KR20240042763A - Ship fire detection system using reefer container socket - Google Patents

Abstract

The present invention relates to a ship fire detection system using a reefer container socket, which is commonly provided on container ships, to quickly and accurately detect a fire in a ship's cargo hold. The reefer socket according to the present invention The ship fire detection system uses a fire detection temperature sensor installed on the outside of the refrigerated container to measure the outside air temperature of the cargo hold; A ripper socket that provides a mounting space for the temperature information processing module and is connected to the fire detection temperature sensor via a communication line to transmit external temperature information measured by the fire detection temperature sensor to the temperature information processing module; A temperature information processing module that transmits the external temperature information received in the ripper socket to the ship's disaster prevention system through a communication line; and a disaster prevention system that controls the operation of various devices related to disaster prevention based on external temperature information received from the temperature information processing module.

Description

Ship fire detection system using reefer container socket}

The present invention relates to a ship fire detection system using a reefer socket. More specifically, a reefer socket that can quickly and accurately detect a fire in a ship's cargo hold by using a reefer container socket commonly provided on container ships. This relates to a ship fire detection system using .

Ships are equipped with a disaster prevention system that detects fires and extinguishes them. A method of detecting smoke in the air is commonly used to detect fire. As an example of a method for detecting smoke in the air, Korean Patent No. 1418646 proposes a technology for sucking air from the cargo hold 102 into the air intake unit 40 and detecting smoke through the detection sensor 22.

However, the smoke detection method has the disadvantage that errors may occur due to the influence of external environments such as gusts of wind and that the timing of fire detection is late.

Korean Patent Publication No. 1418646 (announced on July 10, 2014) Korean Patent Publication No. 2020-0044498 (published on April 29, 2020) Korean Patent Publication No. 1323686 (announced on October 30, 2013)

The present invention was devised to solve the above problems, and is a ship fire using a reefer container socket, which is commonly provided on container ships, and can quickly and accurately detect a fire in a ship's cargo hold. The purpose is to provide a detection system.

A ship fire detection system using a ripper socket according to the present invention to achieve the above object includes a fire detection temperature sensor provided on the outside of a refrigerated container to measure the outside temperature of the cargo hold; A ripper socket that provides a mounting space for the temperature information processing module and is connected to the fire detection temperature sensor via a communication line to transmit external temperature information measured by the fire detection temperature sensor to the temperature information processing module; A temperature information processing module that transmits the external temperature information received in the ripper socket to the ship's disaster prevention system through a communication line; and a disaster prevention system that controls the operation of various devices related to disaster prevention based on external temperature information received from the temperature information processing module.

It further includes a refrigerated container control system that monitors the internal environment of the refrigerated container and controls the internal environment of the refrigerated container, wherein the refrigerated container control system receives external temperature information measured by a temperature sensor for fire detection to control the refrigerated container's internal environment. In addition to monitoring the external temperature of the cargo hold equipped with , the internal environment of the refrigerated container can be controlled based on the external temperature information received through the temperature information processing module.

The ripper socket may be provided on one side of the lashing bridge in the ship's cargo hold.

To transmit and receive external temperature information, a communication line is connected between the fire detection temperature sensor and the ripper socket, between the ripper socket and the disaster prevention system, and between the ripper socket and the refrigerated container control system.

The ship fire detection system using a ripper socket according to the present invention has the following effects.

By transmitting the external temperature information measured by the fire detection temperature sensor to the disaster prevention system through the ripper socket, which is commonly installed on container ships, it is possible to quickly and accurately detect whether a fire has occurred, and based on this, rapid disaster prevention in the event of a fire is possible. can be promoted.

In addition, by allowing the external temperature information measured by the fire detection temperature sensor to be transmitted to the refrigerated container control system, the internal temperature and pressure of the refrigerated container can be effectively controlled in response to changes in the external environment due to fire.

Figure 1 is a configuration diagram of a ship fire detection system using a ripper socket according to an embodiment of the present invention.

The present invention presents technology regarding a ship fire detection system using a ripper socket.

A reefer container socket is a device capable of supplying power and communicating, and serves to supply power to reefer containers and transmit and receive signals related to monitoring and control of reefer containers. In other words, a power line is connected to the ripper socket to supply power to the refrigerated container, and a communication line is connected to the ripper socket to transmit signals about the internal temperature of the refrigerated container to the refrigerated container control system or to control the internal temperature of the refrigerated container. A control signal for may be transmitted to the refrigerated container from the refrigerated container control system.

The existence of a ripper socket is essential in order to transport cargo inside a refrigerated container without damage, and a ripper socket is generally provided on normal container ships.

The present invention focuses on the fact that the ripper socket is a device capable of communication, detects temperature changes in the event of a fire, and transmits the detected temperature information to the ship's disaster prevention system through the ripper socket, thereby quickly and accurately detecting the occurrence of fire. Accordingly, we present technology that can extinguish fires quickly.

As described above, the inside of a refrigerated container must be maintained at a certain temperature, and a temperature sensor is provided on one side of the inside of the refrigerated container. In the present invention, a temperature sensor for fire detection is provided separately on the outside of the refrigerated container, The external temperature information detected by the fire detection temperature sensor is transmitted to the disaster prevention system through the ripper socket.

In addition, the external temperature information detected by the fire detection temperature sensor is transmitted to the disaster prevention system and also to the refrigerated container control system, so that the refrigerated container can be controlled in response to external temperature changes due to fire.

Hereinafter, a ship fire detection system using a ripper socket according to an embodiment of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, the ship fire detection system using a ripper socket according to an embodiment of the present invention includes a temperature sensor for fire detection (110), a ripper socket (120), a temperature information processing module (130), and a disaster prevention system (20). ) and a refrigerated container control system 30.

The temperature sensor 110 for fire detection is provided on the outside of the refrigerated container 10 and serves to continuously measure the temperature of the cargo hold in which the refrigerated container 10 is mounted. The external temperature information measured by the fire detection temperature sensor 110 is transmitted to the temperature information processing module 130 of the ripper socket 120 through a communication line.

The ripper socket 120 supplies power to the refrigerated container 10 through a power line and can transmit and receive monitoring signals and control signals related to the refrigerated container 10 through a communication line, and uses a temperature information processing module 130. In addition to being provided, it serves to transmit external temperature information measured by the fire detection temperature sensor 110 to the temperature information processing module 130 through a communication line. Here, the ripper socket 120 may be provided on one side of the lashing bridge of the ship's cargo hold, but the mounting location of the ripper socket 120 is not limited.

The temperature information processing module 130 is provided on one side of the ripper socket 120 and receives external temperature information transmitted to the ripper socket 120 through a communication line, that is, external temperature information measured by the fire detection temperature sensor 110. It serves to receive and transmit this to the disaster prevention system 20 provided in the ship.

Based on the external temperature information received from the temperature information processing module 130, the disaster prevention system 20 operates the fire extinguisher and operates the door according to a preset disaster prevention process when the received external temperature information is higher than the standard temperature considered to be a fire occurrence. Controls the operation of various devices related to disaster prevention, such as shielding.

Meanwhile, the refrigerated container control system 30 monitors the internal environment of the refrigerated container 10 and controls the internal environment of the refrigerated container 10, that is, internal temperature and pressure. In addition, the external temperature information measured by the fire detection temperature sensor 110 is transmitted not only to the disaster prevention system 20 but also to the refrigerated container control system 30 by the temperature information processing module 130, thereby maintaining the refrigerated container control system. (30) can control the internal temperature and pressure of the refrigerated container 10 in response to external temperature information. That is, the refrigerated container control system 30 receives external temperature information measured by the fire detection temperature sensor 110 in addition to the monitoring information input from the temperature sensor and pressure sensor already provided in the refrigerated container 10, and refrigerates the refrigerated container 10. The external temperature of the cargo hold in which the container 10 is mounted can also be monitored, and the internal environment of the refrigerated container 10 can be controlled based on external temperature information received through the temperature information processing module 130.

To transmit and receive external temperature information, between the fire detection temperature sensor 110 and the ripper socket 120, between the ripper socket 120 and the disaster prevention system 20, and between the ripper socket 120 and the refrigerated container control system 30. are connected via communication lines.

10: Refrigerated container 20: Disaster prevention system
30: Refrigerated container control system 110: Temperature sensor for fire detection
120: Ripper socket 130: Temperature information processing module

Claims (4)

A fire detection temperature sensor installed on the outside of the refrigerated container to measure the outside temperature of the cargo hold;
A ripper socket that provides a mounting space for the temperature information processing module and is connected to the fire detection temperature sensor via a communication line to transmit external temperature information measured by the fire detection temperature sensor to the temperature information processing module;
A temperature information processing module that transmits the external temperature information received in the ripper socket to the ship's disaster prevention system through a communication line; and
A ship fire detection system using a ripper socket, comprising: a disaster prevention system that controls the operation of various devices related to disaster prevention based on external temperature information received from the temperature information processing module.
The method of claim 1, further comprising a refrigerated container control system that monitors the internal environment of the refrigerated container and controls the internal environment of the refrigerated container,
The refrigerated container control system receives external temperature information measured by a fire detection temperature sensor and monitors the external temperature of the cargo hold in which the refrigerated container is installed, and refrigerates the product based on the external temperature information received through the temperature information processing module. A ship fire detection system using a ripper socket that controls the internal environment of the container.
The ship fire detection system according to claim 1, wherein the ripper socket is provided on one side of a lashing bridge in a ship's cargo hold.
The ripper according to claim 1, wherein in order to transmit and receive external temperature information, a communication line is connected between the fire detection temperature sensor and the ripper socket, between the ripper socket and the disaster prevention system, and between the ripper socket and the refrigerated container control system. A ship fire detection system using a socket.

Images