Commercial Buiiding Intelligent Control Solution

Industry Challenges

HVAC System Inefficiency

Lack of dynamic control and optimization results in approximately 15%–25% annual energy waste, reducing overall HVAC system efficiency.

Equipment Wear & Maintenance Challenges

Traditional manual inspections are inefficient, leading to higher maintenance costs, delayed fault response, and increased equipment wear.

Lighting Energy Waste

Lighting systems often operate at fixed intensity levels without occupancy awareness, zoning control, or intelligent adjustment, resulting in unnecessary energy consumption.

Fragmented Systems & Data Silos

Building subsystems operate independently, preventing data sharing, coordinated control, and centralized management across the facility.

Global Sustainability Trends

· Stricter carbon reduction and energy efficiency regulations

· Growing adoption of ultra-low-energy and green building standards

· Accelerated retrofit of existing buildings for improved sustainability

· Increasing focus on carbon accounting and emissions management

· Expansion of carbon markets and decarbonization initiatives

Evolution of Building Management

From Traditional Building Automation (BA) to Energy & Building Automation (EBA)

Traditional BA

Reactive Equipment Control
Independent Operation of Isolated Systems
Fixed Thresholds with Manual Configuration
Post-Event Fault Handling

Passive Building Management

EBA Energy & Building Automation

Demand-Driven Energy Supply & Supply–Demand Balance
Cross-System Collaboration & Coordinated Control
AI-Powered Dynamic Load Optimization
Predictive Maintenance

Proactive Optimization

Hailin Solutions

Central HVAC Solution

Demand-Driven Supply · Coordinated Operation · Energy Efficiency & Carbon Reduction

The HAI Platform integrates core system modules including Energy Management, Building Automation, Heating & Cooling Energy Distribution, and Terminal Monitoring into a unified management platform. Through centralized coordination and intelligent control, the platform enables efficient energy generation, optimized energy distribution, and effective energy utilization throughout the building lifecycle.

Coordinated Control Strategy

Based on real-time terminal energy demand, the system dynamically adjusts the operating status of chillers and heating/cooling units while continuously optimizing network pump parameters. This enables demand-driven energy supply and centralized system coordination, ensuring stable energy delivery while reducing overall HVAC energy consumption.

Terminal Monitoring

Smart thermostats provide intelligent terminal control, while the HAI Platform continuously collects operational data and analyzes real-time energy demand. By coordinating with heating and cooling sources, the system automatically adjusts energy delivery to ensure optimal comfort and efficiency.

Heating & Cooling Balance

Powered by the HAI Platform, smart valves continuously regulate hydraulic conditions throughout the distribution network, eliminating hydraulic imbalances and enabling precise energy allocation based on actual demand. This significantly improves overall system efficiency and performance.

Adaptive Load Management

The system automatically adapts to varying energy demands across different building zones and operating schedules. Through precise, demand-based control, it minimizes energy waste and maximizes the energy efficiency of the HVAC system.

Intelligent Integrated Control Scenarios

Microwave Occupancy Detection + Human Presence Sensing

Automatically activates lighting and HVAC when occupants are present and turns them off after a configurable delay when the area becomes vacant, enabling more precise energy management and improved operational efficiency.

Daylight Sensor Integration

When sufficient natural daylight is available, lighting is automatically dimmed or switched off to maintain visual comfort while reducing unnecessary energy consumption.

Dual Control Strategy: Scheduling + Occupancy Detection

Combines time-based scheduling with real-time occupancy sensing to enable intelligent management of open-plan office spaces, balancing operational requirements with occupant comfort and flexibility.

AI-Powered Intelligence

Dual AI Engines for Energy Optimization & Intelligent Diagnostics

AI Energy Optimization Engine

Distributed Reinforcement Learning · Multi-Dimensional Decision Network · Meta-Learning Framework

Built on a distributed reinforcement learning architecture, the platform establishes a multi-dimensional decision network that connects central cooling plants, terminal equipment, and environmental sensing units.By overcoming the limitations of traditional PID control in complex multi-variable and highly coupled operating environments, the system dynamically balances performance across all HVAC subsystems and continuously optimizes overall energy efficiency.This AI-driven approach enables building-wide HVAC optimization and delivers more than 20% improvement in chiller plant efficiency.

AI Diagnostic Expert

Industry Knowledge Graph · 3,000+ Fault Cases · Large Language Model (LLM)

Powered by an industry-specific knowledge graph, a database of more than 3,000 fault cases, and advanced large language model technology, the AI Diagnostic Expert enables intelligent fault detection, root-cause analysis, and maintenance recommendations. By combining historical experience with real-time operational data, it helps reduce troubleshooting time, improve maintenance efficiency, and enhance system reliability.

Technology Advantages ·Algorithms + Hardware + Platform

Dynamic Demand-Driven Control

Real-time monitoring of temperature, humidity, CO₂, and air quality enables intelligent HVAC optimization and demand-based energy allocation, reducing energy waste and improving operational efficiency.

AI-Driven Energy Optimization

AI-powered load optimization and intelligent HVAC control, combined with predictive diagnostics, enable greater energy efficiency, proactive maintenance, and smarter building operations.

End-to-End Data Integration

Seamlessly connects data from energy generation to terminal devices, supporting Modbus, BACnet, and MQTT protocols to eliminate data silos and enable unified building intelligence.

Flexible Deployment & Trusted Compliance

Cloud or on-premises deployment, modular architecture, faster implementation, and compliance with modern digital infrastructure requirements.

Sustainable Operations & Efficiency Gains

Comfort & Well-Being

Automatic optimization of temperature, humidity, and air quality for healthier indoor environments.

Sustainability & Carbon Management

Carbon visibility and energy insights to support sustainability goals and compliance initiatives.

Predictive Maintenance

AI-powered fault detection, early warning alerts, and proactive maintenance recommendations.

Data-Driven Decisions

Energy analytics that support tenant billing, retrofit planning, and carbon asset management.

From Building Automation to Energy Intelligence.
Empowering Sustainable, Efficient, and Intelligent Commercial Buildings.

CUSTOMER CASE

Empowering Qinhuangdao Bovi Fortune Center Centralized Control Strategy and Practice for Water Thermal Storage Air-Conditioning Plant Based on Peak and Valley Electricity Pricing
During the 2022 Winter Olympics, the National Stadium “Bird’s Nest” served as the venue for the opening and closing ceremonies. Hailin Controls upgraded the stadium’s original heating thermostats to deliver more precise temperature control, improved energy efficiency, and stable indoor comfort throughout the event. Since first entering the Bird’s Nest in 2006, Hailin has accompanied the stadium for 14 years across four major phases—from the 2008 Summer Olympics to the
Empowering Qinhuangdao Bovi Fortune Center Centralized Control Strategy and Practice for Water Thermal Storage Air-Conditioning Plant Based on Peak and Valley Electricity Pricing
Daxing International Airport
During the 2022 Winter Olympics, the National Stadium “Bird’s Nest” served as the venue for the opening and closing ceremonies. Hailin Controls upgraded the stadium’s original heating thermostats to deliver more precise temperature control, improved energy efficiency, and stable indoor comfort throughout the event. Since first entering the Bird’s Nest in 2006, Hailin has accompanied the stadium for 14 years across four major phases—from the 2008 Summer Olympics to the
Daxing International Airport
Large venues and events
During the 2022 Winter Olympics, the National Stadium “Bird’s Nest” served as the venue for the opening and closing ceremonies. Hailin Controls upgraded the stadium’s original heating thermostats to deliver more precise temperature control, improved energy efficiency, and stable indoor comfort throughout the event. Since first entering the Bird’s Nest in 2006, Hailin has accompanied the stadium for 14 years across four major phases—from the 2008 Summer Olympics to the
Large venues and events

CUSTOMER REVIEWS

Andrew Cherry
Chief Financial Officer
Large commercial buildings—such as office towers, airports, hotels, and mixed-use complexes—are becoming increasingly complex to operate and manage. HVAC systems account for a major portion of energy consumption, while fragmented control systems and diverse tenant requirements make efficient management difficult. Facility managers face rising energy costs, limited system visibility, high maintenance workloads, and growing pressure to improve comfort, efficiency, and sustainability across the entire building lifecycle.
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FREQUENTLY ASKED QUESTIONS (FAQS)

What is your MOQ?
This depends on the specific product. Because we have a wide range of products, the minimum order quantity needs to be determined based on the specific product type.
Can we request a customize design or private labeling?
This depends on the specific product. Because we have a wide range of products, the minimum order quantity needs to be determined based on the specific product type.
What is your payment term for new clients?
This depends on the specific product. Because we have a wide range of products, the minimum order quantity needs to be determined based on the specific product type.
How do you ensure product quality control?
This depends on the specific product. Because we have a wide range of products, the minimum order quantity needs to be determined based on the specific product type.
What is your pricing structure for bulk orders?
We offer tiered pricing. The unit price decreases significantly as your order volume increases
What is your sample lead time and cost?
We offer tiered pricing. The unit price decreases significantly as your order volume increases
What is your warranty policy?
We offer tiered pricing. The unit price decreases significantly as your order volume increases
Are your products have certified?
We offer tiered pricing. The unit price decreases significantly as your order volume increases

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