ARIDA- CN1-35T
ARIDA
8462109000
CN1-35T Metal Sheet Stamping 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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Robust Steel Frame:
The machine features a robust steel frame that provides a solid foundation, reducing the transmission of vibrations to the surrounding environment and improving overall stability.
Balanced Design:
The press is designed with a balanced configuration to minimize the generation of vibrations during operation. This includes the strategic placement of components and the use of precision-machined parts.
Dampening Systems:
The machine may incorporate dampening systems, such as rubber or hydraulic dampeners, to absorb and reduce vibrations. These systems help to isolate the press from the floor and other structures, further enhancing stability.
High-Quality Bearings:
High-quality bearings are used in the moving parts of the press to ensure smooth and quiet operation. These bearings are designed to handle high loads and reduce friction, minimizing the generation of vibrations.
Precision Machining:
All critical components, including the ram and die holders, are precision-machined to ensure accurate alignment and smooth movement. This precision helps to reduce the likelihood of vibrations caused by misalignment or uneven wear.
Controlled Operation:
The advanced control system allows for precise control of the press's movements, including the speed and force applied during the stamping process. This control helps to minimize sudden impacts and vibrations.
Regular Maintenance:
Regular maintenance, including lubrication and inspection of all components, is essential to keep the machine running smoothly and to prevent the buildup of vibrations over time.
Advanced Control System:
The machine is equipped with an advanced digital control system that allows for precise control over the pressing force, speed, and position. This ensures that each operation is performed with high accuracy and consistency.
High-Quality Components:
The use of high-quality, precision-machined components, including the ram, die holders, and guides, ensures that all parts move smoothly and accurately. This reduces the risk of misalignment and wear, which can affect precision over time.
Precision Machining:
All critical components are precision-machined to tight tolerances. This ensures that the ram and dies are perfectly aligned, leading to consistent and accurate stamping results.
Repeatability:
The machine is designed to maintain high repeatability, meaning that it can produce identical parts with minimal variation from one cycle to the next. This is crucial for maintaining quality and consistency in production.
Position Sensors:
Position sensors are used to monitor the exact position of the ram and other moving parts. This real-time feedback allows the control system to make precise adjustments, ensuring that the press operates within the desired parameters.
Hydraulic System:
The hydraulic system is designed to provide stable and consistent pressure. Proportional valves and pressure sensors ensure that the force applied during the stamping process is precisely controlled, reducing the risk of over- or under-pressing.
Tooling Alignment:
The machine includes features for easy and accurate alignment of tooling and dies. This ensures that the dies are properly positioned and secured, which is essential for achieving high precision in the stamped parts.
Regular Calibration:
Regular calibration and maintenance are recommended to ensure that the machine continues to operate at optimal precision. This includes checking and adjusting the alignment of components, as well as verifying the accuracy of the control system.
Maintenance and Lubrication:
Issue: Lack of regular maintenance and lubrication can lead to increased wear and tear, reduced precision, and potential breakdowns.
Consideration: Follow the manufacturer's recommended maintenance schedule. Regularly lubricate moving parts, check and replace worn components, and perform routine inspections.
Alignment and Calibration:
Issue: Misalignment of the ram, dies, or other components can result in poor precision and inconsistent part quality.
Consideration: Ensure that all components are properly aligned and calibrated. Regularly check the alignment of the ram and dies, and adjust as needed.
Hydraulic System:
Issue: Leaks, contaminated hydraulic fluid, or malfunctioning hydraulic components can affect the machine's performance and safety.
Consideration: Inspect the hydraulic system regularly for leaks and signs of wear. Change the hydraulic fluid according to the maintenance schedule and use high-quality filters to keep the fluid clean.
Safety Features:
Issue: Malfunctioning or disabled safety features can pose significant risks to operators.
Consideration: Ensure that all safety features, such as emergency stop buttons, safety guards, and light curtains, are functioning properly. Conduct regular safety checks and train operators on proper use.
Control System:
Issue: Malfunctions or errors in the control system can lead to improper operation and reduced precision.
Consideration: Keep the control system software up to date. Regularly check for error messages and address any issues promptly. Train operators to use the control system correctly.
Tooling and Dies:
Issue: Worn or improperly installed tooling and dies can result in poor part quality and increased downtime.
Consideration: Inspect tooling and dies regularly for wear and damage. Replace or repair as needed. Ensure that tooling is securely and correctly installed.
Material Handling:
Issue: Improper handling of metal sheets can lead to feeding errors, jams, and poor part quality.
Consideration: Use appropriate material handling equipment and techniques. Ensure that metal sheets are fed into the machine correctly and consistently.
Environmental Factors:
Issue: Extreme temperatures, humidity, and dust can affect the machine's performance and longevity.
Consideration: Maintain a clean and controlled environment for the machine. Protect the machine from extreme temperatures and humidity, and keep the area free from dust and debris.
Operator Training:
Issue: Untrained or inexperienced operators can misuse the machine, leading to safety hazards and reduced efficiency.
Consideration: Provide thorough training for all operators. Ensure that they understand the machine's operation, safety features, and maintenance requirements.
Documentation and Manuals:
Issue: Lack of access to user manuals and technical documentation can make troubleshooting and maintenance difficult.
Consideration: Keep all user manuals, technical documentation, and maintenance logs readily available. Ensure that operators and maintenance personnel have access to this information.
Q: What is the maximum pressing capacity of the CN1-35T?
A: The maximum pressing capacity of the CN1-35T is 35 tons.
Q: What types of materials can the CN1-35T handle?
A: The CN1-35T can handle various materials, including steel, aluminum, and other metals commonly used in metal sheet stamping.
Q: What safety features does the CN1-35T have?
A: The CN1-35T includes safety features such as emergency stop buttons, safety guards, and light curtains to ensure operator safety.
Q: How is the precision of the CN1-35T ensured?
A: The CN1-35T ensures precision through advanced control systems, high-quality components, and regular calibration and maintenance.
Q: What is the recommended maintenance schedule for the CN1-35T?
A: The recommended maintenance schedule includes regular lubrication, inspection of hydraulic systems, and alignment checks to ensure optimal performance and longevity.
Robust Steel Frame:
The machine features a robust steel frame that provides a solid foundation, reducing the transmission of vibrations to the surrounding environment and improving overall stability.
Balanced Design:
The press is designed with a balanced configuration to minimize the generation of vibrations during operation. This includes the strategic placement of components and the use of precision-machined parts.
Dampening Systems:
The machine may incorporate dampening systems, such as rubber or hydraulic dampeners, to absorb and reduce vibrations. These systems help to isolate the press from the floor and other structures, further enhancing stability.
High-Quality Bearings:
High-quality bearings are used in the moving parts of the press to ensure smooth and quiet operation. These bearings are designed to handle high loads and reduce friction, minimizing the generation of vibrations.
Precision Machining:
All critical components, including the ram and die holders, are precision-machined to ensure accurate alignment and smooth movement. This precision helps to reduce the likelihood of vibrations caused by misalignment or uneven wear.
Controlled Operation:
The advanced control system allows for precise control of the press's movements, including the speed and force applied during the stamping process. This control helps to minimize sudden impacts and vibrations.
Regular Maintenance:
Regular maintenance, including lubrication and inspection of all components, is essential to keep the machine running smoothly and to prevent the buildup of vibrations over time.
Advanced Control System:
The machine is equipped with an advanced digital control system that allows for precise control over the pressing force, speed, and position. This ensures that each operation is performed with high accuracy and consistency.
High-Quality Components:
The use of high-quality, precision-machined components, including the ram, die holders, and guides, ensures that all parts move smoothly and accurately. This reduces the risk of misalignment and wear, which can affect precision over time.
Precision Machining:
All critical components are precision-machined to tight tolerances. This ensures that the ram and dies are perfectly aligned, leading to consistent and accurate stamping results.
Repeatability:
The machine is designed to maintain high repeatability, meaning that it can produce identical parts with minimal variation from one cycle to the next. This is crucial for maintaining quality and consistency in production.
Position Sensors:
Position sensors are used to monitor the exact position of the ram and other moving parts. This real-time feedback allows the control system to make precise adjustments, ensuring that the press operates within the desired parameters.
Hydraulic System:
The hydraulic system is designed to provide stable and consistent pressure. Proportional valves and pressure sensors ensure that the force applied during the stamping process is precisely controlled, reducing the risk of over- or under-pressing.
Tooling Alignment:
The machine includes features for easy and accurate alignment of tooling and dies. This ensures that the dies are properly positioned and secured, which is essential for achieving high precision in the stamped parts.
Regular Calibration:
Regular calibration and maintenance are recommended to ensure that the machine continues to operate at optimal precision. This includes checking and adjusting the alignment of components, as well as verifying the accuracy of the control system.
Maintenance and Lubrication:
Issue: Lack of regular maintenance and lubrication can lead to increased wear and tear, reduced precision, and potential breakdowns.
Consideration: Follow the manufacturer's recommended maintenance schedule. Regularly lubricate moving parts, check and replace worn components, and perform routine inspections.
Alignment and Calibration:
Issue: Misalignment of the ram, dies, or other components can result in poor precision and inconsistent part quality.
Consideration: Ensure that all components are properly aligned and calibrated. Regularly check the alignment of the ram and dies, and adjust as needed.
Hydraulic System:
Issue: Leaks, contaminated hydraulic fluid, or malfunctioning hydraulic components can affect the machine's performance and safety.
Consideration: Inspect the hydraulic system regularly for leaks and signs of wear. Change the hydraulic fluid according to the maintenance schedule and use high-quality filters to keep the fluid clean.
Safety Features:
Issue: Malfunctioning or disabled safety features can pose significant risks to operators.
Consideration: Ensure that all safety features, such as emergency stop buttons, safety guards, and light curtains, are functioning properly. Conduct regular safety checks and train operators on proper use.
Control System:
Issue: Malfunctions or errors in the control system can lead to improper operation and reduced precision.
Consideration: Keep the control system software up to date. Regularly check for error messages and address any issues promptly. Train operators to use the control system correctly.
Tooling and Dies:
Issue: Worn or improperly installed tooling and dies can result in poor part quality and increased downtime.
Consideration: Inspect tooling and dies regularly for wear and damage. Replace or repair as needed. Ensure that tooling is securely and correctly installed.
Material Handling:
Issue: Improper handling of metal sheets can lead to feeding errors, jams, and poor part quality.
Consideration: Use appropriate material handling equipment and techniques. Ensure that metal sheets are fed into the machine correctly and consistently.
Environmental Factors:
Issue: Extreme temperatures, humidity, and dust can affect the machine's performance and longevity.
Consideration: Maintain a clean and controlled environment for the machine. Protect the machine from extreme temperatures and humidity, and keep the area free from dust and debris.
Operator Training:
Issue: Untrained or inexperienced operators can misuse the machine, leading to safety hazards and reduced efficiency.
Consideration: Provide thorough training for all operators. Ensure that they understand the machine's operation, safety features, and maintenance requirements.
Documentation and Manuals:
Issue: Lack of access to user manuals and technical documentation can make troubleshooting and maintenance difficult.
Consideration: Keep all user manuals, technical documentation, and maintenance logs readily available. Ensure that operators and maintenance personnel have access to this information.
Q: What is the maximum pressing capacity of the CN1-35T?
A: The maximum pressing capacity of the CN1-35T is 35 tons.
Q: What types of materials can the CN1-35T handle?
A: The CN1-35T can handle various materials, including steel, aluminum, and other metals commonly used in metal sheet stamping.
Q: What safety features does the CN1-35T have?
A: The CN1-35T includes safety features such as emergency stop buttons, safety guards, and light curtains to ensure operator safety.
Q: How is the precision of the CN1-35T ensured?
A: The CN1-35T ensures precision through advanced control systems, high-quality components, and regular calibration and maintenance.
Q: What is the recommended maintenance schedule for the CN1-35T?
A: The recommended maintenance schedule includes regular lubrication, inspection of hydraulic systems, and alignment checks to ensure optimal performance and longevity.
