ARIDA- Anti-vibration Pads
ARIDA
8462109000
L12S-02 Double Shafts Special Terminal Recoiler
Copper, metal materials
Local Service/Online Service
High Speed Punch Machine
Electricity
GS, CE, RoHS, ISO 9001
12 months
Crank Press
Standard Export Packing
ARIDA
China
High precision
Worldwide
Yes
Yes
| Quantity: | |
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 | Prouduct Display-Press Matched Devices |
Effective Vibration Isolation:
Air Damping Technology: Utilizes an air chamber to absorb and dissipate vibrational energy, providing highly effective vibration isolation.
High Damping Ratio: The air damping mechanism offers a high damping ratio, significantly reducing the transmission of vibrations to the surrounding structure.
Adjustable Performance:
Tunable Air Pressure: The air pressure within the pads can be adjusted to match the specific vibration frequencies and amplitudes of the equipment, ensuring optimal performance.
Versatile Application: Suitable for a wide range of applications, including industrial machinery, automotive systems, and precision instruments.
Durability and Longevity:
Robust Construction: Made from high-quality materials that are resistant to wear and tear, ensuring long-lasting performance.
Low Maintenance: Designed to require minimal maintenance, reducing downtime and operational costs.
Compact and Lightweight:
Space-Efficient Design: Compact size allows for easy integration into existing systems without requiring significant modifications.
Lightweight: Low weight ensures that the pads do not add unnecessary load to the equipment, maintaining overall stability and balance.
Temperature and Environmental Resistance:
Wide Operating Temperature Range: Capable of performing effectively in a wide range of temperatures, from cold to hot environments.
Chemical Resistance: Resistant to common industrial chemicals and oils, ensuring reliable performance in harsh conditions.
Noise Reduction:
Quiet Operation: The air damping mechanism helps to reduce noise levels, creating a quieter and more comfortable working environment.
Smooth Performance: Provides smooth and stable operation, minimizing the disruptive effects of vibrations.
Easy Installation:
User-Friendly Design: Simple and straightforward installation process, making it easy to integrate into new or existing systems.
Interchangeable Units: Standardized sizes and configurations allow for easy replacement and maintenance.
Customizable Options:
Tailored Solutions: Available in various sizes and configurations to meet specific application requirements.
Special Coatings: Optional coatings and finishes can be applied to enhance performance in specific environments.
Preparation:
Clean the Surface: Ensure that the surfaces of both the equipment and the mounting base are clean and free from debris, oil, and dirt. This helps achieve a secure and stable connection.
Check Alignment: Verify that the equipment and the mounting base are properly aligned to avoid any misalignment issues that could affect the performance of the anti-vibration pads.
Position the Pads:
Determine Placement: Identify the optimal placement for the anti-vibration pads. Typically, they should be positioned at the corners or evenly spaced along the base of the equipment to provide balanced support.
Mark the Positions: Use a marker or chalk to mark the positions where the pads will be placed. This ensures accurate placement during installation.
Attach the Pads:
Adhesive Mounting: If the pads come with adhesive backing, peel off the protective film and press the pads firmly onto the marked positions. Apply even pressure to ensure a strong bond.
Mechanical Fasteners: If using mechanical fasteners (such as screws or bolts), drill holes at the marked positions and secure the pads using the appropriate fasteners. Ensure that the fasteners are tightened securely but not overly tight to avoid damaging the pads.
Connect to the Equipment:
Place the Equipment: Carefully place the equipment onto the anti-vibration pads, ensuring that it is centered and aligned with the pads.
Secure the Equipment: If additional securing is needed, use straps, clamps, or other securing methods to ensure the equipment remains stable and does not shift during operation.
Adjust Air Pressure:
Inflate the Pads: Use an air pump or compressor to inflate the anti-vibration pads to the desired pressure. The recommended air pressure will depend on the weight of the equipment and the specific application requirements.
Monitor and Adjust: After initial inflation, monitor the performance of the equipment. Adjust the air pressure as needed to achieve optimal vibration isolation and stability.
Final Inspection:
Check Stability: Ensure that the equipment is stable and level on the anti-vibration pads. Check for any signs of unevenness or instability.
Test Operation: Run the equipment to test its performance and verify that the anti-vibration pads are effectively reducing vibrations and noise.
Follow Manufacturer Guidelines: Always refer to the manufacturer's installation instructions for specific guidelines and recommendations.
Use Proper Tools: Use the appropriate tools for drilling and securing the pads to ensure a professional and secure installation.
Regular Maintenance: Periodically inspect the anti-vibration pads and the connection points to ensure they remain in good condition and continue to function effectively.
Highly Effective Vibration Isolation:
Advanced Air Damping Technology: Utilizes an air chamber to absorb and dissipate vibrational energy, providing superior vibration isolation compared to traditional rubber or spring-based systems.
High Damping Ratio: The high damping ratio effectively reduces the transmission of vibrations, protecting sensitive equipment and components from damage.
Adjustable Performance:
Tunable Air Pressure: The air pressure within the pads can be easily adjusted to match the specific vibration frequencies and amplitudes of the equipment, ensuring optimal performance for a wide range of applications.
Versatile Application: Suitable for various industries, including manufacturing, automotive, electronics, and precision engineering, where vibration control is critical.
Durability and Longevity:
Robust Construction: Made from high-quality, durable materials that resist wear and tear, ensuring long-lasting performance.
Low Maintenance: Requires minimal maintenance, reducing downtime and operational costs, and extending the life of the equipment.
Compact and Lightweight:
Space-Efficient Design: Compact size allows for easy integration into existing systems without requiring significant modifications.
Lightweight: Low weight ensures that the pads do not add unnecessary load to the equipment, maintaining overall stability and balance.
Temperature and Environmental Resistance:
Wide Operating Temperature Range: Capable of performing effectively in a wide range of temperatures, from cold to hot environments, making them suitable for diverse operating conditions.
Chemical Resistance: Resistant to common industrial chemicals and oils, ensuring reliable performance in harsh environments.
Noise Reduction:
Quiet Operation: The air damping mechanism helps to reduce noise levels, creating a quieter and more comfortable working environment.
Smooth Performance: Provides smooth and stable operation, minimizing the disruptive effects of vibrations and improving overall equipment performance.
Easy Installation:
User-Friendly Design: Simple and straightforward installation process, making it easy to integrate into new or existing systems.
Interchangeable Units: Standardized sizes and configurations allow for easy replacement and maintenance, reducing downtime.
Customizable Options:
Tailored Solutions: Available in various sizes and configurations to meet specific application requirements, ensuring a perfect fit for different equipment and environments.
Special Coatings: Optional coatings and finishes can be applied to enhance performance in specific conditions, such as increased resistance to extreme temperatures or corrosive substances.
Outer Shell:
Resistance: Highly resistant to abrasion, chemicals, and UV exposure.
Flexibility: Provides excellent flexibility and resilience to withstand dynamic loading conditions.
Temperature Range: Operates effectively in a wide temperature range, typically from -40°C to +80°C (-40°F to +176°F).
Material: High-strength, durable rubber or polyurethane.
Properties:
Air Chamber:
Airtight Seals: Ensures airtight seals to maintain consistent air pressure.
Durability: Resistant to punctures and tears, ensuring long-lasting performance.
Elasticity: High elasticity allows for effective vibration absorption and damping.
Material: High-quality, flexible PVC or TPU (Thermoplastic Polyurethane).
Properties:
Internal Reinforcement:
Strength: Provides additional structural strength and stability.
Stiffness: Helps maintain the shape and form of the pad under heavy loads.
Durability: Enhances the overall durability and lifespan of the pad.
Material: Fiberglass or aramid fibers.
Properties:
Mounting Components:
Corrosion Resistance: Highly resistant to corrosion, ensuring long-term reliability.
Strength: Provides strong and secure mounting points.
Compatibility: Compatible with standard fastening hardware for easy installation.
Material: Stainless steel or aluminum.
Properties:
Sealing Gaskets:
Seal Integrity: Ensures airtight seals to prevent air leaks.
Temperature Resistance: Operates effectively in a wide range of temperatures.
Chemical Resistance: Resistant to oils, solvents, and other chemicals.
Material: Neoprene or silicone.
Properties:
Surface Treatment:
Grip: Provides a non-slip surface to enhance stability and prevent movement.
Durability: Resistant to wear and tear, ensuring long-lasting performance
Material: Anti-slip coating or texture.
Properties:
Answer: The primary function of Air Damping Anti-vibration Pads is to reduce and control vibrations in machinery and equipment, thereby minimizing noise, wear, and damage to sensitive components.
Answer: To adjust the air pressure, use an air pump or compressor to inflate the pads to the desired pressure. The recommended pressure will depend on the weight of the equipment and specific application requirements.
Answer: Yes, Air Damping Anti-vibration Pads are designed to be resistant to environmental factors such as UV exposure, temperature variations, and chemicals, making them suitable for both indoor and outdoor use.
Answer: The pads are constructed using high-strength rubber or polyurethane for the outer shell, flexible PVC or TPU for the air chamber, fiberglass or aramid fibers for internal reinforcement, and stainless steel or aluminum for mounting components.
| Prouduct Display-Press Matched Devices |
Effective Vibration Isolation:
Air Damping Technology: Utilizes an air chamber to absorb and dissipate vibrational energy, providing highly effective vibration isolation.
High Damping Ratio: The air damping mechanism offers a high damping ratio, significantly reducing the transmission of vibrations to the surrounding structure.
Adjustable Performance:
Tunable Air Pressure: The air pressure within the pads can be adjusted to match the specific vibration frequencies and amplitudes of the equipment, ensuring optimal performance.
Versatile Application: Suitable for a wide range of applications, including industrial machinery, automotive systems, and precision instruments.
Durability and Longevity:
Robust Construction: Made from high-quality materials that are resistant to wear and tear, ensuring long-lasting performance.
Low Maintenance: Designed to require minimal maintenance, reducing downtime and operational costs.
Compact and Lightweight:
Space-Efficient Design: Compact size allows for easy integration into existing systems without requiring significant modifications.
Lightweight: Low weight ensures that the pads do not add unnecessary load to the equipment, maintaining overall stability and balance.
Temperature and Environmental Resistance:
Wide Operating Temperature Range: Capable of performing effectively in a wide range of temperatures, from cold to hot environments.
Chemical Resistance: Resistant to common industrial chemicals and oils, ensuring reliable performance in harsh conditions.
Noise Reduction:
Quiet Operation: The air damping mechanism helps to reduce noise levels, creating a quieter and more comfortable working environment.
Smooth Performance: Provides smooth and stable operation, minimizing the disruptive effects of vibrations.
Easy Installation:
User-Friendly Design: Simple and straightforward installation process, making it easy to integrate into new or existing systems.
Interchangeable Units: Standardized sizes and configurations allow for easy replacement and maintenance.
Customizable Options:
Tailored Solutions: Available in various sizes and configurations to meet specific application requirements.
Special Coatings: Optional coatings and finishes can be applied to enhance performance in specific environments.
Preparation:
Clean the Surface: Ensure that the surfaces of both the equipment and the mounting base are clean and free from debris, oil, and dirt. This helps achieve a secure and stable connection.
Check Alignment: Verify that the equipment and the mounting base are properly aligned to avoid any misalignment issues that could affect the performance of the anti-vibration pads.
Position the Pads:
Determine Placement: Identify the optimal placement for the anti-vibration pads. Typically, they should be positioned at the corners or evenly spaced along the base of the equipment to provide balanced support.
Mark the Positions: Use a marker or chalk to mark the positions where the pads will be placed. This ensures accurate placement during installation.
Attach the Pads:
Adhesive Mounting: If the pads come with adhesive backing, peel off the protective film and press the pads firmly onto the marked positions. Apply even pressure to ensure a strong bond.
Mechanical Fasteners: If using mechanical fasteners (such as screws or bolts), drill holes at the marked positions and secure the pads using the appropriate fasteners. Ensure that the fasteners are tightened securely but not overly tight to avoid damaging the pads.
Connect to the Equipment:
Place the Equipment: Carefully place the equipment onto the anti-vibration pads, ensuring that it is centered and aligned with the pads.
Secure the Equipment: If additional securing is needed, use straps, clamps, or other securing methods to ensure the equipment remains stable and does not shift during operation.
Adjust Air Pressure:
Inflate the Pads: Use an air pump or compressor to inflate the anti-vibration pads to the desired pressure. The recommended air pressure will depend on the weight of the equipment and the specific application requirements.
Monitor and Adjust: After initial inflation, monitor the performance of the equipment. Adjust the air pressure as needed to achieve optimal vibration isolation and stability.
Final Inspection:
Check Stability: Ensure that the equipment is stable and level on the anti-vibration pads. Check for any signs of unevenness or instability.
Test Operation: Run the equipment to test its performance and verify that the anti-vibration pads are effectively reducing vibrations and noise.
Follow Manufacturer Guidelines: Always refer to the manufacturer's installation instructions for specific guidelines and recommendations.
Use Proper Tools: Use the appropriate tools for drilling and securing the pads to ensure a professional and secure installation.
Regular Maintenance: Periodically inspect the anti-vibration pads and the connection points to ensure they remain in good condition and continue to function effectively.
Highly Effective Vibration Isolation:
Advanced Air Damping Technology: Utilizes an air chamber to absorb and dissipate vibrational energy, providing superior vibration isolation compared to traditional rubber or spring-based systems.
High Damping Ratio: The high damping ratio effectively reduces the transmission of vibrations, protecting sensitive equipment and components from damage.
Adjustable Performance:
Tunable Air Pressure: The air pressure within the pads can be easily adjusted to match the specific vibration frequencies and amplitudes of the equipment, ensuring optimal performance for a wide range of applications.
Versatile Application: Suitable for various industries, including manufacturing, automotive, electronics, and precision engineering, where vibration control is critical.
Durability and Longevity:
Robust Construction: Made from high-quality, durable materials that resist wear and tear, ensuring long-lasting performance.
Low Maintenance: Requires minimal maintenance, reducing downtime and operational costs, and extending the life of the equipment.
Compact and Lightweight:
Space-Efficient Design: Compact size allows for easy integration into existing systems without requiring significant modifications.
Lightweight: Low weight ensures that the pads do not add unnecessary load to the equipment, maintaining overall stability and balance.
Temperature and Environmental Resistance:
Wide Operating Temperature Range: Capable of performing effectively in a wide range of temperatures, from cold to hot environments, making them suitable for diverse operating conditions.
Chemical Resistance: Resistant to common industrial chemicals and oils, ensuring reliable performance in harsh environments.
Noise Reduction:
Quiet Operation: The air damping mechanism helps to reduce noise levels, creating a quieter and more comfortable working environment.
Smooth Performance: Provides smooth and stable operation, minimizing the disruptive effects of vibrations and improving overall equipment performance.
Easy Installation:
User-Friendly Design: Simple and straightforward installation process, making it easy to integrate into new or existing systems.
Interchangeable Units: Standardized sizes and configurations allow for easy replacement and maintenance, reducing downtime.
Customizable Options:
Tailored Solutions: Available in various sizes and configurations to meet specific application requirements, ensuring a perfect fit for different equipment and environments.
Special Coatings: Optional coatings and finishes can be applied to enhance performance in specific conditions, such as increased resistance to extreme temperatures or corrosive substances.
Outer Shell:
Resistance: Highly resistant to abrasion, chemicals, and UV exposure.
Flexibility: Provides excellent flexibility and resilience to withstand dynamic loading conditions.
Temperature Range: Operates effectively in a wide temperature range, typically from -40°C to +80°C (-40°F to +176°F).
Material: High-strength, durable rubber or polyurethane.
Properties:
Air Chamber:
Airtight Seals: Ensures airtight seals to maintain consistent air pressure.
Durability: Resistant to punctures and tears, ensuring long-lasting performance.
Elasticity: High elasticity allows for effective vibration absorption and damping.
Material: High-quality, flexible PVC or TPU (Thermoplastic Polyurethane).
Properties:
Internal Reinforcement:
Strength: Provides additional structural strength and stability.
Stiffness: Helps maintain the shape and form of the pad under heavy loads.
Durability: Enhances the overall durability and lifespan of the pad.
Material: Fiberglass or aramid fibers.
Properties:
Mounting Components:
Corrosion Resistance: Highly resistant to corrosion, ensuring long-term reliability.
Strength: Provides strong and secure mounting points.
Compatibility: Compatible with standard fastening hardware for easy installation.
Material: Stainless steel or aluminum.
Properties:
Sealing Gaskets:
Seal Integrity: Ensures airtight seals to prevent air leaks.
Temperature Resistance: Operates effectively in a wide range of temperatures.
Chemical Resistance: Resistant to oils, solvents, and other chemicals.
Material: Neoprene or silicone.
Properties:
Surface Treatment:
Grip: Provides a non-slip surface to enhance stability and prevent movement.
Durability: Resistant to wear and tear, ensuring long-lasting performance
Material: Anti-slip coating or texture.
Properties:
Answer: The primary function of Air Damping Anti-vibration Pads is to reduce and control vibrations in machinery and equipment, thereby minimizing noise, wear, and damage to sensitive components.
Answer: To adjust the air pressure, use an air pump or compressor to inflate the pads to the desired pressure. The recommended pressure will depend on the weight of the equipment and specific application requirements.
Answer: Yes, Air Damping Anti-vibration Pads are designed to be resistant to environmental factors such as UV exposure, temperature variations, and chemicals, making them suitable for both indoor and outdoor use.
Answer: The pads are constructed using high-strength rubber or polyurethane for the outer shell, flexible PVC or TPU for the air chamber, fiberglass or aramid fibers for internal reinforcement, and stainless steel or aluminum for mounting components.
