Kroll Autorobot multifunctional

System

Kroll Autorobot of Finland have developed a

multifunctional system for alignment, repair and

straightening. It can be added to as a workshop

expands, thus catering for both small and large

bodyshops (Figure 14.53).

Autorobot L

For the small bodyshop wishing to invest in a

crash repair system, the system begins with the

Autorobot L (Figure 14.54). This is easily and

quickly loaded using the unique patented sill

clamps. The pulling tower can be used 360° around

the vehicle to be repaired. Multiple pulling positions

around the Autorobot L mean that two or

more pulling towers can be used at any one time

for both minor and major repairs. This system is

mobile and can be moved to any work area in

the workshop easily and quickly. The short bed

allows access for repair and the engine can be

removed while the vehicle is still mounted on

the bed.

Autorobot XLS II

By adding to the Autorobot L with a lift, extra

pulling towers and a measuring system it becomes

the Autorobot XLS II (Figure 14.55). The lifting

unit of this system makes many phases of the job

comfortable, such as the removal of mechanical

parts and the alignment and repair of a damaged

chassis. In addition to this the lifting unit assists

the mounting of the vehicle. It takes only a few

minutes to mount a vehicle on to the Autorobot

XLS II. The four operations are as follows:

1 The vehicle is brought up above the bench on

the drive-on ramp with or without the aid of

a winch.

2 The sill clamps are then moved into place.

3 The straightening bed is hydraulically lifted.

4 Finally the sill clamps are tightened.

The design of the Autorobot allows maximum

accessibility under the front and rear of the vehicle;

therefore all dismantling, measuring and straightening

operations can be carried out with ease.

The measuring system (Figure 14.56) is interchangeable

with all Autorobot benches. A damaged

vehicle body can be straightened to its original

measurements with accuracy and ease using this

system. Mechanical measuring rods are used to

remeasure the chassis and body. All necessary

measuring information for various vehicle models

can be found on the data sheets provided. The overhead

measuring system can help restore the upper

part of the vehicle body to its original shape as on

the data sheets. The system traverses the full length

Figure 14.53Autorobot XLS II showing liftpack servicing four top frames (Kroll (UK) Ltd )

Major accident damage 437

of the vehicle, allowing measurements to be taken

at any point along its length.

III Super

The III Superfeatures five pushing-pulling towers

and multifunction robot arm, all operated

by remote control electrohydraulics. This system

of multitowers allows straightening and counterpushes

combined with holding positions so that

the straightening work becomes easier for the

operator. The straightening system works on a

sliding tower base, allowing the most difficult of

repairs to be carried out (Figure 14.57).

Figure 14.54Autorobot L using lifting crane (Kroll

(UK) Ltd )

Figure 14.55Autorobot XLS II system (Kroll (UK) Ltd )

Figure 14.56Autorobot measuring system used on

the XLS II (Kroll (UK) Ltd )

Figure 14.57Autorobot III Super complete system

(Kroll (UK) Ltd )

Choice of systems

The design concept of monocoque construction

with its crumple zones which absorb energy

through deformation of panel structures, and

the increasing use of high-strength steels, have

made essential the use of repair and alignment

systems even for minor damage repairs. This

has been encouraged by the research carried out

at the Motor Insurance Repair Research Centre

Thatcham, and by the promotion by the VBRA

and the AA of improved standards throughout the

vehicle body trade.

Owing to the wide range available of repair and

alignment systems, it is increasingly difficult to

select any one system, as they each have many

differing advantages. The following are some of

438Repair of Vehicle Bodies

the important criteria to be considered in the selection

of suitable equipment.

1 Suitability for the type of repair work normally

handled.

2 Suitability for the volume of work handled.

3 Availability of initial training and further training

as required.

4 Adequate service and back-up by the

manufacturer.

5 Availability of accurate data information which

should be constantly reviewed and updated.

6 Expected lifespan of the equipment, and the

possibility of it becoming outdated.

7 Mobility, portability and ease of storage.

8 Firm securing of vehicle during repair.

9 Good system of alignment that can be used

without too much dismantling of mechanical

components (dual systems are sometimes

preferable).

10 Multipulling facilities for simultaneous repair

over 360 degrees, and enough pulling power

to cope with HSS.

11 Adjustable working height positions.

12 Adequate holding facilities to allow the welding

in of new panel assemblies.

14.3 Alignment of the modern integral body