Applicable materials:River pebbles, cobblestone, calcite, quartz stone, marble, pebbles, bentonite, iron ore, bluestone, mountain stone, slag, limestone, weathered sand, diabase, granite, basalt, etc.
Application scope: Highway, railway, high-rise buildings, municipal, hydropower dam construction, concrete mixing station, sand and stone field, etc.
The sea salt roller crusher is a specialized equipment that mainly uses cobblestones to produce sand and stone materials for construction. The sea salt double roller crusher is another breakthrough in the field of sand and gravel aggregate production equipment manufacturing. This equipment uses two motors to drive two pairs of roller shafts to squeeze and grind materials.The roller crusher is mainly used for fine crushing operations with raw materials smaller than 80mm and finished product particle size requirements of 50mesh-20mm.
When customers inquire about the price of the roller sand making machine, they will find that the price is affected by many factors, mainly including the following seven points:
1. Equipment specifications and models: Different models have different processing capabilities and efficiencies. The larger the specifications, the higher the price.
2. Manufacturing materials and quality: High-quality materials and fine craftsmanship make the equipment durable, and the cost rises, so the price is also high.
3. Production capacity: The higher the production efficiency, the greater the equipment investment and the higher the price.
4. Technical configuration: The addition of advanced technology such as hydraulic systems and intelligent control will increase the price.
5. Brand influence: Well-known brands are usually more expensive than ordinary brands due to quality assurance and service.
6. Market demand: Changes in market supply and demand directly affect prices, and prices rise when supply exceeds demand.
The sea salt double roller crusher operates through rollers. The sea salt put into the machine through the inlet, are crushed by the squeezing between the rollers. The discharge size can be controlled by adjusting the gap between the two rollers. If the gap becomes larger, the discharged size becomes larger. While the gap becomes smaller by compressing spring, the discharge size also becomes smaller.
Specification and model |
Roll diameter
(mm)
|
Feed size
(mm)
|
Productive capacity
(t/h)
|
2PGT400×250 |
φ400 |
≤25 |
2-10 |
2PGT400×400 |
φ400 |
≤25 |
5-12 |
2PGT610×400 |
φ610 |
≤30 |
5-20 |
2PGT750×500 |
φ750 |
≤30 |
10-40 |
2PGT800×600 |
φ800 |
≤40 |
12-50 |
2PGY800×800 |
φ800 |
≤40 |
40-50 |
2PGY800×1000 |
φ800 |
≤40 |
50-80 |
2PGY1000×800 |
φ1000 |
≤40 |
50-80 |
2PGY1000×1000 |
φ1000 |
≤40 |
80-100 |
2PGY1200×1000 |
φ1200 |
≤60 |
100-120 |
2PGY1200×1200 |
φ1200 |
≤60 |
120-150 |
2PGY1500×1000 |
φ1500 |
≤80 |
150-200 |
2PGY1500×1200 |
φ1500 |
≤80 |
200-250 |
2PGY1800×1000 |
φ1800 |
≤100 |
250-300 |
2PGY2000×1200 |
φ2000 |
≤120 |
300-400 |