KR-20260064049-A - Multi-energy sensing system

Abstract

The present invention relates to a multi-energy sensing system, and more specifically, to a multi-energy sensing system characterized by arranging a plurality of modules including various sensors according to the building environment to sense and collect information regarding temperature, humidity, illuminance, and objects within the building environment, and to sense the amount of power used to collect information regarding power, and enabling a user to obtain information about the building environment through communication between a communication module and a server.

Inventors

• 이민상

Assignees

• 주식회사 디에스이노베이션

Dates

Publication Date

20260507

Application Date

20241031

Claims (7)

1. A composite sensing module that generates collected composite information by sensing information on temperature, humidity, and illuminance in the building environment and information on objects; A power sensing module that collects power information by sensing the amount of power used in the building environment; A communication module that receives and transmits the above composite information and the above power information through a communication network; and A multi-energy sensing system comprising: a server that receives and stores the composite information and the power information from the communication module; wherein the composite sensing module and the power sensing module are arranged as a plurality of modules according to the range of the environment within the building.
2. In Article 1, A multi-energy sensing system further comprising: a user terminal that receives the composite information and the power information from the server and provides the user with information about the environment within the building.
3. In Article 1, The above composite sensing module is, A temperature sensor that senses the above temperature and collects temperature information; A humidity sensor that senses the above humidity and collects humidity information; An illuminance sensor that senses the above illuminance and collects illuminance information; An object sensor that senses the above object and collects object information; and A multi-energy sensing system characterized by including a composite control unit that controls each sensor when the above temperature information, humidity information, illuminance information, and object information are collected.
4. In Article 1, The above power sensing module: is, A power sensor that senses power consumption and collects power information; and A multi-energy sensing system characterized by including a power control unit that controls each sensor when multiple power sensors are installed.
5. In Article 1, The above communication module: is, A module receiving unit that receives composite information and power information from the above composite sensing module and power sensing module; and A multi-energy sensing system characterized by including a module transmitter that transmits the composite information and power information to the server.
6. In Article 1, The above server: is, A server receiver that receives the composite information and power information from the communication module; A complex information storage unit that stores the above complex information; and A multi-energy sensing system characterized by including a power information storage unit that stores the above power information.
7. In Paragraph 2, The above server: is, A multi-energy sensing system characterized by including a server transmitting unit that transmits the composite information and the power information to the user terminal to provide the user with information about the environment inside the building.

Description

Multi-energy sensing system The present invention relates to a multi-energy sensing system, and more specifically, to a multi-energy sensing system characterized by arranging a plurality of modules including various sensors according to the building environment to sense and collect information regarding temperature, humidity, illuminance, and objects within the building environment, and to sense the amount of power used to collect information regarding power, and enabling a user to obtain information about the building environment through communication between a communication module and a server. With the recent rise in interest in the environment due to air pollution and extreme weather events, various technologies capable of monitoring the indoor environment of buildings are being developed. Accordingly, it has become important to measure data on indoor environmental information, such as temperature, humidity, and illuminance based on sunlight, in various regions, as this is directly connected to people's daily lives. Along with this, various building environment monitoring systems have emerged, such as installing sensors within the building environment to secure continuous data in real time. However, existing systems face problems such as the difficulty of collecting precisely measured environmental information by covering a wide area with a single sensor, and the requirement to manually check data one by one to acquire the information. To address this, it is necessary to configure an efficient system capable of continuous data collection while being connected to various sensors to gather diverse information from the building environment. FIG. 1 is a drawing illustrating a multi-energy sensing system according to an embodiment of the present invention. The terms used in this invention have been selected to be as widely used as possible; however, in specific cases, terms have been arbitrarily selected by the applicant. In such cases, the meaning should be understood by considering the meaning described or used in the detailed description of the invention, rather than merely the name of the term. Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments illustrated in the attached drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Hereinafter, a multi-energy sensing system according to an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a drawing illustrating a multi-energy sensing system (100) according to an embodiment of the present invention. Referring to FIG. 1, the multi-energy sensing system (100) is an energy management system capable of sensing and collecting information about the temperature, humidity, and illuminance of the environment inside a building and information about objects, and sensing the amount of power used to collect information about power. Additionally, the multi-energy sensing system (100) is configured to include a composite sensing module (110), a power sensing module (120), a communication module (130), and a server (140). In addition, the composite sensing module (110), power sensing module (120), communication module (130), and server (140) of the multi-energy sensing system (100) of the present invention are substantially performed by a computer system in which an energy management program is installed. In addition, the above computer system is a broad concept that includes not only general personal computers, embedded systems, and smart devices, but also energy sensing control systems such as Smart Energy Sensing Management System (SESMS), Energy Sensing Management System (ESMS), and Energy Sensing Automation System (ESAS). That is, the present invention may be provided in the form of a computer storing the energy management program, a smart energy sensing operating system, or an energy sensing operating automation system. In addition, the energy management program is stored in a server system, and the computer system can download and install the energy management program from the server system and then manage the status and results of energy usage. In addition, the energy management program may be stored on a separate recording medium and provided, and the recording medium may be one specifically designed and configured for the present invention or one known and available for use by those skilled in the art of computer software. For example, the recording medium may be a hardware device specifically configured to store and execute program instructions alone or in combination, such as a magnetic medium like a hard disk, floppy disk, and magnetic tape; an optical recording medium like a CD and DVD; a magneto-optical recording medium capable of both magnetic and optical recording; ROM, RAM, flash memory, etc. In addition, the energy management program may be a program