Accessories
This clamping device permits a fast and safe fixing of cylindrical bodies having a diameter of 24 mm, p.e. Tensometric radial force sensor series M 1191, M 1192, M 1391, M 1392
It permits to suit the sensor infinitely variable in height and angle, into the running process. By means of 4 inside hexagon screws the sensor can be fixed in the measuring position. To fix the clamping device it needs only 4 bore-holes, Ø 5,2 mm or 4 thread-holes M5 and a bore hole Ø 25 mm for the sensor.
To fix clamping devices and sensors, it is only necessary to have a bore-hole of approx. Ø 30mm in the machine-panel. In this bore-hole, the clamping device is fixed by means of its two nuts.
Put in the sensor into the clamping-device Z 1391. By countering the two nuts, the bore-hole of the clamping-device Z 1391 reduces itself. by radial forces the sensor clamps are unremovable.
To fix rollers and sensors having a diameter of 40 mm in a mounting-panel.
To fix rollers and sensors having a diameter of 40 mm on a holder.
To fix rollers and sensors having a diameter from 24 mm up to 25 mm on a holder.
The tripod Z 150 is destined for a reliable mounting of Tensometric measuring stations. By means of its three holes Æ 13,5 mm, it can be fixed on the ground. By this way, the mounted measuring-station will be kept in a safe position. The easy adjustment of vertical-interval poses no problem to find the best measuring-position.
Steel - construction, capacity: 240 kg
Vertical-interval: approx. 600 mm up to 950 mm
Colour: dark-grey RAL 7015-2
Suited for Tensometric measuring - station 3 R50 A, 3 R50 B, 3 R100 B500; 3 R100 B1000; 5 R50 A, 2 R80 .
Die Tabelle zeigt die Abhängigkeit der resultierenden Kraft (in %) vom Umschlingungswinkel (a). Sie errechnet sich nach der Formel: Resultierende (%) = 2 * sin(a) *100
The material, which should be measured, run over the sensor and the guiding-elements. This arrangement is preferably for measurements of high tensile-forces at material having a bigger diameter. A negligible small deviation of the material is realizable. An alteration of the diameter of the material does not change the angle around the measuring-roller.
The material to be measured run over the sensor and under the guiding elements. Usual way to guide the material. There is no difference between run-in and run-out for the material which is measured. Advantageous for material which is flexible. In case the diameter of the material will be changed, either a reproducible measuring-error must be taken into consideration or it needs a new calibration. For measuring stiff material, a higher distance between the two guiding elements is necessary.
The material to be measured is guided under the first guiding-element, over the sensor and the second guiding-element.A combination of material-guiding A) and B). Especially usable for measurement by hand. It offers an easy threading. Simply turn the sensor.