Contact: Mr. Zhu
QQ number: 13722766
Enterprise mailbox: firstname.lastname@example.org
Address: Shuangxu Road, Chengbei Industrial Park, Jiangdu District, Yangzhou City, Jiangsu Province
First, KM series high wear resistance slag discharge valve
Our company performs wear failure analysis on the typical valves used in mines and thermal power plants. The independently developed KM series of high wear-resistant slag discharge valves have solved the inflexible operation, poor anti-wear performance and service life of similar valves produced in China. Short-term issues, suitable for large-scale mines such as magnetic separation, micro-separation, tailings and other liquid-solid (wet), gas-solid two-phase (dry) media and coal-fired power plants wet and dry ash removal systems, and Applicable to chemical process system corrosion-resistant pipeline process parts. Regardless of the structural design or the selection of materials, this series of valves are based on the basic design philosophy and selection principles of resistance to abrasive erosion by media, so they have a high degree of advancedness and high wear resistance. At the same time, in order to meet the needs of the application site, the valve uses a variety of drive methods, including traditional handwheel, electric actuator drive, hydraulic drive, electro-hydraulic drive and so on.
Main performance characteristics of KM series valves
具有 It has excellent anti-wear properties. The valve body is made of new anti-wear alloy materials in the easy-wear parts;
特殊 The valve body outlet adopts a special streamlined design, which does not accumulate slag during use.
(3) Flexible opening and closing, the transmission mechanism adopts suspended spiral pay, double thrust bearing support, making the operation more flexible and convenient.
阀 The valve plate adopts a wedge-shaped locking form, which is tightly locked and does not leak.
采用 Adopting polymer polyurethane elastic soft sealing surface to improve sealing effect.
Note: can be customized according to customer needs.