Self-loading concrete mixer completed the custom test run, high efficiency recognized
On August 23, 2025, Shanzhong self-loading concrete mixer, ordered and customized according to customer's requirements, successfully completed a full test run at the designated construction site. Under the joint supervision of the client's technical team and our service engineers, the outstanding performance, stable operation and powerful functional advantages of the agitator have been fully tested on site, which has laid a solid foundation for its subsequent successful implementation in actual construction projects and won high recognition from the client.
As a professional all-hydraulic driven construction equipment, Shanzhong self-loading concrete mixer is equipped with a scientifically designed power transmission system, which features high efficiency, stability and low failure rate. Specifically, the high-performance agitator motor drives a hydraulic pump, which produces stable power, which is then transmitted to the travel motor; The travel motor additionally drives the gearbox, ensuring flexible movement of the entire machine. For the main mixing system, the engine also independently drives the hydraulic mix pump, which in turn drives the mixing motor, which rotates the mixing drum at a constant speed. This advanced fully hydraulic drive mode gives the mixer powerful strength and stability, allowing it to easily handle concrete mixing tasks even on soft soils or challenging construction sites with uneven surfaces.
It is noteworthy that this mobile self-loading concrete mixer integrates many functions of a traditional concrete batching plant, including automatic loading, accurate weighing, concrete pumping, uniform mixing, free moving, fast unloading and self-loading. It overcomes the limitation that traditional concrete mixing equipment depends on fixed platforms and auxiliary structures, and can independently and efficiently complete the entire concrete production cycle in remote mountainous areas, rural construction sites or other regions lacking auxiliary equipment, greatly improving construction flexibility and efficiency.
