Three main types of concrete mixing plant
After decades of development, the concrete mixing plant has derived different models and types for customers to choose. Customers can choose the appropriate mixing station according to the site, production requirements and other aspects. This chapter introduces three types of mixing stations.
As an important production equipment for concrete, it can be said that the volume of concrete mixing plant is large, and whether the way of placement is reasonable determines the speed of work efficiency. At the same time, it is also related to the increase or decrease of the user's investment cost. Therefore, the layout of the concrete mixing station is also very important. It plays a very important role in both investment and production.
First: In the vertical concrete mixing plant, the production of aggregate only needs to be lifted once, and then dropped to various processes by its own weight. At present, the advantages of this type of concrete mixing station equipment are high efficiency, small footprint, easy to implement automation, and so on. However, its disadvantages are complicated structure, high manufacturing cost and high installation height.
Second: In the horizontal concrete mixing station, the material of this station needs to be lifted twice. The material is first lifted to the storage hopper, and then the material is weighed and then added to the mixer again. The advantages of this type of concrete mixing station equipment are the advantages of simple structure, low investment and small building height. However, the disadvantages are that the material needs to be upgraded twice, the efficiency is low, and the degree of automation is low. This method is a form of domestic application.
Third: fast-moving concrete mixing plant. This type of mixing station combines the loading, storage, weighing, mixing and unloading devices on the same base. The advantage of this type of concrete mixing station equipment is that it has a compact structure, is easy to handle, and can be directly close to the construction site, thus reducing the concrete transportation distance and improving economic performance. However, its shortcomings are that the production volume is small, the pollution control intensity is small, and high standards or special concrete cannot be hit.
