High energy input (BTU's) = Fast drying? FALSE.

High airflow (CFM) = Fast drying? FALSE.

Optimum balance between energy input (BTU's) and airflow (CFM) = Fast drying? TRUE.

UniMac has achieved fast drying times by designing a perfect balance between energy input and airflow.

Energy-Efficient Design

The balance between drying temperature and airflow is necessary because too much energy put into the load causes linen fibers to be damaged and fabric life reduced. If there is to little energy, additional drying time is required thereby increasing labor costs. UniMac's enclosed heat system captures intake air and preheats it before entering the combustion chamber. This results in lower energy costs without increasing drying time.



 

Additional Features

Microprocessor Control - Flexibility in drying laundry loads is a breeze when variables such as time, temperature and dryness level can be programmed to meet the exact needs of your laundry operation.

Reversing Cylinder - A reversing cylinder is standard on the UniMac Fast Dry. The tumbler can be operated with this option on or off.

Steel Door Construction - Our heavy duty door and hinges stand up to the toughest laundry conditions times and time again.

Belt-Belt Drive - An all-belt drive system with cast iron pulleys and permanently sealed ball bearings for quiet, low maintenance operation.

Cart Bumper and Kick Plate - A durable cart bumper and kick plate help protect tumbler fronts from possible scratches and dents.

Ergonomic Engineering - Features such as our large door opening placed approximately 32" from floor can make loading and unloading easier for employees.

Precise Airflow Pattern and Rate

Precise airflow is required to carry the heat to the load. Too much airflow forces the heat through the dryer before the heat can be absorbed by the linens. Proper absorption of the heat by linens enables them to dry quickly and evenly, thereby shortening overall drying time. Our design pulls air through the linens at the point where they fall freely to the bottom of the cylinder, maximizing energy utilization.