The new designed structure of crushing chamber can make discharge clearance adjustable within a large range.
新型设计的破碎腔型结构,可以大范围调整出料间隙。
Said invention can destroy the circulating layer in the crushing chamber, which improves the efficiency of the crusher.
本发明能使粉碎室内的环流层得到破坏,粉碎机效率得以提高。
Jaw crusher wit optimized crushing chamber has high output, high crushing ratio and low steel consumption for jaw plate.
优化破碎腔的颚式破碎机可提高破碎机的产量、破碎比且可降低颚板钢耗。
It is suitable for the design of crushing chamber for single - and double - toggle-plate jaw crushers with upper or lower toggle plate.
它分别适用于肘板上置式、肘板下置式单肘板颚式破碎机和双肘板颚式破碎机的破碎腔设计和老设备改造。
The crushing test on a high-aluminum ore indicates that the crushing performance and capacity are evidently improved by using new type crushing chamber.
通过对铝土矿的破碎试验表明,采用新型破碎腔型,其破碎性能和破碎产能显著提高。
It has provided a new way to prevent dust pollution problem at some fixed dust sources such as in main pass, underground crushing chamber and on surface.
该项研究为防止矿山井下主溜井、破碎硐室等以及地表产尘量较大的固定尘源污染问题提供了新途径。
The crushing chamber adopts wind turbine type high-speed rotary cutter; air quantity in the machine cavity is large, so the machine cavity is not easy to heat up.
粉碎室内采用风轮式高速旋转力,机腔内自身风量大,机腔内不易发热。
Crushing chamber adopts multistage crush process and finely processing principle, its feature is huge impact, high production efficiency and large crushing ability.
粉碎室采用多级破碎流程及细碎原理装置,其特点是工作冲击力大、生产效率高、细碎能力强。
The press is featured in compact structure, advanced technology, low energy consumption, high efficiency, bi-parting structure of crushing chamber, convenient maintenance and repair;
本机是具有结构紧凑、工艺先进、能耗低、效率高、粉碎室为对开式结构,维修保养尤为方便等特点;
The present invention designs a crushing chamber by means of dynamic method, that is, by changing the shapes of fixed and movable jaws to form curved crushing chamber with optimum crushing effect.
本发明在于用动态方法对破碎腔进行设计,即通过改变固定颚板和活动颚板的形状所形成的曲线破碎腔使它有着最佳的破碎效果。
It is proposed that the expansion of chamber is caused by the comprehensive actions of crushing and peeling in repetitive spring blasting.
认为在封闭条件下腔体的形成是冲击压缩作用的结果,而敞口条件下的腔体形成则是压缩作用和冲击剥落共同作用的结果。
It is proposed that the expansion of chamber is caused by the comprehensive actions of crushing and peeling in repetitive spring blasting.
认为在封闭条件下腔体的形成是冲击压缩作用的结果,而敞口条件下的腔体形成则是压缩作用和冲击剥落共同作用的结果。
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