KR20140133378A - The method of forming the fire emergency elevator system in a high rise building - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to a method for forming an emergency elevator apparatus for a high-rise building fire, and more particularly, to a method for forming an emergency elevator apparatus on an outer wall of a building.
To this end, the present invention comprises a step of manufacturing an elevator 11 having a sharp guide pipe 3 vertically stuck to its edge and having a sharp up and down point, a step of moving the elevator 11 up and down on an outer wall of a building roof or an outer wall of a building uppermost part be the main winch (6) and to the pillar serves to prevent the rotation or shaking by when moving up and down the wind guide to move perpendicularly to the rope (5) guide the winch (7) in which the elevator (11) to the the step of installing the elevator machine room projecting platform (12, 24) is installed, it is passed through the guide rope (5) into the guide pipe (3) of the elevator (11) guide rope (5) guide rope ring (8) in the bottom of coupling a, the rope guide ring 8, the steps for installing the guide rope bottom ring (10) that can be fixed to the bottom (9), the guide rope bottom ring (10) situated The method comprising the construction of an emergency floor elevator landing 11 to prevent damage to the material when falling objects, fire people elevator machine room projecting platform (12, 24) so that, even if reach the roof can ride the elevator and guide rope bottom ring (10 And an outer wall elevating platform (17, 24) is formed on the outer wall of the building.
The elevator machine room projecting platforms 12 and 24 , in which the main winch 6 and the guide winch 7 are installed , can be formed in a form of a combination or a movable type.
In addition, the priority application is added as follows.
A railway wheel-integrated multi-winch elevator system 69 on the roof top wall is formed inside and outside the roof, and an elevator hangar 70 is formed on the inside of the roof, so that the elevator system is normally stored and maintained in a hangar, You can move people up and down the cargo.
And forming a along the roof outer wall forming the rails 63 and rail wheels move panel 71 over the roof pillar above the rail wheel integral composite winch elevator system (69) coupled to the rail wheel moving-panel-integrated composite winch elevator system (72) It is possible to move the person and the cargo in a convenient position while moving left and right along the rail 63 installed parallel to the roof top wall.
When the multi-stage multi-boom integrated multi-stage boom elevator system 97 is formed, even if a fire occurs in the upper part of the tallest skyscraper, the fire pipeline elevator 105 winds up and arrives near the fire origin point to be connected to the rooftop water tank fire hydrant 107 It is possible to quickly extinguish the fire by the water sprayed from the fire-fighting nozzle 103 installed in the fire- fighting pipe elevator 105 by connecting the fire- fighting lake 106. [
According to this invention, it is possible to safely and simply solve the fire and rescue structure in case of a fire in the upper part of a skyscraper which has been considered impossible since 119 (fire rescue team) fire escape ladder can not reach.
One-piece composite winch (47) by using the lower the guide rope (5) of the vertical from the air guide winch (7) forming a column line, and then guides the column line serves as a main rope (2) of the main winch (6) The idea that the emergency elevator 1 can be raised or lowered with the guide pipe 3 rising and lowering along the rope 5 is a clue to solve the problem of lifesaving of the high-rise buildings and the fire suppression problem .

Description

[0001] The present invention relates to a fire emergency elevator system,

        FIELD OF THE INVENTION The present invention relates to a method of forming an emergency elevator system for lifesaving in the event of fire in a high-rise building, and more particularly, to a method for forming an emergency elevator system on the outer wall of a high-rise building and its vertical floor.

In addition, while adding a priority application, It also includes a method for forming an elevator system for fire suppression at the early stage of a high-rise building fire.

        Until now, there has been a way to evacuate a person in a high-rise building by walking down the stairs, taking the elevator down, taking off the helicopter on the roof, or taking the high-rise ladder down. . If you walk down the stairs or descend with the elevator, the vertical movement space of the stairs and the elevator itself may become a flame path, resulting in a fire or drowning in smoke, and even if you try to get out of the roof by taking off the helicopter, It is not easy itself, and even a high-rise ladder has a limit in height, so in the case of a skyscraper, there are many parts that do not reach the ladder.

There are winch , hoist , elevator , and gondola system in the high-rise building using power to move person or luggage to high-rise building. The crane is also included in the winch or hoist in a broad sense.

Winch meaning in this specification and make the wire to a cylindrical drum (winding tube) by winding a rope by using the pulley to climb a heavy load in the vertical mechanism, hoist motor gear reduction unit winding cylinder (drum), such as a twos and rope The gondola is a transportation device that is installed on the rooftop of a high-rise building to lift and unload goods. The elevator uses a power to transport people and luggage up and down a high-rise building Mechanism.

        However, the reason why these mechanical devices are not effective for life rescue in the case of a high-rise building fire is as follows.

Winches and hoists are dangerous because there is no safety device (box) that people can ride and the rope swings or turns vertically when moving up and down.

The gondola is also dangerous because it is shaking in the wind when vertically moving up and down.

Conventional elevators require walls or pillars inside the building, so the internal moving passage of the elevator itself becomes the moving path of the flames.

In addition, while filing the priority application, the following six cases can be summarized as the background of the inventions disclosed to the Patent Office in relation to the contents of this invention by Mr. Seung Hwan Yoon.

1. Inventor Son Gee-taek's patent registration numbers 100467994 and 101161716 are inevitably required to have a structure spaced a certain distance from the outside of a high-rise building and having a height equal to that of the high-rise building. Therefore, For this reason, it is difficult to realistically realize it, and the new building also costs a lot and has a serious effect on the appearance of the building.

However, the contents of the present invention filed by Mr. Seung Hwan Yoon can be realized without any structure having a height equal to that of the high-rise building by being spaced a certain distance from the outside of the high-rise building, possible to the outer wall projecting realized with only installation of an elevator landing so contains less expensive and easily sikigido applicable to existing buildings, even if achieved by applying a new building apart from each other a predetermined distance to the outside of the high-rise buildings having a comparable height as the high-rise building Since there is no need to install the structure , it is advantageous in that it is less expensive and does not significantly affect the appearance of the building.

2. Inventor of KWON Soon-Tae , inventor of patent registration No. 100907005 In a lift-type stiffener , there is a risk that a lift rotates in the wind or collides with an outer wall of a building when people ride on a high-rise building several tens of stories or hundreds of meters high. On the other hand, the present invention, filed by Yoon Seung-hwan himself, does not present such a risk because the guide rope acts as a pillar into the guide pipe formed at the edge of the elevator.

3. The contents of the invention, the inventors of the patent registration number 1005220510000 selfishness is the person riding the wire of the a party to install the wires form the frame (crane boom) through the fire upon the windows or balconies of high-rise buildings, and one line at the end of the wire It is the idea of hanging down . Even if you know how to do this, even if you know how to do it, ordinary people who are not specially trained will be frightened and run on high floors of tens to hundreds of meters, and even if they come down that way, There is a risk of collision.

On the other hand, the present invention, filed by Yoon Seung-hwan himself, can safely descend in the elevator thanks to the guide rope and the main rope , which are vertically formed and serve as pillar bars .

Will have the biggest difference in the invention, the contents of the invention, the contents of selfishness patent registration number 1005220510000 and I yunseunghwan, the invention of selfishness will take the wire of the first line forms the angled shape guy goes down dangerously while juggling of my yunseunghwan The invention is that in an integral multi-piece winch, four rows of guide ropes descending in a vertical form are used as pillars to lift people down safely in an elevator suspended from a single main rope . In other words, there is no content to form an integral multi-winch at the end of the frame, so the concept of being able to extinguish a person with a single wire and forming an elevator with a fire pipe is not established will be.

On the other hand, the invention of Yi Sung-sung shows that while the wire connected to the frame is driven in the form of a letter, it is difficult to move the car. On the contrary, Yoon Seung-hwan's invention takes the wire rope descending vertically down from the integral multi- There is a difference in freely travelable ride .

4. The contents of the invention The inventors patent registration number 100 701 790 Kwon before the mission its power generation means such as an engine or a battery that can exert its own drive power on a certain position of the elevator inside or outside, and the ease of running the elevator Considering portability , wheels, drive means, and tackling the form of a wire pulley that allows you to climb themselves upward riding the wires of the two strands of Jean disappointed hold increases to the ground below from the rooftop of the building, such as the temporary address of flame or fire itself consists of a steering system A water tank capable of filling a certain amount of water into the wall of the elevator for the purpose of suppressing the water in the elevator, and a water jet opening capable of jetting water in a predetermined direction after the pipe is connected to the water tank is provided .

However, looking at the drawing of the invention the contents of the patent registration number 100 701 790 before Kwon to exert its own drive power on a certain position of the elevator inside or outside of the up-and-down the wire to the parameters of the two binary disappointed stretched to the ground below in the roof of a building strand A self-generated power means such as an engine or a battery is inevitably installed close to the edge of one side of the elevator, and serious problems arise in the center of gravity of the elevator floating in the air. The two wires are shaken by the wind and there is a high risk of the elevator rotating or moving to the building wall. Even if the two strands of wires are fixed on the floor, the center of gravity It is very likely that those inside the elevator that are inevitably out of this way are out of the two-wire wire and are hanging in the air, hanging in the fire, and are in danger.

On the contrary, the elevator of the present invention , Since the emergency elevator 1 is driven only by the main rope 2 connected to the main winch 6 installed on the roof, rather than vertically moving by a self-driving force at a certain position inside or outside the elevator, There is no risk of breakdown when floating in the air, and the guide pipe formed at the elevator edge normally supports the four guide ropes to form a column, so there is no risk of rotation or collision.

And the invention, the contents of the patent registration number 100 701 790 previous Kwon is contrary to installing the water bottle in the amount of water to freshwater (filled) in the inner wall of the elevator in the purpose of fighting the fire itself and the invention of my yunseunghwan the rooftop water tank, fire hydrants and There is a difference in that the fire suppression can be realized even at the upper part of the skyscraper where the ladder can not reach by connecting the fire pipe formed in the elevator with the fire hose .

5. Kwon inventors prior patent registration number 1007017890000 invention information, high-rise building with roof work and the left and right turning device after the turning operation to the wire of a predetermined length in the left-right direction on the side of the one guide rail of a predetermined length on the side of the , The upper and lower lifting inner wire, which is a lifting medium of the elevator, is freely movable at right and left predetermined intervals according to the turning operation of the guide rail and the swivel device wire And gwonseol the elevator drive system, and the elevator should not driving the elevator up and down the lifting, which acts as the lower surface into two strands becomes disappointed increased lifting parameters of the elevator of the building in the gwonseol state to the device information, the wire, the two binary down disappointed increased to bottom of the building And a wire lifting drive device for lifting the wire in a state where the wire is selectively mounted on the upper and lower lifting wire of the wire and lifting the wire to move to a required outer wall position of the building to carry out lifesaving operation.

Therefore, among the inventions of the inventor Kwon Hyuk KIPO registration No. 1007017890000 , the guide rail of a certain length is inevitably formed outside the roof of a high-rise building, so that it is difficult to design and manufacture robustly to withstand a large load, It is not good to look at the building, and the elevator mechanism installed on it is exposed to wind and rain and it is difficult to maintain it for a long time.

On the other hand, the rail according to the present invention filed by Mr. Seung Hwan Yoon is installed on the floor of the rooftop so that it can be easily designed and manufactured to withstand a large load, is low in cost, has no risk of falling down of the structure, , There is a difference in that the elevator system of the present invention can be preserved for a long period of time by preventing an elevator hangar from being formed inside the roof top wall to be exposed to wind and rain.

6. Inventor In summary, the patent registration No. 1007371970000 of the inventor Lee Hyun-moon is a device for connecting and disconnecting two wire ropes from two prime movers (winches) to the upper part of a boarding elevator (elevator) to elevate the elevator . Therefore, the invention of Lee Hyun-moon also invented a guide rope that acts as a pillar that can avoid swinging, rotation and collision when the emergency elevator rises and falls in a tier of several tens or hundreds of meters, I can not.

        If you want to prevent damage to people in high-rise buildings, you can create an elevator system that avoids heat and smoke. The object of the present invention is to provide a method of forming an emergency elevator system capable of rescuing life and death by avoiding heat and smoke in a high-rise building fire.

In addition, the priority application is added as follows.

It is an object of the present invention to provide a method of fire suppression by forming an elevator system having a firepipe connected to a roof water tank fire hydrant hose at an upper part of a high-rise building where a ladder can not reach.

        In the case of a high-rise building fire, the stairway or elevator passage inside the building is filled with smoke and the temperature and pressure increase due to the passage of the flame, so that the present invention can be applied to a method of forming the emergency elevator outside the building do.

The present invention relates to a method for forming an emergency elevator system capable of reducing the damage caused by a flame during a high-level fire, comprising the steps of: forming a emergency elevator (1) having a guide pipe (3) perpendicular to a corner; A main winch 6 protruding from the outer wall of the upper layer and vertically moving up and down the emergency elevator and a guide rope 5 capable of acting as a pillar by preventing the swing or rotation when the elevator moves vertically up and down into the guide winch 7, steps for installing the elevator machine room projecting platform 12, the device is formed, the edge of the guide pipe (3) attached to the elevator (1) that the passed through a guide rope (5) forming a rope guide ring (8) at the bottom of the guide rope, the guide pipe 3 formed in the elevator edge Excessive guide rope ring (8) is vertical when came down to the bottom step of installing the guide rope bottom ring 10 bottom fixture capable of fixing the ring, the elevator machine room projecting platform 12 and the guide rope floor And installing an outer wall elevator landing platform (17) through which the emergency elevator can pass or stop on the outer wall of the building between the rings (10) .

In addition, the priority application is added as follows.

A pillar 67 is placed in the direction of the inside of the roof top wall rail and a safety wall pillar rail 66 having a stopping wall 68 is installed on the pillar inside and outside the roof railing 40 and then mounted on the safety wall pillar rail 66 Guide winch 7 and the main winch 6 and the electric wire reel (48) on the ground is formed, the roof pillar above the rail wheel moving-panel-integrated composite winch forming a lift system 69, in parallel with the roof rails (40), the roof rail 63 is installed to, and the rail the rail wheels move panel 71 by installing the rail wheel moving panels 71 onto the roof pillar above the rail wheel moving-panel-integrated composite winch to install the elevator system 69, the rail wheels moving the composite panel-integrated winch to form a lift system 72, the rail wheel moving-panel-integrated composite winch elevator system 72 the safety railing rail wheel moving-panel-integrated clothing for on board Forming a winch elevator system 81 step, the elevator silo 70 to a portion of the board for the safety railing rail wheel moving-panel-integrated composite winch rail installed on the roof floor to reserve the elevator system (81) to form a, forming a multi-stage boom (89) is above the rail wheel moving panel 71 installed on the spindle 87 and the rotation pole 88 and connected to the rotating column (88) over the boom winch 93, the multi-stage boom forming a hem (90) guide the winch 7 and the main winch 6 and the electrical cord reel 48, the elevator machine room 13, which is inherent in an integral composite position 47 is installed on, the elevator machine room (13) forming a fire protection pipe 102 and the fire gwanchang fire pipe elevator 105, 103 is installed down, and smoke when the fire pipe roof that can be connected to the elevator 105, a tank water hydrant 107 And a firepipe 102 capable of connecting the fire- fighting lake 106 to the multi-stage boom 89 to form a multi-stage multi-stage boom integrated multi-winch elevator system 97 .

The invention the elevator in a high rise-based elevator (1) of the building on the roof or the elevator machine room projecting platform 12 that is formed to the upper part projecting from the outer wall hanging on ropes 2 and the main winch 6 is exactly as (1) guide the guide tube (3) in the guide rope (5) formed on the edge of the next, the guide winch (7) fixed on the floor near the first and lowering the guide rope ring (8) to guide the rope bottom ring (10) rope The guide rope 5 serves as a pillar when the guide rope 5 is pulled and tightened. Thus, when the guide rope 5, which is tightly fixed, acts as a pillar, the main winch 6 is unfastened and the emergency elevator 1 is lowered with the main rope 2, so that it can be vertically lowered to the floor safely without wind or rotation .

        Unlike conventional elevator systems where pillars or walls need to be installed, this method can form a pillar that acts as a pillar only by vertically lowering the wire rope from above, allowing the elevator to move up and down vertically and safely It is possible to form an emergency elevator system capable of moving up and down between the roof and the floor of a high-rise building at a low cost.

In order to increase the efficiency of lifesaving in the event of a fire in a high-rise building, an outer wall projecting elevator platform 17, which is an elevator platform projected from a vertical outer wall between the elevator machine room projecting platform 12 and the guide rope bottom ring 10, There is an advantage that the emergency elevator 1 can be safely lowered to the floor quickly by riding on the emergency elevator landing platform 17 near the outer wall .

        The elevator system according to the present invention does not move up and down vertically through a closed passageway when a high-rise building is in a fire, but moves up and down on a guide rope of an outer wall of a building, Or significantly reduced.

Modern building technology has already been on the rise in the cities of several tens of floors and hundreds of meters tall in the cities around the world. On the contrary, in the case of high-rise buildings, high-rise buildings that do not reach ladder- With this invention, it is possible to form an elevator system for emergency rescue in case of fire even in a conventional high-rise building at a low cost and to form an elevator system of the invention in a newly built high-rise building, There is an effect.

In addition, the priority application is added as follows.

Rail wheel moving-panel-integrated composite winch elevator system 72 to when the rail wheels move panel 71 is mounted on the roof pillar above the rail wheel moving-panel-integrated composite winch elevator system 69, which forms the normal times to go to the inside roof outer wall The system can be maintained by the windlass because it is housed in the elevator hangar 70 and the elevator system 81 of the integral winch railing moving platform integrated railway railing can be used to ride the rails 63 on the roof floor, It is possible to move to the wall, so that the lifesaving structure can be constructed according to the origin of the fire and the direction of the wind, and when the multi-stage boom integrated multi-winch elevator system 97 is used, the elevated ladder can not reach the upper ladder, .

The principle of the emergency elevator system of the present invention is simple, so that the manufacturing cost and the construction cost are reduced, and the construction is robust, safe, easy to use, and semi-permanently maintained.

1A,  At the corner Guide pipes (3) Is formed Main Rope (2) The upper and lower portions connected to the main body are pointed The elevator (1) Representing an example of Perspective All.
         Fig.  ≪ RTI ID = 0.0 > Details All.
         Figure 1c  1A,Guide pipes (3) Pierce Guide rope (5) AlongThe elevator (1)Is vertically moved upward and downward Perspective All.
         While applying for a priority This part 1C about 1d Wow 1, Add it.
Figure 1d  1C,Guide pipes (3)WowThe elevator (1) Between the body Pipe Fittings (25) .
         ≪ RTI ID =  In Figure 1dGuide pipes (3) Growing outward Anti-friction shafts (26) .
         2a,   Main Rope (2) The Main winch (6) ≪ / RTI > Guide rope (5) The Winches for guide (7) In the state of being connected to, Main Rope (2) Hanging on The elevator (1) of Guide pipes (3) Passed through Guide rope (5)  At the bottom Guide rope rings (8) Indicative of an example of Perspective All.
         Fig.  2a, Details All.
         Figure 2c  2A, Guide rope rings (8) It is an example of connecting together.
         Figure 2d  2C,Main Rope (2)Hanging onThe elevator (11)Leave it as is.Guide rope rings (8)Representing only one example Perspective All.
         Figure 2e  In Figure 2d,Guide rope rings (8)Let's untie them. Floor (9) of Guide rope bottom ring (10) It is the state just before coming into contact with the field.
         Figure 2f   Guide rope rings (8) They Floor (9) of Guide rope bottom ring (10) After fixingGuide winches (6)inGuide rope (5)Pulling them tightCan serve as pillars Pillars In this case,
         Figure 2g  Main winch (6)inMain Rope (2)To releaseThe elevator (1)PillarGuide rope (5)RideFloor (9) An example of a descending descent Perspective All.
         3A,  Floor (9)Formed in Lift platforms for emergency floors (11) Representing an example of Perspective All.
         Figure 3b  3A, Details to be.
         Figure 3c  In Fig. 3A,The elevator (11)endFloor (9)ofLift platforms for emergency floors (11)Example of Perspective All.
         4A is a cross-  It is formed on the roof outer wall or the upper outer wall of a high-rise building Elevators for elevators (12) Representing an example of Perspective All.
         Figure 4b  4A Details All.
         Figure 4c  4AElevator machine room extrusion platform (12) Multiple Elevator Machine Room Extrusion Compound Platform (16) Representing an example of Perspective All.
         Figure 5a  Elevators for elevators (12)andFloor (9) Formed between the outer walls of the high-rise buildings Exterior wall elevator platform (17) Representing an example of Perspective All.
         Figure 5b  5A Details to be.
         Figure 5c  5a from above Floor plan to be.
         Figure 5d  5A, Interior view All.
         Figure 5e  5AExterior wall elevator platform (17)ThroughEmergency elevatorIndicating Perspective All.
         Figure 5f  In Fig. 5E,The elevator (1)Indicating Perspective All.
         FIG.  5F is formed on the outer wall of the high-rise building Perspective All.
         Figure 5h  5AExterior wall elevator platform (17)Formed by combining several Exterior wall elevation combined platform (24) Example of Perspective All.
         5I,  5H Floor plan to be.
         5J shows  5hExterior wall elevator combined platform (24) Representing an elevator passing Perspective All.
         5k,  In Figures 5d and 5e,Outer wall protruding platform (17)Showing the internal situation of escaping to Perspective All.
         Figure 51  In Figures 5K and 5G,Outer wall protruding platform (17)And the emergency elevator is operated up and down Perspective All.
         While applying for a priority , This part about Degree 5m 5n 5O 5P 5q 5R 5S 5t Figure 5u .
5M,  5AExterior wall elevator platform (17)In the upper part of the building, Vertical Exterior Wall Extension Multi-platform platform (27) to be.
         5n,  The internal structure of FIG. Details All.
5O  In Figure 5m, multiple layers are connected in steps Interior view All.
FIG.  5H and 5M are combined and applied ⇒ Extruded exterior wall elevator combined platform (28) to be.
Figure 5q  5H and 5M are combined and applied Cross-shaped extruded elevator combined platform (29) to be.
Figure 5r  The upper part of a high-rise building Floor plan The lower outer wall and the right outer wall are adjacent to the central corridorExterior wall elevator platformThrough Firewall (21) Is formed.
5 (S)  Figure 5r Building Perspective All. On firewalls and outer wallsExterior wall elevator platform (17)As well as fire protection The door (22) .
Figure 5t  In Fig.The door (22) Forward Exterior wall elevator platform (17) and ⇒ Extruded exterior wall elevator combined platform (28) So that the elevator system of the present invention is in operation Situation diagram All.
Figure 5u  In Fig.Door Forward Vertical Exterior Wall Extension Multi-platform platform (27) and Cross-shaped extruded elevator combined platform (29) So that the elevator system of the present invention is in operation Situation diagram All.
6A, 6B, 6C, Figure 6d  Showing various examples of the application of the emergency elevator system of the present invention to a high-rise building Perspective All.
         The following description of all drawings is added while applying for priority.
         Figure 7a  This invention Floor (9) Emergency elevator platformA method according to claim 1,Exterior wall elevator platform Vertical floor or emergency elevator is located at the appointed place to vertically descend Floor and ceiling (30) on A pile of stones with rings on it (31) And then, Guide rope bottom ring (10)  Down Ready mixers (32) Lt; / RTI > Bottom rings (10)  Surrounded by a stone plate or metal plate (9) that the floor of the elevator floor can be recognized as a platform, To indicate Mold Then, Small halls with lid (33) ofBottom ringThen,Panel boundariesandSmall Hall (33) BetweenRemiconPour Work process diagram to be.
Fig.  After the ready-mix concrete is condensed in the work process following FIG. 7A, Emergency elevator platform  And the completion of the emergency elevator platform of this invention Perspective All.
Figure 7c  7B, Small Hall (33) of The lid (34) , Then descend from the roof Guide rope (5)  Underneath Guide ring (8) To Bottom rings (10) Indicating a fixed state Situation diagram All.
Figure 7d  In Figure 7b,Exterior wall elevation combined platform (24)There are threeMultiple elevator platformSide by side Perspective All.
Figure 7E  In Fig. 7D, three elevatorsGuide ropeAre vertically belowExterior wall elevation combined platform (24) It goes down through Guide rope rings (8) They Bottom rings (10) Fixed to Perspective All.
Figure 8a  From about 30 centimeters to about 100 centimeters long Spiral metal peg with ring on top (35) On the promised floor where the emergency elevator will come down Drills (36) A vertical hole is drilled in the hole, and then a concrete mixer Cement plaster (32) Into a hole filled with cement paste. Spiral metal peg with ring on top (35) Put in The ring (10)  Fixed so that only part of the top Work process diagram All.
Fig.  In the next step following Figure 8A,Bottom ring To the perimeter of the ground around the height (9) that the floor of the elevator floor can be recognized as a platform, And then, Small halls with lid (33) of Bottom rings (10) Then,Mold bordersandSmall Hall (33) BetweenRemiconAnd then poured a concrete mixer out of the mold to perform a flattening operation, Elevator emergency platform Engraved Work process diagram All.
9A is a cross-  20 centimeters to 50 centimeters long Anchor bolts (37) with rings on the top and spirals on the bottom, In accordance withEmergency elevatorOn the floor promised to come down Drills (36) After drilling a vertical hole with Anchor bolts (37) In a vertical hole Nuts (38) And then fix it firmly,Anchor boltInto an empty space between Adhesive for liquids (39) And then the boundary is marked around it, the color of the flooring finish is changed Elevator emergency platform  By inscribing the letter indicating the seat, Elevators, floor, emergency (9) Indicating how to form Work process diagram All.
Figure 9b  In Fig. 9A, Guide rope (5)  Underneath Guide ring (8) To Bottom rings (10) Indicating a fixed state Situation diagram All.
10A,   Roof railing (40)  On the next floor Reinforcing steel (41) To the reinforcement Bolts with ring (42) And then, H beam 43, The H beams are inserted and fixed in the bolts using the holes formed in the roof rails,H beamTop The iron column (44) Erect Work process diagram All.
10B The 10A, Bolts (42) on nut Tightly H beam of Bottom steel frame Firmly attached to Work process diagram All.
Fig.  In Fig. 10B, The upper and lower passages (45) With Elevator machine room overhang platform floor (46) of Mold Then, Ready mixers (32) Pour Work process diagram All.
FIG.  In Fig. 10C, Main winch (6) Wow Winches for guide (7) Is installed and the rope can pass vertically The upper and lower passages (45) Formed Multipurpose multi-purpose winch (47) ToThe iron column (44) Fixed up Work process diagram All.
≪ RTI ID =  In Fig. 10D,Multipurpose multi-purpose winch (47)Installed in Main location (6) on Electric Wire Reels (48) By connecting peristalsis Let Work process diagram All.
Fig.  In Fig. 10E, Multipurpose multi-purpose winch (47)  Under Emergency lifts (1) And then,Winches for guide (7)They Electricity supply lines (49) And then,Winches for guide (7)WowMain winch (6)WowElectric Wire Reels (48)Powered Power cables (50) And then,Guide winchTo control the vertical up and down movement of Guide winch power switch (53) ToElectric Wire Reels (48)To the elevator, and thenElevator machine room extrusion platformThereMain winch (6)WowElectric Wire Reels (48)To adjust the up and down vertical motion Switches power push-twi ... (52) Wow Switching cable (51) Gt; Work process diagram All. At this time,Elevator machine room extrusion platformInstalled in Switches power push-twi ... (52) There Guide winch power switch (53)  Function is also included.
10g,  In Fig. 10F, the elevator system of the present invention Outline map All. At this time, Elevator power switch (53) The Electric Wire Reels (48) AndAs an electronic signal peristalsis felled Main winch (6) To perform up-and-down vertical motion.
Figure 10h  In Fig. 10F, Elevator Machine Room (13) and Firewall (14) And sideways The door (22) Gt; Work process diagram All.
Figure 10i  In Fig. 10H, Elevators for elevators (12) of Perspective All. 4A, It is also.
10J,  The inside of Fig. 10i can be seen Details All.
10k,  In Fig. 10I, Elevator Machine Room Extrusion Compound Platform (16) to be. 4C, It is also.
≪ RTI ID =  In Fig. 10I, Roof railing (40) Formed in Elevators for elevators (12) .
10m,  Using the above contents, the elevator system of the present invention is operated in a high- Situation diagram All. When the high-rise building was lit.Roof railingThe formed Elevators for elevators (12) and Elevator Machine Room Extrusion Compound Platform (16) inGuide winchinGuide ropeFirst Floor (9) The formedBottom ringonGuide ringAnd then,Main winchin Emergency elevator Vertically and verticallyExterior wall elevator platformand Cross-shaped extruded elevator combined platform (29) It is a way of safely carrying people who are on the run to the floor.
11A is a cross-   Thick sheet steel (54) on The upper and lower passages (45) And then the winches are fixed Winch grooves (55) , And then the centralWinch homeThere Main winch (6) And the vicinity thereofWinch homeThere Winches for guide (7) And then,Guide winchThey Electricity supply lines (49) ToperistalsisThen, Main winch  Beside Electric Wire Reels (48) To fixMain winchIn conjunction with Main winch Wow Electric wire reel In one peristalsis Let Work process diagram All.
FIG.  11A Multipurpose multi-purpose winch (47) Is applied to the elevator system of the present invention Overview (perspective) All.
Fig.  11B, Multipurpose multi-purpose winch (47) on Elevator Machine Room (13) Gt; Details All.
12A is a cross-  Vertically The upper and lower passages (45) Formed Thick sheet steel (54) Large on Why All relays (56) Large equipped with Winches for guide (7) And then, at the center thereof, Main winch (6) And then, Electric Wire Reels (48) And Main winch Interlocking with Work process diagram All.
Fig.  12A Multipurpose multi-purpose winch (47) Is applied to the elevator system of the present invention Outline map All.
Figure 13a  The rope can go downThe upper and lower passages (45)FormedThick sheet steel (54)Two large Winches for guide (7) Wow Pulley Wires (58) One equipped with main Hoi ( 57) And then, Electric Wire Reels (48) To fix main Hoists (57) In conjunction with Integrated guide winch and main Hoists (59) To form Work process diagram All.
Fig.  13A Integrated guide winch and main Hoists (59) of Pulley Wires (58) on Pipe Fittings (25) With twoEmergency elevatorAnd then,Guide rope ring TwoFloor (9)ofBottom ringWhich is applied to the elevator system of the present invention Outline map All.
14A is a cross-  Four Winches for guide (7) And one main Hoists (57) And one Electric Wire Reels (48) of The upper and lower passages (45) Formed Thick sheet steel (54) Tighten the Integrated guide winch and main Hoists (59) To form Work process diagram All.
14B is a cross-  14A, Integrated guide winch and main Hoists (59) of Pulley Wires (58) on Pipe Fittings (25) With fourEmergency elevatorAnd then,Guide rope ring Four Floor (9) ofBottom ringTo the elevator system of the present invention Outline map All.
15A is a cross-  On both sides The rectangular protrusion 60, Four Winches for guide (7) Like them The upper and lower passages (61) Formed Thick sheet steel (54) And then, main number East (57) And then, Electric Wire Reels (48) Andmain HoistIn conjunction with this, Integrated guide winch and main Hoists (59) To form Work process diagram All.
Fig.  15A Integrated guide winch and main Hoists (59) of Pulley Wires (58) on Pipe Fittings (25) With fourEmergency elevatorAnd then,Guide rope ring Four Floor (9) ofBottom ringTo the elevator system of the present invention Outline map All.
16A,   Thick steel plate without upper and lower passageways (62) At the bottom of Winches for guide (7) With Main winch (6) Wow Electric Wire Reels (48) And then, Multipurpose multi-purpose winch (47) To form Work process diagram All.
16 (b)  16A, Multipurpose multi-purpose winch (47) Is applied to the elevator system of the present invention Outline map All.
Figure 17a   The rail (63)  up Railway wheels (64) With Multiple winches for integrated ... (65) To mount Work process diagram All.
17 (b)  17AThe rail (63)With a safety wall in Safety Wall Pillar Rails (66) Gt; Perspective All.
17 (c)  17B Details All.
FIG.   Roof Tops (67) Back and forth to The stop wall (68) Formed Safety Wall Pillar Rails (66)  up Multiple winches for integrated ... (65) And then, Combined winch with integrated rail wheel in Main rope in elevator And then, Guide rope To Guide pipe  And then,Guide rope At the bottom Guide ring (8) To connect Work process diagram All.
17 (e)  After completion of the next step of Fig. Roof rails integrated on roof tops Integrated winch Elevator system (69) of Perspective All.
Figure 17f  17E, Multiple winches for integrated ... (65) Is installed perpendicular to the roof outer wall Safety Wall Pillar Rails (66)  Moving up and down Situation diagram All.
17g,  In case of fire in a high-rise building Roof rails integrated on roof tops Integrated winch Elevator system (69) in Multiple winches for integrated ... (65) Move out of the roof top wall Situation diagram All.
Figure 17h  In the next task of Figure 17g Rail-mounted rails integrated on a pillar-type multi-winch elevator system (69) To run the rescue Situation diagram All.
Figure 17i  After the fire is extinguished by the next operation of Figure 17h Multiple winches for integrated ... (65) Move back inside the rooftop wall Situation diagram All.
17J,  In Fig. 17 (i), the roof Elevator hangars (70)  Inward Multiple winches for integrated ... (65) In Situation diagram All.
17 (k)   Rail-mounted rails integrated on a pillar-type multi-winch elevator system (69) It is formed across the roof of the building and has one or two Multiple winches for integrated ... (65) Is an example of how the Situation diagram All.
Figure 17l  In Fig. 17K, Elevator hangars (70) Is formedEmergency elevatorTheElevator hangars (70) Indicative of the situation in Perspective All.
Figure 18a  It is formed horizontally with the rooftop outer wall on the roof top floor. The rail (63)  upRailway wheels (64)With Panels for moving rails (71) onRail-mounted rails integrated on a pillar-type multi-winch elevator system (69)Combined Rail-mounted traveling-trolleys, multifunctional Winch elevator systems (72) of Perspective All.
Fig.  18ARail-mounted traveling-trolleys, multifunctional Winch elevator systems (72)ofPanels for moving rails (71) up Concrete Balance Panel ( concrete balance panel, 73) Loaded Rails Wheel transport panels Balance with integral multi-winch Elevators systems (74) of Perspective All.
19 is a cross-  In Fig. 18A,Panels for moving rails (71)Inside of the building Rail wheel moving panel protrusion (76) And then,Rail wheel moving panel protrusion bottom The third rail (75) In place Railway wheels (64) Lt; / RTI >Rail wheel moving panel protrusion up Concrete balance panels (73) Build up Rail wheel protrusion Movable panel integrated multi-winch elevator system (77) To form Work process diagram All.
FIG.  18ARail-mounted traveling-trolleys, multifunctional Winch elevator systems (72)In this case,Panels for moving rails (71)andConcrete balance panels (73) By itself Stairs (78) And then on the step Floor balusters (79) Lay Safety rails (80) By installing Safety rails for boarding rails Integrated wheel-mounted elevator system (79) To form Work process diagram All.
Fig.   Safety rails for boarding rails Integrated wheel-mounted elevator system (79) Formed on this rooftop Elevator hangars (70)  And is formed in equilibrium with the outer wall of the roof.The rail (63)Move out of Situation diagram All.
Fig.  High-rise building fire rooftopElevator hangars (70)In Safety rails for boarding rails Integrated wheel-mounted elevator system (79) thisThe rail (63)To get out, Floor (9) Formed inEmergency elevator platformThen,Guide rope (5)DownGuide ringToBottom ringAnd then tightened,Main ropeinelevatorWhile operating the emergency elevator system of the present invention to rescue people Situation diagram All.
FIG.   Safety rails for boarding rails Integrated wheel-mounted elevator system (79) Formed on this rooftopElevator hangars (70) And is formed around the outer wall of the roof. The rail (63) Ride circle Rotated by Situation diagram All.
FIG.  In Fig. 18A,Panels for moving rails (71)Inside of the building The pushing mobile panel protrusion 82, Lt; / RTI >Rail wheel moving panel protrusion (71) Back ConeClearance Balance Panel (73)And then, Movable panel integrated multi-winch elevator system (83) To form Work process diagram All.
21 (b)  On the roof top Reinforcing steel (41) AndrebarRing formed in Steel framework (84) And then,A.on The a- And thenA form Inside and out Ready mixers (32) After pouring, The sub- To form Work process diagram All.
Fig.   Movable panel integrated multi-winch elevator system (83) thisThe rail (63)As you ride, The pushing mobile panel protrusion 82, end The sub- Stopping in the inside Situation diagram All.
Fig.  The rail (63) backwards The sub- On the formed roof Movable panel integrated multi-winch elevator system (83) thisElevator hangars (70)Exit The pushing mobile panel protrusion 82, end The sub-  And then the emergency elevator system of the present invention is operated Situation diagram All.
22A is a cross-  Panels for moving rails (71) up The rotating plate (87) and Pillars (88) And thenPillars (88) up Multi-stage boom (89) And then The multi-stage boom end (90) onIntegrated multiple winchIntrinsic Elevator Machine Room (13) Then,Panels for moving rails (71)Inside of the building Wheels (91) With The wheel-moving panel protrusions (92) And then,The wheel-moving panel protrusions (92) upConcrete balance panels (73)Then,The wheel-moving panel protrusions (92) Behind Winches for boom (93) Then, Pulley (94) throughWinches for boom (93)WowThe multi-stage boom end (90)of Boom Wires (95) And then, Winches for boom (93) onElevator Machine Room (13)in Electric cables (96) Through Electric Wire Reels (48) Then, Multi-stage boom integrated multi-stage winch elevator system (97) To form Work process diagram All.
22B is a cross-  22A Multi-stage boom integrated multi-stage winch elevator system (97) thisMulti-stage boomInstalled around the outer wall of the roof without unplugging The rail (63) And then stops at the required position to start the elevator system of the present invention Situation diagram All.
Figure 22c  Moving on the rail Multi-stage boom integrated multi-stage winch elevator system (97) This stopsMulti-stage boom (89)Then, The rotating plate (87) On the rotating plate Pillars (88) Rotate Situation diagram All.
Fig.  rooftopElevator hangars (70) Inside Multi-stage boom integrated multi-stage winch elevator system (97) thisThe rail (63)Get out ofMulti-stage boom (89)And,The rotating plate (87)Using Pillars (88) To rotateThe multi-stage boom end (90)Installed inEmergency elevatorIndicating that the building can be moved down the side wall of the building. Situation diagram All.
23A,  Multi-stage boom integrated multi-stage winch elevator system (97)On the back of The pushing mobile panel protrusion 82, Gt; Pushing Mobile panel Projection Rotary plate Multi-stage boom Integrated multi-winch elevator system (99) this Supporting platforms (98) Lift up.The rail (63)Moving on The pushing mobile panel protrusion 82, end The sub- Stop while in the insideSupporting platforms (98)Down Situation diagram All.
Fig.  In the state of FIG. 23A Pushing Mobile panel Projection Rotary plate Multi-stage boom Integrated multi-winch elevator system (99) this Multi-stage boom Push out Situation diagram All.
Fig.  rooftopElevator hangars (70) Inside Pushing Mobile panel Projection Rotary plate Multi-stage boom Integrated multi-winch elevator system (99) Get out on this rail The push moving panel projection end The sub- In the inside Multi-stage boom (89) And operates the elevator system of the present invention Situation diagram All.
24A is a cross-   Emergency elevator with open wall (100) Lt; / RTI >Fire hoseWow Coupling (101) Connected to Pipes for water, gas (102) Wow Fire department (103)) Installed Fire-fighting piping (104) Lt; / RTI >Emergency elevator with open wall (100) inFire-fighting piping (104)Respectively, Fire-fighting elevators (105) To form Work process diagram All.
Fig.  Multi-stage boom (89)onCoupling (101)toPipes for water, gas (102)And then,The multi-stage boom end (90)onFire-fighting elevators (105)Then,Pipes for water, gas (102) At the endCoupling (101)to Fire-fighting lakes (106) And then,Fire-fighting elevators (105)To the required positionFire-fighting lakes (106) EndFire-fighting elevators (105)Upper part ofFire pipeon Coupling (101) To the work process.
Figure 24c  FIG. 24B is a partially enlarged view, Multi-stage boom (89) silver Boom winch Wires (95) As well as the fact that it ' Elevator Machine Room (13)  in Integrated multiple winch The Power leads (96) To show that Perspective All.
FIG.  High-rise building fire rooftopElevator hangars (70)In Pushing Mobile panel Projection Rotary plate Multi-stage boom Integrated multi-winch elevator system (99) thisThe rail (63)Come out with The push moving panel projection end The sub- After stopping in the inside, Multi-stage boom (89) Then,Multi-stage boom endInstalled in Elevator Machine Room (13) inGuide ropeTo Floor (9) DownGuide ringToBottom ringTo fixGuide ropeAfter tightening,Main ropein Fire-fighting elevators (105) Is lowered to about two to three stories below the fire point layer, Roof water tank fire hydrant (107) on Fire hoses (106) After connecting the wind, Fire-fighting elevators (105) Installed in Fire Protection (103) With the water coming out of Situation diagram All.
25A,  The multi-stage boom end (90)onIn one embodiment,Containing Elevator Machine Room (13) Then,Elevator Machine Room (13) Under Fire pipe Eleven (105) Then,Multi-stage boom (89)andElevator Machine Room (13) Between Mesh cylindrical pipes (108) Wow Cylindrical pipes of the net (109) Is formed Pipe Fittings (1) To install Work process diagram All.
Fig.  25A, Mesh cylindrical pipes (108) Wow Pipe Fittings (1)  If there is no water inside, Fire-fighting lakes (106) Through Cylindrical pipes of the net (109)  Pull out Work process diagram All. At this time Fire-fighting lakes (106) of Outer diameter (outer diameter) Is full of water in the lake Mesh cylindrical pipes (108) Wow Cylindrical pipes of the net (109) of Inside diameter .
Fig.  In the next step of Fig. Cylindrical pipes of the net (109)  Out Fire-fighting lakes (106)  At the end Coupling (101) To connect Work process diagram All.
Figure 25d  In the next step of Fig. Fire-fighting lakes (106) Wow Fire-fighting elevators (105) To Coupling (101) ≪ / RTI >Power leads (96)Connected to Elevator Machine Room (13) inMain winchTo operate Fire-fighting elevators (105) To the required positionWork process diagramAll.
Figure 25E  In the next step of FIG.Guide ropeAs a poleMain ropeTo the required position Fire-fighting elevators (105) In the stopped state Coupling (101) Connected by Fire-fighting lakes (106) Water coming down Fire Protection (103) Injected through Situation diagram All. At this time, Fire-fighting lakes (106)  Because of the water in the lake, Mesh cylindrical pipes (108) Wow Cylindrical pipes of the net (109) ofInside diameterseeOuter diameter (outer diameter)This larger Fire-fighting lakes (106) As the bulge swellsMesh cylindrical pipes (108) Because of the frictional forceFire-fighting lakes (106)Is not pulled down Pipe Fittings (1) The water in the lake is supplied smoothly even at the broken part of the lake. Cylindrical pipes of the net (109) The frictional force is increased.
Figure 25f  High-rise building fire Pushing mobile panel protrusion Rotating plate Multi-stage boom Integrated multi-winch elevator system (99) This rooftop Elevator hangars (70) In the state of Multi-stage boom (89) The elevator system of the present invention can be operated to unlock the life-saving structure, Pushing Mobile panel Projection Rotary plate Multi-stage boom Integrated multi-winch elevator system (99) thisThe rail (63)Come out with The push moving panel projection end The sub- Showing the situation that it is possible to stop by entering into the inside and to extinguish the fire by the above method Situation diagram All.
26A, Two Asbestos Foil (111)  Between Kevlar ( kevlar ) Ring (112) And then the twoAsbestosOverlayKevlar ringIn the line of Stuffing (113) , And then a liquid state Instant adhesives (39) 2AsbestosWowKevlar ring Once the ropes are fully bonded, one Asbestos cufflinks (114) To form Work process diagram All.
Fig. In Fig. 25E, Cylindrical pipes of the net (109) Exiting through Fire-fighting lakes (106) On the surface of Asbestos cufflinks (114) And then, The Asphaltene (114) on Instant adhesives (39) By spraying Fire-fighting lakes (106) Wow Asbestos cufflinks (114) Lt; RTI ID = 0.0 > ㄱ network cylindrical fire pipe ring (115) Attached to The chain link (116) To Asbestos cufflinks (114) of ring And then,Fire hoses (106)Not let down Situation diagram All.
FIG. Internal Rubber Hose (120) To Hose wing (118) on The metal (117) Formed External Hose (119)  And then insert Adhesive materials (39) In combination with Fire hoses with the w ... (121) To form Work process diagram All.
Fig. In Fig. 25E Fire hoses with the w ... (121) end Cylindrical pipes of the net (109) And then, The Mesh Cylindrical Fire Fighting Pipe Rings (115) Attached to The chain link (116) To Hose wing (118) of The hole (117)  And then, The chain link (116) By tightening Fire hoses with the w ... (121) Not let down Situation diagram All.

        The present invention will now be described in detail with reference to the accompanying drawings.

The guide rope 5 can pass through the guide pipe 3 as shown in Fig. 1C when the guide pipe 3 is formed at the edge of the elevator 1 which is vertically movable up and down by the main rope 2 as shown in Fig. .

At this time, the guide rope 5 can be one row, and if the elevator is two or more lines, rotation and shaking can be prevented when the elevator is moved up and down . If the bearings are arranged in the inside, friction with the guide rope 5 can be reduced.

When forming the guide rope ring (8) on the bottom edge of the guide rope (5) as shown in Figure 2a may be fixed to the bottom (9) Normally, the pulled up the elevator guide rope ring 8 as shown in Figure 2c one may put together by connecting, fire, etc. in case of emergency, made near the guide winch to one 9 conditions as floor sewn connects the guide rope ring 8 using 7 as shown in Figure 2d and then, as shown in Fig. 2e guide rope releasing the ring (8), the guide rope (5) to guide the rope ring (8) to the bottom (9) guides the winch (7) after fixing the guide rope bottom ring 10 is installed in as shown in Fig. 2f The elevator 1 can be safely lowered to the floor 9 without loosening by releasing the main rope 2 by using the main winch 6 in a state in which the elevator 1 is pulled slightly to be able to serve as a pillar, When the main rope (2) is wound around the main winch (6) , the elevator can be lifted up again.

In this case, the main rope 2 plays the role of lifting up and lifting the elevator, the guide rope 5 serves as a pillar for preventing the rotation or shaking of the elevator, and the winch is replaced by a hoist can, rope (rope) is a wire (wire) made of steel wire twisted together with several layers of fitness, and more to create a guide rope ring (8) is less large, heavily affected by the wind when making.

When the emergency floor elevator landing platform 11 is formed on the guide rope bottom ring 10 of the floor 9 as shown in FIG. 3A, when a high-rise building is fired as shown in FIG. 3C, people ride down the emergency elevator 1, The firefighter or the rescue team can easily ascend from the emergency floor elevator platform (11) by taking the elevator.

Using the same principle above the elevator, such as high-rise buildings may prevent casualties in the event of a fire, even on the roof external wall or upper outer wall of the building, such as 4a release to install the elevator machine room projecting platform (12) more effective, 4c If the machine room complex platform 16 is formed, many emergency elevators can be operated, and people can be quickly obtained.

As well as the roof, as 5a-rise release to install the curtain wall projects the elevator platform (17) for each layer necessary for building exterior walls even reach the people roof in case of an emergency or fire may come down riding the emergency elevator (11) in close proximity, exterior projects The elevator platform 17 can be safer while the people are evacuated by forming the ventilation holes 19 and the fire walls 20 and 21 as shown in FIG. 5D , and the emergency elevator can be secured to the exterior wall elevator platform 17, 5F, As shown in FIG. 5G, the elevator can be lowered down. As shown in FIG. 5H, when the outside wall projecting elevator complex platform 24 is made, people can quickly come down as shown in FIG. 5J .

5K and 5L show situations in which people are waiting for an elevator in a state of being evacuated safely by virtue of the ventilation holes 19 and the barrier walls 20,

        The following will be applied to a high-rise building.

6A shows an elevator exterior wall landing platform 16 installed on the roof top wall of a high-rise building and a guide rope bottom ring 10 serving as a fixing device is installed on the floor 9 below the vertical wall. , 16) in the guide winch (7) to guide the rope (5) the bottom (9) to get off the guide rope, after fixed to the bottom ring (10) guide the winch (7) slightly pull the guide rope (5) to pull the guide ropes are The elevator 1 connected to the main rope 2 is moved up and down vertically by using the main winch 6 in a state in which it is stretched so as to serve as a pillar to operate the fire emergency elevator system of the present invention An example of a situation.

When the method of FIG. 6A is used, when a person fires into a roof or elevator machine room projecting platforms 12, 16 in a fire of a skyscraper , the emergency elevator 1 can safely descend to the floor. After the above main surface down the guide rope ring (8) of people in the bottom (9) is fixed to a guide rope ring (8) on the guide rope bottom ring (10), some of the guide rope (6) to guide the winch (7) on the Pulling and pulling it up tightens the pillar, which can safely be taken down the emergency elevator.

Because of the rapid rise in the stairs and the elevator passageways that fill the inside of the building, the people on the top of the high-rise buildings can no longer go down and escape to the roof In the case of the roof of a high-rise building, an elevated ladder car can not reach it, and when it is a fire, the helicopter also becomes difficult to approach because of the flames rising on the building. So people who have evacuated to the rooftops have to descend from the rooftops as fast as possible in order to avoid suffocation by smoke or burning in the heat. Until now, the life of people on the top of a skyscraper in the fire of a skyscraper has been defenseless . For this reason, even in the case of a fire in a skyscraper, it is possible to save the lives of people in the upper part of the building by using the method of FIG. 6A .

6B is a perspective view showing a state in which a ventilation hole 19 through which the flame can escape from the outer wall of the building between the elevator machine room projecting platforms 12 and 16 and the guide rope bottom ring 10 or the emergency floor elevator platform 11, In which the exterior wall elevator landing platform 17 having the firewalls 20 and 21 for blocking the emergency elevator installation platform 17 is formed.

In the case of a fire in a high-rise building, the interior of the upper part of the building is rapidly filled with smoke and heat from the stairway and the elevator passages inside, and then there is a fire due to high heat or fire from below. To avoid being suffocated by heat, it is urgent to avoid evacuation to an independent shelter inside the building. In this respect, The exterior wall elevator landing platforms 17 and 24 of FIG. 6B also have conditions as a temporary shelter for a high-rise building fire.

6B, the exterior elevating platforms 17 and 24 of the exterior walls are separated from the inside of the building, and only one side of the top, bottom, left, top and bottom sides of the building is connected to the interior of the building. It has less heat conduction energy and radiation energy than internal space, and it is possible to supply fresh air and escape choking danger. This situation is compared with the internal situation in full to open a sealed without smoke and tall buildings, exterior projecting elevator platform of the invention (17, 24) is that you can see how safe place emergency shelters rosseodo City high-rise building fire.

Thus, when a high-rise building is in a fire, the elevator cabs are first evacuated to the elevator elevator platforms 17 and 24, and then the guide rope rings 5 are lowered to the floor 9 in the elevator machine room projecting platforms 12 and 16 the guide is fixed to the rope the bottom ring (10) tensely create a pole line, and then to come down the emergency elevator connected to the main rope (2) stops at the outer wall projecting elevator platform (17, 24), riding on the emergency lift (1) bottom , You can save people's lives from flames.

6C shows an example of operating the emergency elevator system of the present invention in a skyscraper-structure high-rise building by applying the principle of FIG. 6B.

In Figure 6d the Figure 6c, a multi-layer structure the bottom of the high-rise building is shown the situation which are taken up on the guide rope 5 and the elevator (1), a multi-layer structure high rise floors to the guide rope ring (8) the upper part of a building ( 9 is fixed to the guide rope bottom ring 10 so that the guide rope 5 is tightened to form a pillar string. In this example, the fire emergency elevator system of the present invention is operated.

6D can be operated in a state where the emergency elevator system of the present invention is still installed as it is, and the guide rope 5 is lowered to the floor 9 only at the time of an emergency such as a fire, At the same time.

        Thus, the scope of the invention is broader than the purpose of an emergency elevator in the case of a high-rise building fire, for example:

Example example, the outer wall protrudes as shown in Figure 6b the elevator platform (17, 24) if it has to place laid a rail on the building roof so that the elevator machine room projecting platform 12 is movable over the rails, stops in the required position guide The rope loop 8 is lowered to the ground surface and then the guide rope loop 8 is vertically lowered so as to straddle the guide rope bottom ring 10 with an anchor , The main winch 6 is wound on the floor , and the elevator 1 can be vertically moved up and down.

Since the structure of the high-rise apartments is almost the same, the guide rope loop 8 coming down from the lift platform 12 of the elevator machine room of the present invention comes down on the floor ( floor ) ) , The 29th generation except for the first floor can move up and down the floor by using one guide rope bottom ring (10) in the case of the 30th floor apartment.

Then, the roof in the elevator machine room projecting platform 12 is stopped in the required position by moving along the rail, and lowering the guide rope ring (8) is secured to the guide rope bottom ring (10) sewn to form in advance the guide rope (5) If you build up the pillars, all the generations under the lift machine platform (12) can easily move up and down without using elevators or dangerous gondolas installed inside the apartments.

By way of example, using the principle of FIG. 6d , lifting objects or people in a construction site can be carried out.

In addition, while the application for priority is made, the following drawings are added.

Guide pipe 3 as shown in Figure 1d and the elevator (1) by forming a pipe with wings (25) between the outer wall of the impact the elevator according to the up and down moving the elevator (1) body and the protruding collision El ribeyi foundation platform 17, the inner wall outer wall a can be reduced, it can also be formed to guide the pipe (3) gradually increase anti-friction shock absorbing wheel 26 on the outside, such as 1e reduces the friction of the guide pipe 3 and the outer wall projecting elevator platform 17 inside wall.

Figure 5m Fig. 5n be release to form a vertical outer wall projecting elevator composite platform (27) which is connected in a step in the high-rise building with upper outer wall, such as 5o fire people easily than in the top and bottom layer outer wall projecting elevator lifting steel evacuated outer wall projecting elevator platform The user can ride down the emergency elevator 1 and descend to the ground.

Figure 5p FIG TT in high-rise buildings, such as upper outer wall 5q-shaped outer wall projecting elevator landing complex (28) or outer wall十shaped protrusion placed to form a composite elevator platform 29 to form a side door release Meanwhile walls also 5r Figs. As shown in FIG. 5U , many people can be scattered on several emergency elevators in which people can easily approach the elevated platform of the outer wall and ascend and descend, and can safely and quickly come down to the ground.

7A , 7B and 7C , the emergency elevator 1 is lowered vertically down from the rooftop, and the guide rope bottom ring (not shown ) is pierced by the bottom steel frame 30, the concrete 32 and the hooked pile 31 10) formed and made of a mold, the panel boundary stone (9) on its periphery, and then, putting the small hole 33 with a lid on the guide rope bottom ring 10. When the peripheral between the panel boundary stone with small holes (33) When you release the ready-mixed concrete was poured into condensation back into the heights, people are not uncomfortable it can be used like a normal building close to the ground without being tripped in the usual like. And informs those who put inscribed with lettering elevator emergency landing on the spot becomes aware that the place is spot fire has come an emergency lift off vertically from the roof, fire, the elevators in the waiting.And rooftop on the upper floors of high-rise buildings It can escape to the machine room protruding platform 12 or the outer wall projecting elevator platform 17 and can come down to the ground in the emergency elevator 1 .

As shown in FIG. 7d and FIG. 7e, even if a composite elevator landing platform is formed on the floor in accordance with the number of the combined wall- mounted elevator elevator complex platform in the vertical upper part , as shown in FIG. 7a, . (9) The residents' normal perception of the elevator emergency platform is that the elevator machine room projecting platform 12 formed on the roof in the event of an emergency such as a fire or an outer wall protruding elevator 12 formed at the upper layer of the high- So that the platform 17 can be used naturally.

8A , 8A and 8B , at the time of a fire, a drill 36 is pierced at a correct position where the emergency elevator 1 is to be lowered from a vertical upper portion, a cement paste is poured into the hole, and a spiral metal pile 35 next, Fig. 7a also putting the small hole 33 with a lid in the same way as 7b to the working plane with ready-mix concrete (32) forming an elevator emergency landing of the bottom (9) costs less easily and the operation cost.

9A and 9B show a quick and easy method of forming an emergency elevator landing floor of the floor 9 by using an anchor bolt 37 having a ring on the upper part and a spiral on the lower part .

10a , 10b , 10c , 10d , 10e , 10f , 10g , 10h and 10i Also release form the elevator machine room projecting platform (12) into and out of the roof exterior wall railings as 10j durable, easily and hold the elevator system, fire guide even in emergency elevators (1) Sanya floating in the air pole rope (5) By a lift power switch 53, the main winch and the electrical cord reel, the power switch 52 a can be operated to rise and fall the stop motion, in the roof comprises a lift winch power switch 53 functions as an ordinary elevator using the emergency It is possible to actuate the elevator stopping motion of the elevator and raise or lower the guide rope .

And the function of the elevator power switch 53 in the elevator can be replaced with a portable remote controller . Since the emergency elevator moves within a few hundred meters of the vertical distance from the outer wall of the building without obstacle, the main winch (6) in the elevator platform (12) protruding from the rooftop elevator machine room is controlled by an electronic signal using a portable remote control in the elevator, It is possible to operate the ascending and descending stop motion .

The power switch 53 of the elevator or the rising and falling stop of the remote control can be used by inputting a specific layer in advance. It is possible to operate the rising and falling stop of the emergency elevator 1 by aligning it with the layer on which the exterior wall elevator lift platform 17 or the outside wall project elevator composite platform 24 is formed, for example.

As shown in FIG. 10K , when the elevator machine room projecting complex platform 16 is formed, several emergency elevator systems can be simultaneously operated.

As shown in FIGS. 10L and 10M , when a fire in a high-rise building occurs, the elevator machine room protruding platform 12 and the elevator machine room protruding complex platform 16 can be used to safely down the ground even in a real situation.

11A , 11B and 11C , an integral multiple winch 47 is formed and the guide winches 7 are connected to each other by an electric wire to elevate several (usually four) guide ropes at the same time from the plurality of guide winches 7 and to make a main winch 6 and the electric wire reel (48) for interlocking and that by connecting the electric wire of the electrical cord reel into the elevator the elevator machine room protruding platform 12 of the roof, as well as the main winch even within the emergency lift (1) An elevator power switch 53 can be provided which is capable of operating the elevator down-stop motion of the elevator using the power of the elevator 6 .

If the elevator machine room 13 is formed in the integral multi-purpose winch 47, the maintenance of the system is facilitated. Since the probability of occurrence of the fire is very low, the importance of the method of maintaining the system in case of an emergency can not be overlooked Can not be done.

As shown in FIGS. 12A , 12B , 12C, and 12C , the integral multiple winch 47 can be formed by using larger winches.

It is also possible to operate the elevator system of the present invention by forming an integrated guide winch and a main hoist 59 from two guide winches 7 and one main hoist 57 as shown in FIG . 13A and FIG. 13B .

It is also possible to form the integral guide winch and the main hoist 59 from the four guide winches 7 and one main hoist 57 as shown in FIGS . 14A and 14B . In this invention, it is once again revealed that the main winch 6 and the main hoist 57 are the same role and the same concept.

The four guide winches 7 formed with the rectangular projections 60 are connected to the thick steel plate 54 having the same rectangular upper and lower passages 61 as shown in FIGS . 15A and 15B so that the integral guide winch and the main hoist (59) may be formed. The integral multi-winch 47 is also the same.

As shown in FIGS. 16A , 16B , the integrated steel winch 47 can be formed by installing winches on the lower surface of the thick steel plate 62 as well.

17A , 17B , 17C , 17D , 17E, and 17F , when the railway wheel-integrated multi-winch elevator system 69 with a roof-top pillar is formed, the multi-winch integrated winch 65 moves on the safety wall pillar rails 66 It is possible to safely enter the inside of the rooftop wall in normal times.

Figure 17g Figure 17h Figure 17i also into and out of the roof outer wall, such as 17j wheel roof pillar above the rails form an integral composite winch elevator system 69, and release to form a lift flats 70 on its inner fire has rail wheels integral composite winch ( 65 are moved out of the roof outer wall on the safety wall pillar rail 66 to perform the task and then again ride on the safety wall pillar rail 66 after the fire suppression to enter the elevator hangar 70 to be protected from wind and rain have.

As shown in FIG . 17K and FIG . 17L , when the railway wheel integral multi-winch elevator system 69 on the roof top crosses the roof and the elevator hangar 70 is formed thereon, one or two rail-wheel multi- The connected emergency elevator 1 can perform the rescue mission on both sides of the building in consideration of the origin of the fire and the influence of the wind and after the execution of the mission it enters the elevator hangar 70 and the maintenance of the system becomes easy.

18A and 18B , when the railway wheel moving panel integrated multi-winch elevator system 72 is formed, the pillar-integrated railway wheel-integrated multiple winch elevator system 69 on the rail wheel moving panel 71 is mounted on a rail 63, and the concrete balance panel 73 is loaded on the rail-wheel moving panel 71, the center of gravity can be moved to the floor of the roof so as to safely lift and lift the person-wearing elevator.

As shown in FIG. 19 , when the third rail 75 is laid on the roof top and the rail wheel protrusion moving panel integrated multi-winch elevator system 77 is formed, the center of gravity moves further toward the inside of the building, can do.

20A , when the elevator system 81 is mounted on one of the elevator hangers 70 of the rail 63, which is parallel to the roof top wall, as shown in FIG. 20B , the possible travels with the rail 63, and it is possible to perform a high-rise building fire, the rapid life saving when as shown in Figure 20c, while moving along the rail 63 provided in the roof outer circumference as shown in Figure 20d tall buildings It is possible to survive on the outer walls of four rooms.

Moving press, as shown in FIG. 21a-panel-integrated composite winch elevator system (83) is formed and there is also party b as 21b press the panel 86 a there is shown 21c and push the mobile panel, the protrusion 82 is the a character press as formed according to the It is possible to reduce the risk that the elevator system on the roof drops down and falls down to the roof outer wall even when the heavy load rises as shown in FIG.

Fig while rotating plate moves the multi-stage boom aboard the one-piece composite winch elevator system rails installed along the holding roof outer wall that disconnect the multi-stage boom (89) as shown in Figure 22b by forming a (97, 63), such as 22a, and the life-saving is possible, When the multi-stage boom 89 is pulled out and rotated using the rotary plate 87 and the rotary column 88 as shown in FIG. 22C , a fire suppression mission is also possible on the side wall of the building as shown in FIG. 22D .

Pressing mobile panel projection spindle multi-stage booms integrally composite winch elevator system (99), and then supporting the foot plate (98) contains riding rails 63 move is a push movement the panel projection (82) up to the formation of as shown in Fig 23a is the a character It is safe to pull out the multi-stage boom as shown in FIG. 23B after the support pedestal 98 is stopped after stopping while entering the pushing panel 86, and fire suppression can be prepared as shown in FIG. 23C .

Fire pipe to the coupling 101 to the multi-stage boom (89) of the pressing movement panel projection spindle multi-stage booms integrally composite winch elevator system (99) as to form a fire fighting pipe elevator 105, and Figs. 24b 24c as shown in Fig. 24a connect 102, and installation for fire fighting pipe elevator 105, and connect the fire pipe (102) at the end of the coupling Fire lake 106 to 101 in the multi-stage boom end 90 and fire pipe elevator (105 ), the Linking Fire lake 106 ends in a state down to a position required by the coupling 101 on the upper fire pipe 102 of the fire pipe elevator 105 and also fire fighting pipe elevator (105 as shown in 24d) that winds The fire- fighting lake 106 can be connected to the rooftop water tank fire hydrant 107 to quickly fire the fire with the water sprayed from the fire-fighting pipe 103 installed in the fire- fighting pipe elevator 105 .

The a character mesh cylinder fire pipe with a pressing movement panel projection spindle multi-stage booms integrally composite winch multi-stage boom 89 mesh cylindrical pipe 108 and the edge mesh cylindrical pipe 109 in the elevator system (99) is formed as shown in Fig. 25a installing (110), and installing the elevator machine room 13 containing a one-piece composite position 47 in the multi-stage boom end (90), and installing the fire pipe elevator 105 below the elevator machine room 13, and FIG. 25b mesh cylindrical pipe 108 and the a character mesh cylinder fire pipe 110 in the mesh cylindrical pipe 108 and the edge mesh cylinder Fire lake that the outer diameter (outer diameter) than the inside diameter of the pipe 109, the larger blank, such as Fire lake 106 and the fire pipe elevator 105 as entered into a coupling 101 at the end of fire lake 106, Fig. 25d as shown in, Fig 25c and then passed through the 106 in the coupling 101 texture The combined fire the next elevator machine room (13) Main by operating the winch (6) main rope (2), also penthouse hydrant 107, as shown in 25e after lowering the fire pipe elevator (105) to the required position as in When the lake 106 is connected, due to the outer diameter (outside diameter) of the fire-fighting lake 106, which is larger than the inside diameter of the cylindrical net pipe 108 and the cylindrical net 109 of the net , the lake is inflated with water pressure in the lake, The surface of which is connected to the mesh pipe (108) and the end mesh pipe (109) So that the water in the lake can be supplied smoothly even at the bent portion of the ㄱ-shaped cylindrical fire-fighting pipe (110) by grasping that the lake is dragged downward by the frictional force. As shown in FIG. 25F , the multi-stage multi-stage boom integrated winch elevator system 99 of the pushing mobile panel projecting part is operated to approach the fire point generated in the upper layer of the high-level fire, and the fire is emitted from the fire pipe 103 of the firepipe elevator 105 .

24D and 25F , not only the water is supplied directly from the rooftop water tank fire hydrant 107 but the fire hydrant hose inside the building, which is several stories higher than the fire pipeline elevator 105 , Water can be supplied to the fire pipeline elevator 105 directly.

And FIG form a ring with asbestos fabric 114 as shown in 26a, Fig. 26b and as end mesh cylindrical pipe 109, a round the wound around the ring with asbestos fabric 114 instant adhesive (39 in the fire lake 106 passes through the ) a sprinkling of fire lake 106 and the ring with asbestos fabric a is completely bound 114. next, the a-party mesh cylinder the line attached to the fire pipe ring 115, ring 116 with ring asbestos fabric 114 As a result of the weight of the water in the long firefighting lake 106, when the firefighting lake 106 is pulled downward, the lake is flattened in the bent part of the cylindrical firefighting pipe 110 and water is not supplied The situation can certainly be avoided.

To form a fire hose 121 with a hole in the wing as shown in Figure 27a, line, which is the a chair attached to the mesh cylinder fire pipe ring 115 into a hole 117 of the hose wings 118, as shown in Fig 27b the ring (116) to tighten the string hooks . Due to the weight of the water in the long hose, it is possible to prevent the situation where the hose is flattened and the water can not be supplied at the bent portion of the ㄱ network cylindrical fire pipe (110) have.

1. The emergency elevator
2. Main rope
3. Guide pipe
4. Elevator door
5. Guide rope
6. Main winch (main winch) or main hoist (main hoist)
7. Guide winch or guide hoist.
8. Guide rope ring
9. Floor (Emergency elevator floor platform)
10. Guide rope bottom ring
11. Emergency floor elevator platform
12. Elevator machine room extrusion platform
13. Elevator machine room
14. Elevator machine room extrusion platform firewall
15. Elevator machine room extrusion platform entrance
16. Elevator machine room projecting compound platform
17. Exterior wall elevator platform
18. Outer wall protrusion platform entrance
19. Outer wall protrusion platform ventilation hole
20. Outer wall protrusion platform primary firewall
21. Outer wall protrusion platform secondary firewall
22. Outer wall protrusion platform entrance
23. Outside wall protruding platform floor
24. Exterior wall extrusion elevator composite platform
25. Pipe wing
26. Anti-friction shock absorber wheels
27. Vertical Exterior Wall Extension Elevator Compound Platform
28. 자 shaped exterior wall protrusion elevator composite platform
29. Cross-shaped extruded elevator combined platform
30. Floor Steel Frame
31. Hooks with a hook on top
32. Remicon (cement paste)
33. Small hole with lid
34. Lid
35. Spiral metal pile with ring on top
36. Drills
37. Anchor bolt with a hook on the upper part and a spiral on the lower part.
38. Nuts
39. Thin Liquid Adhesive (Instant Adhesive)
40. Roof railing (roof top wall)
41. Reinforcement
42. Bolt with ring
43. H beam
44. Ironwood
45. Up and down passage
46. Elevator machine room overhang platform floor
47. Integrated multiple winch
48. Electrical Reel
49. Electricity
50. Power cable
51. Switch wire
52. Main winch and electric wire reel power switch
53. Elevator power switch
54. Thick steel plate
55. Winch Home
56. Wire reel
57. Main hoist
58. Pulley wire
59. Integral guide winch and main hoist
60. Square protrusion
61. The upper and lower passages of rectangular shape
62. Thick steel plate without vertical passageway
63. Rails
64. Rail wheels
65. Combined winch with integrated rail wheel
66. Safety wall pole rails
67. Roof Top
68. Stopping wall
69. All-wheel-type multi-winch elevator system
70. Elevator hangar
71. Rail wheel movement panel
72. Rail wheel moving panel integrated multi-winch elevator system
73. Concrete balance panel
74. Rail wheel movement panel balance integral all-in-one winch elevator system
75. The third rail
76. Rail wheel moving panel protrusion
77. Rail wheel protrusion moving panel integrated multiple winch elevator system
78. Stairs
79. Railing floor
80. Safety railings
81. Safe railing for berths Rail-wheel moving panel Integrated multi-winch elevator system
82. Pushing mobile panel protrusion
83. Movable panel integrated multi-winch elevator system
84. Reinforced steel frame
85. Letterhead
86. Lens pushing panel
87. Spindle
88. Pillar of rotation
89. Multi-stage boom
90. Multi-stage Boom End
91. Wheels
92. Wheel movement panel projection
93. Boom winch
94. Pulley
95. Boom wire
96. Electricity
97. Multi-stage boom integrated multi-winch elevator system
98. Supporting footrest
99. Push Moving panel Projecting spindle Rotary plate Multi-stage boom Integrated multi-winch elevator system
100. Emergency elevator with wall open
101. Coupling
102. Fire Fighting Pipes
103. Fire Fighting
104. Fire-fighting piping
105. Fire piping elevator
106. Fire hose
107. Rooftop water tank fire hydrant
108. Mesh Cylindrical Pipe
109. End mesh cylindrical pipe
110. Cylindrical Fire Fighting Pipe
111. Asbestos Foam
112. Kevlar ring
113. Staples
114. Ringed asbestos cannabis
115. Cylindrical Fire Fighting Pipe Ring
116. Strap
117. Metal hole
118. Lake wings
119. External Tough Hose
120. Inner rubber hose
121. Fire hose with a hole in the wing

Claims (11)

A method for forming an emergency rescue elevator system in a high-rise building fire,
Further comprising: a guide pipe (2) on the top and bottom edges with vertical making a sharp elevator (1),
A main winch 6 capable of vertically moving the elevator 1 to the main rope 2 and a guide rope 6 serving as a pillar for preventing rotation or shaking of the elevator 1 caused by winds during up- ( 12, 16) in which elevator machine room projecting platforms (12, 16) provided with a guide winch (7) capable of vertically moving the elevator machine room (5)
Passing the guide rope (5) through the guide pipe (3 ) of the elevator (1 ) to connect the guide rope loop (8)
Wherein the guide rope bottom ring (10) is installed on the floor (9) when the guide rope loop (8) is vertically lowered.
The method according to claim 1, wherein the bottom (9) and the bottom of the guide loop bottom ring (10) are capable of preventing the fall of a falling object during a fire .
The method according to claim 1, wherein the elevator machine room projecting platform (12, 16) and a guide rope bottom ring (10) is a flame in a high-rise building outer wall vents (19) which can pass through between the firewall (20, 21) is equipped outside wall A method for forming a raised elevator landing (17, 24) .
The elevator system according to claim 1, wherein the elevator machine room projecting platform (12) including the main winch (6) and the guide winch (7) is assembled or movable.
And claims are added while filing a priority application, it is same as claims 5, 6, 7, 8, 9, 10,
The method according to claim 1,
Forming an emergency elevator 1 having a pipe wing 25 between the guide pipe 3 and the outer wall of the elevator 1 as shown in Fig. 1D ,
11A , 11B , 11C , 12A , 12B , 12C , 13A , 13B , 14A , 14B 15A and 15B The guide winch 7 is interlocked and the main winch 6 and the main hoist 57 are interlocked with the electric wire reel 48 as in the examples of Figs.
Forming a single integral type winch (47) or integral guide winch and a main hoist (59) which can be operated by power switches (52, 53) or a remote control ,
10a , 10b , 10c , 10d , 10e , 10f , 10g , 10h and 10i The steps of forming elevator machine room projecting platforms 12 and 16 in which an integral multiple winch 47 is embedded in and out of the roof outer wall 40 as in the example of Fig. 10J ,
7A , 7B , 7C, 7C 7d, Fig. 7e 8A , 8B 9A, 9A and 9B , a guide rope bottom ring 10 is formed on a promised ground to which the emergency elevator 1 will vertically descend from the roof, and a panel boundary 9 is formed around the guide rope bottom ring 10 , put made of a mold, then put putting the small hole 33 with a lid on the guide rope bottom ring (10) pour ready-mixed concrete flush with the surrounding ground again between the panel boundary stone with small holes (33) inscribed with letters floor Forming an elevator emergency landing 9 ,
With the above methods, the emergency elevator 1 is connected to the main rope 2 of the integrated composite winch embedded in the rooftop elevator machine room projecting platforms 12 and 16 and the guide rope 5 is connected to the guide pipe 3 The guide rope loop 8 is connected to the end of the guide rope 5 vertically down to the bottom 9 and then the guide rope loop 8 is guided to the guide rope bottom 9 of the floor elevator emergency landing 9, The method of forming a high-rise building fire emergency elevator system according to the present invention as shown in Fig. 10 ( m ) , wherein the guide rope 5 is connected to the ring 10 and then tightened so that the guide rope 5 can serve as a pillar .
The method of claim 3,
On the roof outer wall ledge high rise elevator floor of a building outer wall upper small portion of the vertical air between the machine room projecting platform (12, 16) and the bottom elevator emergency platform (9) is installed, as shown in Fig. Fig. 5m 5n Figure 5o Figure 5p also vertically is connected to the stairs and vertical outer wall projecting right and left leading to the side door of the wall elevator complex platform 27 as shown in the example of 5q and TT-shaped outer wall projecting elevator composite platform 28 and 十shaped outer wall projecting elevator composite platform (29)
By the above methods also 5r 5S 5t As shown in Fig. 5U , a method for forming an emergency elevator system for a high-rise building fire according to the present invention .
The method of claim 4,
The top rail 63, as shown in an example of Figure 17a rail wheel 64 is formed a rail wheel integral composite winch 65 which depend next, to form a safety wall pillar rail 66, as shown in an example of Figure 17b Figure 17c 17 (d) , a rail-wheel-integrated multiple winch 65 is mounted on a safety wall pillar rail 66 on which a stop wall 68 is formed on the roof column 67 , in Connecting a lift (1) as a main rope (2) and connected to the guide ring 8 guides the rope (5) at the bottom passing into the guide pipe (3) of the elevator guide rope 5 Next, Fig. 17f and the rail wheels integral composite winch 65 is the roof outer wall, and vertically installed safety wall pillar rail 66 to form the mobile over the forward or backward, above the roof pillars of Figure 17e rail wheel integral composite winch elevator system (69) as step,
Figure 17g Figure 17h Figure 17i Figure 17j also elevator silo 70 to the roof inside the outer wall (40) and out of the roof pillars form the upper rail wheel integral composite winch elevator system (69) and the roof outer wall 40, as shown in the example of 17l , ≪ / RTI >
The method of forming an emergency elevator system for a high-rise building fire according to the present invention as in the example of FIG .
The method according to claim 4,
A rail 63 is provided on the roof bottom in parallel with the roof top wall and a rail winch integrated railway wheel integrated type winch elevator system 69 is mounted on the rail wheel moving panel 71, Forming a railway wheel-moving panel integral multiple winch elevator system (72) capable of moving left and right on the rail (63)
As in the example of Figure 18b the rail wheel moving panel 71 to the top to form a concrete balance panel 73 is loaded with the center of gravity safety rail wheels move the panel balance weight piece composite winch elevator system 74, or, as in the example of FIG. 19 The third rail 75 is laid on the roof top and the concrete balancing panel 73 is mounted on the rail wheel moving panel projection 76 to form a rail wheel protrusion moving panel integrated composite winch elevator system 77 ,
Forming a rail wheel moves panel 71 and the concrete balance panel 73 steps 78 by itself, as an example in Fig. 20a, and then, over the stair laying railing floor 79 on board by installing a safety railing (80) The method comprising the steps of: forming a safety railing rail wheel moving panel integral multi-winch elevator system (81)
Forming an elevator hangar 70 capable of storing the elevator systems 72, 74, 77, and 81 on one side of a roof top rail 60 installed in parallel with the roof top wall 40 as in the example of FIG. ,
The method of forming an emergency elevator system for a high-rise building against fire in accordance with the present invention, as shown in one example of FIG . 20C , FIG . 20D , can carry out lifesaving while moving on a rail 63 formed on a roof top floor along a roof top wall .
The method according to claim 4,
The method comprising the steps of forming a push-to-move panel integral multiple winch elevator system 83 with a pushing mobile panel projection 82 as in the example of FIG. 21A ,
As shown in FIG. 21B , a step of forming a pivoting pushing panel 86 in accordance with the pushed mobile panel projecting portion 82 of the push- pull panel integrated winch elevator system 83 ,
As shown in FIGS . 21C , 21D, the emergency elevator system for high-rise buildings according to the present invention , in which the lifting mobile panel projecting portion 82 can be safely lifted into the lance pressing panel 86, ≪ / RTI >
The method according to claim 4 and 9,
One is installed, then the rotation column 88 to the top multi-stage boom 89. Figure 22a install the rail wheels move panel 71 over the spindle 87 and the rotating column 88 as shown in an example in the following, the multi-stage boom end The elevator machine room 13 in which the integral multiple winch is installed is installed on the rail 90 and the wheel moving panel protrusion 92 having the wheel 91 on the inside of the building of the rail wheel moving panel 71 is formed , the wheels move the panel projection (92) over the concrete balance panel 73, and then, the wheels move the panel projection (92) provided for the boom winch (93) at the back, and then, a pulley 94, the boom hoist (93 through a load ) and by installing a multi-stage boom end 90 by the connection to the boom wire 95, then, the boom winch 93 electric wire (electric wire reel 48, 96) are leading to the elevator machine room 13, the rotating plate multi-stage boom-one Forming a composite winch elevator system 97 ,
FIG form the emergency elevator 100, an open wall, as an example of 24a and then the fire hose and the coupling 101 fire pipe 102 and the fire gwanchang 103) installed fire pipe 104 that is connected to A step of forming a fire-fighting pipe elevator 105 by providing a fire-fighting pipe 104 in the emergency elevator 100 with a wall opened ,
24B As in the example of Figure 24c the rotation plate multi-stage booms integrally composite winch elevator connecting the fire pipe 102 in the coupling 101 to the multi-stage boom (89) of the system (97), and then fire pipe to the multi-stage boom end 90 installing an elevator 105, and then fire the pipe 102 at the end of coupling 101 to a next, fire lake 106 from the down position to the location necessary for fire fighting pipe elevator (105) connected to the fire lake 106 Forming an apparatus capable of connecting the end to the upper fire pipe of the fire pipe elevator 105 with the coupling 101 ,
Also with the method described above 22b 22C 22D 23A 23B 23C The method of forming an emergency elevator system for a high-rise building against fire in accordance with the present invention, which can perform fire suppression as well as lifesaving of an upper floor when a fire in a high-rise building occurs .
The method according to claim 4 and 9,
As shown in the example of FIG. 25A , a prefabricated cylindrical metal pipe 108 and an end cylindrical metal pipe 109 are formed between the multi-stage boom 89 and the elevator machine room 13 of the multi- stage boom integrated multi-stage winch elevator system 97 Forming a device capable of installing a refractory fire pipe 110 ,
27A , The inner rubber hose 120 is connected to the hose vane 118 Is inserted into the outer tubular hose 119 in which the metal hole 117 is formed and then joined by the adhesive 39 to form a blade having a larger diameter than the outer diameter (outer diameter) of the cylindrical metal pipe 108 and the end cylindrical metal pipe 109 Forming a fire hose 121 having a hole therein,
FIG fire hose (106, 121) as in the example of 27b are using a metal hole 117 of the end mesh cylindrical pipe 109 at the end of the wing to an external fire hose 121 with a hole exiting stretched down A step of forming a mesh fire pipe ring 115 and a string hook 116 capable of catching a heavy fire hose filled with knocked water ,
With the method of FIG. 25b Figure 25c Figure 25d 25E The method for forming an emergency elevator system for a high-rise building fire as claimed in claim 25, wherein the elevated fire extinguishing system is capable of suppressing fire in an upper layer of a skyscraper.

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