Route Planning
Map route requirements, trench depth, and site access before deploying Rudra Prime mini.

Self Propelled Multi Utility Machine | Equipment
Self-Propelled
Diesel
25 HP (18.8 kW)
Hydraulic Transmission
400 kg
30 L
Electric
Rudra Prime mini is configured for defence utility, tactical infrastructure, and protected corridor trenching where controlled output and reliable site performance are essential.
Rudra Prime mini helps teams working across border infrastructure, camp utilities, and rugged access routes improve dependable trench output, mobility, and consistent execution in demanding sites.
PROJECT EXECUTION
Defence
Self-propelled Multi Attachments Machine is used for defence utility, tactical infrastructure, and protected corridor trenching where route consistency and execution speed directly impact rollout schedules.
Teams deploy it across border infrastructure, camp utilities, and rugged access routes with planning around terrain access, deployment speed, trench dimensions, operator safety, and support readiness.
The machine helps maintain cleaner worksite output for utility placement, protection works, and field infrastructure teams.


Defence
Maintain consistent trench depth and alignment to reduce rework during defence utility, tactical infrastructure, and protected corridor trenching and site reinstatement.
Plan route productivity based on terrain access, deployment speed, trench dimensions, operator safety, and support readiness.
Use predictable trench output to improve handoff quality between utility placement, protection works, and field infrastructure teams.
WORKFLOW
Map route requirements, trench depth, and site access before deploying Rudra Prime mini.
Use the attachment setup to keep trench output consistent across border infrastructure, camp utilities, and rugged access routes.
Cleaner trench profiles help utility placement, protection works, and field infrastructure teams proceed with less rework.
Autocracy Machinery can help match machine configuration, brochure details, and application guidance to the project.
APPLICATION SUPPORT
Share your site conditions, output goals, and timeline so the Autocracy team can guide model fit, brochure details, and next steps for your project.
Built for performance. Trusted by contractors, municipalities, and EPC teams across sectors.
| Feature | Value |
|---|---|
| Model | 800 |
| Net Power | 18.8 kW |
| Working Pressure | 18 MPa |
| Travel Speed | 3 km/h |
| Working System Flow Rate | 62.4 L/min |
| Gross Weight | 1200 kgs |
| Overall Length (with GP Bucket) | 2700 mm |
| Overall Width | 980 mm |
| Overall Operating Height | 3050 mm |
| Overall Length (without Bucket) | 2100 mm |
| Wheelbase | 1180 mm |
Common questions about using Rudra Prime mini in this application.
Industry model fit in Tanzania
Rudra Prime mini Self Propelled Multi Utility Machine is listed here for project teams in Tanzania planning defence work with self-propelled multi attachments machine. Selection should come down to carrier fit, operating method, terrain type, access security, logistics, operator training, and rapid deployment windows, and whether the machine supports rugged reliability, transport readiness, field repairability, and predictable operation.
For Defence work, compare Rudra Prime mini against terrain type, access security, logistics, operator training, and rapid deployment windows before finalising equipment deployment, because these details decide whether the machine fits the route, access, and daily output target.
Rudra Prime mini may suit camp utilities, boundary works, tactical infrastructure, drainage, and remote service routes when access, output goals, support arrangements, and follow-on crews line up with the job.
Use the page to move from specification review into a clearer discussion about defence suitability, brochure details, field support, and quotation requirements.
For self-propelled multi attachments machine, check attachment changeover, access limits, fuel support, operator workflow, and daily task mix together with remote work zones, restricted access areas, rugged terrain, and time-sensitive deployment sites; this helps separate a suitable defence setup from a generic model match.