valve, closed when moving and transporting, independent water-cooled container system, can cooperate with 8# welded butterfly valve to maintain the filter, the system does not need to discharge a lot of liquid |
Normally open |
|
20. |
7#Welded Butterfly Valve |
Container liquid return valve, closed when moving and transporting, independent water-cooled container system |
Normally open |
|
21. |
8#Welded Butterfly Valve |
Cooling tower liquid supply valve, closed when moving and transporting, independent cooling tower, can cooperate with 6# welded butterfly valve to maintain the filter, the system does not need to discharge a lot of liquid |
Normally open |
|
22. |
9#Welded Butterfly Valve |
Cooling tower liquid return valve, closed when moving and transporting, independent cooling tower |
Normally open |
|
23. |
1#Pressure Gauge |
Pump suction pressure gauge, can judge whether the pump suction pressure (≥0.1MPa) is normal, and can check whether the pump suction pressure sensor is normal |
/ |
|
24. |
2#Pressure Gauge |
The outlet pressure gauge of the pump, with the 1# pressure gauge, can analyze whether the operating conditions of the pump are consistent with the design conditions (the difference is the pump head at this time) |
/ |
|
25. |
3#Pressure Gauge |
The pressure gauge of the main liquid supply line, cooperate with the 2# pressure gauge to analyze whether the outlet pressure of the water pump is normal and whether there is any fault inside the system |
/ |
|
26. |
4#Pressure Gauge |
The pressure gauge of the left branch pipe of the liquid supply, with the 6# pressure gauge, can analyze whether the flow resistance of the left water distributor assembly is normal |
/ |
|
27. |
5#Pressure Gauge |
The pressure gauge of the right branch pipe of the liquid supply, with the 7# pressure gauge, can analyze whether the flow resistance of the right water distributor assembly is normal |
/ |
|
28. |
6#Pressure Gauge |
The pressure gauge of the left branch pipe of the liquid supply, with the 4# pressure gauge, can analyze whether the flow resistance of the left water distributor assembly is normal |
/ |
|
29. |
7#Pressure Gauge |
The pressure gauge of the right branch pipe of the liquid supply, with the 5# pressure gauge, can analyze whether the flow resistance of the right water distributor assembly is normal |
/ |
|
*Note: This is the water-cooled container parameter of AVIC 1.3 version. If your product is from other manufacturers or other versions, it may be slightly different from this parameter. This parameter is for reference only.
Should you have any inquiries, feel free to contact us for assistance.
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