Why choose a 3-in-1 dehumidifying dryer
The current dryers on the market have single functions and unsatisfactory effects. Many functions are also impossible to achieve. Here is a three-stage integrated dryer that integrates dehumidification, drying and feeding. Its appearance is simple and easy. Configuration, high performance.
So what are the functions of the three-stage integrated dryer? First of all, each dryer is equipped with a standard hot air recovery device, which saves energy, no hot air dust is discharged, and protects the environment. It is equipped with a standard material-breaking suction box to ensure that there is no residual raw material in the pipe; the heat-insulating and heat-preserving barrel is designed with a downward blowing type to ensure no heat loss and improve drying efficiency. It also has a closed loop device, which cuts off external air from entering the system to avoid moisture regain after the raw material is transported.
It also has a non-thermal regeneration device, which can provide low dew point dry air and speed up the processing speed of raw materials. Standard electronic temperature control system can save energy and reduce costs. There are also multiple protection devices.
In the dehumidifying and drying part of the dryer: the drying effect is achieved through "pressure changes". Since the ability of air to hold water vapor is inversely proportional to pressure, part of the dried air is decompressed and expanded to atmospheric pressure. This pressure change makes the expanded air dry, and then allows it to flow through the desiccant layer that is not connected to the airflow. The dry regeneration air sucks out the moisture in the desiccant and takes it out of the dryer to achieve the purpose of dehumidification. The two towers work in cycles without a heat source and continuously provide dry compressed air to the user's air system.
The suction part: the raw material is sucked into the drying barrel from the storage barrel or other storage container. When the magnetic reed switch of the vacuum hopper detects that there is no material, the suction motor rotates, causing a vacuum in the vacuum hopper, and the storage barrel The raw material is sucked into the vacuum hopper due to the air pressure difference. When the suction time is completed, the suction motor stops running, and the raw material falls into the drying barrel due to its own weight. The dried raw materials are pumped from the drying barrel to the electric eye hopper or other hoppers installed on the injection molding machine.
Are these functions more diversified and better, so you must choose a three-stage integrated dryer to buy a dryer.
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