Copper Tube Manufacturer

A copper tube is a cylindrical pipe made from high-quality copper material, widely used in various applications across industries. Copper tubes are valued for their excellent thermal conductivity, corrosion resistance, and malleability, making them suitable for diverse purposes.

Comforplanet, a prominent player in the HVAC industry, offers a range of high-quality copper tubes. Committed to delivering reliable solutions, our copper tubes are crafted to meet industry standards, ensuring optimal performance and durability across diverse applications.

Comforplanet - Your Copper Tube Supplier

“Comforplanet, a leading presence in the HVAC industry, specializes in the design and production of various components catering to efficient air management. Our comprehensive product range includes Refrigerant Gas, Refrigeration Oils, Air Conditioner Cleaner, Packing, and Accessories. Committed to delivering high-quality solutions, we draw upon our expertise to ensure the provision of top-notch products tailored to meet the unique needs of our clients.

Copper Coils: Copper coils are essential components in various HVAC and refrigeration systems. These coils, made from high-quality copper, play a key role in heat exchange processes, allowing for efficient temperature control and heat transfer.

Straight Copper Pipes: Straight copper pipes are commonly used in plumbing and HVAC systems. Their straightforward design facilitates fluid or gas flow, making them versatile for various applications, including refrigeration and air conditioning.

Capillary Copper Tubes: Capillary copper tubes are thin, narrow tubes with precise diameters, often used in refrigeration systems. Their small size allows for controlled fluid flow, making them suitable for applications where precision is crucial.

Insulated Copper Tube: Insulated copper tubes feature protective insulation, enhancing their energy efficiency and preventing condensation. These tubes are commonly employed in air conditioning and refrigeration systems to maintain temperature stability.

Insulated Copper Aluminium Tubes: Insulated copper-aluminum tubes combine the conductivity of copper with the lightweight properties of aluminum. The insulation ensures energy efficiency, making them suitable for various heat exchange applications.

PVC Coated Copper Tube: PVC coated copper tubes have a layer of polyvinyl chloride (PVC) coating, providing additional protection against corrosion and environmental elements. These tubes are commonly used in outdoor or corrosive environments, ensuring longevity and reliability in challenging conditions.”

Copper coils are essential components in various HVAC and refrigeration systems. These coils, made from high-quality copper, play a key role in heat exchange processes, allowing for efficient temperature control and heat transfer.

Straight Copper Pipes

Straight copper pipes are commonly used in plumbing and HVAC systems. Their straightforward design facilitates fluid or gas flow, making them versatile for various applications, including refrigeration and air conditioning.

Capillary Copper Tubes

Capillary copper tubes are thin, narrow tubes with precise diameters, often used in refrigeration systems. Their small size allows for controlled fluid flow, making them suitable for applications where precision is crucial.

Insulated copper tubes feature protective insulation, enhancing their energy efficiency and preventing condensation. These tubes are commonly employed in air conditioning and refrigeration systems to maintain temperature stability.

Insulated copper-aluminum tubes combine the conductivity of copper with the lightweight properties of aluminum. The insulation ensures energy efficiency, making them suitable for various heat exchange applications.

PVC coated copper tubes have a layer of polyvinyl chloride (PVC) coating, providing additional protection against corrosion and environmental elements. These tubes are commonly used in outdoor or corrosive environments, ensuring longevity and reliability in challenging conditions.

If you need know more our products please download our catalogue to choose.”Experience exceptional customer service and reliable Ventilation products. Contact us now!”

Comforplanet– Copper Tube Manufacturer

Copper Tube

A copper tube is a cylindrical, hollow pipe made primarily of copper metal. Copper tubes are widely used in various applications due to the unique properties of copper, such as excellent thermal conductivity, corrosion resistance, and malleability. Here are some key points about copper tubes:

  1. Material Composition:

    • Copper tubes are primarily composed of copper, a ductile and malleable metal known for its conductivity of heat and electricity.
  2. Applications:

    • Copper tubes find extensive use in plumbing systems for transporting water, in HVAC (Heating, Ventilation, and Air Conditioning) systems for refrigerant circulation, and in various industrial processes. They are also employed in the construction of heat exchangers and as components in diverse engineering applications.
  3. Types and Varieties:

    • Copper tubes come in various types, including straight tubes, coiled tubes, capillary tubes, and tubes with different wall thicknesses to suit specific applications.
  4. Heat Transfer Efficiency:

    • Copper’s high thermal conductivity makes copper tubes particularly effective for applications where efficient heat transfer is essential, such as in the cooling and heating systems of air conditioners and refrigerators.
  5. Corrosion Resistance:

    • Copper exhibits excellent corrosion resistance, making copper tubes durable and suitable for use in environments with exposure to moisture and various substances.
  6. Malleability and Formability:

    • Copper is a malleable metal, allowing the fabrication of tubes with different shapes and sizes. This flexibility in form makes copper tubes adaptable to a wide range of installations.
  7. Joining Methods:

    • Copper tubes are commonly joined using methods such as soldering or brazing. The ease of joining contributes to the versatility of copper tubes in plumbing and other applications.
  8. Standards and Specifications:

    • Copper tubes are manufactured according to industry standards and specifications. These standards ensure uniformity in dimensions and properties, facilitating compatibility with various systems and components.

Copper tubes play a vital role in the transportation of fluids, gases, and heat within a diverse range of industries. Their reliability, longevity, and thermal properties contribute to their widespread use in applications that demand durability and efficient heat exchange.

Copper Coils

Copper coils refer to cylindrical, coiled structures made from copper tubing. These coils are widely used in various applications due to the excellent properties of copper, such as thermal conductivity, corrosion resistance, and malleability. Here are key points about copper coils:

  1. Formation:

    • Copper coils are formed by winding copper tubing into a spiral or helical shape. The coiling enhances the surface area available for heat exchange and makes them suitable for various applications.
  2. Applications:

    • Copper coils find applications in diverse industries, including air conditioning, refrigeration, heating, and industrial processes. They are commonly used in heat exchangers, evaporators, and condenser units.
  3. Heat Transfer Efficiency:

    • The coil structure maximizes the contact area between the copper surface and the surrounding medium. This design is especially effective for efficient heat transfer, making copper coils ideal for applications where temperature control is critical.
  4. Air Conditioning and Refrigeration:

    • In air conditioning and refrigeration systems, copper coils are commonly used in both evaporator and condenser units. The coiled structure allows for the absorption or release of heat, contributing to the cooling or heating process.
  5. Versatility:

    • Copper coils are versatile and can be adapted to various configurations, depending on the specific requirements of the application. This adaptability makes them suitable for different types of heat exchange systems.
  6. Corrosion Resistance:

    • Copper’s natural resistance to corrosion is a valuable attribute in applications where the coil is exposed to moisture or other corrosive elements. This corrosion resistance contributes to the durability of copper coils.
  7. Malleability:

    • Copper’s malleability allows for easy fabrication into coils with different sizes and shapes, meeting the needs of specific installations and designs.
  8. Joining Methods:

    • Copper coils can be joined using methods such as soldering or brazing. The joining process ensures the coils remain secure and leak-free during operation.

Copper coils play a crucial role in heat exchange systems, contributing to the efficiency and performance of air conditioning, refrigeration, and heating applications. Their reliability, thermal properties, and resistance to corrosion make them a preferred choice in various industries for applications that require effective and durable heat transfer.

Straight Copper Pipes

Straight copper pipes are linear, uncoiled sections of copper tubing commonly used in a variety of applications. These pipes are integral components in plumbing, HVAC (Heating, Ventilation, and Air Conditioning), and refrigeration systems. Here are key points about straight copper pipes:

  1. Material Composition:

    • Straight copper pipes are primarily composed of copper, a metal known for its excellent thermal conductivity, corrosion resistance, and malleability.
  2. Applications:

    • These pipes are used in plumbing systems to transport water and other fluids. They are also prevalent in HVAC and refrigeration systems for the circulation of refrigerants. Additionally, straight copper pipes find use in various industrial processes where reliable and efficient fluid transportation is essential.
  3. Types and Varieties:

    • Straight copper pipes come in various types and sizes to accommodate different applications. They can have varying wall thicknesses based on the specific requirements of the system.
  4. Heat Transfer Efficiency:

    • Copper’s high thermal conductivity makes straight copper pipes highly effective in applications where efficient heat transfer is crucial. This property is especially beneficial in HVAC and refrigeration systems.
  5. Corrosion Resistance:

    • Copper exhibits excellent corrosion resistance, ensuring the longevity and durability of straight copper pipes. This resistance makes them suitable for use in plumbing systems where exposure to water and other corrosive elements is common.
  6. Malleability and Formability:

    • Copper is a malleable metal, allowing for the fabrication of pipes with different diameters and lengths. The malleability of copper contributes to the ease of installation and adaptability to various system designs.
  7. Joining Methods:

    • Straight copper pipes can be joined using methods such as soldering or brazing. These joining techniques provide secure connections and help prevent leaks in the plumbing or refrigeration system.
  8. Standards and Specifications:

    • Straight copper pipes are manufactured according to industry standards and specifications. These standards ensure uniformity in dimensions and properties, promoting compatibility with different systems and components.

Straight copper pipes are essential components in infrastructure and systems that require reliable fluid transportation. Their versatility, thermal properties, and resistance to corrosion contribute to their widespread use in applications ranging from residential plumbing to complex industrial processes.

Capillary Copper Tubes

Capillary copper tubes are narrow-diameter copper tubes known for their small bore sizes and precise dimensions. These tubes are commonly used in refrigeration and air conditioning systems, as well as some medical and scientific applications. Here are key points about capillary copper tubes:

  1. Small Diameter:

    • Capillary tubes are characterized by their small inner diameters, which are typically measured in fractions of an inch. The narrow bore size allows for precise control of fluid flow, making them suitable for applications where accurate metering is essential.
  2. Refrigeration and Air Conditioning:

    • Capillary copper tubes are commonly used in refrigeration and air conditioning systems as expansion devices. They play a crucial role in controlling the flow of refrigerant and facilitating the phase change from liquid to vapor in the evaporator.
  3. Precision and Accuracy:

    • The small and precisely controlled dimensions of capillary tubes enable accurate control of refrigerant flow rates. This precision is vital for maintaining optimal performance and efficiency in refrigeration and air conditioning systems.
  4. Metering Devices:

    • Capillary tubes serve as metering devices in refrigeration cycles, regulating the amount of refrigerant entering the evaporator coil. This controlled metering ensures efficient heat exchange and cooling.
  5. Material Composition:

    • Capillary tubes are typically made of copper due to its excellent thermal conductivity and corrosion resistance. Copper ensures efficient heat transfer and durability in the demanding conditions of refrigeration systems.
  6. Medical and Scientific Applications:

    • In addition to HVAC and refrigeration, capillary tubes are used in some medical and scientific applications, such as chromatography and certain laboratory experiments where precise fluid control is required.
  7. Brazing and Joining:

    • Capillary copper tubes are often joined using brazing or soldering methods. These joining techniques create secure connections and help maintain the integrity of the small-diameter tubing.
  8. Compliance with Standards:

    • Capillary tubes are manufactured to meet specific industry standards and specifications to ensure uniformity in dimensions and performance. Compliance with these standards is essential for compatibility with refrigeration and air conditioning systems.

Capillary copper tubes play a critical role in the efficient operation of refrigeration and air conditioning systems by precisely controlling the flow of refrigerants. Their small size and accuracy make them valuable components in applications where metering and control are paramount.

Insulated Copper Tube

Insulated copper tubes consist of copper tubing encased in a layer of insulation material. This design is commonly used in refrigeration, air conditioning, and HVAC systems to prevent heat exchange between the refrigerant inside the copper tube and the surrounding environment. Here are key points about insulated copper tubes:

  1. Composition:

    • Insulated copper tubes typically consist of two main components: the copper tube itself and a layer of insulation material surrounding the tube. The insulation layer is often made of materials like rubber, foam, or other insulating materials.
  2. Applications:

    • These tubes are widely used in applications where preventing heat gain or loss is crucial. Common applications include refrigeration systems, air conditioning units, and HVAC systems. The insulation helps maintain the desired temperature inside the tube and improves the overall efficiency of the system.
  3. Prevention of Heat Transfer:

    • The primary purpose of the insulation is to prevent heat transfer between the refrigerant flowing inside the copper tube and the external environment. This is particularly important in refrigeration systems, where maintaining specific temperatures is critical for proper functioning.
  4. Energy Efficiency:

    • Insulated copper tubes contribute to the energy efficiency of a system by reducing heat exchange with the surroundings. This is essential for maintaining the desired temperature levels and improving the overall performance of the system.
  5. Variety of Insulation Materials:

    • The insulation layer can be made from different materials based on the specific requirements of the application. Common insulation materials include rubber, closed-cell foam, or other materials with good thermal insulating properties.
  6. Condensation Prevention:

    • In humid environments, the insulation also helps prevent condensation on the outer surface of the copper tube. Condensation can lead to issues such as corrosion and reduced efficiency, so the insulation serves a dual purpose in preventing both heat transfer and condensation.
  7. Installation Considerations:

    • Proper installation of insulated copper tubes is crucial to ensure the effectiveness of the insulation. Care must be taken to seal joints and seams to prevent air infiltration and maintain the insulating properties of the material.
  8. Standards and Compliance:

    • Insulated copper tubes are manufactured to meet industry standards and specifications. Compliance with these standards ensures that the insulation provides the required thermal resistance and durability.

Insulated copper tubes play a vital role in maintaining temperature control and energy efficiency in various cooling and refrigeration systems. Their design, incorporating both copper for heat exchange and insulation for thermal resistance, is integral to the optimal performance of these systems.

Insulated Copper Aluminium Tubes

Insulated copper-aluminum tubes combine the characteristics of copper and aluminum tubing with an added layer of insulation. This design is commonly used in applications where efficient heat transfer, corrosion resistance, and insulation are important. Here are key points about insulated copper-aluminum tubes:

  1. Composition:

    • Insulated copper-aluminum tubes consist of an inner core made of a combination of copper and aluminum tubing. This combination harnesses the thermal conductivity of copper and the lightweight characteristics of aluminum. The tubes are then encased in a layer of insulation material.
  2. Copper-Aluminum Alloy:

    • The copper and aluminum components are often alloyed together to form a material that leverages the benefits of both metals. Copper provides excellent thermal conductivity and corrosion resistance, while aluminum contributes to lightweight construction.
  3. Applications:

    • These tubes are used in various applications, including air conditioning, refrigeration, and heat exchange systems. The combination of copper and aluminum in the core enhances the overall performance of the tubes in terms of heat transfer efficiency and durability.
  4. Heat Transfer Efficiency:

    • Copper’s high thermal conductivity ensures efficient heat transfer, while the lightweight and corrosion-resistant properties of aluminum contribute to the overall effectiveness of the tubes in heat exchange applications.
  5. Insulation Layer:

    • The insulation layer, typically made of materials like rubber, foam, or other insulating materials, surrounds the copper-aluminum core. This insulation is crucial for preventing heat exchange with the surrounding environment and maintaining the desired temperature within the tubes.
  6. Corrosion Resistance:

    • Copper’s natural corrosion resistance helps protect the inner core from environmental factors, ensuring the longevity and durability of the tubes.
  7. Energy Efficiency:

    • The insulation layer not only prevents heat exchange but also contributes to the energy efficiency of the system. By minimizing heat loss or gain, the insulated copper-aluminum tubes help optimize the performance of air conditioning and refrigeration systems.
  8. Condensation Prevention:

    • The insulation layer also serves to prevent condensation on the outer surface of the tubes, particularly in humid environments. This is important for avoiding issues such as corrosion and maintaining the efficiency of the system.
  9. Installation Considerations:

    • Proper installation is crucial to ensure the effectiveness of both the copper-aluminum core and the insulation layer. Attention to sealing joints and seams is essential to maintain the insulating properties of the material.

Insulated copper-aluminum tubes offer a combination of beneficial properties from both metals, making them suitable for various applications where heat transfer efficiency, corrosion resistance, and insulation are critical factors.

PVC Coated Copper Tube

PVC coated copper tube refers to copper tubing that has been coated with a layer of polyvinyl chloride (PVC) material. This coating serves as a protective layer to enhance the durability and corrosion resistance of the copper tube. PVC coating provides several benefits to copper tubing, making it suitable for various applications.

Here are some key features and advantages of PVC coated copper tube:

  1. Corrosion Resistance: The PVC coating acts as a barrier against corrosion, protecting the underlying copper from environmental elements, chemicals, and harsh conditions. This makes PVC coated copper tube particularly suitable for use in corrosive environments.

  2. Durability: The combination of copper’s inherent durability and the added protection from the PVC coating results in a tubing material that can withstand a range of conditions, ensuring a longer service life.

  3. Versatility: PVC coated copper tube is versatile and can be used in a variety of applications, including water supply lines, HVAC (Heating, Ventilation, and Air Conditioning) systems, refrigeration, and other industrial processes.

  4. Easy Identification: The PVC coating is often color-coded, making it easy to identify and distinguish different types of tubing or specific applications. This aids in the installation process and maintenance.

  5. Flexibility: Copper tubing is known for its flexibility, and the PVC coating does not compromise this characteristic. The flexibility of the tubing makes it easier to install in different settings and configurations.

  6. Cost-Effective: While PVC coated copper tubing may have a slightly higher upfront cost compared to uncoated copper, the long-term benefits, including reduced maintenance and replacement costs due to corrosion resistance, can make it a cost-effective choice over time.

  7. Temperature Resistance: The PVC coating provides additional insulation, offering some protection against temperature extremes. This can be beneficial in applications where temperature fluctuations are common.

It’s important to note that the specific characteristics of PVC coated copper tube can vary based on the thickness and quality of the PVC coating, as well as the manufacturing process. Users should always refer to product specifications and guidelines provided by manufacturers for proper installation and usage.

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