| Customization: | Available |
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| Application: | Boosting Water Supply |
| Power Supply Voltage: | 380V×(100±10%), Three - Phase Five - |
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BW
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The control system uses the analog input - output unit to monitor the pressure of the equipment's main inlet pipe and the user's pipe network in real - time. It converts the pressure signals into digital signals and stores them in registers. Then, it performs PID closed - loop calculations by comparing these signals with the pre - set pressure values (set on the human - machine interface and stored in registers). The calculation results are converted into analog quantities to control the output frequency of the frequency converter, thus regulating the operating speed of the water pumps. When the water supply from the municipal network is greater than the users' water consumption, the system automatically adjusts the speed of the water pumps according to the pressure of the users' pipe network to ensure a constant pressure in the users' pipe network. When the water supply from the municipal pipe network is less than the users' water consumption, the system promptly reduces the speed of the water pumps and controls the water supply volume to ensure that the water supply equipment does not create negative pressure in the municipal pipe network. |
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| Serial Number | Accessory Name | Serial Number | Accessory Name | Serial Number | Accessory Name | Serial Number | Accessory Name |
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| 1 | Control Cabinet | 4 | Inlet of Steady Flow Tank | 5 | Steady Flow Tank | 6 | Anti - negative Pressure Sensor |
| 7 | Vacuum Suppressor | 8 | Butterfly (Gate) Valve | 9 | Bypass Straight - through Pipe | 10 | Check Valve |
| 11 | Pneumatic Tank | 14 | Dirt Discharge Plug of Steady Flow Tank | 15 | Safety Valve | 17 | Water Pump |
| 19 | Overpressure Protection | 20 | Pressure Sensor | ||||
| Non - standard Optional Accessories | |||||||
| 2 | Flowmeter (Optional) | 3 | Pipe Network Protector (Optional) | 12 | Filter (Optional) | 13 | Backflow Preventer (Optional) |
| 15 | Soft Connection at Tank Outlet (Optional) | 16 | Disinfection Interface (Optional) | 18 | Soft Connection at Pump Inlet and Outlet (Optional) | ||
Ensure Safe and Hygienic Water Supply
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Ensure Stable Product Quality
The pictures display various manufacturing equipment and component details.
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Low Equipment Investment
There is no need to build water storage tanks or reservoirs, nor to install large - scale pneumatic tanks, which saves investment. Moreover, since the pressure of the primary water supply from the tap water network can be fully utilized, the type selection of the booster pumps can be downsized, reducing equipment investment.
Low Operating Costs
Due to the relatively small - sized booster pumps and the possibility of using multiple - pump associated water supply, during low - water - consumption periods, the equipment can directly utilize the pressure from the municipal pipe network for water supply, and it doesn't need to start pumps or only needs to start one pump to meet water demand. When water consumption is high, the remaining pumps are then started. Therefore, the equipment consumes less energy during operation, which can reduce operating costs.
Simple Management and Maintenance
The equipment is fully automatically controlled by a microcomputer for variable - frequency speed regulation. It automatically stops when there is a power outage and automatically starts when the power is restored. The complete fault detection, diagnosis technology, and alarm functions make the management and maintenance of the equipment extremely simple.
Excellent Water Supply Pumps and Good Overall Performance
The equipment uses multi - stage all - stainless - steel booster pumps. The pump casings, impellers, and main components are made of food - grade stainless - steel materials through stamping or casting. The flow channels are smooth, energy - efficient, and operate stably with low noise. The overall performance of the equipment is excellent, making it an ideal green, environmentally - friendly, and energy - saving water supply device.
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Compared with BW - G(I), BW - G(I)B also has the following characteristics:
Using synchronous motors for high - efficiency energy - saving
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