All-Electric PX Series
Newly Introduced at K 2016
At K 2016 KraussMaffei Technologies, Munich, Germany, introduces the new all-electric PX machine series. According to the manufacturer, the new series features an unprecedented combination of the advantages of an all-electric injection molding machine with maximum modularity. Processors benefit from high precision, productivity and flexibility in all production phases. K 2016 will feature the launch of the all-electric toggle machine with clamping forces from 500 to 2000 kN. It was conceived and designed with flexibility in mind, and this extends over the entire service life from the purchase to everyday production to retrofitting. The tried-and-tested modular concept of the KraussMaffei hydraulic series was thus transferred successfully to the all-electric PX.
"Until now, customers have most often been forced to decide between low-budget and high-end designs. KraussMaffei is now presenting the first all-electric machines on the market, which the customer may tailor to its specific manufacturing needs in the modular principle in the hydraulic area. This includes, for example, larger platens, faster injection speeds, more ejector force or the ability to be operated with food-grade NSF H1 lubricants," explains Dr. Hans Ulrich Golz, Managing Director of KraussMaffei and President of the Injection Molding Machinery segment at the KraussMaffei Group.
Wide Variety of Variants
The great adaptability is demonstrated by two essential features of the series. First, the injection and clamping unit can be combined individually from a wide range of variants. Secondly, versions of the PX come standard with the larger platens of the respective next higher clamping force. These intermediate models are identified using odd numbers, i.e. PX 51 to PX 161. The larger clearance corresponds to an increased maximum mold weight, approximately 750 kg for the PX 51 compared to 450 kg for the PX 50. Since the machine bed of the PX is split, clamping and injection units can also be combined as necessary. Large clamping units, small injection units – In production, this means that no more space is taken up than what is absolutely necessary for the production order. There are five high-performance injection units available for each clamping unit. Each injection unit has its own performance level and can be fitted with one of three to four different screw diameters.
The basic properties of all-electric machines have been set up to meet the desire for flexibility, since electric motors function independently of each other. This allows for any number of processes to run in parallel, ensuring high speeds. The three main axes of the PX for the injection unit, plasticizing unit and clamping unit are driven by air-cooled servomotors, making the PX exceptionally economical in terms of energy and water consumption. All servomotors also work in what is called "recuperative mode," where brake energy is converted back into electricity. As a result, up to 60 percent of the brake energy can be temporarily stored and used by the machine itself or fed back into the power supply.
The slave axes of the PX, meaning each axis for the injection unit and ejector movements, operate using servohydraulics in the default version. The initial movement takes place via two parallel injection unit barrels because this enables nozzle contact forces to be built up very quickly and free of lateral forces, unlike the movements carried out with only one electric barrel. For particularly high material throughput, for example in the case of thin wall injection molding, there is an option for increasing the injection speed for the PX to more than twice the normal speed, thereby increasing the plasticizing output significantly. The injection unit can be set up to swivel in order to make it easier to change the nonreturn valve or replace the screw.
Clamping Unit: Geometry, Force and Speed
"Three things matter when it comes to the clamping unit: geometry, force and speed. In all three areas, the PX offers options for coordinating the machine to meet individual requirements", explains Dr. Golz. As already mentioned, the size of the platens can be increased with the odd-numbered intermediate models, meaning that the entire machine bed of the machine that is next in size is then used. This ensures that the high mold weight receives the necessary linear support. Thanks to the extremely wide support of the moving platens on linear guides, a precise parallel movement is always achieved. The tiebars are released and thus are always free of lubricant and clean. The clamping unit bed has been designed so that the entire area under the clamping unit, lengthwise and crosswise and all the way to the floor, remains free for failure and parts logistics. As a result, parts containers or conveyor belts can be rolled under the machine very easily and practically, without any cross-beams getting in the way. The maximum mold height can, if desired, be increased to 100 millimeters more than the respective standard version. For instance, it can be increased from 450 to 550 mm for the PX 120. The mold height adjustment itself takes place automatically.
Regardless of whether they use hydraulic or electric power, ejectors need plenty of force for parts that shrink onto the cores. This is why the product range provides an option to increase the ejector force by 50 percent. For projects with aggressive cycle times, there is an ejector speed of 700 mm/s as opposed to 350.
KraussMaffei Technologies GmbH
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