China Wireless Remote Ultrasonic Water Meter with Lora Module, DN20 (R400), Find details about China Water Meter, Meter from Wireless Remote Ultrasonic Water Meter with Lora Module, DN20 (R400)
The ultrasonic water meter is a new type of intelligent all-electronic meter. It integrates measurement and display to achieve accurate measurement with a minimum flow of 0.03 m3/h.
1) The ultrasonic water meter has no moving or blocking parts in the pipeline to be tested, no wear and low pressure loss.
2) The high sensitivity makes ultrasonic water meter can detect tiny change of flow.
3) Ultrasonic water meters can ensure accurate measurement throughout the entire life cycle, which does not change with time.
4) New type of intelligent all-electronic meter. It integrates measurement and display to achieve accurate measurement with a minimum flow of 0.03 m3/h.
5) Achieve multi-angle installation and minimize the pipe pressure loss.
6) Dedicated to household measurement in residential quarters.
7) Connect to the GSM wireless concentrator produced by our company, using GSM mobile public network for data transmission to form a wireless monitoring system. It automatically reports abnormal status.
Installation advice
1) The installed pipe must be filled with water. Install the meter on a vertical pipe in which the liquid flows upwards or diagonally upwards. If not, select a horizontal pipe. Try to AVOID installing the meter in a vertical pipe with the liquid flowing downwards or diagonally downwards.
2) AVOID installing meter at the highest point of pipeline to prevent the air bubbles accumulated and interfere with measurement.
3) Reserve a space at the water pipe for meter installation.
4) Concentrically align meter with pipe. Use a wrench to connect the pipe blade to meter thread and tighten it.
Technical Details
Parameter | Performance | |
Diameter (mm) | DN15~40 | |
Q3/Q1 | R160/R250/R400 | |
Pressure Loss | DN15 & DN20: Δp40 | |
DN25 & DN32 & DN40: Δp63 | ||
Measured Medium | water or homogeneous liquid | |
Accuracy | Class 2 (Class B) | |
Maximum Working Pressure | 1.6MPa | |
Work Environment | 5ºC~+55ºC, ≤100%RH | |
Temperature Grade | T30/T50 | |
Sensitivity of Upstream Flow Field | U10 | |
Sensitivity of Downstream Flow Field | D5 | |
Climatic and Mechanical | B | |
EMC Grade | E1 | |
Keypad | Magnetic Key | |
LCD | LCD 8 digits + prompt | |
Menu Contents | instantaneous flow (m³/h) | |
Display Range | cumulative flow: 0m³~+9999.9999m³ | |
Communication | Photoelectric Interface | baud rate: 2400bps |
Wireless Communication | communication method: LoRa | |
Power Supply | battery power supply DC3.6V | |
Power Consumption | <0.2mW | |
Waterproof Rate | IP68 | |
Storage Temperature | -25ºC~+55ºC | |
Cable Length | 1.0m | |
Installation Position | inflow pipe |
Table 21 Technical Details - 213E
Flow Parameters
Diameter | Permanent | Transitional | Minimum | Overload |
DN20 (R400) | 4.0 | 0.016 | 0.010 | 5.0 |
Table 22 Flow Parameters
LoRa Parameters
Performance | Parameters |
Quiescent Dissipation | < 25uA |
Transmitted Power | < 50mW |
Working Frequency | 470MHZ-510MHZ |
Maximum Transmission Distance in Open Place | >=3 KM |
Emission Current | < 100mA |
Receive Electric | < 14mA |
Wireless Working Mode | Regular Wake Up (WOR) |
Table 23 LoRa Parameters
3.LoRa Wireless Working System + GPRS Topological Graph
Figure 31 LoRa Wireless Working System + GPRS Topological Graph
4.Overall Dimensions
Diameter(mm) | Thread | L1(mm) | L (mm) | W (mm) | H (mm) |
DN20 | G1B | 195 | 116.5 | 97 | 96.5 |
Table 41 Overall Dimensions