(Obsolete)
Cable 1.6mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.45
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 1/16",Tensiometer Tester;
for use with ISO 2000
Part No. 20559.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 1/4",Tensiometer Tester;
for use with ISO 1000
Part No. 20553.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 1/8",Tensiometer Tester;
for use with ISO 1000
Part No. 20557.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 2.5mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.44
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 3/16",Tensiometer Tester;
for use with ISO 1000
Part No. 20555.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 3/32",Tensiometer Tester;
for use with ISO 1000
Part No. 20558.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 3mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.43
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 4mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.42
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 5.3mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.4
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 5/32",Tensiometer Tester;
for use with ISO 1000
Part No. 20556.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 5mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.41
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 6mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.39
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 7/32",Tensiometer Tester;
for use with ISO 1000
Part No. 20554.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 7mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.38
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 8mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.37
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 9/32",Tensiometer Tester;
for use with ISO 1000
Part No. 20552.1
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).
(Obsolete)
Cable 9mm,Tensiometer Tester;
for use with ISO 1000
Part No. 20502.36
By using the specially designed Tensiometer Attachments, the ISO Loaders can be quickly adapted to provide test facilities for Cable Tensiometers.
Once adapted the self locking gearbox provides a quick and easy method of attaining and retaining the tension within the cable. Once the desired tension has been reached, the tensiometer can simply be clipped onto the cable and checked.
The desired tension is calculated by the following formula:
Cable Tension = Torque Applied / (Radius of Quadrant + Radius of Cable).