LOW-VOLTAGE USER DEMAND RESPONSE INTERACTION APPARATUS AND OPERATION METHOD THEREFOR

Organization Name

GUANGXI POWER GRID CO., LTD.

Inventor(s)

Wenqian Jiang of Nanning, Guangxi (CN)

Xiaoming Lin of Guangzhou, Guangdong (CN)

Kun Zhang of Nanning, Guangxi (CN)

Bin Qian of Guangzhou, Guangdong (CN)

Zhou Yang of Nanning, Guangxi (CN)

Zhitao Tang of Nanning, Guangxi (CN)

Junli Huang of Nanning, Guangxi (CN)

Jinjin Li of Nanning, Guangxi (CN)

Yi Luo of Guangzhou, Guangdong (CN)

Jun Chen of Nanning, Guangxi (CN)

Jueyu Chen of Nanning, Guangxi (CN)

Mi Zhou of Guangzhou, Guangdong (CN)

Xiuqing Lin of Nanning, Guangxi (CN)

Keying Huang of Nanning, Guangxi (CN)

LOW-VOLTAGE USER DEMAND RESPONSE INTERACTION APPARATUS AND OPERATION METHOD THEREFOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240235198 titled 'LOW-VOLTAGE USER DEMAND RESPONSE INTERACTION APPARATUS AND OPERATION METHOD THEREFOR

The abstract describes a low-voltage user demand response interaction apparatus and its operation method. The apparatus includes various modules such as an electrical loop, a mechanical switch, a protection module, a data collection module, a control processor, a power supply module, a communication module, a load identification module, a blockchain module, and a demand response module.

• The apparatus features an electrical loop connected to a mechanical switch, which is further linked to a protection module.
• A control processor is connected to the protection module, while the load identification module, blockchain module, and demand response module are connected to the control processor.
• A data collection module is connected to the electrical loop to transmit data to the control processor.
• The communication module and power supply module are respectively connected to the control processor.

Potential Applications: - Energy management systems - Smart grid technologies - Home automation systems

Problems Solved: - Efficient energy consumption - Real-time demand response - Enhanced user control over electricity usage

Benefits: - Lower energy costs - Reduced environmental impact - Increased grid stability

Commercial Applications: Title: "Smart Energy Management System for Residential and Commercial Use" This technology can be utilized in smart homes, commercial buildings, and industrial facilities to optimize energy usage, reduce costs, and improve overall efficiency.

Prior Art: Readers can explore prior art related to low-voltage user demand response systems in the field of energy management, smart grids, and IoT devices.

Frequently Updated Research: Stay updated on the latest advancements in demand response technologies, energy management systems, and blockchain integration for smart grids.

Questions about the technology: 1. How does the apparatus ensure user privacy and data security? 2. What are the potential challenges in implementing this technology on a large scale?

By providing a comprehensive overview of the low-voltage user demand response interaction apparatus, this article aims to educate readers on its functionality, benefits, and potential applications in various industries.

Original Abstract Submitted

a low-voltage user demand response interaction apparatus and an operation method therefor. the apparatus comprises an electrical loop, a mechanical switch, a protection module, a data collection module, a control processor, a power supply module, a communication module, a load identification module, a blockchain module and a demand response module, wherein the mechanical switch is connected to the electrical loop; the protection module is connected to the mechanical switch; the control processor is connected to the protection module; the load identification module, the blockchain module and the demand response module are respectively connected to the control processor; the data collection module is connected to the electrical loop, and transmits data to the control processor; and the communication module and the power supply module are respectively connected to the control processor.