KR20220029986A - IOT sensor-based ESS safety management system - Google Patents

Abstract

The present invention relates to an IOT sensor-based ESS safety management system and, more specifically, to an IOT sensor-based ESS safety management system which uses various sensors based on internet of things (IOT) to realize data about an energy storage system (ESS) in real time by a web or application, thereby easily monitoring the ESS.

Description

IOT sensor-based ESS safety management system {IOT sensor-based ESS safety management system}

The present invention relates to an IOT sensor-based ESS safety management system, and more specifically, by using various sensors based on IOT (Internet Of Things), data on ESS (Energy Storage System) is implemented in real time as a web or application It relates to an IOT sensor-based ESS safety management system that can easily monitor the ESS system.

Recently, with the development of new renewable energy and smart grid technology, interest in ESS (Energy Storage System), an energy storage system, is increasing.

The ESS backup system is attracting attention as a key facility in the smart grid using renewable energy because it can store new and renewable energy such as solar and wind power that is difficult to generate at the desired time in advance and use it at the required time.

In 2011, the Ministry of Knowledge Economy prepared the “Energy Storage Technology Development and Industrialization Strategy K-ESS 2020” and is pursuing a total of 6.4 trillion won in R&D and facility investment with the goal of achieving a global market share of 30% by 2020. In addition, the importance of the ESS backup system is increasing as it announced that the ratio of those obligated to supply new and renewable energy will be increased to 10% or more by 2022 through the New and Renewable Energy Promotion Act.

On the other hand, as the spread of the ESS system has expanded, there has been a problem in that ESS fires occur frequently due to various causes.

Accordingly, there is a need to develop a technology capable of monitoring the ESS system in real time to identify the cause of the ESS system fire, prevent fire, and for more efficient management.

The present invention has been devised by such necessity, and an object of the present invention is to implement data on ESS (Energy Storage System) based on IOT (Internet Of Things) in real time as a web or application using various sensors to facilitate This is to provide an IOT sensor-based ESS safety management system that can monitor the ESS system.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is an ESS (Energy Storage System, energy storage system) in which a PCS (Power Conditioning System) room in which a low-pressure panel and a PMS (Power Management system) are installed and a battery room in which a plurality of battery racks are installed. ) container; a solar panel installed on the external ceiling of the ESS container; and a sensor including a temperature sensor, a humidity sensor, a fine dust sensor, a vibration sensor, a fire detection sensor, a carbon monoxide sensor, and a solar radiation sensor, wherein the sensors transmit data measured in real time based on IOT to the Web or application (APP) to provide an IOT sensor-based ESS safety management system, characterized in that it is transmitted.

In a preferred embodiment, the temperature sensor is installed on one side upper and one lower side of each battery rack, the inside of the PCS room, the solar panel, and the outer wall of the ESS container.

In a preferred embodiment, the humidity sensor is installed on one side upper and one lower side of each battery rack, the inside of the PCS room, the solar panel, and the outer wall of the ESS container.

In a preferred embodiment, a ventilation pen is installed in the battery compartment to communicate air with the outside, and the temperature sensor, the humidity sensor and the fine dust sensor are installed in a position adjacent to the ventilation pen.

In a preferred embodiment, the vibration sensor is installed at the bottom of the PCS (Power Conditioning System) room or the battery room.

In a preferred embodiment, the fire monitoring sensor is installed inside the battery compartment.

In a preferred embodiment, the carbon monoxide sensor is installed on one side of the upper part of any one of the battery racks.

In a preferred embodiment, the insolation sensor is installed on the solar panel

In a preferred embodiment, at least one ceiling air conditioning system is installed in the battery compartment, the air conditioning system being equipped with the fire detection sensor.

The present invention has the following excellent effects.

According to the IOT sensor-based ESS safety management system of the present invention, various sensors such as a temperature sensor, a humidity sensor, a fine dust sensor, a vibration sensor, a fire detection sensor, a carbon monoxide sensor, and a solar radiation sensor are installed in an optimal position, and various sensors By implementing the data on the ESS (Energy Storage System, energy storage system) measured by the Internet of Things (IOT) as a web or application in real time, there is an effect that the status of the ESS can be easily monitored.

1 is a conceptual diagram for explaining an IOT sensor-based ESS safety management system according to the present invention.
2 is an image showing a web screen (a) and an application screen (b) provided by the IOT sensor-based ESS safety management system according to the present invention.

As for the terms used in the present invention, general terms that are currently widely used are selected as possible, but in certain cases, there are also terms arbitrarily selected by the applicant. So the meaning should be understood.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like reference numerals refer to like elements throughout.

1 is a conceptual diagram for explaining an IOT sensor-based ESS safety management system according to an embodiment of the present invention, and FIG. 2 is a web provided by an IOT sensor-based ESS safety management system according to an embodiment of the present invention. This is an example image showing the application screen.

1 and 2, the IOT sensor-based ESS safety management system according to an embodiment of the present invention transmits data about an ESS (Energy Storage System) measured by various sensors to the Internet (IOT). Of Things)-based real-time web or application implementation to easily monitor the status of the ESS, the ESS (Energy Storage System) container 110, the solar panel 120 and the sensors (131,132,132,133,134,135,136,137) is included.

The ESS container 110 is a structure in which an ESS system that can store electric power produced from a renewable energy source and supply it to the system through a smart grid or supply it to a load in the house is stored, and the internal space is PCS (Power Conditioning) System) is divided into a room 111 and a battery room 112 .

Here, the PCS (Power Conditioning System) room 111 is provided with a low pressure plate 111a and a PMS (Power Management system, 111b), and a plurality of battery racks 112a are installed in the battery room 112 .

The solar panel 120 is installed on the external ceiling of the ESS container 110, and serves to generate electricity by receiving sunlight.

The sensors include a temperature sensor 131 , a humidity sensor 132 , a fine dust sensor 133 , a vibration sensor 134 , a fire detection sensor 135 , a carbon monoxide sensor 136 , and a solar radiation sensor 137 . .

Here, the temperature sensor 131 is on the upper and lower sides of one side of each battery rack 112a, the inside of the PCS room 111, the solar panel 120, and the outer wall of the ESS container 110. is installed

This is because when the temperature in the battery rack (112a) increases, the possibility of a fire is increased, and to prevent a fire by detecting and monitoring the temperature in advance before the fire occurs.

In addition, the humidity sensor 132 is one side upper and one lower side of each pannery rack 112a, the inside of the PCS room 111, the solar panel 120, the outer wall of the ESS container 110. This is to monitor the humidity so that the humidity can be controlled by measuring the humidity in advance to check that the battery does not catch fire.

In addition, a ventilation pen 140 may be further installed in the battery chamber 112 to allow air to communicate with the outside.

In this case, the temperature sensor 131 , the humidity sensor 132 , and the fine dust sensor 133 are installed at positions adjacent to the ventilation pen 140 .

Here, the fine dust sensor 133 is installed in the ventilation port with the highest dust concentration so as to check the fine dust concentration, and the overall concentration in the measurement area is checked. It functions to prevent it from happening in advance.

In addition, the vibration sensor 134 is installed on the floor of the PCS room 111 or the battery room 112 to detect the intensity of vibration when an earthquake occurs to prevent a fire or failure of the ESS system. function.

In addition, the fire detection sensor 135 is installed inside the battery chamber 112, and functions to directly detect the occurrence of a fire.

In addition, the carbon monoxide sensor 136 is installed on one side of the upper portion of the battery rack 112a of any one of the battery racks 112a, detects carbon monoxide generated before a fire, and a function of pre-diagnosing the possibility of a fire do

In addition, the insolation sensor 137 is installed on the solar panel 120, and when the solar heat is suddenly strong, the voltage is temporarily increased and it is possible to detect the occurrence of a fire. In other words, it has a function of warning in advance when there is a lot of fluctuation in the amount of insolation by depositing the voltage difference that changes rapidly in advance through the measurement of the amount of insolation.

In addition, at least one ceiling-type air conditioning system (air conditioning system, 150) may be installed in the battery compartment (112), the air conditioning system 150 is preferably provided with the fire detection sensor (135).

These sensors (131, 132, 133, 134, 135, 136, 137) transmit the data measured in real time based on IOT to the web (Web) or application (APP), and facilitate the status of the ESS in real time As an example, FIG. 2 shows a web screen (a) and an application screen (b) provided by the IOT sensor-based ESS safety management system according to the present invention.

As described above, according to the IOT sensor-based ESS safety management system according to the present invention, various sensors such as a temperature sensor, a humidity sensor, a fine dust sensor, a vibration sensor, a fire detection sensor, a carbon monoxide sensor, and a solar radiation sensor of the ESS system It is installed in an optimal location and implements data on ESS (Energy Storage System, energy storage system) measured by various sensors as a web or application in real time based on IOT (Internet Of Things) to facilitate the status of the ESS. There is an effect that can be closely monitored.

As described above, the present invention has been illustrated and described with reference to preferred embodiments, but it is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains within the scope not departing from the spirit of the present invention Various changes and modifications will be possible.

110: ESS container 111: PCS room
112: battery room 120: solar panel
131: temperature sensor 132: humidity sensor
133: fine dust sensor 134: vibration sensor
135: fire detection sensor 136: carbon monoxide sensor
137: solar radiation sensor 140: ventilation pen
150: air conditioning system

Claims (9)

ESS (Energy Storage System) container in which a PCS (Power Conditioning System) room in which a low-pressure board and a PMS (Power Management system) are installed and a battery room in which a plurality of battery racks are installed;
a solar panel installed on the external ceiling of the ESS container; and
A sensor including a temperature sensor, a humidity sensor, a fine dust sensor, a vibration sensor, a fire detection sensor, a carbon monoxide sensor, and a solar radiation sensor;
The IOT sensor-based ESS safety management system, characterized in that the sensors transmit the data measured in real time based on the IOT to a web or an application.
The method of claim 1,
The temperature sensor is an IOT sensor-based ESS safety management system, characterized in that it is installed on one side upper part and one side lower part of each battery rack, the inside of the PCS room, the solar panel, and the outer wall of the ESS container.
The method of claim 1,
The humidity sensor is an IOT sensor-based ESS safety management system, characterized in that it is installed on one side upper and one side lower part of each battery rack, the inside of the PCS room, the solar panel, and the outer wall of the ESS container.
The method of claim 1,
A ventilation pen is installed in the battery chamber to communicate with the outside air,
The IOT sensor-based ESS safety management system, characterized in that the temperature sensor, the humidity sensor and the fine dust sensor are installed in a position adjacent to the ventilation pen.
The method of claim 1,
The vibration sensor is an IOT sensor-based ESS safety management system, characterized in that it is installed on the floor of the PCS (Power Conditioning System) room or the battery room.
The method of claim 1,
The fire monitoring sensor is an IOT sensor-based ESS safety management system, characterized in that it is installed inside the battery room.
The method of claim 1,
The carbon monoxide sensor is an IOT sensor-based ESS safety management system, characterized in that it is installed on one side of the upper part of any one of the battery racks.
The method of claim 1,
The solar radiation sensor is an IOT sensor-based ESS safety management system, characterized in that installed on the solar panel.
The method of claim 1,
At least one ceiling air conditioning system is installed in the battery compartment,
The IOT sensor-based ESS safety management system, characterized in that the fire detection sensor is provided in the air conditioning system.

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