Cylindrical column compression load cells weighing module

Cylindrical column compression load cells weighing module

SKU: LC432 Category:

Cylindrical column compression load cells weighing module


Compression Load Cell

Cylindrical column compression load cells weighing module

Dimensions: Unit: mm

steel column load cells




LC432 Axial strain cylinder in a sealed case, with raised end load bearing faces and hole right through. For use in compression or in fail-safe tensile applications. The LC432 is ideally suited to engineering force measurements including through center safety testing of cables, rods and bolts. It is designed for easy installation, usually between two flat faces bearing on its loading rings, either unattached or with retaining spigots positioned in the center hole. Alternatively tensile load transfer can be achieved via a tie rod assembly through the center hole. In this way the load cell can indirectly measure tensile loads in a “fail-safe” mode. We are happy to design variants of this load cell to meet your specific requirements.

Technical Parameter:

Rated Load: 10/20/25/30t Operating Temperature Range: -30~+70℃
Sensitivity: (2.0±0.1%) m V/V Maximum Safe Over Load: 150%F.S
Combined Error: ±0.1% F.S Ultimate Over Load: 200%F.S
Creep Error(30min): ±0.05% F.S Recommend Excitation Voltage: 10~12V DC
Zero Balance: ±1% F.S Maximum Excitation Voltage: 15V DC
Temp. Effect On Zero: ±0.02% F.S/10℃ Sealing Class: IP67
Temp. Effect On Span: ±0.02% F.S/10℃ Element Material: Alloy Steel/Stainless Steel
Input Resistance: 750±5Ω Cable: Length=L:12m
Output Resistance: 703±2Ω Citation: GB/T7551-2008/ OIML R60
Insulation Resistance: ≥5000MΩ Mode Of Connection: Black(Input-),White(Output-)



Text Widget
Aliquam erat volutpat. Class aptent taciti sociosqu ad litora torquent per conubia nostra, per inceptos himenaeos. Integer sit amet lacinia turpis. Nunc euismod lacus sit amet purus euismod placerat? Integer gravida imperdiet tincidunt. Vivamus convallis dolor ultricies tellus consequat, in tempor tortor facilisis! Etiam et enim magna.