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  • SUS Standard Type Air Heater(D0.54in)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 518℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
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  • SUS Penetrate Type Air Heater(D0.54in)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 518℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
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  • SUS M17 Type Air Heater(D0.54in)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 518℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS Standard Type Air Heater(D0.68in)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 500℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS ring Type Air Heater(D0.68in)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 500℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS Twin Nipple Air Heater(650W)

    • The proper discharge temperature for use is 122~932℉.
    • Hot air at 518℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • The temperature of use can be accurately controlled using the PID control device.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS Twin Nipple Air Heater(800W)

    • The proper discharge temperature for use is 122~932℉.
    • Hot air at 608℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • The temperature of use can be accurately controlled using the PID control device.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS Twin Nipple Air Heater(1000W)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • Hot air at 752℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • The temperature of use can be accurately controlled using the PID control device.
    • Using compressed air using an air compressor.
    Product detail


    close

  • SUS Twin Nipple Air Heater(2000W)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • Hot air at 1,058℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • The temperature of use can be accurately controlled using the PID control device.
    • Using compressed air using an air compressor.
    Product detail


    close

  • SUS 10Bar High Temperature High Pressure Air Heater(4000~6000W)

    • The proper discharge temperature for use is 122~1,292℉.
    • The maximum used pneumatic pressure is 10Bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Using compressed air using an air compressor.
    • It is an overseas export product.
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  • SUS 10Bar High Temperature High Pressure Air Heater(2000~3000W)

    • The proper discharge temperature for use is 122~1,292℉.
    • The maximum used pneumatic pressure is 10Bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


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  • SUS High Temperature High Pressure Air Heater(1000W)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • Hot air at 968℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS 2 sensor High Temperature High Pressure Air Heater(1000W)

    • The proper discharge temperature for use is 122~932℉.
    • Hot air at 968℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Two J/E type sensors are built in to properly control hot air and heater overheating.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • SUS High Temperature High Pressure Air Heater(2000W, 3000W)

    • The proper discharge temperature for use is 122~1,292℉.
    • When used temporarily, hot air occurs up to 1,652℉
    • Hot air at 1,292℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • Inline Air Heater

    • The proper discharge temperature for use is 122~1,202℉.
    • The maximum used pneumatic pressure is 10bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is a high-pressure and high-temperature air heater used for various purposes in the industrial field.
    • It is installed in the middle of the pipe and used, and a digital temperature control device is used.
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  • Inline Air Heater(Built-in Sensor Type)

    • The proper discharge temperature for use is 122~1,202℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Using compressed air using an air compressor.
    • It is a high-pressure and high-temperature air heater used for various purposes in the industrial field.
    • It is installed in the middle of the pipe and used, and a digital temperature control device is used.
    Product detail


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  • Inline Air Heater(Sensorless Type )

    • It is a sensorless air heater and was developed as an imported substitute for TUTCO company.
    • The proper discharge temperature for use is 122~1,202℉.
    • The maximum used pneumatic pressure is 5bar.
    • Using compressed air using an air compressor.
    • It is a high-pressure and high-temperature air heater used for various purposes in the industrial field.
    Product detail


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  • Super Air Heater(30000W)

    • The proper discharge temperature for use is 122~1,112℉.
    • When used temporarily, hot air occurs up to 1,292℉.
    • The maximum used pneumatic pressure is 5bar.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    • Two K-type sensors with heater control function and overheat prevention function are built-in.
    Product detail


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  • 10bar Super Air Heater(30000W)

    • The proper discharge temperature for use is 122~1,112℉.
    • When used temporarily, hot air occurs up to 1,292℉.
    • The maximum used pneumatic pressure is 10bar.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    • Two K-type sensors with heater control function and overheat prevention function are built-in.
    Product detail


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  • Super Air Heater(10000W)

    • The proper discharge temperature for use is 122~1,112℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    • It is a six-segment special air heater and can supply air with a ring blower.
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  • Super Air Heater(12000W)

    • The proper discharge temperature for use is 122~1,202℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • Super Air Heater(18000W)

    • The proper discharge temperature for use is 122~1,202℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • Clean Type Air Heater(260W)

    • The proper discharge temperature for use is 122~752℉.
    • Hot air at 338℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Manufactured by sealing in a quartz capsule fused with a heating element and a sensor.
    • The service life and safety are promoted by applying a special insulating coating.
    • Using compressed air using an air compressor.
    Product detail


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  • Clean Type Air Heater(1500W, 3000W)

    • The proper discharge temperature for use is 122~932℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Manufactured by sealing in a quartz capsule fused with a heating element and a sensor.
    • The service life and safety are promoted by applying a special insulating coating.
    • Using compressed air using an air compressor.
    Product detail


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  • Six Segment Air Heater(3000W, 5000W)

    • The proper discharge temperature for use is 122~932℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


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  • Six Segment Air Heater(10000W)

    • The proper discharge temperature for use is 122~932℉.
    • The maximum used pneumatic pressure is 5bar.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • High temperature hot air is generated even under strong pneumatic pressure.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • SUS Silincon Packing Air Heater(1000W)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • Hot air at 788℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • Silincon Packing Air Heater(1500W)

    • The proper discharge temperature for use is 122~932℉.
    • When used temporarily, hot air occurs up to 1,652℉.
    • Hot air at 932℉ occurs when 5bar of maximum pneumatic pressure is supplied.
    • Built in K-type sensor allows precise temperature control within ±33.8℉ with digital temperature control.
    • Maintains proper lifespan and durability even in high-temperature hot air.
    • Using compressed air using an air compressor.
    Product detail


    close

  • Ceramic Bushing Air Heater(P-Type)

    • The proper discharge temperature for use is 122~842℉.
    • Hot air at 315℉ occurs when 4bar of maximum pneumatic pressure is supplied.
    • It is a sensorless air heater and the discharge temperature can be adjusted with a voltage regulator.
    • It is the most economical air heater.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • Ceramic Bushing Air Heater(G-Type)

    • The proper discharge temperature for use is 122~932℉.
    • Hot air at 1,382℉ occurs when 1bar of maximum pneumatic pressure is supplied.
    • It is a sensorless air heater and the discharge temperature can be adjusted with a voltage regulator.
    • It is the most economical air heater.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • Ceramic Bushing Air Heater(D-Type)

    • The proper discharge temperature for use is 122~932℉.
    • Hot air at 338℉ occurs when 2.5bar of maximum pneumatic pressure is supplied.
    • It is a sensorless air heater and the discharge temperature can be adjusted with a voltage regulator.
    • It is the most economical air heater.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • Brass G-Type Air Heater

    • The proper discharge temperature for use is 122~842℉.
    • When 220V is supplied to the maximum used pneumatic pressure of 3bar, 1,472℉ hot air is generated.
    • It is a sensorless air heater and the discharge temperature can be adjusted with a voltage regulator.
    • It is the most economical air heater.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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  • Brass G-Type Air Heater(SUS Cover Type)

    • The proper discharge temperature for use is 122~842℉.
    • When 220V is supplied to the maximum used pneumatic pressure of 3bar, 1,472℉ hot air is generated.
    • It is a sensorless air heater and the discharge temperature can be adjusted with a voltage regulator.
    • It is composed of quartz tube, SUS tube, and brass nipple, so it is resistant to impact and durable.
    • Using compressed air using an air compressor.
    • It is small and compact size allows installation in a narrow space.
    Product detail


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