Industrial robots have one particular disadvantage in that their complexity demands a lot of expertise and experience from the programmer.
One might easily assume from these brief descriptions that difficult tasks are best performed by the industrial robot. Is that in fact the case? Not necessarily, for much depends on the actual application.
Here are two examples:
A production cell for a multicomponent screwdriver consists of two two-component injection moulding machines linked by means of an ERC 63/2-C linear robot. The tiebarless machines are joined together not only mechanically – by a gantry – but also via a software package linking the two control systems. Both injection moulding machines are equipped with an 8+8- cavity Combimelt mould. In the first machine, the screwdriver blades are placed in the cavities of station 1 and encapsulated with a handle core of PA. The parts are then transferred to station 2, where the handle cores are overmoulded with PP. The linear robot then transfers the semi-finished parts to the second machine, where the handle layers 3 and 4 are added.
This production cell consists of two Engel injection moulding machines equipped for unattended operation. The parts are welding fittings for pipe systems. In the first stage, metal cores are placed in the cavities and encapsulated with the core material for the heating coils.
The parts are then transferred to the second machine for completion. Industrial robots have been selected for this application because many tasks have to be performed – sprue removal, fitting of the heating coils, functional tests, packaging of the finished parts – in addition to the actual placement, transfer and removal of the parts during the moulding cycles.
When it comes to automating an injection moulding cell, a combination of both types of robot is often the best solution. The linear robot takes care of the insert-placing and parts-removal operations and then hands them over to the industrial robot for downstream finishing and/ or assembly. In one respect, however, the linear robot is far superior to any industrial robot.
As the industrial robot must always move all six of its axes, even when moving its gripper head along just one axis, it can never achieve the speed of a linear robot. It is for this reason that for fast cycling applications – for the production of packaging containers, for example – only linear robots are used.
When designing and equipping injection moulding cells, Engel’s automation specialists always follow the same basic rule: the choice of robot must be of maximum benefit for the actual application.
Industrial or linear robots