Hammer Crusher Crush The Material To Smaller Size Brick Production Line Equipped With Steel Frame For Strong Foundation And Operation

The hammer crusher is mainly composed of the following core components:

Rotor assembly: The core working component of the equipment, consisting of the main shaft, hammer disc, and pin shaft. The spindle is made of high-quality alloy steel and bears a huge impact torque.

Hammer head: a vulnerable part that comes into direct contact with the material, and its quality and material directly determine the crushing efficiency. Usually, wear-resistant alloys such as high chromium manganese steel are used for composite casting to extend their service life.

Rack (box): composed of upper and lower racks, using a welded steel plate structure, with high manganese steel lining on the inner wall to protect the casing from wear and tear.

Counterattack lining plate (striking plate): Installed around the rotor, the material is struck by a hammer and hits the lining plate, achieving secondary crushing.

Screen plate (grate): located below the rotor, controls the particle size of the discharged material. Materials that do not meet the standards will be blocked by the sieve plate and continue to be repeatedly ground by the hammer until the particle size is qualified before being discharged. Some new models have adopted a "grateless bar" design to completely prevent blockages.

Rotor assembly: The core working component of the equipment, consisting of the main shaft, hammer disc, and pin shaft. The spindle is made of high-quality alloy steel and bears a huge impact torque.

Hammer head: a vulnerable part that comes into direct contact with the material, and its quality and material directly determine the crushing efficiency. Usually, wear-resistant alloys such as high chromium manganese steel are used for composite casting to extend their service life.

Rack (box): composed of upper and lower racks, using a welded steel plate structure, with high manganese steel lining on the inner wall to protect the casing from wear and tear.

Counterattack lining plate (striking plate): Installed around the rotor, the material is struck by a hammer and hits the lining plate, achieving secondary crushing.

Screen plate (grate): located below the rotor, controls the particle size of the discharged material. Materials that do not meet the standards will be blocked by the sieve plate and continue to be repeatedly ground by the hammer until the particle size is qualified before being discharged. Some new models have adopted a "grateless bar" design to completely prevent blockages.