Before you buy a konjac drying machine, you should know a few things. Here’s a quick guide to its functions and structure. Read on to find out what to look for and how to choose a machine that’s right for your business.
Also, remember to ask for references and get the latest price list.
Once you have made up your mind, you can proceed to the next step. Here are some helpful tips to get you started:

Features
One of the features of the Konjac drying machine production line is that it can produce a thin film made of dried grated konjac.
Depending on the thickness of the thin film, it can have a non-uniform shape.
Once the thin film is dried, the product can be sliced or shaped into small pieces.
The dried product can be a variety of colors and textures, including a reddish brown color.
After the condensed mixture is dried, a thin film is formed on a support.
This thin film is controlled to the desired thickness depending on the amount of konjac fragments in the layer.
During the drying process, the konjac fragments are broken into smaller pieces and aggregate.
The dried pieces are then pressed into strips. In this way, the dried konjac fragments take on different shapes.

Functions
The Functions of Konjac drying machine ProductionLine include:
1. Dewatering, threshing, and removing water content. During this process, normal konjac is sliced into 1 mm or less pieces, and dried at 60 degrees C.
The resulting thin film pieces have a moisture content of ten percent to eleven percent.
The dried product is about 155 g.
First, the mixture layer is formed. This layer consists of raw konjac fragments of various sizes, aqueous medium, and a support.
Once the drying process is complete, the thin film forms a dry, thin layer, which is estimated to form the Gan Zao Bo Mo wo (Ghi Chi Ti no), Bo Mo Hua (Bo Mo Pian wo), and Bo Li Gong Cheng to.

Structure
A typical konjac production line includes a dehydrator and grinder. The konjac is sliced into a thin, uniform sheet and dried at 60 degrees Celsius.
The final thickness of the dried konjac is 0.05 to 0.1 mm. It is then returned to the drying process using hot or cold water.
The thickness of the resulting sheet is one to two millimeters, or one to ten times thinner than the original konjac.
Once the mixture is dried, the mixture is divided into thin layers. The drying surface of the support 2 has a flat surface.
On the other side of the flat surface is an open surface that has an uneven shape based on the dried konjac fragments.
These dried thin films are then ready for further processing. The finished product is known as a korerawo.
The resulting dried thin film is then stacked on the drying surface.

Cost
A konjac drying machine production line is designed to produce a variety of dried konjac pieces in varying thicknesses and shapes.
Depending on the machine, these pieces can be in the form of a crescent, peninsula, string, or zigzag.
The cost of a konjac drying machine production line depends on its features and its usage.
The following are the common features of a konjac drying machine production line.
First, the raw materials must be cleaned and cut to fit the machine. Next, the konjac must be dehydrated.
This process can be done in a variety of ways, but a high-quality dewatering machine can dewater the konjac by about 90%.
The dewatering process can be done at various temperatures, with a temperature of 60 degrees Celsius being optimal.
The next step in processing the konjac is grinding.

Application
The process of producing dry konjac thin film involves a series of steps. First, moisture is removed from the mixture layer.
Then, raw konjac fragments are split into small fragments, each with a different amount of moisture.
Then, the thin film is spread on the drying surface of support 2.
Then, the conglomerated and dried pieces of konjac are stacked on the support surface.
Afterwards, the thin film is peeled off from the support layer, resulting in an uneven shape.
Next, the dry konjac thin film piece is crushed. Then, each piece is given a different shape, such as a flake or grits.
The shape of the thin film piece is unique and reflects its texture. Its texture and appearance are then improved by the application of various processes.
The process ends with a dried, thin film piece that looks as though it has a three-dimensional texture.
