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Guangzhou Hengmeida Automation Technology Co., Ltd

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City:guangzhou

Country/Region:china

Contact Person:MrsLueng

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Smart Water Level Regulation via DDC Electrical Cabinet

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Model Number :KG-56486536

Certification :ISO9001/CE

Place of Origin :China

MOQ :10

Payment Terms :T/T,Western Union

Delivery Time :20 days

Packaging Details :Wooden case Packaging

Ip Rating :IP30 IP40 IP54 IP55 IP65 IP66

Application :Industrial, commercial, BAS

Material :Mid Carbon Steel / Carbon Steel / Stainless Steel / Aluminum Steel

Color :Silver or Others

Customization :Logo printing, size and color customization available

Mounting Type :Wall mount, pole mount，free standing

Usage :Smart Building，Public Place or Others

Certifications :CE

Size :Various sizes available

Locking Mechanism :Key lock

Finish :Powder coated

Shape :Rectangular

Features :Durable, corrosion-resistant, weatherproof

Price :USD28-68889

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Smart Water Level Regulation via DDC Electrical Cabinet

Product Describe:

• Water Level Sensors: Responsible for real-time collection of water level signals. Common types include:

• Submersible liquid level transmitters (convert water pressure into electrical signals, suitable for deep water levels);

Ultrasonic level meters (non-contact, suitable for corrosive or turbid water bodies);

Float switches (simple high/low water level triggers, often used as auxiliary protection).

• Auxiliary Sensors: Such as water temperature sensors (monitor water temperature for special processes) and flow sensors (monitor inlet/outlet water flow to achieve linkage control).

Actuators

Water pumps (lift or discharge water, e.g., submersible pumps, centrifugal pumps);

Valves (control the on/off of water inlet/drainage pipelines, e.g., electric butterfly valves, solenoid valves);

Alarm devices (acousto-optic alarms, used to alert when water levels exceed limits).

• DDC Controller

As the core component, it realizes logical operations (such as PID regulation) through programming, receives sensor signals, and outputs control commands (digital or analog signals) to drive actuators.

Design:

Model	Size:WLD,mm
1	300×400×160
2	300×400×200
3	300×400×250
4	400×500×200
5	400×500×250
6	400×500×300
7	400×600×200
8	400×600×250
9	500×600×200
10	500×600×250
11	500×600×300
12	500×700×200
13	500×700×250
14	600×700×200
15	600×800×200
16	600×800×250
17	600×800×300
18	700×900×200
19	700×900×250
20	800×1000×200
21	800×1000×250
22	800×1000×300
Customize	——

IP Grade:

IP54 / IP55 / IP65 / IP66 /IP67

Suggestion:

1. Core Parameter Tailoring

Accuracy/Range: Choose sensor precision (±0.1–5cm) and range (e.g., 0–20m) based on scenarios (lab vs. farm irrigation).

Load/Power: Match distribution modules to actuator power (0.75–55kW) with 10–20% surplus; add interlock logic for multi-pump setups.

Sensor & Actuator Adaptation

Sensors: Use corrosion-resistant (316L) or non-contact (ultrasonic/radar) types for harsh/turbid water; opt for explosion-proof variants in hazardous areas.

Actuators: Equip variable-frequency pumps for high-lift/energy efficiency; select food-grade valves for potable water; add backup pumps for heavy drainage.

2. Control Logic & Safety

Custom Logic: Integrate timing (e.g., irrigation schedules) or linkage (e.g., weather-based valve control); adopt VFD for 30–50% energy savings.

Redundancy: Combine primary (transmitters) and backup (float switches) sensors; trigger alarms + emergency actions (overflow valves) for over/under 水位.

3. Communication & Monitoring

Interfaces: Include RS485 (Modbus) for small systems or Ethernet (TCP/IP) for SCADA/BMS integration; add 4G/5G for remote app access.

HMI: Add touchscreens for local parameter adjustments; implement multi-level password controls.

4. Structure & Durability

Enclosure: Use IP55-rated cabinets with dehumidifiers for outdoor/dusty environments; design compact/wall-mounted versions for space constraints.

Wiring: Separate strong/weak currents; use shielded cables to reduce interference.

5. Cost Optimization

Balance standard components (e.g., distribution parts) with custom features (e.g., explosion-proof design); reserve upgrade interfaces for future expansion.

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