This is made possible with concept of modularity – where aggregates are divided into sub-aggregates with standardized interfaces, which enables high no. of configurations yet retaining common and reduced no. of parts.
With AVTR modular truck platform, now customer can build his own truck to suit his business needs – and AVTR brand promises to deliver
1 | Engine | A series BS-VI with i-Gen6 technology | ||
---|---|---|---|---|
2 | Max power | 185 kW (250 hp) @ 2200 rpm | ||
2 | Max torque | 900 Nm @ 1100-1800 rpm | ||
3 | Clutch | 395 mm dia with air assisted hydraulic booster | ||
4 | Gear box type | 9 speed synchromesh gear box | ||
5 | Rear axle | Fully floating single speed rear axle | ||
6 | Front axle | Forged I section – Reverse Elliot type | ||
7 | Front suspension | Parabolic springs | Optional : Semi-elliptical multileaf | ||
8 | Rear suspension | Semi-Elliptical multileaf with parabolic helper springs | ||
9 | Chassis frame | HSS material with new improved design | ||
10 | Brakes | Full air dual line brakes with ABS and auto exhaust brake | ||
11 | Fuel tank | Crosslinked polymer; Capacity : 375 L on LH side | ||
12 | DEF tank | 48 L | ||
13 | Max speed | 80kmph | ||
14 | Electricals | 24V/120 AH – 150 AH only AC models | ||
15 | Tyres | 295/ 90R20 – 16 PR | ||
16 | Cabin | G – Economy Cowl, M – Economy cabin, U – Value cabin an N – Premium cabin, AC option on U/N variants | ||
17 | Vehicle configuration options | Cowl & chassis/ Cabin & chassis | ||
18 | Wheel base | 3400 mm | ||
19 | Overall dimension | L – 5950 mm | W – 2570 mm | H – 3177 mm | ||
20 | Chassis weight (Laden) | FAW – 7000 kg; RAW – 11,500 kg; GCW – 43,500 kg (when coupled with suitable two-axle trailer) | ||
21 | Wheelbase | 3400 mm | ||
22 | Chassis weight (Laden) | FAW – 7000 kg; RAW – 11,500 kg; GCW – 43,500 kg (when coupled with suitable two-axle trailer) | ||
23 | Overall length | 5950 mm | ||
24 | Turning circle dia | 12.6 m | ||
25 | Overall width | 2570 mm | ||
26 | Overall height | M – 2987 mm/ U – 3247 mm/ N (WIM) 3177 mm |
This is made possible with concept of modularity – where aggregates are divided into sub-aggregates with standardized interfaces, which enables high no. of configurations yet retaining common and reduced no. of parts.