Ser­voSpindlePress­es are dri­ven by high-pre­ci­sion ser­vo-axes and are – thanks to their design type and spe­cif­ic sen­sors and con­trol­ling func­tions – the most pre­cise and dynam­ic press­es of any on the mar­ket. The dri­ve con­sists of only a few mechan­i­cal com­po­nents. Changes in ram posi­tions, stroke heights and the kinet­ic ram func­tions are exe­cut­ed by sim­ple para­me­ter mod­i­fi­ca­tion. This pro­vides a wide range of appli­ca­tion for almost any use.

• Max­i­mal press force is avail­able along the entire stroke range
• Reduced ton­nage by indi­vid­ual dis­tri­b­u­tion of force com­po­nents
• Slight vari­a­tions in tol­er­ances and reduced die wear
• Arbi­trary stroke loca­tions and heights, wide vari­ety of dies
• Increase in stroke num­ber as a result of indi­vid­ual motion seg­ments
• More effi­cient prod­uct devel­op­ment
• A wide range of parts can be pro­duced
• High cut qual­i­ty through high-pre­ci­sion ram par­al­lelism con­trol

Mul­ti­pleStage­Press are equipped with all of the tech­ni­cal advan­tages of the Ser­voSpindlePress­es, but are par­tic­u­lar­ly suit­able for com­plex tech­niques. Thus, for instance, when they are used as trans­fer or mul­ti­ple-die press­es, the sup­ple­men­tary axes are moved inde­pen­dent­ly by means of ser­vo dri­ves. This way, their flex­i­bil­i­ty can be made use of for future appli­ca­tions. In com­bi­na­tion with the auto­mat­ed quick-change sys­tem, prod­uct changes can be exe­cut­ed quick­ly, and idle times can be reduced as well.

• Max­i­mal ton­nage avail­able along the entire stroke range
• Press forces can be dis­trib­uted with­in the die
• Arbi­trary stroke loca­tions and stroke heights, large vari­ety of dies
• Increased num­ber of strokes through indi­vid­ual motion seg­ments
• More effi­cient prod­uct devel­op­ment
• A wider range of parts can be pro­duced
• Top cut qual­i­ty by high-pre­ci­sion ram par­al­lelism con­trol
• High­ly com­plex parts can be pro­duced with sup­ple­men­tary oper­a­tions