A system and method of modular pump station for circulating liquids

The modular IoT-enabled hot water pumping station addresses installation and maintenance challenges by integrating components for efficient, scalable, and reliable hot water distribution with real-time monitoring and adaptive control.

WO2026133367A1PCT designated stage Publication Date: 2026-06-25ADVANCETHERM SYSTEMS PTE LTD

Patent Information

Authority / Receiving Office
WO · WO
Patent Type
Applications
Current Assignee / Owner
ADVANCETHERM SYSTEMS PTE LTD
Filing Date
2025-12-18
Publication Date
2026-06-25

AI Technical Summary

Technical Problem

Existing hot water systems face issues with high installation and maintenance costs due to scattered components, inefficient energy use, and lack of modular design, leading to increased labor and inventory costs, as well as vulnerability to environmental factors.

Method used

A modular IoT-enabled hot water pumping and distribution station with integrated components such as a housing, control module, circulator pump, flow-regulating valve, temperature sensor, and digital display, utilizing IoT connectivity for real-time monitoring and control, and a modular design for easy installation and maintenance.

Benefits of technology

The system reduces installation complexity, enhances energy efficiency, and improves reliability by integrating all components in a single assembly, enabling scalable and cost-effective operation with real-time diagnostics and adaptive control.

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Abstract

The invention relates to an IoT-enabled modular system for efficient hot water pumping and distribution. The system comprises a weather-resistant housing (A) with multiple mounting points (G), featuring a digital display (B) for user input and status information. Within the housing, a control module (C) equipped with a microcontroller and IoT connectivity processes data from one or more temperature sensors (F) and commands a circulator pump (D) and a flow-regulating valve (E) to dynamically control water flow. An external connection point (H) facilitates quick integration with additional plumbing and control systems. The structure, potentially made of composite materials, ABS plastic, or treated metal, may include sealing and earthing provisions. The system is geared towards remote monitoring and precision temperature regulation, providing a robust solution for closed-loop hot water distribution in various industrial and residential applications.
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