曲線溜槽系統采用DEM離散元模型，通過計算流體力學、并進行有限元進行流動特性的驗證，控制物料流動。對于散料轉運過程中普遍存在的揚塵、堵料、沖擊大等問題效果獨特。對于減少轉運過程物料塊的破碎具有良好的效果。

The curved chute system adopts a DEM discrete element model, which verifies the flow characteristics through computational fluid dynamics and finite element analysis to control material flow. The effect is unique for the common problems of dust, blockage, and large impact during the transportation of bulk materials. It has a good effect on reducing the crushing of material blocks during transportation.

落料管DROPPING PIPE

控制物料流動速度在一定范圍，減少誘導風及揚塵產生，物料沿著落料管流動，形成集束，減少細小顆粒擴散到空氣中形成粉塵的幾率；

物料無沖擊地流動，物料之間和物料與管壁無碰撞，同時也減少落料管的磨損，延長內襯壽命數倍。

Control the flow rate of materials within a certain range to reduce the generation of induced wind and dust. The materials flow along the discharge pipe, forming clusters and reducing the probability of small particles diffusing into the air to form dust;

The material flows without impact, and there is no collision between materials and the pipe wall. At the same time, it also reduces the wear of the feeding pipe and extends the service life of the lining several times.

導料槽GUIDE GROOVE

在所有導料槽內部加裝抑塵擋簾，防止空氣直線運動，從而使浮塵脫離空氣沉積下來。大部分粉塵將返回至主要物料層上，不會泄漏到外面；

皮帶落料點處還可加裝皮帶支撐條和雙層防溢裙邊，起到更好的密封作用，防止空氣旋流引起的高氣壓產生粉塵外泄。

Install dust suppression curtains inside all guide channels to prevent air from moving in a straight line, thereby allowing floating dust to detach from air deposition. Most of the dust will return to the main material layer and will not leak out;

Belt support strips and double-layer anti overflow skirts can also be installed at the belt feeding point to provide better sealing and prevent dust leakage caused by high air pressure caused by swirling air.

高耐磨陶瓷金屬復合襯板

HIGH WEAR-RESISTANT CERAMIC METAL COMPOSITE LINING PLATE

高耐磨陶瓷嵌入式設計，提高了襯板的耐磨性能；金屬基結構解決了陶瓷不抗沖擊的特性，兩者完美結合，不論是抗沖擊還是抗磨損，都達到了預期效果。采用鑄造成型工藝，襯板的規格和形狀不受限制，安裝方式也可以根據工況不同而制定，極大的展現出產品的適應性能力。

High wear-resistant ceramic embedded design improves the wear resistance of the lining plate; The metal based structure solves the non impact resistance of ceramics, and the perfect combination of the two achieves the expected effect in both impact and wear resistance. By adopting a casting process, the specifications and shape of the lining plate are not limited, and the installation method can also be formulated according to different working conditions, greatly demonstrating the adaptability of the product.