Customization: | Available |
---|---|
After-sales Service: | 1 Year |
Warranty: | 1 Year |
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
Hebei LVJOE Machinery Manufacturing (group) Co.,Ltd was established in 1998, it's a diversified development enterprises with researching, designing, manufacturing, international trade, project equipment integration.
Paper faced gypsum powder production line is one of our main product in the global market. More than 100 projects are well installed and running up to now!
Automatic process, high quality, long-term service are our advantages compared with other products!
Crushing Process
The diameter of gypsum lump should less than 300mm, we use bucket lift truck or manpower transport gypsum lump into jaw crusher, stone crusher gypsum plaster stone, so that less than 50mm, the bucket elevator and screw conveyor into the grinder bin.
Grinding Powder Process
The gypsum materials from crushing process, they will be conveying into mill silo pass through bucket elevator and screw conveyor. These gypsum materials will be evenly feed into mill via vibrating feeder, the small size gypsum materials will become to gypsum powder due to the grinding effect, gypsum powder will go out of mill with wind, and will be chosen by powder separator which is on the top of mill, the qualified fineness of powder are separated from the top of mill, other unqualified powder will return into mill for grind again. The qualified powder through cyclone dust collector and bag-type splitter will gather into screw convey, and then bucket elevator & screw conveyor transport gypsum powder to calcination process, the surplus powder will be storage into raw material silo through screw conveyor.
Calcination Process
The powder materials which are from grinding powder process or powder silo, they will through vertical, horizontal conveyor and then through measuring screw conveyor into boiling furnace for calcination. Boiling furnace take high temperature heat transfer oil as heat source, high temperature heat transfer oil is provided by coal-fired thermal oil boiler. When the high temperature transfer oil enter boiling furnace, its heat will transmit to gypsum powder by heat exchanger, and make CaSO4·2H2O become into CaSO4 ·1/2H2O (building gypsum). During calcination, we adjust discharge temperature according to raw gypsum's feeding quantity, calcined building gypsum continuous automatic discharge from boiling furnace, and are conveyed to building gypsum silo pass through screw conveyor and bucket elevator. And the heat transfer oil will return flow into coal-fired thermal oil boiler for reheat.
Batching, Packing Process
The gypsum is sent to the packing silo through bucket elevator and screw conveyor.
Chemical additives and other raw materials were sent to the batch bin through the electric hoist.
The batching in all the stocks uses the metering screw conveyor which adjusts speed by using inverter and finishes feeding by step less speed.
During production, it will input set formula to the host computer according to the varieties and specifications. Based on the formulation requirements, large amount of construction gypsum was added to the mixer after measured by measurement scale number 1, small amount of materials were added to the mixer after measured by measurement scale number 2. The measurement scale in this project uses dosage method.
The materials will unload to the middle silo after mixing in the mixer.
The building gypsum after mixing is packaged by packing machine (adopt automatic sealing bag), and then delivered into finished product library. The packing machine adopts feedback signal of pressure sensor for controlling the charging of screw feeder. The packing machine will stop to load materials when the weight of materials reaches set value. Next the pounding machine will reshape it as standard shape. Finally the computer-controlled inkjet printing machine will print automatically on the surface of bag which includes date of manufacture, manufacturer, trademark, etc.
Content of CaSO4·2H2O | (90~95)% |
Content of Na2O | ≤0.02% |
Content of K2O | ≤0.02% |
Content of Cl- | ≤10ppm |
Content of free water | ≤3% |
Size of lump |
≤350mm |
Annual consumption |
72000t |
No | Name | Person/ shift | shift/day | Remarks |
1. | Construction Gypsum plant | |||
1.1 | Crush process | 1 | 2 | |
1.2 | Mill process | 1 | 3 | |
1.3 | Grinding process | 2 | 3 | |
1.4 | Conveying process | 1 | 3 | |
1.5 | Laboratory | 1 | 1 | |
1.6 | Machines, electrical maintenance personnel | 2 | 3 | |
2. | Thermal Oil boiler room | 2 | 3 | Responsible for buyer |
3. | Power distribution | 1 | 3 | |
4. | General layout and transportation | 2 | 1 | |
5. | Guard, janitor's room | 1 | 3 | |
6. | Management person | 5 | 1 |
Q: What are the applications of gypsum powder produced by gypsum powder production lines?
A: Gypsum powder produced by gypsum powder production lines is widely used in the construction and industrial fields, such as building decoration materials, gypsum boards, gypsum mortar, gypsum products, pharmaceuticals, food, papermaking, fertilizers, and other industries, with broad market prospects.
Q: What are the maintenance and upkeep requirements for gypsum powder production lines?
A: Maintenance and upkeep of gypsum powder
production lines typically involve regular inspection, cleaning, lubrication, and replacement of worn parts to ensure normal operation of the equipment and extend its service life.
Q: What factors should be considered in equipment selection for gypsum powder production lines?
A: Factors to consider in equipment selection for gypsum powder production lines include production scale, nature of raw materials, production process, product quality requirements, energy consumption, investment costs, etc., and require comprehensive evaluation and rational selection.
Q: How can environmental protection and sustainable development be ensured in gypsum powder production lines?
A: Environmental protection and sustainable development of gypsum powder production lines are ensured by complying with environmental laws, regulations, and standards, adopting reasonable emission control and treatment measures, and reducing environmental pollution and resource consumption to promote sustainable development.