Route Planning
Map route requirements, trench depth, and site access before deploying Mayura TO.

- | Equipment
Tractor
>60 HP
PTO / Hydraulic
300 m/hr (150 m/hr in soft soil, 90 m/hr in hard soil)
110–280 mm
Up to 1800 mm
30–60 mm
Solar developments increasingly require integrated construction methods that reduce installation stages while maintaining infrastructure quality. The Mayura TO Trencher is designed for projects where trenching, cable protection, and site restoration must be completed efficiently within compressed construction schedules. Its one-pass operating concept supports coordinated deployment of underground utility networks, helping project teams manage large installation volumes across extensive renewable energy sites.
The Mayura TO Solar Trencher is particularly suited for solar facilities that require continuous underground routing for communication ducts, monitoring systems, control networks, and electrical infrastructure. By combining multiple installation activities into a single workflow, the machine helps reduce equipment movements across active construction zones. This approach supports project planners and EPC contractors seeking efficient underground infrastructure deployment while maintaining consistency throughout solar development programs.
PROJECT EXECUTION
Solar Energy
Renewable energy facilities depend on extensive underground networks connecting solar arrays, control systems, inverter stations, substations, and grid interconnection assets. Efficient deployment of these networks requires installation methods that minimize interruptions between excavation, cable placement, and restoration activities. The Mayura TO Trencher addresses these requirements through its integrated trenching and duct-laying capabilities.
The Mayura TO Solar Cable Trenching Machine is suitable for communication ducts, low-voltage control networks, monitoring infrastructure, and utility corridor construction. It also supports last-mile connectivity projects where renewable energy installations require structured links to existing transmission or distribution networks. By enabling trenching, duct placement, and backfilling within a continuous process, the machine helps improve workflow coordination and supports faster infrastructure readiness across solar construction environments.

Solar Energy
The successful delivery of solar infrastructure depends on maintaining construction continuity while ensuring underground systems are installed according to project specifications. Delays between trench excavation and utility placement can create logistical challenges, increase site traffic, and affect downstream construction activities. Efficient installation sequencing is therefore an important consideration for project stakeholders.
The Mayura TO Solar Infrastructure Trencher supports streamlined execution strategies by reducing the number of separate operations required for underground utility deployment. Its integrated installation approach helps limit worksite disruption and facilitates better coordination between civil and electrical construction teams. For infrastructure developers, engineering consultants, and government agencies overseeing renewable energy projects, this contributes to improved project scheduling, efficient resource utilization, and reliable delivery of underground networks essential for long-term solar facility operation.
WORKFLOW
Map route requirements, trench depth, and site access before deploying Mayura TO.
Use the attachment setup to keep trench output consistent across solar park rows, inverter blocks, and power evacuation corridors.
Cleaner trench profiles help cable laying, earthing, backfilling, and commissioning 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 |
|---|---|
| ID of Duct roll (adjustable) | 850 mm (adjustable) |
| Width of Duct Roll | 600 mm |
| OD of Duct roll | Up to 2000 mm |
| Fuel Consumption Rate | 5–6 L/hr |
| Max Backfilling Depth: | 2000 mm |
| Max Blades Filling Width: | 2500 mm |
| Min Blades Filling Width: | 1000 mm |
| Overall Length: | 10500 mm |
| Overall Width: | 3200 mm |
| Overall Height: | 4500 mm |
Common questions about using Mayura TO in this application.
Industry model fit in Namibia
For Solar Energy deployment on Namibia project sites, Mayura TO is considered when a equipment must handle solar parks, cable corridors, pile rows, open sites, and long internal utility runs. The model should be reviewed against route cutting, trench preparation, and utility corridor work where line accuracy matters, repeatable output, cable-route accuracy, panel-field access, and EPC schedule control, and the way crews hand work over after each pass.
The first comparison for Mayura TO should be array layout, cable depth, tracker clearance, soil profile, and commissioning milestones, because those factors usually decide field fit before horsepower, headline capacity, or attachment choice.
Mayura TO can support DC cable trenches, earthing routes, tracker support works, inverter corridors, and solar EPC utilities, depending on route condition, access, output target, operator workflow, and site support availability.
This model page is meant to support a more practical conversation about solar energy fit, brochure review, transport planning, deployment timing, and quote needs.
A better solar energy shortlist connects trench depth, trench width, spoil handling, route crossings, surface reinstatement, and carrier fit with solar parks, cable corridors, pile rows, open sites, and long internal utility runs, so Mayura TO is reviewed against the actual job sequence.