Controllo della temperatura CT
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
CT Temperature Control
Specifications
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.
The CT Temperature Control option is based on a temperature measuring probe, installed directly on the body of the unit and capable of measuring temperature variations between -40 ° C (-40 ° F) and 90 ° C (194° F). Being irreversible power transmissions, screw jacks tend to dissipate a significant amount of input power in the form of heat; the CT Temperature Control is recommended in all those applications where temperature monitoring is a critical factor. It is recommended to never exceed the upper limit of 80 ° C (176° F); when the system reaches this critical limit, it is necessary to stop the transmission and wait until the system returns to room temperature. Failure to do so may cause premature wear and/or catastrophic failure.