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2630506
JESTIN
| Availability: | |
|---|---|
| Quantity: | |
| Part Name | Water Pump |
| Place of Origin | Suzhou, China |
| Part Number | 2630506 |
| Quality | 35KG |
| Weight | New |
| MNQ | 1pcs |
| Delivery Time | 3-5 Days |
| Apply To | W2000 W195 W205 W215 |
The water sprinkling system of the cold milling machine is a core auxiliary system. Its main function is to spray clean water on the milling drum and road surface during operation: reduce high temperature generated by milling to avoid overheating and damage of cutting tools; suppress dust diffusion to improve the construction environment; prevent asphalt and gravel from sticking to the milling drum, ensuring milling efficiency and flatness. During operation, it is closely connected with other parts: connected to the water tank through water pipes to obtain stable water supply; relying on the water pump to provide spray pressure for uniform water flow; cooperating with solenoid valves to control the switch and water output, adapting to different working conditions; acting directly on the milling drum and cutting tools to extend their service life. It is a key auxiliary system to ensure efficient and environmentally friendly operation of the cold milling machine.
What is the function of the cold milling machine's water sprinkling system?
How to determine if the water pump is damaged?
Scientific fault diagnosis methods are key to quickly locating and solving problems. Modern cold milling machine water sprinkling systems adopt four advanced diagnostic methods: first, visual inspection, which initially identifies faults by observing pipeline leaks, listening for abnormal pump sounds, and touching pipeline temperatures; second, instrument testing, using professional tools like pressure gauges, flow meters, thermometers, and multimeters to accurately detect system pressure, flow, temperature, and electrical parameters, determining fault location and severity; third, systematic analysis, checking each link in workflows such as "water tank→filter→water pump→pipeline→nozzle" to avoid omissions; fourth, intelligent diagnosis, utilizing the system’s self-diagnostic function, sensors, and remote monitoring to real-time track operation, record fault codes, and obtain professional guidance for complex issues via remote communication.
| Part Name | Water Pump |
| Place of Origin | Suzhou, China |
| Part Number | 2630506 |
| Quality | 35KG |
| Weight | New |
| MNQ | 1pcs |
| Delivery Time | 3-5 Days |
| Apply To | W2000 W195 W205 W215 |
The water sprinkling system of the cold milling machine is a core auxiliary system. Its main function is to spray clean water on the milling drum and road surface during operation: reduce high temperature generated by milling to avoid overheating and damage of cutting tools; suppress dust diffusion to improve the construction environment; prevent asphalt and gravel from sticking to the milling drum, ensuring milling efficiency and flatness. During operation, it is closely connected with other parts: connected to the water tank through water pipes to obtain stable water supply; relying on the water pump to provide spray pressure for uniform water flow; cooperating with solenoid valves to control the switch and water output, adapting to different working conditions; acting directly on the milling drum and cutting tools to extend their service life. It is a key auxiliary system to ensure efficient and environmentally friendly operation of the cold milling machine.
What is the function of the cold milling machine's water sprinkling system?
How to determine if the water pump is damaged?
Scientific fault diagnosis methods are key to quickly locating and solving problems. Modern cold milling machine water sprinkling systems adopt four advanced diagnostic methods: first, visual inspection, which initially identifies faults by observing pipeline leaks, listening for abnormal pump sounds, and touching pipeline temperatures; second, instrument testing, using professional tools like pressure gauges, flow meters, thermometers, and multimeters to accurately detect system pressure, flow, temperature, and electrical parameters, determining fault location and severity; third, systematic analysis, checking each link in workflows such as "water tank→filter→water pump→pipeline→nozzle" to avoid omissions; fourth, intelligent diagnosis, utilizing the system’s self-diagnostic function, sensors, and remote monitoring to real-time track operation, record fault codes, and obtain professional guidance for complex issues via remote communication.
