KR20210079794A - Apparatus for protecting refuge person from disaster in underwater floating tunnel - Google Patents

Abstract

According to the present invention, an evacuation protection apparatus of an underwater floating tunnel is realized by comprising: a plurality of moving walks having a predetermined length and being spaced apart from each other at a predetermined interval in an evacuation space formed to be partitioned from a side wall, a railroad, and a road inside the tunnel; and an evacuation space unit provided between the plurality of moving walks to safely protect the evacuees who moved through the moving walks from smoke and flames due to the fire that occurred inside the tunnel. Accordingly, in the event of an emergency such as a fire, evacuees in the underwater floating tunnel can be quickly and safely moved to a safe evacuation area to protect them.

Description

Apparatus for protecting refuge person from disaster in underwater floating tunnel}

The present invention relates to a device for protecting evacuees of an underwater floating tunnel, and more particularly, an underwater floating that can be protected by quickly and safely moving evacuees in the underwater floating tunnel to a safe evacuation shelter in case of an emergency such as a fire. It relates to the evacuation protection device in the tunnel.

Underwater floating tunnels can be designed as a way to avoid deep trenches or orogens. For example, when it is no longer possible to penetrate the seabed, or it can be viewed as a concept of connecting to an underwater floating tunnel by breaking out of the seabed from the seafloor at a point where it can completely avoid a trench or orogeny. The underwater floating tunnel is a method of placing a tunnel structure in water by appropriately controlling gravity and buoyancy, and is generally made of four sections: tension leg, pontoons, column support, and free. It may consist of combinations. In the case of an underwater floating tunnel, buoyancy and seawater pressure are always acting, so there are many things to manage compared to a general type tunnel.

When constructing such an underwater floating tunnel, a ventilation opening through the sea or river or a facility space for the purpose of protecting people should be installed together. The facility space part ventilates the inside of the tunnel during construction to keep the air polluted by various harmful gases and equipment exhaust gas below the allowable range that does not affect the human body of workers, and prevents the risk of explosion due to flammable gas. do In addition, when operating an underwater tunnel, it not only serves as a vent for diluting harmful gases emitted from vehicles or railroads, discharging them to the outside of the tunnel, and letting fresh air into the tunnel, but also serves as an escape or evacuation site for people in an emergency.

However, even when a fire or damage to the outer wall occurs in some sections of the underwater floating tunnel, it may spread due to large-scale damage to the tunnel structure. There are various problems such as not only difficult to secure visibility due to smoke or harmful gas generated from a fire in the tunnel, but also it is difficult to quickly escape people because it is necessary to move to the upper part of the tunnel using a ladder. Therefore, there is a need to prepare a method for minimizing damage to evacuees when an emergency situation occurs inside the underwater floating tunnel.

Republic of Korea Patent Publication No. 10-1211491 (Registration Date: December 06, 2012) Republic of Korea Patent Publication No. 10-1211486 (Registration date: December 06, 2012)

The present invention was invented to solve the above problems, and when an emergency such as a fire occurs, an evacuation of an underwater floating tunnel can be protected by quickly and safely moving evacuees in the underwater floating tunnel to a safe evacuation shelter. Provides self-protection device.

An evacuation protection device for an underwater floating tunnel according to the present invention includes: an evacuation space portion formed to be partitioned from a side wall and a railway and a road inside the tunnel; a plurality of moving walks having a predetermined length in the evacuation space and installed to be spaced apart from each other at predetermined intervals;

an evacuation evacuation space unit provided between the plurality of moving walks to safely protect evacuees who have moved through the moving walks from smoke and flames due to a fire occurring inside the tunnel;

a plurality of fire detection sensors installed at intervals of several tens of meters on the inner sidewall of the tunnel; and a fire control device for controlling the operation of the plurality of moving walks by using the detection signals input from the plurality of fire detection sensors.

In the evacuation protection device of the underwater floating tunnel according to the present invention, the fire control device determines the location of the fire and the direction of the fire, based on the time the detection signal is input from some of the plurality of fire detection sensors. And as a result, it is characterized in that the moving walk installed at the location of the fire is operated to the left or right.

An evacuation protection device of an underwater floating tunnel according to the present invention comprises: a gas storage tank storing gas for fire suppression; a gas ejection device connected to the gas storage tank and ejecting gas for fire suppression into the tunnel; It is installed on the upper wall inside the tunnel, and coupled to the gas ejection device further includes a moving member for moving the gas ejection device according to a driving control signal input from the fire control device.

The evacuation protection device of the underwater floating tunnel according to the present invention includes a plurality of moving walks and a plurality of moving walks installed at predetermined intervals in an evacuation space portion formed to be partitioned from a side wall, a railway and a road, respectively, inside the tunnel and spaced apart from each other at a predetermined interval. The underwater floating tunnel is provided between the moving walks of the building and includes an evacuation space that safely protects the evacuees who have moved through the moving walks from smoke and flames due to the fire that occurred inside the tunnel, so that when an emergency such as a fire occurs, an underwater floating tunnel It is possible to protect the evacuees by moving them quickly and safely to a safe evacuation shelter.

In addition, the evacuation protection device of the underwater floating tunnel according to the present invention is connected to a gas storage tank and combined with a gas jet device that jets gas for extinguishing a fire inside the tunnel according to a driving control signal input from the fire control device. By including a moving member for moving the ejection device, it is possible to quickly extinguish the fire.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention to be described later. should not be construed as being limited only to
1 is an exemplary view for explaining an underwater floating tunnel according to the present invention.
2 is a view showing the main configuration of an evacuation protection device of an underwater floating tunnel according to the present invention.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. As used herein, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described herein is present, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. does not

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

Figure 1 is an exemplary view for explaining an underwater floating tunnel according to the present invention, Figure 2 is a view showing the main configuration of the evacuation protection device of the underwater floating tunnel according to the present invention.

Referring to FIG. 1 , the underwater floating tunnel according to the present invention is provided, for example, in a circular underwater floating tunnel structure 100 that is installed in a floating manner in the water to connect the railway and the road in the underground space. That is, the circular underwater floating tunnel structure 100 is installed between the sea floor and the sea level in a floating manner in water to connect the railway and the road on land.

In the circular underwater floating tunnel structure 100 , the upper space part is composed of, for example, a car road 120 in a state in which the space part is divided into two up and down, and the lower space part may be composed of a train track 130 . In the upper part of the automobile road 120 or the lower space of the train track 130, a ventilation hole and various facilities necessary for the operation of the underwater floating tunnel such as electricity are placed on the left side of the bulkhead of the automobile road 120 and the train track 130 A facility space 140 is provided.

Inside the underwater floating tunnel structure 100 is provided with an evacuation space 110 that is formed to be partitioned from the side wall, the railroad and the road, respectively. The evacuation space unit 110 is provided with an evacuation protection device for an underwater floating tunnel that can quickly and safely move and protect evacuees in the underwater floating tunnel to a safe evacuation shelter in case of an emergency such as a fire.

2, a plurality of moving walks 211, an evacuation evacuation space unit 212, a plurality of fire detection sensors 213, and a fire control device according to the present invention are shown for an evacuation protection device 200 for an underwater floating tunnel according to the present invention. 214 may be implemented.

The plurality of moving walks 211 have a predetermined length and are installed to be spaced apart from each other at predetermined intervals. For example, the length of one moving walk is preferably 50 m or more and 100 m or less in length. The distance between adjacent moving walks is preferably 5m or more and 10m or less.

The evacuation evacuation space unit 212 is provided between the plurality of moving walks 211 to safely protect an evacuee who has moved through any one of the moving walks from smoke and flames due to a fire occurring inside the tunnel. The evacuation and evacuation space unit 212 is a temporary space unit that can accommodate up to 10 people, and may be equipped with emergency items such as a telephone, a lantern, emergency treatment products, and a fire mask.

A plurality of fire detection sensors 213 are installed to be spaced apart from each other at intervals of several tens of meters on the inner sidewall of the tunnel. A plurality of fire detection sensors 213 detect smoke and flames caused by a fire. For example, the fire detection sensor 213 may be implemented as any one of a flame detector, a smoke detector, or an optical sensor.

The fire control device 214 controls the operation of the plurality of moving walks 211 using a detection signal input from the fire detection sensor 213 . For example, the fire control device 214 determines the location of the fire and the direction of the fire, based on the time when the detection signals are input from some of the fire detection sensors 213, and, as a result, the fire Move the moving walk installed at the generated position to the left or right.

Referring to FIG. 2 , the evacuation protection device 200 of the underwater floating tunnel according to the present invention may be implemented including a gas storage tank 215 , a gas ejection device 216 , and a moving member 217 .

The gas storage tank 215 stores gas for fire suppression. The gas for fire suppression can be implemented with carbon dioxide, a clean extinguishing agent, or a halogen compound extinguishing agent, and by using it, the chemical reaction between combustibles and oxygen is suppressed and extinguished by cooling and dilution.

The gas ejection device 216 is connected to the gas storage tank 215 and ejects gas for fire suppression in the tunnel. The gas ejection device 216 is coupled to the gas storage tank and includes a circular plate member having an outer periphery fastening hole that is a fastening hole formed along the outer periphery and a central fastening hole formed in the center and having a screw tab, and has a pipe shape as a whole, and has a thread on its outer periphery Having this formed outer circumferential screw portion, it is screwed into the central fastening hole of the circular plate member. A connecting member provided with an inner circumferential groove having an inner circumferential screw portion having a screw thread formed on the inner periphery opposite to the central fastening hole, and a cover screw portion having a screw thread formed on the outer periphery thereof, is screwed with the inner circumferential screw portion of the connecting member, and communicates with the connecting member It is located between the cover member and the gas storage tank and the round plate member and is located between the cover member and the circular plate member having a blowout hole at the end of which the gas supplied from the gas storage tank is connected to the sensor to detect the fire, and the gas contained in the gas storage tank according to the signal of the sensor. It can be implemented by including a valve that allows the flow to the central fastening hole of the round plate member.

The moving member 217 is installed on the upper wall inside the tunnel, and is coupled to the gas ejection device 216 to move the gas ejection device 216 according to a driving control signal input from the fire control device 214 . The moving member 217 is a rail member extending in one direction, a transfer car unit provided to be movable along the longitudinal direction of the rail member 110 on the rail member, and a driving unit capable of providing a moving driving force to the transfer car unit 200 . , it may include a transmission unit capable of transmitting a moving driving force from the driving unit to the transfer car unit, and a buffer unit provided to provide a buffer force between the transmission unit and the transfer car unit. Since the structure of the moving member 217 is a technique well known in the art, a more detailed description thereof will be omitted.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. This will be apparent to those of ordinary skill in the art to which the present invention pertains. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (3)

In the underwater floating tunnel between the sea floor and the sea level, installed in a floating way in the water to connect the railway and road on land,
an evacuation space portion formed to be partitioned from the side wall, the railroad, and the road inside the tunnel;
a plurality of moving walks having a predetermined length and spaced apart from each other in the evacuation space;
an evacuation space unit provided between the plurality of moving walks to safely protect evacuees who have moved through the moving walks from smoke and flames due to a fire occurring inside the tunnel;
a plurality of fire detection sensors installed at intervals of several tens of meters on the inner sidewall of the tunnel;
a fire control device for controlling the operation of the plurality of moving walks by using the detection signals input from the plurality of fire detection sensors;
Evacuation protection device of an underwater floating tunnel comprising a. The method according to claim 1,
The fire control device is
Based on the time when the detection signal is input from some of the plurality of fire detection sensors, the location of the fire and the direction of the fire are determined, and as a result, the moving walk installed at the location of the fire is determined based on the tunnel side wall Evacuation protection device of an underwater floating tunnel, characterized in that it operates to the left or right. The method according to claim 1, wherein the evacuation protection device of the underwater floating tunnel:
a gas storage tank storing gas for fire suppression;
a gas ejection device connected to the gas storage tank and ejecting gas for fire suppression into the tunnel;
a moving member installed on the upper wall inside the tunnel and coupled to the gas ejection device to move the gas ejection device according to a driving control signal input from the fire control device;
Evacuation protection device of the underwater floating tunnel, characterized in that it further comprises.

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