Item Description
Merchandise specification:
Ideal for pressure measurement of CZPT optical fibers, yarns, chemical fibers, steel wires, wires, cables, adhesive tapes,
metal belts. It is extensively utilised in the fields of electronics, chemical industry, textile, paper producing, machinery, and so on. It has high
measurement accuracy, dependability and steadiness in the area of stress measurement. The sensor has a developed-in overload safety
mechanism, and every single sensor is rigorously analyzed prior to leaving the manufacturing facility, hence ensuring the measurement precision, balance
and trustworthiness of the item. It is the option for higher-overall performance tension management programs in ongoing materials processing
and production
Technological Parameter:
| Wire Rope Size: | 0~1000N | ||
| Sensitivity: | (1.0±0.1%) mV/V | Operating Temp. Range: | -thirty~+70ºC |
| Combined Mistake: | ±0.1% F.S | Highest Secure Over Load: | one hundred fifty%F.S |
| Creep Mistake(30min): | ±0.02% F.S | Supreme Above Load: | 300%F.S |
| Zero Stability: | ±1% F.S | Recommend Excitation Vol.: | ten~12V DC |
| Temp. Effect On CZPT : | ±0.02% F.S/10ºC | Max. Excitation Voltage: | 15V DC |
| Temp. Effect On Span: | ±0.02% F.S/10ºC | Sealing Class: | IP67 |
| Input Resistance: | 385±5Ω | Element Materials: | Alloy Metal, CZPT Steel |
| Output Resistance: | 352±2Ω | Cable: | Length=1m |
| Insulation Resistance: | ≥5000MΩ | Quotation: | GB/T7551-2008/ OIML R60 |
In a dual pulley technique, this ratio is equal to the reference diameter of the output pulley currently being greater than the reference diameter of the enter pulley. It is pretty straightforward as lengthy as you estimate the gear ratios for a much more complicated pulley technique phase by phase. For multiple pulleys, the ratios of the different parts of the mechanism need to be calculated to decide the general ratio. In the image previously mentioned, the reference diameter of the decrease push wheel is 20mm, the radius of the higher wheel is 40mm, and the ratio is 2:1. 2 spins on the reduce wheel and 1 spin on the upper wheel. The equipment ratio also tells us something about the torque of the method since the ratio of output torque to enter torque is equivalent to the gear ratio. Consequently, the torque used to the upper wheel is twice as fast, but the speed is halved.