KR20110045694A - Escape chute for emergency escape - Google Patents

Abstract

According to the present invention, a cylindrical escape exit main body providing a space for the rescuers to enter and slide in each floor of the building in a standing state formed in the through-hole formed on the floor of each floor of the building; The upper part is connected to the lower part of the escape main body provided on the bottom of each floor, and the lower part is inserted into the upper part of the escape main body provided on the bottom of the lower floor lower than the floor where the escape main body is installed. A sliding member for sliding the entering rescuer; And a sliding member provided at a predetermined interval to allow the diameter of the sliding member to be narrowed or expanded elastically so that the sliding speed of the rescuer has a predetermined speed.

Building, fire, evacuation, evacuation, escape, downhill, cylinder, buffer, downhill

Description

Escape chute for emergency escape

The present invention relates to an emergency escape rescue team, more specifically, to install a rescue team connected to each floor in a high-rise building in the event of an emergency situation, such as a fire, the rescuer to enter the rescue team quickly and easily by each floor stable The present invention relates to an emergency escape rescue team that can escape, can be used semi-permanently at low cost, and is easy to install and maintain.

In general, as the population is crowded and modernized, buildings such as apartments, residential complexes, buildings, etc. are becoming higher, and in the case of fires and disasters, most people are evacuated using entrances and lifts. However, in case of an emergency such as fire or disaster, it is difficult to evacuate from the inside of the building to the outside by using the entrance or the lift due to smoke and toxic gas, etc. Emergency escape rescue teams that can evacuate to the ground are disclosed in Patent Publications 1982-149, Patent Publication No. 2002-85395, Patent Publication 10-2005-49911, Utility Publication No. 1992-11254, Utility Publication No. 1999-17939 It is known in the back.

Such conventional examples are installed in a corridor or passage of a building, and one side of a sliding cloth formed of a long cylindrical tube in a fire and emergency is fixed to be connected to the entrance side of the emergency escape rescue team, and then the other side of the building is high. Where the rescuer enters into the entrance of the sliding canal connected to the entrance side of the emergency escape rescue team and slides down to the upper part of the mattress placed on the ground below the exit. The structure is to escape from the inside of the outdoors.

However, such a conventional emergency escape rescue team has been shown to cause a variety of problems. First, in the case of a high-rise building, it is necessary to provide the rescue team for each floor or for each household, so there is a problem in that the cost is excessively required and maintenance and management are not easy.

In addition, despite the emergency situation, there is a problem in that the structure of the frame is separately installed on the railing of the corridor, and the downfall of the slide is precisely lowered so that the promptness and skill are required.

In addition, in fixing the upper part of the structure of the structural coupling force is unstable stability is required, there is a risk that a safety accident occurs when evacuating from the inside of the building through the sliding cannon.

In addition, it can increase the anxiety of the rescuer, there is a problem that the maintenance and management is cumbersome and adversely affects the aesthetic appearance and appearance as stored separately.

In addition, the conventional sliding structure has a problem that it is difficult to secure the sliding angle due to the influence of the wind in the building of more than 10 stories.

Therefore, an object of the present invention is to rescue the rescuers of each floor or each household in each emergency floor to enter the rescue team quickly and easily as a single structure connected to each floor without having to install a rescue team for each floor of the building. Provide emergency rescue teams.

In addition, it is another object of the present invention is not affected by the wind does not need to secure the sliding angle can be used in high-rise buildings, can be used to pursue the stability of the rescuer in use, easy to maintain and manage, and affect the appearance or appearance To provide emergency escape rescue teams.

In addition, another object of the present invention is to provide an emergency escape rescue team that can be installed in a prefabricated form on each floor when the installation of the structure in the building and can be used in a narrow space to improve the space utilization of the building. .

Meanwhile, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

To this end, according to the present invention, the escape escape main body for providing a space for the rescuer to enter and slide in the building through the standing hole is inserted into the through hole formed in the floor surface of each floor of each building; The upper part is connected to the lower part of the escape main body provided on the bottom of each floor, and the lower part is inserted into the upper part of the escape main body provided on the bottom of the lower floor lower than the floor where the escape main body is installed. A sliding member for sliding the entering rescuer; And a sliding member provided at a predetermined interval to allow the diameter of the sliding member to be narrowed or expanded elastically so that the sliding speed of the rescuer has a predetermined speed.

Here, the escape main body, the base having a length corresponding to the height of 1/2 or 1/3 of the height of each floor of the building, the base having a hollow inserted into the through hole while being supported through the flange on the bottom of each floor; A frame having a cylindrical hollow in which a fastening part is fastened to an upper side of the flange of the base and an opening is formed to allow the rescuers of each layer to enter, and a flange is formed on the upper side; And a head having a hollow in which the fastening part is fastened to the flange upper side of the frame.

The sliding member may have a length corresponding to an installation position of the through hole of the escape main body frame from the through hole in the bottom surface of the upper floor of the building, and the upper side may be fixed when the base of the escape main body is fastened to the fastening part of the frame. A sliding slide having a lower portion inserted into the frame hollow of the escape main body provided on the bottom surface of the lower layer lower than the floor where the escape main body is installed; It is preferable to include a band formed on one side of the sliding cloth along the outer periphery of the sliding cloth and fixed when the fastening portion of the flange and the head of the escapeway main body frame is fastened.

The elastic member may include a plurality of elastic springs provided at regular intervals in the longitudinal direction of the sliding cloth.

In addition, the escape main body, when the rescuer approaches the escape main body through the door of the evacuation room in the event of an emergency, so that the door naturally slides directly to the opening of the escape main body in the state that the door is open toward the generation space of the rescuer. It is preferable to install.

Therefore, according to the present invention, when the evacuator escapes through the escape escape main body installed in the evacuation chamber provided in each generation floor, the escape by having a stable descending speed by the sliding member extended to the escape escape main body, You can have a sense of psychological stability.

In addition, by slidingly installing the sliding member and the escape main body so as to correspond to the height of the building, it is possible to facilitate the installation work.

In addition, the sliding member is supported by the escape opening main body, so that the sliding member can be easily installed inside the escape opening main body and can facilitate maintenance.

In addition, when an emergency situation occurs when the rescuer approaches the escape main body through the door of the evacuation room, the door is installed so as to naturally approach the opening of the escape main body in the state immediately open toward the generation space of the rescuer, the emergency escape for It is possible to minimize the space of the evacuation room of the building by the installation of the rescue team, thereby reducing the construction cost of the building and efficiently using the space of the building.

In addition, by installing one emergency escape rescue team connected to each floor in the evacuation room of the building, the rescuers can try to escape quickly and stably without having to install a separate emergency escape rescue team.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

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

1 is a perspective view schematically showing an emergency escape rescue team according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing the emergency escape rescue team of Figure 1, Figure 3 is an emergency escape rescue team of Figure 1 A diagram showing the state of installation in the evacuation room.

As shown in Figures 1 to 3, the emergency escape rescue team according to a preferred embodiment of the present invention, is formed in a length corresponding to the height of 1/2 or 1/3 of each floor of the building to the floor for each floor of the building Is inserted into the through-hole formed in the surface of the cylindrical escape exit main body 110 for providing a space for entry and sliding of the rescuers of each floor in the standing state, the upper side is formed with a length corresponding to the height of each floor of the building It is connected to the lower part of the escape main body 110 provided on the bottom surface of each floor and inserted into the upper side of the escape main body 110 provided on the bottom of the lower floor lower than the floor where the escape main body 110 is installed. Is provided at a predetermined interval on the sliding member 120 and the sliding member 120 to allow the rescuer to enter the escape main body 110 according to emergency situations such as fire and disaster And it includes a resilient member 130 that to have a constant speed to slow down the downhill speed's rescue if rescue parties sliding along the sliding member 120, the diameter of the steel member (120) so that the narrowed or expanded elastically.

The escape main body 110 may be applied to the height of each floor of the building to be installed, more preferably, the length corresponding to 1/2 or 1/3 height of each floor height is different, When the rescuer enters or enters the internal space, it is preferable to be formed of a synthetic water material having sufficient cushioning force to ensure safety.

In addition, the escape main body 110, the base 112 having a hollow inserted into the through hole while being supported through the flange 111 on the bottom of the lower layer lower than the floor where the escape main body 110 is installed, the base The fastening part 113 is fastened to the upper side of the flange 111 of the 112 through the fastening member 114, and the opening 115 is formed so that the rescuers of each floor can easily enter the escape exit body 110. Frame 117 having a cylindrical hollow with a flange 116 formed on the upper side and a head having a hollow in which the fastening portion 118 is fastened through the fastening member 114 above the flange 116 of the frame 117 ( 119).

Here, the components and the opening 115 of the escape opening main body 110 is formed in a sufficient size so that rescuers of each floor can easily escape or enter.

In addition, it is preferable that a plurality of vent holes (not shown) are drilled in the frame 117 of the escape port main body 110 so that air or oxygen can be stably supplied to the rescuer who escapes in an emergency.

Therefore, according to the escape way main body 110, even if the height of each floor is different, more preferably, the height of each floor is formed in a length corresponding to the height of 1/2 or 1/3 of the height of each floor to be installed May be applied to different cases, thereby facilitating the manufacture, transportation and installation of the escape outlet body (110).

The sliding member 120, as well as falling to the rescuer in the downhill descent so that the rescuer who entered the escape exit body 110 through the opening 115 of the escape exit body 110 can stably descend and escape. In order to provide a cushion and some frictional force, the length corresponding to the height of each floor of the building, more preferably, the penetration of the upper surface of the lower floor surface through the through hole of the lower floor surface, that is, the penetration of the frame 117. It is good to be formed to a length corresponding to the installation position of the sphere 115 so as not to disturb the entrance of the rescuer through the opening (115).

In addition, the sliding member 120, when the base 112 of the escape outlet body 110 and the fastening portion 113 of the frame 117 is fastened to the lower layer lower than the floor is installed and the escape outlet body 110 is installed The lower side of the frame 117 of the escape port body 110 provided on the bottom surface of the hollow slide 121 is inserted, and is formed along the outer periphery of the sliding cloth 121 on one side of the sliding cloth 121 When the flange 116 of the escape body 110, the frame 117 and the fastening portion 118 of the head 119 is fastened so that the sliding cloth 121 moves from the hollow of the frame 117 due to the movement of the rescuer. And a band 122 to prevent it from falling off.

Here, the sliding cloth 121 is preferably formed of a cloth or cloth having a cylindrical hollow, formed of polyester to maintain the strength and some elasticity. Also, optionally, the sliding cloth 121 is preferably a plurality of vent holes (not shown) so that air or oxygen can be stably supplied to the rescuer.

Therefore, according to the sliding member 120, the sliding slide 121 is formed with a length corresponding to the height of each floor of the building is fastened to the escape outlet body 110 for each floor, so that the installation and replacement of the sliding slide 121, etc. The same maintenance can be made easy.

In addition, optionally, when the sliding cloth 121 is inserted into the hollow inside of the frame 117, a cushion member (not shown) is further provided between the sliding cloth 121 and the inner wall of the frame 117 so that the sliding cloth 121 is provided. Rescue passing through the collision can be prevented from colliding with the inner wall of the escape main body (110).

The elastic member 130 is provided in the sliding member 120 at regular intervals so that the diameter of the sliding member 120 is elastically narrowed or expanded so that the rescuer slides along the sliding member 120. The sliding speed is to be decelerated to have a stable speed, and includes a plurality of elastic springs 131 provided at a predetermined interval in the longitudinal direction of the sliding cloth 121.

Here, the elastic spring 131 is inserted into the upper portion of the sliding cloth 121 corresponding to the middle between the frame 112 and the base 112 of the escape opening main body 110 and the hollow inside of the frame 117. It is preferable to be fitted to the lower side of the sliding cloth 121, through which the sliding cloth 121 is reduced in diameter toward the portion of the elastic spring 131 is fastened from the base 112, the elastic spring ( From the portion 131 is fastened to the diameter extending toward the band 122 fixed between the frame 117 and the head 119, the diameter from the head 119 toward the portion to which the elastic spring 131 is fastened This decreases.

Of course, the diameter of the sliding cloth 121 is preferably set so that the rescuer of the average physical condition can easily enter and stably escape, and the elastic spring 131 is integrally or detachable to the sliding cloth 121. It may be provided.

Therefore, according to the elastic member 130, when the slide member 120 is reduced or expanded in the vertical direction so that the rescuer enters the escape main body 110 through the opening 115, the rescuer is an elastic spring As the elastic spring 131 extends when the slide cloth 121 is positioned, the diameter of the slide cloth 121 is extended so as to correspond to the body of the rescuer. As a result, the descending speed of the rescuer can be lowered by this operation. It can be decelerated to enable stable falling of the rescuer.

On the other hand, at the proper position of the escape escape main body 110, the frame 117, the handle 140 during the emergency escape to hold the hand by hand so as to quickly and easily enter the escape exit main body 110 through the opening 115. Is installed.

Here, the handle 140 is preferably installed on the upper side of the opening 115 so that the rescuer can enter correctly through the opening 115 of the escape exit main body 110.

Also, optionally, a rescuer who falls into the escape outlet body 110 and escapes inside the opening 115 of the frame 117 of the escape outlet body 110 leaves the outside through the opening 115. Or a cover (not shown) may be installed to prevent the legs from being caught in the opening 115. In this case, the cover is fixed only to the inner wall of the frame 117 and the opening 115 is fixed. Is formed to a size that completely shields the entrance 115 from the outside of the opening 115, the entrance to the inside is easy, but vice versa is preferably impossible to exit.

On the other hand, the emergency escape rescue team as described above, when the rescuer approaches the escape main body 110 through the door (D) of the evacuation room during the emergency situation, the door (D) in the open state toward the household space of the rescuer By being installed so as to slide naturally to the opening 115 of the escape outlet main body 110, it is possible to minimize the space of the evacuation room of the building according to the installation of the emergency escape rescue team, thereby saving the construction cost of the building Can use the space of building efficiently. In this case, it is preferable that the door D has a structure that cannot be opened toward the generation space on the side of the evacuation chamber where the rescue table is installed.

In addition, the emergency escape rescue team, if there is no evacuation room in a building, such as a general high-rise building or apartment, it is easily applied to existing buildings by drilling a through-hole for allowing the rescue team to penetrate the upper and lower floors, etc. It is desirable to be able to.

Hereinafter, with reference to the drawings will be described the operation and effect of the emergency escape rescue team according to a preferred embodiment of the present invention.

First, if an evacuation room of a high-rise building such as an apartment is installed and cannot be evacuated through a door due to a fire in the room, the rescuer of the household enters the evacuation room through the door D through a balcony.

Thereafter, the rescuer grabs the handle 140 provided in the escape main body 110 and enters into the escape main body 110 through the opening 115 of the frame 117.

Then, when the rescuer releases the handle (D), the rescuer is located on the lower floor of the current floor by the weight of the rescuer, that is, the upper slide when the base 112 of the escape port main body 110 and the frame 117 is fastened It passes through (121).

Here, the sliding cloth 121 provides a friction force to the torso and the shoulder or arm from the foot of the rescuer, so that the rescuer descends the slide cloth 121 at a constant speed.

In this case, when the rescuer passes down the position of the elastic spring 131 installed at a predetermined interval on the sliding cloth 121 when the rescuer descends the sliding cloth 121, the sliding cloth 121 according to the extension of the elastic spring 131. By the process of expanding to have a diameter corresponding to the rescuer's body, the rescuer's descent becomes possible and the descent speed is reduced.

In addition, as the elastic spring 131 is installed on the sliding cloth 121 at regular intervals, the rescuer descends at a constant speed according to the above-described repetition of the descending speed, thereby enabling a stable escape of the rescuer. .

On the other hand, Figure 4 and Figure 5 is an exploded perspective view showing an emergency escape rescue team according to a modification of the preferred embodiment of the present invention is a view showing a state in which the emergency escape rescue team is installed in the evacuation room of the building.

Emergency escape rescue team according to a preferred embodiment of the present invention, the escape main body 110 is formed in a length corresponding to the height of 1/2 or 1/3 of the height of each floor of the building, the flange ( The base 112 having a hollow inserted into the through hole while being supported through the 111, and the fastening part 113 is fastened to an upper side of the flange 111 of the base 112, and an opening for entering the rescuer of each floor. The head 119 has a frame 117 having a cylindrical hollow with a flange 116 formed thereon and a hollow to which the fastening portion 118 is fastened above the flange 116 of the frame 117. Although it includes, the escape escape main body 110 of the emergency escape rescue team according to a preferred embodiment of the present invention, as shown in Figure 4 and 5, is formed in a length corresponding to the height of each floor of the building The configuration of the head 119 is omitted and The main body 112 having a hollow inserted into the through hole while being supported by the flange 111 on the upper floor bottom surface of the floor where the escape main body 110 is to be installed extends to the position of the head 119 portion. And a second frame configured to be connected to the base of the first body 110A and the base of the first body, which is connected to the lower side of the first body 110A and extends to the lower side of the floor where the escape outlet body 110 is installed. Consisting of the main body (110B), the first main body (110A) and the second main body (110B) of the connecting portion is stretched by the fastening member 114, but is fastened stably.

Here, the emergency escape rescue team according to a modification of the preferred embodiment of the present invention has the same configuration and reference numerals as the preferred embodiment except for the configuration of the escape port body 110, so the detailed description of the remaining components It will be omitted.

In the escape main body 110 having a length corresponding to the height of each floor of the building as described above, the combination of the first main body 110A and the second main body 110B, first, the second main body 110B. The fastening part 113 of the frame 117 is connected to the flange 111 of the base 112 of the first body 110A installed on the bottom surface of the lower layer of the floor on which the second body 110B is installed through the fastening member 114. The base 112 of the first body 110A installed on the bottom surface of the upper layer of the floor on which the second body 110B is installed is inserted into the flange 116 of the frame 117 of the second body 110B. It is made through a process that is fastened to be stretched through the fastening member 114 in a state.

Here, the components and the opening 115 of the escape exit main body 110 is formed in a sufficient size so that rescuers of each floor can easily escape or enter, and, optionally, the frame of the escape exit main body 110 ( It is preferable that a plurality of vents (not shown) are drilled in 117 so that air or oxygen can be stably supplied to the evacuator who escapes in an emergency.

Therefore, according to the escape opening main body 110, even if the height of each floor is different, the length through the fastening member 114 to the second main body 110B is fitted to the lower side of the first main body (110A). It can have a length corresponding to the height of each floor of the building and can be provided stably, and through this can be manufactured to be coupled to a plurality of escape outlet body 110 to facilitate transport and installation.

On the other hand, as described above, when the escape main body 110 is stretchably coupled by the first main body 110A and the second main body 110B, the fastening part 113 of the frame 117 of the second main body 110B is When fastening to the flange 111 of the first body (110A) base 112 installed on the bottom floor of the floor on which the second body (110B) is installed, the upper side of the sliding cloth 121 is fixed and the second body (110B) The lower portion is inserted into the hollow inside of the frame 117 of the first), the first body installed on the bottom surface of the upper layer of the floor in which the second main body 110B is installed on the flange 116 of the frame 117 of the second main body 110B. When the base 112 of the main body 110A is inserted, the sliding member 120 may be supported by the escape opening 110 through a process of fixing the band 122 of the sliding cloth 121 to each other. have.

Here, the first main body 110A and the second main body 110B may be inserted into the second main body 110B so that the first main body 110A may be extended to the second main body 110B, and thus, when the band 122 of the sliding cloth 121 is coupled to the first main body 110A and the second main body 110B. Base 112 of the first body (110A) corresponding to the coupling portion of the main body 112 that can be supported by the fastening member 114 that the band 122 is separated to the outside coupled to the coupling portion 112a It is preferable to have).

Therefore, the base 112 having a hollow inserted into the through hole while being supported by the flange 111 on the upper floor bottom of the floor where the escape main body 110 is to be installed extends to the position of the head 119 portion, When the first body 110A is not formed and the sliding member 120 is not taut, the rescuer may be prevented from injuring by colliding with the upper head 119 of the second body 110B.

Therefore, as described above, when the evacuator escapes through the interior of the escape main body 110 installed in the evacuation chamber provided in each generation floor, the sliding member 120 and the elastic member provided in each escape main body 110 By escaping at 130 while having a stable descending speed, the rescuer can have a psychological sense of stability.

In addition, the escape exit main body 110 and the sliding member 120 is installed to correspond to the height of the building, it is possible to save the manufacturing and transport cost of the escape exit main body 110 and to facilitate the installation work.

In addition, the sliding member 120 is coupled to the escape opening main body 110 so that the sliding member 120 can be easily installed on the escape opening main body 110 to facilitate installation and maintenance.

In addition, when the rescuer approaches the escape main body 110 through the door (D) of the evacuation room in an emergency situation, the opening 115 of the escape main body 110 immediately in the state that the door (D) is open toward the generation space of the rescuer. By being installed so as to slide naturally to the), it is possible to minimize the space of the evacuation room of the building according to the installation of the emergency escape rescue team, thereby reducing the building cost of the building and efficiently using the space of the building Can be.

In addition, by installing one emergency escape rescue team connected to each floor in the evacuation room of the building, the rescuers can try to escape quickly and stably without having to install a separate emergency escape rescue team in the event of an emergency.

While the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains have various permutations and modifications without departing from the spirit or essential features of the present invention. It is to be understood that the present invention may be practiced in other specific forms, since modifications may be made. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

1 is a perspective view schematically showing an emergency escape rescue team according to a preferred embodiment of the present invention;

2 is an exploded perspective view showing the emergency escape rescue team of Figure 1;

3 is a view showing a state in which the emergency escape rescue team of Figure 1 is installed in the shelter of the building; And

4 and 5 are an exploded perspective view showing an emergency escape rescue team according to a modification of the preferred embodiment of the present invention and a view showing a state in which the emergency escape rescue team is installed in the evacuation room of the building.

Claims (8)

A cylindrical escape exit body 110 which provides a space for entering and sliding the rescuers for each floor of the building in a standing state corresponding to the through-holes formed in the bottom surface of each floor of the building; The upper part is connected to the lower part of the escape main body 110 provided on the bottom of each floor, and the lower part is inside the upper part of the escape main body 110 provided on the bottom of the lower floor lower than the floor on which the escape main body 110 is installed. A sliding member 120 inserted to allow a rescuer to slide into the escape main body 110 according to an emergency situation; And The sliding member 120 is provided at regular intervals so that the diameter of the sliding member 120 is elastically narrowed or expanded to include a resilient member 130 so that the running speed of the rescuer has a predetermined speed. Emergency escape rescue team. According to claim 1, The escape outlet body 110, The height of each floor of the building corresponds to 1/2 or 1/3 of the height, A base 112 having a hollow inserted into the through hole while being supported by the flange 111 on the bottom surface of each layer; The fastening part 113 is fastened to the upper side of the flange 111 of the base 112, and the opening 115 is formed so that the rescuer of each layer can enter, and the frame which has a cylindrical hollow in which the flange 116 was formed on the upper side. (117); And Emergency escape rescue team, characterized in that it comprises a head 119 having a hollow in which the fastening portion 118 is fastened to the flange 116 of the frame 117. According to claim 2, The sliding member 120, It is formed to have a length corresponding to the installation position of the through hole 115 of the frame 117 of the escape main body 110 from the through hole in the bottom surface of the upper floor of the building, When the base 112 of the escape outlet body 110 and the fastening portion 113 of the frame 117 is fastened, the escape body 110 provided on the bottom surface of the lower floor lower than the floor where the upper part is fixed and the escape outlet body 110 is installed. A sliding member 121 having a lower portion inserted into a hollow inside of the frame 117; It is formed along the outer circumference of the sliding cloth 121 on one side of the sliding cloth 121 is fixed when the flange 116 and the fastening portion 118 of the head 119 of the escape body 110 frame 117 is fastened Emergency escape rescue team, characterized in that it comprises a band (122). The method of claim 3, wherein the elastic member 130, Emergency escape rescue team comprising a plurality of elastic springs (131) provided at a predetermined interval in the longitudinal direction of the sliding cloth (121). The method of claim 2, wherein the escape main body 110, When the rescuer approaches the escape main body 110 through the door D of the evacuation room, the opening D 115 of the escape main body 110 is opened in the state in which the door D is opened toward the generation space of the rescuer. Emergency escape rescue team, characterized in that it is installed so as to approach naturally sliding. According to claim 1, The escape outlet body 110, A first main body 110A composed of a base 112 having a hollow inserted into the through hole while being supported by the flange 111 on the bottom surface of each layer; A flange 116 is formed so that the base 112 of the first main body 110A is inserted and connected to an upper side thereof, and the base 112 of the first main body 110A is inserted therein, and a lower portion of the first main body 110A is provided below the first floor 110A. A frame 117 having a fastening portion 113 for fastening to the flange 111 of the base 112 of the main body 110A and a cylindrical hollow having an opening 115 formed therein so as to allow the rescuers of each floor to enter. Emergency escape rescue team, characterized in that consisting of two main body (110B). According to claim 6, The sliding member 120, It is formed to have a length corresponding to the installation position of the through hole 115 of the frame 117 of the escape main body 110 from the through hole in the bottom surface of the upper floor of the building, When the fastening part 113 of the second main body 110B frame 117 and the flange 111 of the base 112 of the first main body 110A are fastened, the upper part is fixed and the second main body 110B frame 117 is fixed. Sliding slide 121 having a lower portion inserted into the frame 117 hollow inside of the second main body 110B provided on the bottom surface of the lower layer lower than the installed layer; An emergency characterized in that it comprises a band 122 which is fixed at the time of mutual fastening in the state in which the base 112 of the first main body 110A is inserted into the flange 116 of the frame 117 of the second main body 110B. Escape Rescue Team. The method of claim 7, wherein the elastic member 130, Emergency escape rescue team comprising a plurality of elastic springs (131) provided at a predetermined interval in the longitudinal direction of the sliding cloth (121).

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