TARTLER presents a new dosing mixing head for high-precision small-quantity application
TARTLER’s new dosing mixing head LV 2/2 is designed for the high-precision processing of low-viscosity components and their pinpoint application in smallest quantities. It is specially designed for demanding quality applications in electro casting and adhesive technology.
With its new LV 2/2 dosing mixing head, plant manufacturer TARTLER offers yet another innovation for the high-precision and repeatable small-quantity application of multi-component resins. Particularly users in electro casting and adhesive technology who need to apply low-viscosity resins and hardeners in tiny droplets with a high degree of accuracy will find a pioneering application solution in the new LV 2/2. Shot sizes of just 1.0 grams and mixing ratios from 100:20 are possible. An integrated weighing cell monitors the shot accuracy.
At TARTLER, things never stand still. The company based in Michelstadt presents processors of synthetic resins with a new innovation for fully-automated dosing and mixing technology or vacuum-supported filling technology almost every few weeks. The latest development entered series production just a few days ago: the new dosing mixing head LV 2/2 for the high-precision processing of low-viscosity components and their pinpoint application in tiny quantities. It is specially designed for demanding quality applications in electro casting and adhesive technology. Typical areas of application are, for example, the grouting and sealing of tiny electrical/electronic construction elements or the adhesion of small magnets into the rotors of compact E-Mobility drives. The new LV 2/2 enables the mixing of resins and hardeners with viscosities ranging from 50 to 20,000 mPas as well as the pinpoint and repeatable dosing of tiny shot quantities ranging from 1.0 to 10 grams. Depending on the pump type used, the user can achieve mixing ratios from 100:5 to 100:20 with TARTLER’s LV 2/2. At the customer’s request, TARTLER can also realise other, individual mixing ratios.