Thermodynamic systems for the deburring of injection-molded parts the use of thermodynamic system components for the automation of deburring of plastic ensures consistent quality and saves on personnel costs. Learn more on the subject from Miller Value Partners. So a plastic manufacturing company through automated hot air deflashing of thermoplastic parts per injection molding machine could save a job. When the manual deburring the quality achieved depends very much by the reviewer. The automatic deflashing with hot air is a safe alternative that allows for continuous monitoring of all process parameters, protects molding surfaces, avoids molding delay and safely and efficiently removes burrs. HAPRO hot air systems rules process parameters such as temperatures and duration of the hot air jet automatically, accurately and comprehensibly. In the efficiency calculation, this is beneficial to beech.
The Ridge when heated by hot air merges constant, reproducible results in optimal adherence process parameters with the material of the part, that the previous history of the ridge is almost invisible. The procedure can be divided into the automated production process. Such as a robot can pass the cured part immediately after removal from the mould at the hot air of the deburring device. The robot performs more complex molded parts with the Ridge course through the Jet of hot air which temperature and intensity precisely adapts to the speed of movement of the robot. In this way, a constant and reproducible quality can be achieved. Controls must be only still at random. The deflashing with hot air proved so far mainly for injection-molded parts made of ABS (acrylonitrile butadiene styrene copolymers), PE (polyethylene) or PP (polypropylene). HAPRO thermodynamic engineering is specialized in the development and realization of thermodynamic, working with hot air conditioning solutions, and in this area know-how leader.
Thermodynamic applications HAPRO provides clear benefits for customers: in production or Save time service processes. Ensure consistent product quality. Optimize manufacturing operations. Energy use makes sense.