MH-CHP
MINGHUNG
An MDF Complete Turnkey Plant Project (including Continuous Press) is a complex and highly specialized industrial undertaking. It signifies we will provide the client with a complete, ready-to-operate plant – encompassing design, equipment manufacturing and procurement, installation, commissioning, trial production, and final acceptance – that meets design capacity and quality specifications. The continuous press is the core equipment in modern medium-to-high-density fiberboard production lines.
"Turnkey": The client only needs to specify requirements at the project outset (product specifications, capacity, site conditions, etc.) and, upon project completion, receives a fully built, commissioned plant capable of producing qualified MDF products, literally receiving the "keys" to the factory.
"Complete Plant": Covers all facilities and equipment required for the entire MDF production process, from raw material intake to finished product packaging and dispatch.
"Including Continuous Press": Clearly specifies that the production line utilizes modern mainstream continuous flat-pressing technology. The continuous press is key to achieving high efficiency, high quality, and large-scale production.
1. Process Design & Engineering Design:
Detailed process design based on client requirements (product specs: thickness range, density range, panel size; target capacity: e.g., XX million cubic meters per year; raw material type: wood species, etc.).
Overall plant layout design (logistics, personnel flow, fire protection, environmental protection).
Detailed engineering design for each workshop (raw material preparation, fiber preparation, forming & pressing, sanding & cutting, warehousing, etc.).
Utility system design (water, electricity, steam, compressed air, vacuum, dust collection, fire protection, HVAC, etc.).
Control system and automation design.
2. Raw Material Handling & Preparation Section:
Log yard / raw material storage yard design and management plan.
Debarking equipment (drum debarker, ring debarker).
Chipping equipment (drum chipper, disc chipper) and chip screening, conveying, and storage systems.
Chip washing equipment (optional, for impurity removal).
Chip storage silos.
debraker
flaker
3. Fiber Preparation Section:
Refiner System: One of the core components. Includes pre-steaming/preheating bin, refiner main unit (with discs), fiber drying pipe system, discharge device, etc.
Fiber Drying System: Typically uses a pipe dryer (three-pass or single-pass), including burner (oil/gas/biomass), drying pipes, cyclone separators, drying fans, exhaust gas treatment system (wet/dry dust collection).
Resin Application System: Precise metering and application of adhesive (urea-formaldehyde resin, melamine-modified resin, etc.), hardener, and water repellent (wax emulsion) to the dried fiber. Includes resin tanks, metering pumps, blender (glue mixer).
Fiber Storage Silo: Storage for resinated fiber, ensuring continuous and stable feeding.
defibrator
rotary dryer
gluer
4. Forming & Pressing Section (Core Section):
Forming System:
Fiber metering and forming head (mechanical/air/combined).
Forming belt/forming steel belt and drive system.
Pre-press (belt/roll type) to increase initial strength and remove air.
Mat cross-cut saw.
Mat weighing and metal detection.
Accelerator conveyor.
Continuous Press System (Core Equipment):
Continuous flat press main unit.
Heating system (thermal oil/steam).
Hydraulic system (high pressure, low pressure).
Steel belts and drive, tensioning, cleaning, steering systems.
Infeed/outfeed devices.
Advanced thickness control system.
Post-Press Handling:
Cooling star (cooling and conditioning).
Stacking/de-stacking device (or direct connection to finishing line).
mat forming machine
MDF continuous hot press machine
dryer rack
5. Finishing & Cutting Section:
Mat Stacking & Conditioning: Storage area for internal temperature and moisture equalization.
Sanding Line:
Calibrating sander (multiple heads, coarse/fine grit).
Surface sander (optional, for high-quality surfaces).
Dust collection system.
Cutting Line:
Rip saw (multi-blade circular saw).
Cross-cut saw (push-feed or belt-feed).
Automatic stacking, packaging, labeling systems.
Waste material conveying and handling system (edges, sawdust).
sanding machine
cross-cut saw
6. Finished Product Warehousing:
Automated Storage/Retrieval System (AS/RS) or flat warehouse design.
Stacking, handling equipment (forklifts/AGVs/conveyor systems).
7. Utility Systems:
Power Supply System: Substation, high/low voltage switchgear, cable trays, emergency generator (optional).
Water Supply System: Process water, domestic water, fire water, water treatment (softening, filtration).
Steam System: Boiler house (coal/gas/biomass boiler), steam piping, steam header, condensate return.
Compressed Air System: Air compressors, refrigerated dryers, air receivers, distribution network.
Vacuum System: Vacuum pumps (for forming and press), distribution network.
Refrigeration System (Optional): For specific process cooling or air conditioning.
Fire Protection System: Fire water tank, pump house, piping network, hydrants, sprinklers, fire extinguishers.
Ventilation & Dust Collection System: Workshop ventilation, central dust collection systems for each section (especially preparation, refining, drying, sanding) (cyclone + bag/filter cartridge), exhaust gas treatment (drying exhaust, formaldehyde, etc.).
Wastewater Treatment System (If Required): Treatment for process wastewater (e.g., chip wash water, cleaning water).
8. Automation & Control System:
Distributed Control System (DCS): For centralized monitoring and operation of main plant processes.
PLC Control Systems: Local control for sections and individual machines.
SCADA System: Data acquisition and supervisory control.
Quality Control System (QCS): Online measurement (thickness, density, moisture content, etc.).
Manufacturing Execution System (MES) (Optional): For production management, scheduling, data traceability.
Instrumentation, sensors, actuators.
Control room, operator stations.
9. Buildings & Infrastructure:
Main production building (steel structure/concrete).
Raw material warehouse, finished product warehouse.
Utility buildings (boiler house, electrical room, compressor station, water treatment plant, etc.).
Office building, laboratory, maintenance workshop, employee facilities.
Site roads, underground networks (water/sewer, cable trenches), landscaping, fencing, gates.
Earthworks and foundation engineering.
The Continuous Press is the core and defining equipment in modern Medium Density Fiberboard (MDF) production lines. It has revolutionized the manufacturing of wood-based panels, significantly enhancing efficiency, quality, and output.
Continuous vs. Batch
Traditional Multi-Opening Presses: Employ batch production. Prepared mats are loaded into a multi-platen hot press, which closes to apply pressure and heat for curing. After the cycle time, the press opens to unload the board. Each cycle produces only one board, creating an efficiency bottleneck.
Continuous Press: Employs continuous production. The formed mat (a continuous "fiber blanket") enters the press inlet uninterruptedly. It is continuously pressed, heated, and cured between two massive, circulating steel belts, and a continuous strip of cured board exits the press outlet. The entire process is a seamless flow line with no stops.
Working Principle of the Continuous Press
1. Mat Infeed: The continuous mat formed by the forming system, after pre-pressing, weighing, and metal detection, is fed into the inlet of the continuous press by an accelerator conveyor.
2. Steel Belt Conveyance: Two parallel, high-strength alloy steel belts (typically 2-3mm thick) are positioned above and below the mat. The belts circulate, driven by drive rollers and tensioned by tensioning rollers.
3. Pressing: Upon entering the press, the mat is gripped between the upper and lower steel belts. Inside the press, a large array of hydraulic cylinders (or oil cylinders) applies pressure. These cylinders act through press beams or press rollers to uniformly transfer pressure to the outer surfaces of the steel belts, and consequently, to the mat within. Pressure is typically applied in several zones (e.g., high-pressure inlet zone, main pressure zone, low-pressure holding zone) and controlled precisely according to process requirements.
4. Heating: Heating channels, integrated within the steel belt support structure or the press beams/rollers, circulate high-temperature thermal oil (most common) or steam. Heat is efficiently and uniformly transferred through the steel belts to the mat, rapidly curing the resin.
5. Curing and Forming: Under the combined action of pressure and heat, the mat is conveyed at a constant speed while gripped between the steel belts through the press interior (typically 20 meters to over 60 meters long). During this passage, the resin between the fibers undergoes curing, gradually transforming the mat into a solid strip of MDF.
6. Board Strip Outfeed: The fully cured MDF board strip exits the press outlet continuously and proceeds to subsequent processes like cooling, calibrating sanding, and cutting.
Core Structure and Systems of the Continuous Press
1. Frame: An extremely robust steel structure designed to withstand enormous pressure and thermal stresses.
2. Steel Belt System:
Steel Belts: The core load-bearing and heat-transfer components. Require high strength, wear resistance, good thermal conductivity, flatness, and dimensional stability. Require regular grinding and maintenance.
Drive Unit: Large motors drive the steel belts synchronously at precisely adjustable speeds (determining output and curing time).
Tensioning Unit: Maintains constant belt tension, ensuring uniform pressure transfer and stable operation.
Steering Unit: Monitors and corrects the steel belt trajectory in real-time to prevent dangerous misalignment.
Cleaning & Lubrication Unit: Cleans belt surfaces and applies special lubricant to reduce friction and sticking.
3. Pressing System:
Hydraulic Power Unit: Supplies high-pressure hydraulic oil.
Hydraulic Cylinder Array: Hundreds of cylinders, grouped and controlled by zone.
Press Beams / Press Rollers: Distribute the force from the hydraulic cylinders uniformly onto the steel belts. Press beams (flat-plate type) offer more uniform pressure distribution, especially for thin and homogeneous boards; press rollers (roller type) are more flexible and slightly more adaptable to mat thickness variations.
4. Heating System:
Thermal Oil Boiler / Steam Boiler: Provides the heat source.
Circulation Pumps & Piping: Circulate the high-temperature heat transfer medium (primarily thermal oil) to the heating channels inside the press.
Heating Channels: Integrated within the steel belt support structure or press beams/rollers to ensure efficient, uniform heat transfer to the belts.
5. Thickness Control System:
Core Advantage! The "soul" of the continuous press. High-precision non-contact thickness gauges (e.g., laser, X-ray scanners) are installed at the press inlet, key internal points (e.g., after the main pressure zone), and outlet.
Real-time Feedback & Adjustment: Measurement data is transmitted in real-time to the control system (PLC/DCS). The system precisely adjusts the applied pressure by zone, or even individual cylinder, to instantly compensate for thickness deviations caused by fluctuations in mat density, moisture content, etc.
Effect: Achieves extremely small thickness tolerances in the finished board lengthwise and crosswise (down to ±0.15mm or less), significantly reduces sanding allowance (saving raw material and energy), and improves product homogeneity.
6. Automation Control System:
High Integration: Controls all key parameters: pressure, temperature, speed, steel belt operation (tension, steering), thickness, etc.
Recipe Management: Stores optimal parameter sets for different product specifications (thickness, density).
Data Acquisition & Monitoring: Records operational data in real-time for process optimization, quality traceability, and fault diagnosis.
Key Advantages of the Continuous Press
1. Very High Production Efficiency: Continuous operation with no idle time enables massive single-line capacity (annual output ranging from 300,000 to over 700,000 cubic meters), several times that of traditional multi-opening presses.
2. Superior Product Quality:
Exceptional Thickness Accuracy: Advanced thickness control system is the core guarantee.
Uniform Density Distribution: Continuous, stable pressure and heat transfer result in minimal density gradients lengthwise and crosswise.
Excellent Surface Quality: High surface finish of steel belts produces smooth, flat board surfaces.
Stable and Consistent Physical/Mechanical Properties: Uniform curing conditions yield more consistent performance.
3. Significantly Reduced Sanding Allowance: Precise thickness control means sanding removes only a very thin layer (as low as 0.7-1.0mm), conserving valuable fiber raw material and reducing sanding energy consumption and dust generation.
4. Enhanced Raw Material Adaptability: Continuous, stable processes generally adapt better to fluctuations in raw materials (wood species, fiber morphology, moisture content).
5. High Level of Automation: Facilitates easy integration with upstream (forming) and downstream (finishing) processes and full-line automated control.
6. Optimized Footprint (Relative): Although the machine itself is massive, it typically requires less space than the cluster of multi-opening presses needed to achieve equivalent output.
7. Environmental Advantages:
Lower specific energy consumption (especially thermal energy) per unit product.
More precise process control helps reduce free formaldehyde emissions.
Reduced sanding allowance means less dust and solid waste.
Key Technical Parameters
Working Width: Typically 2.5m, 2.8m, 3.5m, 4.5m, or wider. Wider width enables higher single-line capacity.
Press Length: Directly affects the mat's curing time inside the press (typically tens of seconds to several minutes). Longer presses allow production of thicker boards or higher speeds. Common lengths range from 20+ meters to 60+ meters.
Design Speed: Steel belt running speed, determining capacity (meters/minute).
Maximum Working Pressure: Typically in the range of several hundred bar.
Heating Temperature: Thermal oil temperature typically between 200°C - 250°C.
Product Thickness Range: Typically 1.5mm - 60mm (varies by press design).
Design Capacity: Expressed as annual output (cubic meters), the core indicator.
Let's Discuss Your Needs & Get a Tailored Solution !
Whatsapp: +8618769900191 +8615589105786 +8618954906501
Email: osbmdfmachinery@gmail.com
An MDF Complete Turnkey Plant Project (including Continuous Press) is a complex and highly specialized industrial undertaking. It signifies we will provide the client with a complete, ready-to-operate plant – encompassing design, equipment manufacturing and procurement, installation, commissioning, trial production, and final acceptance – that meets design capacity and quality specifications. The continuous press is the core equipment in modern medium-to-high-density fiberboard production lines.
"Turnkey": The client only needs to specify requirements at the project outset (product specifications, capacity, site conditions, etc.) and, upon project completion, receives a fully built, commissioned plant capable of producing qualified MDF products, literally receiving the "keys" to the factory.
"Complete Plant": Covers all facilities and equipment required for the entire MDF production process, from raw material intake to finished product packaging and dispatch.
"Including Continuous Press": Clearly specifies that the production line utilizes modern mainstream continuous flat-pressing technology. The continuous press is key to achieving high efficiency, high quality, and large-scale production.
1. Process Design & Engineering Design:
Detailed process design based on client requirements (product specs: thickness range, density range, panel size; target capacity: e.g., XX million cubic meters per year; raw material type: wood species, etc.).
Overall plant layout design (logistics, personnel flow, fire protection, environmental protection).
Detailed engineering design for each workshop (raw material preparation, fiber preparation, forming & pressing, sanding & cutting, warehousing, etc.).
Utility system design (water, electricity, steam, compressed air, vacuum, dust collection, fire protection, HVAC, etc.).
Control system and automation design.
2. Raw Material Handling & Preparation Section:
Log yard / raw material storage yard design and management plan.
Debarking equipment (drum debarker, ring debarker).
Chipping equipment (drum chipper, disc chipper) and chip screening, conveying, and storage systems.
Chip washing equipment (optional, for impurity removal).
Chip storage silos.
debraker
flaker
3. Fiber Preparation Section:
Refiner System: One of the core components. Includes pre-steaming/preheating bin, refiner main unit (with discs), fiber drying pipe system, discharge device, etc.
Fiber Drying System: Typically uses a pipe dryer (three-pass or single-pass), including burner (oil/gas/biomass), drying pipes, cyclone separators, drying fans, exhaust gas treatment system (wet/dry dust collection).
Resin Application System: Precise metering and application of adhesive (urea-formaldehyde resin, melamine-modified resin, etc.), hardener, and water repellent (wax emulsion) to the dried fiber. Includes resin tanks, metering pumps, blender (glue mixer).
Fiber Storage Silo: Storage for resinated fiber, ensuring continuous and stable feeding.
defibrator
rotary dryer
gluer
4. Forming & Pressing Section (Core Section):
Forming System:
Fiber metering and forming head (mechanical/air/combined).
Forming belt/forming steel belt and drive system.
Pre-press (belt/roll type) to increase initial strength and remove air.
Mat cross-cut saw.
Mat weighing and metal detection.
Accelerator conveyor.
Continuous Press System (Core Equipment):
Continuous flat press main unit.
Heating system (thermal oil/steam).
Hydraulic system (high pressure, low pressure).
Steel belts and drive, tensioning, cleaning, steering systems.
Infeed/outfeed devices.
Advanced thickness control system.
Post-Press Handling:
Cooling star (cooling and conditioning).
Stacking/de-stacking device (or direct connection to finishing line).
mat forming machine
MDF continuous hot press machine
dryer rack
5. Finishing & Cutting Section:
Mat Stacking & Conditioning: Storage area for internal temperature and moisture equalization.
Sanding Line:
Calibrating sander (multiple heads, coarse/fine grit).
Surface sander (optional, for high-quality surfaces).
Dust collection system.
Cutting Line:
Rip saw (multi-blade circular saw).
Cross-cut saw (push-feed or belt-feed).
Automatic stacking, packaging, labeling systems.
Waste material conveying and handling system (edges, sawdust).
sanding machine
cross-cut saw
6. Finished Product Warehousing:
Automated Storage/Retrieval System (AS/RS) or flat warehouse design.
Stacking, handling equipment (forklifts/AGVs/conveyor systems).
7. Utility Systems:
Power Supply System: Substation, high/low voltage switchgear, cable trays, emergency generator (optional).
Water Supply System: Process water, domestic water, fire water, water treatment (softening, filtration).
Steam System: Boiler house (coal/gas/biomass boiler), steam piping, steam header, condensate return.
Compressed Air System: Air compressors, refrigerated dryers, air receivers, distribution network.
Vacuum System: Vacuum pumps (for forming and press), distribution network.
Refrigeration System (Optional): For specific process cooling or air conditioning.
Fire Protection System: Fire water tank, pump house, piping network, hydrants, sprinklers, fire extinguishers.
Ventilation & Dust Collection System: Workshop ventilation, central dust collection systems for each section (especially preparation, refining, drying, sanding) (cyclone + bag/filter cartridge), exhaust gas treatment (drying exhaust, formaldehyde, etc.).
Wastewater Treatment System (If Required): Treatment for process wastewater (e.g., chip wash water, cleaning water).
8. Automation & Control System:
Distributed Control System (DCS): For centralized monitoring and operation of main plant processes.
PLC Control Systems: Local control for sections and individual machines.
SCADA System: Data acquisition and supervisory control.
Quality Control System (QCS): Online measurement (thickness, density, moisture content, etc.).
Manufacturing Execution System (MES) (Optional): For production management, scheduling, data traceability.
Instrumentation, sensors, actuators.
Control room, operator stations.
9. Buildings & Infrastructure:
Main production building (steel structure/concrete).
Raw material warehouse, finished product warehouse.
Utility buildings (boiler house, electrical room, compressor station, water treatment plant, etc.).
Office building, laboratory, maintenance workshop, employee facilities.
Site roads, underground networks (water/sewer, cable trenches), landscaping, fencing, gates.
Earthworks and foundation engineering.
The Continuous Press is the core and defining equipment in modern Medium Density Fiberboard (MDF) production lines. It has revolutionized the manufacturing of wood-based panels, significantly enhancing efficiency, quality, and output.
Continuous vs. Batch
Traditional Multi-Opening Presses: Employ batch production. Prepared mats are loaded into a multi-platen hot press, which closes to apply pressure and heat for curing. After the cycle time, the press opens to unload the board. Each cycle produces only one board, creating an efficiency bottleneck.
Continuous Press: Employs continuous production. The formed mat (a continuous "fiber blanket") enters the press inlet uninterruptedly. It is continuously pressed, heated, and cured between two massive, circulating steel belts, and a continuous strip of cured board exits the press outlet. The entire process is a seamless flow line with no stops.
Working Principle of the Continuous Press
1. Mat Infeed: The continuous mat formed by the forming system, after pre-pressing, weighing, and metal detection, is fed into the inlet of the continuous press by an accelerator conveyor.
2. Steel Belt Conveyance: Two parallel, high-strength alloy steel belts (typically 2-3mm thick) are positioned above and below the mat. The belts circulate, driven by drive rollers and tensioned by tensioning rollers.
3. Pressing: Upon entering the press, the mat is gripped between the upper and lower steel belts. Inside the press, a large array of hydraulic cylinders (or oil cylinders) applies pressure. These cylinders act through press beams or press rollers to uniformly transfer pressure to the outer surfaces of the steel belts, and consequently, to the mat within. Pressure is typically applied in several zones (e.g., high-pressure inlet zone, main pressure zone, low-pressure holding zone) and controlled precisely according to process requirements.
4. Heating: Heating channels, integrated within the steel belt support structure or the press beams/rollers, circulate high-temperature thermal oil (most common) or steam. Heat is efficiently and uniformly transferred through the steel belts to the mat, rapidly curing the resin.
5. Curing and Forming: Under the combined action of pressure and heat, the mat is conveyed at a constant speed while gripped between the steel belts through the press interior (typically 20 meters to over 60 meters long). During this passage, the resin between the fibers undergoes curing, gradually transforming the mat into a solid strip of MDF.
6. Board Strip Outfeed: The fully cured MDF board strip exits the press outlet continuously and proceeds to subsequent processes like cooling, calibrating sanding, and cutting.
Core Structure and Systems of the Continuous Press
1. Frame: An extremely robust steel structure designed to withstand enormous pressure and thermal stresses.
2. Steel Belt System:
Steel Belts: The core load-bearing and heat-transfer components. Require high strength, wear resistance, good thermal conductivity, flatness, and dimensional stability. Require regular grinding and maintenance.
Drive Unit: Large motors drive the steel belts synchronously at precisely adjustable speeds (determining output and curing time).
Tensioning Unit: Maintains constant belt tension, ensuring uniform pressure transfer and stable operation.
Steering Unit: Monitors and corrects the steel belt trajectory in real-time to prevent dangerous misalignment.
Cleaning & Lubrication Unit: Cleans belt surfaces and applies special lubricant to reduce friction and sticking.
3. Pressing System:
Hydraulic Power Unit: Supplies high-pressure hydraulic oil.
Hydraulic Cylinder Array: Hundreds of cylinders, grouped and controlled by zone.
Press Beams / Press Rollers: Distribute the force from the hydraulic cylinders uniformly onto the steel belts. Press beams (flat-plate type) offer more uniform pressure distribution, especially for thin and homogeneous boards; press rollers (roller type) are more flexible and slightly more adaptable to mat thickness variations.
4. Heating System:
Thermal Oil Boiler / Steam Boiler: Provides the heat source.
Circulation Pumps & Piping: Circulate the high-temperature heat transfer medium (primarily thermal oil) to the heating channels inside the press.
Heating Channels: Integrated within the steel belt support structure or press beams/rollers to ensure efficient, uniform heat transfer to the belts.
5. Thickness Control System:
Core Advantage! The "soul" of the continuous press. High-precision non-contact thickness gauges (e.g., laser, X-ray scanners) are installed at the press inlet, key internal points (e.g., after the main pressure zone), and outlet.
Real-time Feedback & Adjustment: Measurement data is transmitted in real-time to the control system (PLC/DCS). The system precisely adjusts the applied pressure by zone, or even individual cylinder, to instantly compensate for thickness deviations caused by fluctuations in mat density, moisture content, etc.
Effect: Achieves extremely small thickness tolerances in the finished board lengthwise and crosswise (down to ±0.15mm or less), significantly reduces sanding allowance (saving raw material and energy), and improves product homogeneity.
6. Automation Control System:
High Integration: Controls all key parameters: pressure, temperature, speed, steel belt operation (tension, steering), thickness, etc.
Recipe Management: Stores optimal parameter sets for different product specifications (thickness, density).
Data Acquisition & Monitoring: Records operational data in real-time for process optimization, quality traceability, and fault diagnosis.
Key Advantages of the Continuous Press
1. Very High Production Efficiency: Continuous operation with no idle time enables massive single-line capacity (annual output ranging from 300,000 to over 700,000 cubic meters), several times that of traditional multi-opening presses.
2. Superior Product Quality:
Exceptional Thickness Accuracy: Advanced thickness control system is the core guarantee.
Uniform Density Distribution: Continuous, stable pressure and heat transfer result in minimal density gradients lengthwise and crosswise.
Excellent Surface Quality: High surface finish of steel belts produces smooth, flat board surfaces.
Stable and Consistent Physical/Mechanical Properties: Uniform curing conditions yield more consistent performance.
3. Significantly Reduced Sanding Allowance: Precise thickness control means sanding removes only a very thin layer (as low as 0.7-1.0mm), conserving valuable fiber raw material and reducing sanding energy consumption and dust generation.
4. Enhanced Raw Material Adaptability: Continuous, stable processes generally adapt better to fluctuations in raw materials (wood species, fiber morphology, moisture content).
5. High Level of Automation: Facilitates easy integration with upstream (forming) and downstream (finishing) processes and full-line automated control.
6. Optimized Footprint (Relative): Although the machine itself is massive, it typically requires less space than the cluster of multi-opening presses needed to achieve equivalent output.
7. Environmental Advantages:
Lower specific energy consumption (especially thermal energy) per unit product.
More precise process control helps reduce free formaldehyde emissions.
Reduced sanding allowance means less dust and solid waste.
Key Technical Parameters
Working Width: Typically 2.5m, 2.8m, 3.5m, 4.5m, or wider. Wider width enables higher single-line capacity.
Press Length: Directly affects the mat's curing time inside the press (typically tens of seconds to several minutes). Longer presses allow production of thicker boards or higher speeds. Common lengths range from 20+ meters to 60+ meters.
Design Speed: Steel belt running speed, determining capacity (meters/minute).
Maximum Working Pressure: Typically in the range of several hundred bar.
Heating Temperature: Thermal oil temperature typically between 200°C - 250°C.
Product Thickness Range: Typically 1.5mm - 60mm (varies by press design).
Design Capacity: Expressed as annual output (cubic meters), the core indicator.
Let's Discuss Your Needs & Get a Tailored Solution !
Whatsapp: +8618769900191 +8615589105786 +8618954906501
Email: osbmdfmachinery@gmail.com
