ATECPlastics.com

Cabinet dryers are mostly used for simultaneous drying of different kinds of polymers in small quantities or for drying materials for trial moulding. They are also found applications in electronics, electric machinery, electroplating, pharmacy, paint baking, printing industries, etc. for preheating or drying related products.

Features

Accurate P.I.D temperature control to achieve an even drying effect.
Air-proofed insulating door can maintain temperature constantly inside as to reduce energy consumption.
Stainless steel tray and liner bring no contamination to materials.
Optimizing design for ease of maintenance and servicing.
Designed flexible and adjustable air inlet and exhaust.
Overheat protector can prevent excessive drying.
Motor overload relay.
Ampere meter and main switch installed on control panel.
24 hours timer, easy to operate.
Visible alarm to indicate emerging troubles.
Tray size and inner dimensions of the dryer can be specified according to requirements.

Specifications :

Model Pipe Heater Blower Power Temperature Range Number of Trays Total Tray Capacity Outer Dimensions Inner Dimensions Weight

kW kW �C kg HxWxD H1xW1xD1 kg

CD-5 4 0.37 250 5 50 1200x800x610 660x600x550 148

CD-9 4.5 0.37 250 9 100 1440x800x610 900x600x550 178

CD-20 9 1.5 250 20 200 1700x1210x860 1000x990x800 415

CD-20L 18 1.5 200 20 350 1865x1800x1060 1200x1600x1000 550

We reserve the right to change specifications without prior notice.

Outline Drawing		Working Principle Illustration
For cabinet dryers, materials to be dried are placed on the stainless steel moveable material trays. During operation, process air will flow to heating coil and be heated up to required temperature, then flow through a manifold with evenly scattered holes. Moiture air is sent out through air exhaust port. Designed to achieve uniformed dying effect.