This machine is suitable to crush the medium hardness and brittle material in the mining, cement, coal, metallurgy, building materials, highway, gasification and so on. It has the simple structure, high crushing Ratio, high production efficiency, and can be dry or wet crushing . The grate gap of the equipment can be adjusted according to user requirements to get the different final sizes to meet the different needs of different users.
1. Hammer breaker has advanced designing technology, compact structure and shock resistance
2. Hammer crusher has big feeding material particle size, high rate of finished products, good particle shape
3. Strong crushing ability; rough, medium and fine crushing can be finished in one step.
4. Increasing yield by 30% on year-on-year basis, reducing needle and flake shaped and powdery products by 20%, more energy saving
5. The hammerhead and the sieve plate are made of manganese alloy with strong shock resistance and abrasion resistance.
1. Unique design and tight structure
The whole design is very good, and the structure is sealed, so it can solve the problems such as the dust pollution and ash leaking.
2. Adjustable granularity
The granularity can be adjusted according to the requirement of customers/
3. Wear-resistance
The hammer head is taking the new advanced craftsmanship, so the wearing parts are less while the maintenance is convenient.
The hammer crusher can crush materials with maximum particle size of 600-1800mm to particles of 25mm or below.
The hammer crusher machine crushes materials depending on its impact power. When it works, the motor drives the rotor to spin at high speed, materials enter the crushing cavity evenly, and the high speed spinning hammerhead impacts, cuts and tears materials till they are completely crushed. Meanwhile, the gravity action of materials forces them to crash the baffle and grate bars on the frame from the high speed spinning hammerhead. At the bottom of the rotor is the sieve plate. Materials that have particle size smaller than the screen size will pass the sieve plate while those with bigger particle size are stopped on the plate and will continue to be impacted and ground by the hammer until they have the required discharging particle size, and then will be discharged from the hammer crusher through the sieve plate.
| Model | Feeding Size (mm) | Capacity (t/h) |
| PCΦ400×300 | ≤200 | 5-10 |
| PCΦ600×400 | ≤250 | 10-22 |
| PCΦ800×600 | ≤250 | 18-40 |
| PCΦ1000×800 | ≤350 | 25-50 |
| PCΦ1000×1000 | ≤350 | 30-55 |
