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ARIDA- 3 Ton
ARIDA
8462109000
3 Ton Precision Table Press Machine
Copper, metal materials
Local Service/Online Service
High Speed Punch Machine
Hot
Electricity
GS, CE, RoHS, ISO 9001
12 months
Semi-Open Punch
Single Action
Crank Press
Electric Power Transmission
Standard Export Packing
ARIDA
China
High precision
Worldwide
Yes
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3 Ton Precision Table Press Machine
The 3 Ton Precision Table Press Machine is a high-precision, compact press designed for a wide range of industrial applications requiring accurate and consistent force application. This machine is capable of delivering up to 3 tons (6,000 pounds) of force and is ideal for tasks such as stamping, forming, assembly, and testing of small to medium-sized components. Known for its reliability and versatility, the 3 Ton Precision Table Press Machine is an essential tool for businesses in various industries, including manufacturing, electronics, automotive, and medical device production.
High Precision:
Accurate Force Control: Equipped with advanced hydraulic or pneumatic systems to ensure precise and consistent force application, critical for achieving high-quality results.
Adjustable Pressure Settings: Users can easily adjust the pressure settings to accommodate different materials and processes, ensuring optimal performance.
Compact Design:
Space Efficiency: The machine is designed to occupy minimal floor space, making it ideal for workshops and facilities with limited space.
Portability: Lightweight and easy to move, allowing for flexible placement and use in various locations.
User-Friendly Interface:
Intuitive Controls: A user-friendly control panel with clear indicators and simple operation, making it easy for operators to manage the machine.
Real-Time Monitoring: Real-time feedback and monitoring systems allow operators to track and adjust the process as needed, ensuring consistent results.
Versatile Applications:
Wide Range of Uses: Suitable for a variety of applications, including stamping, forming, assembly, and testing of small to medium-sized components.
Material Compatibility: Can handle a range of materials, from metals and plastics to composites, making it a versatile tool for different industries.
Durability and Reliability:
Robust Construction: Built with high-quality materials and a durable design to withstand heavy use and harsh industrial environments.
Low Maintenance: Designed for easy maintenance with accessible components and minimal wear parts, reducing downtime and maintenance costs.
Safety Features:
Emergency Stop Buttons: Strategically placed emergency stop buttons to halt the machine immediately in case of an emergency.
Safety Guards: Protective covers and interlocks to prevent accidental contact with moving parts, ensuring operator safety.
Energy Efficiency:
Optimized Energy Consumption: Designed to operate efficiently, minimizing energy usage and reducing operational costs.
Eco-Friendly: Environmentally friendly design with low power consumption and minimal waste, contributing to sustainability
Manufacturing: Ideal for small-scale manufacturing of components and parts.
Electronics: Perfect for assembling and testing electronic components.
Automotive: Suitable for forming and assembling small automotive parts.
Medical Device Production: Essential for precise and consistent force application in the production of medical devices
Operator Training:
Proper Training: Ensure that all operators are properly trained and familiar with the machine's operation manual and safety guidelines.
Certification: Operators should be certified or authorized to use the machine to minimize the risk of accidents.
Personal Protective Equipment (PPE):
Safety Gear: Operators must wear appropriate personal protective equipment, including safety glasses, gloves, and steel-toed boots.
Hearing Protection: Use hearing protection if the machine operates at high noise levels.
Machine Inspection:
Pre-Use Inspection: Conduct a thorough inspection of the machine before each use to ensure all components are functioning correctly.
Check for Damage: Inspect for any signs of wear, damage, or loose parts. Address any issues before starting the machine.
Material Preparation:
Proper Alignment: Ensure that the materials are properly aligned and positioned before starting the press. Misaligned materials can cause uneven pressure and damage.
Secure Workpieces: Use appropriate fixtures or clamps to secure workpieces firmly in place to prevent movement during operation.
Force and Pressure Settings:
Correct Settings: Set the force and pressure according to the material specifications and the task requirements. Overloading the machine can lead to damage or accidents.
Gradual Adjustment: Adjust the force and pressure settings gradually to avoid sudden changes that could cause instability.
Safety Features:
Emergency Stop: Familiarize yourself with the location and operation of the emergency stop buttons. Use them immediately in case of an emergency.
Safety Guards: Ensure that all safety guards and interlocks are in place and functioning properly. Do not bypass or disable safety features.
Operational Procedures:
Follow Instructions: Adhere to the manufacturer's operating instructions and recommended procedures.
Avoid Overheating: Monitor the machine's temperature and avoid prolonged use without adequate cooling. Overheating can reduce the lifespan of the machine and increase the risk of failure.
Maintenance and Cleaning:
Regular Maintenance: Perform regular maintenance as specified in the user manual. This includes lubrication, cleaning, and inspection of critical components.
Clean Work Area: Keep the work area clean and free of debris to prevent accidents and maintain optimal performance.
Load and Unload Safely:
Safe Handling: Use proper lifting techniques when loading and unloading materials to avoid strain or injury.
Clear Workspace: Ensure the workspace is clear of obstacles and clutter to facilitate safe and efficient operation.
Documentation and Records:
Keep Records: Maintain records of maintenance, inspections, and any incidents or repairs. This documentation is crucial for ensuring the machine's continued safe operation and compliance with regulatory standards.
Operator Training: Ensure that the operator is properly trained and familiar with the machine's operation manual and safety guidelines.
Personal Protective Equipment (PPE): Wear appropriate PPE, including safety glasses, gloves, and steel-toed boots.
Machine Inspection: Conduct a thorough inspection of the machine to ensure all components are functioning correctly.
Check for any signs of wear, damage, or loose parts.
Ensure all safety guards and interlocks are in place and functioning properly.
Work Area Preparation: Clear the work area of any obstacles or debris. Ensure the workspace is clean and organized.
Material Selection: Choose the appropriate material for the task and ensure it meets the required specifications.
Alignment and Positioning: Place the material on the press table and align it properly.
Use alignment tools or fixtures if necessary.
Securing Workpieces: Secure the material firmly in place using clamps or other appropriate fixtures to prevent movement during operation.
Power On: Turn on the machine by switching the main power switch to the "ON" position.
Pressure Settings: Set the force and pressure according to the material specifications and the task requirements.
Gradually adjust the force and pressure settings to avoid sudden changes that could cause instability.
Speed Settings: Adjust the speed settings to an appropriate level for the task.
Safety Features: Ensure that all safety features, such as emergency stop buttons and safety guards, are activated and functioning.
Initial Test: Perform a test cycle with no load to ensure the machine is operating correctly.
Loading Material: Load the prepared material into the press.
Starting the Press:
Press the start button to begin the operation.
Monitor the machine during operation to ensure it is running smoothly and the material is being processed correctly.
Stopping the Press:
Once the operation is complete, press the stop button to halt the machine.
Allow the machine to come to a complete stop before removing the material.
Material Removal: Carefully remove the processed material from the press.
Machine Shutdown:
Turn off the machine by switching the main power switch to the "OFF" position.
Allow the machine to cool down if it has been operating for an extended period.
Cleaning and Maintenance:
Clean the press table and any other components that came into contact with the material.
Perform any necessary maintenance tasks, such as lubrication or inspection of critical components.
Record Keeping: Document the operation, including any settings used, materials processed, and any issues encountered.
Common Issues:
Machine Not Starting: Check the power supply and ensure all connections are secure.
Uneven Force Application: Verify that the material is properly aligned and secured.
Overheating: Allow the machine to cool down and check for any blockages or obstructions.
Contact Support: If issues persist, refer to the user manual or contact the manufacturer's customer support for assistance.
Q: What is the maximum force capacity of the 3 Ton Precision Table Press Machine?
A: The 3 Ton Precision Table Press Machine can deliver a maximum force of 3 tons (6,000 pounds).
Q: What types of materials can this press machine handle?
A: This press machine can handle a variety of materials, including metals, plastics, composites, and more, making it suitable for different industrial applications.
Q: How do I ensure the safety of the operator while using the machine?
A: Ensure the operator is properly trained, wears appropriate PPE, and follows all safety guidelines. Regularly inspect and maintain safety features like emergency stop buttons and safety guards.
Q: What is the recommended maintenance schedule for the 3 Ton Precision Table Press Machine?
A: Perform a pre-use inspection daily, conduct weekly maintenance checks, and follow the manufacturer's recommended schedule for more extensive maintenance tasks, such as lubrication and component inspection.
Q: Can the machine be used for both small-scale manufacturing and prototyping?
A: Yes, the 3 Ton Precision Table Press Machine is versatile and can be used for both small-scale manufacturing and prototyping, thanks to its precise force control and adjustable settings.
3 Ton Precision Table Press Machine
The 3 Ton Precision Table Press Machine is a high-precision, compact press designed for a wide range of industrial applications requiring accurate and consistent force application. This machine is capable of delivering up to 3 tons (6,000 pounds) of force and is ideal for tasks such as stamping, forming, assembly, and testing of small to medium-sized components. Known for its reliability and versatility, the 3 Ton Precision Table Press Machine is an essential tool for businesses in various industries, including manufacturing, electronics, automotive, and medical device production.
High Precision:
Accurate Force Control: Equipped with advanced hydraulic or pneumatic systems to ensure precise and consistent force application, critical for achieving high-quality results.
Adjustable Pressure Settings: Users can easily adjust the pressure settings to accommodate different materials and processes, ensuring optimal performance.
Compact Design:
Space Efficiency: The machine is designed to occupy minimal floor space, making it ideal for workshops and facilities with limited space.
Portability: Lightweight and easy to move, allowing for flexible placement and use in various locations.
User-Friendly Interface:
Intuitive Controls: A user-friendly control panel with clear indicators and simple operation, making it easy for operators to manage the machine.
Real-Time Monitoring: Real-time feedback and monitoring systems allow operators to track and adjust the process as needed, ensuring consistent results.
Versatile Applications:
Wide Range of Uses: Suitable for a variety of applications, including stamping, forming, assembly, and testing of small to medium-sized components.
Material Compatibility: Can handle a range of materials, from metals and plastics to composites, making it a versatile tool for different industries.
Durability and Reliability:
Robust Construction: Built with high-quality materials and a durable design to withstand heavy use and harsh industrial environments.
Low Maintenance: Designed for easy maintenance with accessible components and minimal wear parts, reducing downtime and maintenance costs.
Safety Features:
Emergency Stop Buttons: Strategically placed emergency stop buttons to halt the machine immediately in case of an emergency.
Safety Guards: Protective covers and interlocks to prevent accidental contact with moving parts, ensuring operator safety.
Energy Efficiency:
Optimized Energy Consumption: Designed to operate efficiently, minimizing energy usage and reducing operational costs.
Eco-Friendly: Environmentally friendly design with low power consumption and minimal waste, contributing to sustainability
Manufacturing: Ideal for small-scale manufacturing of components and parts.
Electronics: Perfect for assembling and testing electronic components.
Automotive: Suitable for forming and assembling small automotive parts.
Medical Device Production: Essential for precise and consistent force application in the production of medical devices
Operator Training:
Proper Training: Ensure that all operators are properly trained and familiar with the machine's operation manual and safety guidelines.
Certification: Operators should be certified or authorized to use the machine to minimize the risk of accidents.
Personal Protective Equipment (PPE):
Safety Gear: Operators must wear appropriate personal protective equipment, including safety glasses, gloves, and steel-toed boots.
Hearing Protection: Use hearing protection if the machine operates at high noise levels.
Machine Inspection:
Pre-Use Inspection: Conduct a thorough inspection of the machine before each use to ensure all components are functioning correctly.
Check for Damage: Inspect for any signs of wear, damage, or loose parts. Address any issues before starting the machine.
Material Preparation:
Proper Alignment: Ensure that the materials are properly aligned and positioned before starting the press. Misaligned materials can cause uneven pressure and damage.
Secure Workpieces: Use appropriate fixtures or clamps to secure workpieces firmly in place to prevent movement during operation.
Force and Pressure Settings:
Correct Settings: Set the force and pressure according to the material specifications and the task requirements. Overloading the machine can lead to damage or accidents.
Gradual Adjustment: Adjust the force and pressure settings gradually to avoid sudden changes that could cause instability.
Safety Features:
Emergency Stop: Familiarize yourself with the location and operation of the emergency stop buttons. Use them immediately in case of an emergency.
Safety Guards: Ensure that all safety guards and interlocks are in place and functioning properly. Do not bypass or disable safety features.
Operational Procedures:
Follow Instructions: Adhere to the manufacturer's operating instructions and recommended procedures.
Avoid Overheating: Monitor the machine's temperature and avoid prolonged use without adequate cooling. Overheating can reduce the lifespan of the machine and increase the risk of failure.
Maintenance and Cleaning:
Regular Maintenance: Perform regular maintenance as specified in the user manual. This includes lubrication, cleaning, and inspection of critical components.
Clean Work Area: Keep the work area clean and free of debris to prevent accidents and maintain optimal performance.
Load and Unload Safely:
Safe Handling: Use proper lifting techniques when loading and unloading materials to avoid strain or injury.
Clear Workspace: Ensure the workspace is clear of obstacles and clutter to facilitate safe and efficient operation.
Documentation and Records:
Keep Records: Maintain records of maintenance, inspections, and any incidents or repairs. This documentation is crucial for ensuring the machine's continued safe operation and compliance with regulatory standards.
Operator Training: Ensure that the operator is properly trained and familiar with the machine's operation manual and safety guidelines.
Personal Protective Equipment (PPE): Wear appropriate PPE, including safety glasses, gloves, and steel-toed boots.
Machine Inspection: Conduct a thorough inspection of the machine to ensure all components are functioning correctly.
Check for any signs of wear, damage, or loose parts.
Ensure all safety guards and interlocks are in place and functioning properly.
Work Area Preparation: Clear the work area of any obstacles or debris. Ensure the workspace is clean and organized.
Material Selection: Choose the appropriate material for the task and ensure it meets the required specifications.
Alignment and Positioning: Place the material on the press table and align it properly.
Use alignment tools or fixtures if necessary.
Securing Workpieces: Secure the material firmly in place using clamps or other appropriate fixtures to prevent movement during operation.
Power On: Turn on the machine by switching the main power switch to the "ON" position.
Pressure Settings: Set the force and pressure according to the material specifications and the task requirements.
Gradually adjust the force and pressure settings to avoid sudden changes that could cause instability.
Speed Settings: Adjust the speed settings to an appropriate level for the task.
Safety Features: Ensure that all safety features, such as emergency stop buttons and safety guards, are activated and functioning.
Initial Test: Perform a test cycle with no load to ensure the machine is operating correctly.
Loading Material: Load the prepared material into the press.
Starting the Press:
Press the start button to begin the operation.
Monitor the machine during operation to ensure it is running smoothly and the material is being processed correctly.
Stopping the Press:
Once the operation is complete, press the stop button to halt the machine.
Allow the machine to come to a complete stop before removing the material.
Material Removal: Carefully remove the processed material from the press.
Machine Shutdown:
Turn off the machine by switching the main power switch to the "OFF" position.
Allow the machine to cool down if it has been operating for an extended period.
Cleaning and Maintenance:
Clean the press table and any other components that came into contact with the material.
Perform any necessary maintenance tasks, such as lubrication or inspection of critical components.
Record Keeping: Document the operation, including any settings used, materials processed, and any issues encountered.
Common Issues:
Machine Not Starting: Check the power supply and ensure all connections are secure.
Uneven Force Application: Verify that the material is properly aligned and secured.
Overheating: Allow the machine to cool down and check for any blockages or obstructions.
Contact Support: If issues persist, refer to the user manual or contact the manufacturer's customer support for assistance.
Q: What is the maximum force capacity of the 3 Ton Precision Table Press Machine?
A: The 3 Ton Precision Table Press Machine can deliver a maximum force of 3 tons (6,000 pounds).
Q: What types of materials can this press machine handle?
A: This press machine can handle a variety of materials, including metals, plastics, composites, and more, making it suitable for different industrial applications.
Q: How do I ensure the safety of the operator while using the machine?
A: Ensure the operator is properly trained, wears appropriate PPE, and follows all safety guidelines. Regularly inspect and maintain safety features like emergency stop buttons and safety guards.
Q: What is the recommended maintenance schedule for the 3 Ton Precision Table Press Machine?
A: Perform a pre-use inspection daily, conduct weekly maintenance checks, and follow the manufacturer's recommended schedule for more extensive maintenance tasks, such as lubrication and component inspection.
Q: Can the machine be used for both small-scale manufacturing and prototyping?
A: Yes, the 3 Ton Precision Table Press Machine is versatile and can be used for both small-scale manufacturing and prototyping, thanks to its precise force control and adjustable settings.
