Brand Name: | HCATM |
---|---|
Accuracy: | 0.03m/s |
Power Supply: | Built-in rechargeable battery, can be used continuously for 15 hours |
output: | 4-20mA |
Medium: | Liquid,Gas |
Model Number: | GD-60 |
Place of Origin: | China (Mainland) |
Range: | 100m |
Quick Details
Specifications
Product Overview
GD-60 handheld radio wave (radar) flow meter is a patented product of Xi'an Huance Automation Technology Co., Ltd. (ZL 201 62 0622254.1). this instrument uses K-band radar for non-contact flow velocity of rivers, sewage, mud, and ocean. Measuring. with small size, handheld operation, battery-powered, easy to use. In use, it is not corroded by sewage and interference from sediment, and non-contact measurement can be performed within a measuring range of 100 meters, ensuring the safety of the surveyor. Built-in angle sensor, without any setting,one-click operation can realize automatic correction of horizontal and vertical angles and correction of flow velocity measurement, which is very convenient to use.
Main Feature
1. for single use, weight less than 700g;
2. Chinese interface, guided operation, easy to use, single machine can store 2000 records for easy management;
3. Non-contact operation, not affected by sediment and water;
4. Multiple measurement modes, single measurement, 100 seconds for a single measurement; continuous measurement, 3000 seconds for continuous measurement;with stand-alone flow estimation mode, it can estimate the flow of river channels with regular sections;
5. Built-in rechargeable battery, can be used continuously for 15 hours;
6. Built-in angle sensor, can automatically correct vertical and horizontal angles, built-in temperature sensor, convenient temperature detection;
7. the structure has waterproof function, which is convenient for field use;
8. the instrument housing is made of ABS resin material, which has good impact resistance, heat resistance, low temperature resistance, corrosion resistance, and good electrical and gas insulation, which protects the personal safety of measurement personnel during thunderstorm weather measurement;
9. Supporting wireless flow measurement software, the flow can be estimated according to the surface velocity of each measurement point.
GD-60 handheld radio wave (radar) flow meter is a patented product of Xi'an Huance Automation Technology Co., Ltd. (ZL 201 62 0622254.1). this instrument uses K-band radar for non-contact flow velocity of rivers, sewage, mud, and ocean. Measuring. with small size, handheld operation, battery-powered, easy to use. In use, it is not corroded by sewage and interference from sediment, and non-contact measurement can be performed within a measuring range of 100 meters, ensuring the safety of the surveyor. Built-in angle sensor, without any setting,one-click operation can realize automatic correction of horizontal and vertical angles and correction of flow velocity measurement, which is very convenient to use.
Main Feature
1. for single use, weight less than 700g;
2. Chinese interface, guided operation, easy to use, single machine can store 2000 records for easy management;
3. Non-contact operation, not affected by sediment and water;
4. Multiple measurement modes, single measurement, 100 seconds for a single measurement; continuous measurement, 3000 seconds for continuous measurement;with stand-alone flow estimation mode, it can estimate the flow of river channels with regular sections;
5. Built-in rechargeable battery, can be used continuously for 15 hours;
6. Built-in angle sensor, can automatically correct vertical and horizontal angles, built-in temperature sensor, convenient temperature detection;
7. the structure has waterproof function, which is convenient for field use;
8. the instrument housing is made of ABS resin material, which has good impact resistance, heat resistance, low temperature resistance, corrosion resistance, and good electrical and gas insulation, which protects the personal safety of measurement personnel during thunderstorm weather measurement;
9. Supporting wireless flow measurement software, the flow can be estimated according to the surface velocity of each measurement point.