优点
● 开孔率高,同等网孔,该筛网设计成非平面的“山脊”形状,增加筛网的筛分面积,使筛分效率加倍。
● 与原始筛网相比,该筛网使滤水性能加倍,高效脱水、脱介。
● 标准模块生产,使用安装销连接安装。
● 可根据客户要求设计孔径。
● 方园驼峰立体筛网表面的筛孔增加,提高了筛机的处理量。筛孔植入到“山脊”的表面,分布于整个筛网表面中。
● 如果驼峰网的“山脊”被放平,那么筛网的宽度将会增加很多。带“山脊”筛网在相同的长宽情况下,筛分面积增大50%。
● 驼峰网注塑形成,确保表面整齐,筛孔均匀。在生产工艺上采用数控注塑机器,确保整个过程在最佳的生产条件下进行,此工艺生产出来的筛网,筛孔大小均匀且耐磨。
Advantages
● High opening rate, for the same screen area, the screen panel is designed as a non-plane "ridge" shape, which increases the screening area and doubles the separation efficiency.
● Compared with the original screen, the screen doubles the water filtration performance, and effectively dehydrates and degrades.
● The screen panels are produced with standard modules, connected and installed with installation pins.
● The apertures can be designed according to the customer's requirements;
● The screen holes on the non-plane hump-shape screen surface are increased, which improves the processing capacity of the screen machine. The meshes are implanted into the surface of "ridge" and distributed in the whole screen panel surface.
● If the "ridge" of the hump net is flattened, the width of the screen will increase a lot. Under the same length and width condition, the screen area with "ridge" increases by 50%.
● The hump-shape screen panel is formed by injection molding to ensure the surface is neat and the mesh is even. The Numerical Control injection molding machines are used in the production process to ensure that the whole process is carried out under the best production conditions. The screen panels produced by this process have uniform mesh size and wear resistance.
驼峰网的完美设计目前已经在铁矿、煤矿及锌矿的脱水应用中取得了重大成功。除了增加筛网表面面积及开孔面积,突出来的“山脊”部分还能增加脱水的效率,使物料中携带的水分更容易散失。这些“山脊”使物料落下的瞬间就分流,原本紊乱无章的物料被分进每个导流槽之间,导流的两侧有筛孔的存在,筛分面积增大,增加了筛网的脱水性能。另外,在筛分过程中,精细物料会下沉在筛网表面,“过滤垫”作用仍然得以保持,不会使超细粉不会流失,附着于筛网表面。
应用
铁矿、煤矿及锌矿等金属及非金属脱水、脱介。
At present, the perfect design of hump-shape screen panel has achieved great success in the dewatering application of iron ore, coal mine and zinc mine. In addition to increasing the surface area and opening area of the screen, the protruding "ridge" part can also increase the efficiency of dehydration, making the moisture carried in the material more easily lost. These "ridges" make the materials flow apart at the moment of falling. The disordered materials are divided into each diversion groove. There are sieve holes on both sides of the diversion, the screening area increases, and the dewatering performance of the screen panel is increased. In addition, in the screening process, fine materials will sink on the screen surface, "filter pad" function is still maintained, will not make the ultra-fine powder will not be lost, they attach to the screen surface.
Application
Iron ore, coal mine, zinc mine and other metal and non-metal dehydration and demineralization.