Machines for Unit Soles
Headline Polyurethane 1 Pouring Manually operated pouring system Pouring Bridge Outrigger Beam self-cleaning mixing chamber without the use of solvents exact adjustment and control of the mixing conditions precise adjustment of the mixing gap for any pu-material exact adjustment of the screw position for mixing and cleaning operations fast screw clamping system setting of individual throughputs for every mould bulk filler dosing system for pu-waste, cork or granulated material and/or powder colour dosing units for dosing of up to 4 colours directly into the mixing chamber flexible production with 2 or 3 main components mixing screws and mixing chambers for throughputs of up to 120 g/s Colour changing from shot to shot: high flexibility due to precise colour dosing quick colour change from shot to shot quick exchange of colour carts for additional colours possible
Automatic pouring system Sole production in a cycle of seconds DESMA S 511 rotary table desma S 511/60 with 60 stations for different applications including desma s newest polyurethane mixing technology < manual swivelling of clamping units < automatic swivelling of clamping units (optional) < direct soling onto shoe uppers (optional) casting unit with dosing system for granulated filler and descan control
Polyurethane Pouring Robot-guided pouring system TOP PERFORMANCE all-in-one-control for robot and machine pictures lead the way to all important machine functions simple and easy operation quick trouble-shooting through self diagnosis of the complete system teleservice on all important machine functions all desma pu pouring heads are self-cleaning and do not require any type of solvent flushing
Granulate Dosing (optional) Adding various types of granules directly into the mixing chamber ECONOMIC ADVANTAGES pu waste can be fed back into the stream of poly and iso through the granulate system material waste is reduced to an absolute minimum due to high precision machine operation clean, reacted pu waste (or cork and others) may be dosed with liquid polyurethane components in an environmentally friendly process
Rubber Rubber pouring process of half pair rubber soles TOP EFFICIENCY The desf low pouring process is an innovative solution for optimum production conditions: pouring rubber compound in open moulds production without runner systems low thermal and mechanical stress on the rubber compound during the filling process easy placing of inserts into the mould pouring of thin tread soles use of cost-effective aluminium moulds inner screw temperature regulation option: cover plate swivelling
Concept for pouring and injecting for pairs of rubber soles HIGH OUTPUT AND QUALITY Pouring Concept pouring one pair per cycle simple mould changes flexible production middle plate for compressing insert parts ultra-sonic pouring stroke measuring Injection of Rubber production of 1 pair of 1-layer soles production of 1 pair of 2-layer soles or 2 pairs of 1-layer soles reduced cure time as the compound is injected close the scorch temperature homogeneous sole properties in fully reproducible quality injection with individually adjustable parameter depending on the compound and the mould geometry ultra-sonic pouring stroke measuring
KLÖCKNER DESMA Schuhmaschinen GmbH Desmastr. 3/5 28832 Achim Germany Our current terms and conditions apply to all business fields. The contract entered into between DESMA and the customer is legally binding in regards to product. Details shown in this brochure do not guarantee certain characteristics or operational possibilities. They are to be taken as general information, and may also differ. The products shown are to be seen as possible production alternatives. The illustrations may show products which have been developed to customer s individual wishes and are may be only available as individual customer solutions. Products shown in this brochure may show special extra features which are only available at extra charge. Details as to delivery contents, appearance and service as well as measurements and weights are correct at time of printing. Changes may be made at any time. With publication of this issue, all previous issues lose their validity. info@desma.de www.desma.de