Reliable cone crusher with crushing capacities varying from 120 to 300 mt/h. Roller bearing design, superior hydraulic system, dynamic CSS.
The design of cone crushing cavity is various, customers could choose different cavities according to different needs. The jaw crusher equipment is for a variety of hard rock crushing, mainly for coarse and medium crushing.
Multi cavity design. HST Single Cylinder Hydraulic Cone Crusher has a variety of crushing chambers to choose from, fully meeting the requirements of two stage crushing, three stage crushing and four stage crushing. High Machining Accuracy.
>> Unique design of thin oil lubrication system prolongs life time of the crusher, high performance and not touchable labyrinth airproof part block off dust and remove common disorders like mixture of oil and water in spring cone crusher. 6. Various crushing cavity.
Cone crushers are suitable for all demanding crushing needs. Cone crushers are very suitable for size reduction and shaping in the downstream of a crushing circuit. They reduce the material in a crushing cavity by continuous compression between a fixed element and a moving element .
The AF cone crusher is a compressive crusher where feed material is crushed between a fixed concave and a movable mantle. Bigger rock particles are crushed against the mantle and concave. This is called single layer crushing. When smaller rock particles are crushed between other rock particles, it is called multilayer crushing.
14/02/2018· Cone Crusher Design. When the brothers invented the cone crusher over 60 years ago, they employed the principle wherein the length of the crushing stroke was related to the free fall of material by gravity. This permitted the material being crushed to fall vertically in the crushing chamber; and in effect caused the particles to be ...
11/02/2020· There are a few design limitations in each cone crusher: the volumetric limit, the horsepower limit and the crushing force limit. Volume limit Regarding the volume limit, each crushing cavity has a volumetric limit that determines maximum throughput and a choke fed crusher is operating at its volumetric limit.
The cavity design eccentric speed and throw of the hydrocone are equivalent to the Cone Crushers. The need for increased crushing capacity within the volume or space occupied by existing crushers was one of the objectives in the design of the cone crusher.
The cone crusher is a modified gyratory crusher. The essential difference is that the shorter spindle of the cone crusher is not suspended, as in the gyratory, but is supported in a curved, universal bearing below the gyratory head or cone . Power is transmitted from the source to the countershaft to a V belt or direct drive.