RM 800 Mobile Concrete Batching Plant Price And Quantity
400000 INR/Unit
1 Unit
RM 800 Mobile Concrete Batching Plant Product Specifications
Blue
High Efficiency
Concrete Batching Plant
Mobile Concrete Batching Plant
Yes
Yes
RM 800 Mobile Concrete Batching Plant Trade Information
Cash in Advance (CID)
30 Unit Per Month
2-7 Days
All India
Product Description
Introducing the RM 800 Mobile Concrete Batching Plant, a high-efficiency machine perfect for on-site concrete production. With its automatic features, this mobile batching plant ensures accurate and consistent concrete mixing every time. The load cells are equipped with Load Master technology, allowing for precise weighing of materials. The main drive motor is a powerful 10 HP, 3 PH motor that ensures a speed of 800 rpm, while the water pump is a 1 HP, 3 PH motor. The mixing drum operates at a speed of 14r/min, allowing for quick and efficient mixing of concrete. This mobile batching plant is the perfect solution for construction sites, remote locations or temporary projects.
Load cells
Load master
Main Drive Motor
10 HP,3 PH
Speed
800 rpm
Water Pump
1 HP,3PH
Speed of Mixing Drum
14r/min
FAQs of RM 800 Mobile Concrete Batching Plant:
Q: Is the RM 800 Mobile Concrete Batching Plant easy to operate?
A: Yes, this mobile batching plant is fully automatic, making it easy to operate with minimal supervision.
Q: What is the warranty on the RM 800 Mobile Concrete Batching Plant?
A: Yes, this mobile batching plant comes with a warranty.
Q: What is the load cell technology used in the RM 800 Mobile Concrete Batching Plant?
A: The load cells are equipped with Load Master technology, which ensures precise weighing of materials.
Q: What is the main drive motor used in the RM 800 Mobile Concrete Batching Plant?
A: The main drive motor is a powerful 10 HP, 3 PH motor that ensures a speed of 800 rpm.
Q: Is the RM 800 Mobile Concrete Batching Plant suitable for remote locations?
A: Yes, this mobile batching plant is perfect for remote locations, temporary projects or construction sites.