Gergen GRK 6/40 Specifications & Technical Data (2006-2010)

Lifting force: 60kN – Construction type: S – Max. container length: 4m – max. total weight: 10t – Axles: 2 – Model series: GRK

Technical specs - GRK 6/40 Gergen

Specification

Notice: Every data listed is verified by LECTURA Specs team experts. However, incomplete data and mistakes might occur. Contact our team with any change suggestion.

Lifting force
60 kN
Construction type
S
Max. container length
4 m
max. total weight
10 t
Axles
2
Model series
GRK

More technical details, like: max. hook height, max. container volume are available in the full technical specs.

Basic unit, unmounted K = articulated hook arm, SZA = semi-trailer, KO = combination of articulated hook arm and winch for slip-off/roll-off container, S = thrust hook arm, SK = articulated thrust hook arm, SiloT = silo transporter

Special equipment

telescopic
No
with add. articulation
No
3-way tipping device
No

Carbon footprint calculator for Roll-off Tippers

Use the ERA equipment CO2 Calculator to estimate the CO2 emissions per hour of use of the Gergen GRK 6/40 or alternative Roll-off Tippers.

The carbon emission calculation can be carried out using different energy consumption scenarios or other variables.

or go to the ERA Equipment CO2 Calculator to find out how to optimise your CO2 emissions.

service provided by ERA — European Rental Association

Transport

Roll-off Tippers Transport & Shipping Services

In case you look for a transport your machine, take advantage of our services. Query the most appropriate transport quotes for Roll-off Tippers built on dimensions and weight. Our partners provide major services to satisfy your demands.

Data provided by Lectura logo

Events & News

Lifting and access News by LECTURA 09.10.2024

Surprisingly simple

Surprisingly simple

When faced with erecting the world’s first Potain MDLT 1109 cranes, the largest topless cranes ever produced from Potain in Europe, Manitowoc technicians Cyrille Giamello and Massimo Rizzo braced themselves for a complex task, which was far easier than expected.