Bangalore - Tata Hitachi., a joint venture between Tata Motors and Hitachi Construction Machinery and a construction and mining equipment manufacturer, has unveiled its latest backhoe loader, the Shinrai Prime CEV 5, a next-generation machine engineered to deliver superior fuel efficiency, higher torque at lower RPM, and reduced emissions in compliance with the latest CEV 5 norms.
Built using high-grade steel and advanced robotic welding, the Shinrai Prime CEV 5 is designed for durability and performance across demanding applications such as construction, quarrying, trenching, and agriculture. It features longer maintenance intervals, reduced operating costs, and enhanced asset utilization—making it a practical choice for Indian contractors seeking productivity and reliability.
The Shinrai Prime CEV 5 comes equipped with a powerful and reliable Japanese engine paired with a high-performance hydraulic system, ensuring smooth and efficient operations. Its longest-in-class 2.47 m backhoe boom enables deeper digging and extended reach, while Insite Telematics offers advanced machine monitoring for smarter management. To enhance operator safety, the machine features a robust ROPS / FOPS cabin, and its parallelogram-type double cylinder loader arm is specially designed to handle slushy and challenging site conditions with ease.
Mr. Siddharth Chaturvedi, GM – Marketing, Tata Hitachi, said, “With the Shinrai Prime CEV 5, we proudly bring to market a machine that blends performance, reliability, and sustainability—engineered specifically for the evolving needs of Indian customers. It reflects our commitment to innovation and customer-centric design, offering greater productivity, lower operating costs, and smarter machine management through advanced telematics. Shinrai Prime is not just a product; it’s a promise of trust and value.”
The Shinrai Prime CEV 5 underscores Tata Hitachi’s ongoing focus on designing equipment that supports India’s growing infrastructure needs while aligning with environmental standards and operational efficiency.