As you all know, the низкотемпературный охладитель is widely used, especially in the mould line. So does everyone know how it works in the mould industry? If you don’t know, let’s have a look with me.

When using the низкотемпературный охладитель to cool the mould, it usually cools the mould together with the injection machine. Generally speaking, the mould is quite a heat exchanger. Heat is transferred from melting to the mould, and then from the mould to the cooling medium for cooling. As we all know, mould forming is inseparable from cooling function. When choosing the низкотемпературный охладитель, we should try to choose the низкотемпературный охладитель with better quality and higher cost. The relative operating power is higher. Compared with the ordinary низкотемпературный охладитель, it can increase certain output and obtain certain benefits in a longer period of time.
 

In the practical application of the низкотемпературный охладитель and models, the temperature difference of ice water at the inlet is determined according to the requirements of products. In many cases, the temperature difference of 3-5 degrees is more ideal. The smaller the temperature difference, the larger the ice flow needed to take away the same heat. On the contrary, the smaller the ice flow needed.

Also, when using the низкотемпературный охладитель, it is necessary to constantly check the water quality of the низкотемпературный охладитель. Once the water quality changes over a long period of time, it will produce some corrosion phenomena. If not handled in time, it will produce scale, which can produce certain insulation effect. In serious cases, it will reduce the effect of conversion. Therefore, when configuring the низкотемпературный охладитель, it will produce some corrosion phenomena. Water quality must be selected well. In addition, scales can be treated regularly in time or equipped with water treatment softening equipment.

In the process of using the низкотемпературный охладитель for cooling, it is necessary to select the pressure of ice water. Another point is that the pipeline of the низкотемпературный охладитель must be insulated and heat-insulated, otherwise it will cause the loss of cooling capacity and form condensation water on the outer wall, which will affect the use of the низкотемпературный охладитель.