RU80117U1 - DEVICE FOR EVACUATION OF PEOPLE FROM ALTITUDE BUILDINGS AND CONSTRUCTIONS - Google Patents

Abstract

The utility model relates to the field of rescue services, in particular, to external evacuation devices for withdrawing people from emergency zones located inside the premises of high-rise buildings and structures. The device comprises a platform (1), one side fixed with two hinges (15) at a height on the outer wall (2) of the building under the window opening (3), and the opposite side suspended on two cable rods (14), which are through blocks (17) ) located above the window opening (3) from the street, passed through the holes in the outer wall (2) of the building and stored on the drums of self-braking winches (18). Winches (18) are located above the window opening (3) from the side of the room and are made with the possibility of manual drive (20). A removable fence (4) is installed around the perimeter of the site (1). In the middle part of the flooring (6) of the platform (1), a light opening (7) is made, equipped with two sliding doors (8) that move along two guides (12). On the sides of the platform (1), two chain supporting elements (21) are installed, fastened with anchors (16) to the outer wall (2) of the building. In the absence of an evacuation situation, the platform (1) is located in a vertical position with open doors (8) of the light opening (7) and is pulled by cable rods (14) to the outer wall (2) of the building, while the contour of the light opening (7) coincides with the contour of the window the opening. (3). In the event of an evacuation situation and before the evacuation of people, the platform (allowed and fixed by cable rods (14) and chain load-bearing elements (21) in a horizontal position with closed doors (8) of the light opening (7). Using the proposed device for evacuating people will increase strength sites (1) and its rigidity while simplifying the design, use relatively inexpensive fire-resistant structural materials for manufacturing the site (1), increase the number of evacuation devices, exclude to read external negative impacts on the site (1), reduce the time for its preparation and deployment, increase the payload, be independent of electric power sources, and reduce the length of escape routes from emergency zones, provide an overview of the site from the site (1).

Description

The utility model relates to the field of rescue services, in particular, to external evacuation devices for withdrawing people from emergency zones located inside the premises of high-rise buildings and structures.

Known is a closed modular structure for evacuating people in emergency situations from floors of tall buildings, containing supporting cantilever frame structures installed in the level of floor ceilings on the facade along the entire height of the building and in a position close to horizontal, with frame ends pivotally attached at one end to the outer wall of the building, and with the opposite end suspended on cable rods attached to the outer wall of the building and interconnected by the height of the building with cable rods that are on top The floor of the building is kinetically connected via intermediate units to electric winches mounted on top of the building. On the frame structures, vertical downpipes with a fire-retardant shell are fixed, and inflatable gutter-shaped slides with a sliding surface are suspended in an inclined position. In the upper part of the slide, they are connected with cylindrical entrance cabins installed indoors on floors of the building in an inclined position, and in the lower part of the slide they are closed by vertical downpipes, the outlet ends of which are located in a pre-mounted evacuation exit located on the ground. On the floors of the building at the location of the input cylindrical cabins, control elements are installed, including sensor devices, electrical switches and relay equipment, designed to regulate and control the modes of evacuation of people, depending on the emergency situation [patent WO 03097165, publ. November 27, 2003]. The disadvantages of the known evacuation structure are its high cost, complicated and bulky design, cluttering window openings on the facade of the building and preventing their normal operation, the use of combustible materials in the construction of the structure, the location of the input cylindrical cabins in a possible emergency zone inside the building, the risk of collision of people when descending different floors of the building along vertical downpipes due to limited visibility, dependence on power sources, which reduces Nost facility and its safety in ektremalnyh situations.

Also, a system for emergency evacuation from an office building or apartment building is known, which comprises a portable support frame of a rectangular shape installed indoors in a window opening. The supporting frame contains a supporting frame consisting of vertical struts and horizontal upper and lower rungs, where a rotary metal platform is pivotally attached to one of its sides to the lower runner, on the opposite side of which there is a folding enclosing collar. An inlet of a fabric drain pipe is fixed along the perimeter of the frame of the frame, which, in the absence of an evacuation situation in a collapsed state, is located in the inlet of the frame of the frame with the swivel metal platform raised to a vertical position. In the event of an evacuation situation, the swivel metal platform is installed in a horizontal position, the fabric drain pipe is deployed on the site, passed under the raised guard, and lowered from the platform down, where its lower end is mounted on the ground so that the pipe is in an inclined position, after which begins the descent of people [patent DE 10323766, publ. March 17, 2005]. The disadvantages of the known emergency evacuation system are the unreliable fastening of the support frame in the window opening of the building, the use of combustible materials in the manufacture of the system, the inability to determine the location and coordination of people moving down the pipe due to limited visibility, which reduces the reliability of the system and its safety in extreme situations .

As a prototype, a device has been adopted for evacuating people from high-rise buildings of buildings, containing a closed cabin with an entrance for people, mounted on ropes, and electric winches, where the cabin is made in the form of an articulated folding platform consisting of several separate canvases, with an elastic, self-inflatable fence, made of rubber cord and placed along the inner perimeter of the site. In the idle state, the platform when folded is located in the recess of the lower part of the window opening, and telescopic load-bearing elements with a limited power reserve, articulated to the platform, are installed on the sides of the platform, the cables being kinetically connected through blocks installed in the upper part of the window opening to self-braking winches also located at the bottom of the window opening [patent RU 2305577, publ. 09/10/2007]. The disadvantages of the known device are its relatively high cost, the complex design of the site, cluttering the window opening and preventing its normal operation, the use of combustible materials in the manufacture of the device, the insecurity of its elements

and mechanisms from external negative influences during a period of inoperability, a long time for the deployment and preparation of the site, limited space and a small payload on it, reduced due to the placement of ballast on the site, dependence on power sources, which reduces the reliability of the device and its safety in extreme conditions.

The technical problem for which a useful model is proposed is to increase the reliability of evacuation devices and ensure the safety of people when leaving emergency areas, eliminating clutter in window openings that impede their normal operation in the absence of an evacuation situation.

The solution to the technical problem is to increase the strength of the mountings of the site and the rigidity of its design while simplifying it, using relatively inexpensive and fireproof materials in its manufacture, increasing the number of evacuation devices, eliminating the effects of external negative influences on the site, reducing the time for its preparation and deployment, increasing the payload to the site, independence from electricity sources, reducing the length of escape routes from emergency zones, providing an overview of approx driving situation.

The specified technical problem is solved by the proposed device for evacuating people from floors of tall buildings and structures, containing a metal platform suspended on at least two cable rods and hinged along the perimeter, in the absence of an evacuation situation, the area is located on the outer wall of the building at the window the opening, while the cable rods are kinetically connected through blocks installed in a place adjacent to the upper part of the window opening, with self-braking winches, and the hinges of the site are located in a place adjacent to the lower part of the window opening, at least two load-bearing elements mounted on the outer wall of the building are installed on the sides of the site. New is that the platform is made integral with a single frame and flooring, in which at least one light opening with doors is installed, in the absence of an evacuation situation, the platform is located in a position close to vertical with open doors of the light opening and is pulled by cable rods to the outer wall buildings, and in the event of an emergency situation, the platform is fixed with cable rods and load-bearing elements in a position close to horizontal with the doors of the light opening closed. A light opening can be installed in the middle part of the evacuation site, which will simplify the design of the site and unify its dimensions. For daylight to enter the room, it is better if, when the evacuation site is in position,

close to the vertical, the light opening in the site will coincide with the window opening in the outer wall of the building. The dimensions of the light opening of the evacuation area may be equal to the dimensions of the window opening in the outer wall of the building, which will allow opening the sashes and letting the maximum amount of daylight into the room. For the convenience of regulating the flow of daylight, opening and closing the light opening, if necessary, it is better if it is equipped with at least two sliding doors that move along the guides. In the closed position, the doors can be interconnected by at least two bolts with nuts, which will allow them to be combined into a single enclosing structure. To increase the space of the site, it is better if the cable rods are attached at the corners of the suspended side of the site. Cable rods through the blocks can be passed through holes in the outer wall of the building and stored on the drums of winches, which will allow you to adjust the length and tension of the cable rods depending on the position of the evacuation platform. To guide the cable rods through the through hole in the outer wall of the building, it is better if the cable blocks are attached above the window opening to the outer wall of the building from the street and the top of their pulleys coincides with the hole. Cable winches can be attached above the window opening to the outer wall of the building from the premises opposite the cable blocks in such a way that the top of their drums also coincides with the hole, which will allow cable rods to pass through the outer wall without hindrance. For uniform application of torque to the winches, simultaneous movement of the evacuation platform is better if the drums of the cable winches are combined by a common axial shaft. Cable winches can be made with the possibility of using a manual drive, which will allow them to be driven in the event of an emergency blackout. For the perception of the loads acting on the site, it is better if the hinges of the site are located on the side opposite to that suspended on cable rods. The hinges can be installed under the window opening of the outer wall of the building, which makes it easier for evacuated to step over the window unit and window sill. For a more solid framing of the contour of the site, when it is in a horizontal position, it is better if its fence is made of metal, and for an unobstructed and denser attraction of the site to the outer wall of the building when it is raised to a vertical position, it is better if the fence of the site is removable . Bearing elements of the site can be made flexible in the form of chains that will be folded and not interfere with the rise of the site. It is better if the chains are installed in the middle of the sides of the platform, which will allow you to evenly distribute

on the site the loads acting on it. From each side of the platform, cable rods and chains can be installed parallel to each other and are located relative to the platform at an angle close to 45 °, which will equalize the forces acting on them. In the absence of an evacuation situation, it will be rational if the evacuation site will be used as a balcony, which will allow to inspect the site, monitor its condition and maintain it in good condition.

The proposed utility model is illustrated by graphic materials. Figure 1 shows a plan of the evacuation site in a horizontal position, figure 2 shows a longitudinal section of the site in a horizontal position, figure 3 shows a cross section of the site in a horizontal position, figure 4 shows a front view of the evacuation site in a vertical position, 5 shows a local plan of the evacuation site in an upright position.

The utility model is illustrated by an example of a specific implementation.

A device for evacuating people from floors of high-rise buildings and structures contains a steel platform 1 pivotally mounted at a height on the outer wall 2 of the building under the window opening 3. A removable fence 4 made of steel pipe is installed around the perimeter of the platform 1. Site 1 is made integral with a single welded steel frame 5 from the rolling profile, as calculated, and a flooring 6 of sheet steel. In the middle part of the flooring 6, a light opening 7 is made, the dimensions of which are equal to the dimensions of the window opening 3. The light opening 7 is equipped with two sliding doors 8 made of sheet steel, the free edge of which is reinforced with a steel rolling profile 9 with holes for connecting bolts 10 with nuts 11. Sliding doors 8 are moved along two guides 12 made of a corner profile and welded along their length to the deck 6 of platform 1. The platform 1 is suspended on one side by steel hinges 13 welded at the corners with two cable rods 14, and the opposite side is attached using two hinges 15 mounted on the anchors 16, under the window opening 3 of the outer wall 2 of the building. The cable rods 14 attached at the corners of the platform 1 through the blocks 17 are passed through the holes in the outer wall 2 of the building and are stocked with the required rope capacity on the drums of self-braking winches 18. The cable blocks 17 are fixed with anchors 16 above the window opening 3 to the outer wall 2 of the building with side of the street. Cable winches 18 are attached above the window opening 3 to the outer wall 2 of the building from the premises. The drums of the cable winch 18 are combined by a common axial shaft 19. The cable winch 18 is made with the possibility of using manual

drive 20. In the middle of the sides of the platform 1 there are two chain supporting elements 21, which are attached with anchors 16 to the outer wall 2 of the building, while on each side of the platform 1 cable rods 14 and chain supporting elements 21 are installed parallel to each other and located relative to platform 1 at 1 angle of 45 °. In the absence of an evacuation situation, platform 1 is located in an upright position with open doors 8 of the light opening 7 and pulled by cable rods 14 to the outer wall 2 of the building, while the contour of the light opening 7 coincides with the contour of the window opening 3. In the event of an emergency situation, platform 1 is fixed by cable rods 14 and chain supporting elements 21 in a horizontal position with closed doors 8 of the light opening 7. In the absence of an evacuation situation, it is advisable to use an evacuation pad 1 in ETS balcony.

A device for evacuating people from high-rise buildings and structures works as follows. A high-rise building or structure, depending on its purpose, is distributed in advance to evacuation zones in which a certain number of people, including visitors, are planned to be located. In each evacuation zone, under the window openings 3 on the external walls 2, the necessary number of evacuation devices with the dimensions and carrying capacity, determined taking into account the maximum normalized number of evacuated people and their property, is installed. In each evacuation zone, those responsible for monitoring and maintaining the evacuation devices in good condition, as well as those responsible for the evacuation of people and their property in case of an emergency, are appointed. Those in charge periodically undergo the necessary briefing and training on the use of the evacuation device. Self-braking winches 18, cable rods 14, platform 1 and their fastenings also undergo periodic inspections and tests according to existing methods. To increase the effectiveness of evacuation, periodic training alarms are conducted, during which people get acquainted with the evacuation device and acquire skills in its use. In the event of an emergency, the evacuation leaders open the window opening 3 located in the emergency zone, move the extended doors 8 of the light opening 7 in the vertically installed evacuation area 1 and tighten them with two bolts 10 with nuts 11, as a result of which the light opening 7 closes and the flooring 6 of the platform 1 becomes solid. Then the evacuation leaders loosen the locking devices of the self-braking winches 18 and, using the manual drives 20 of the self-braking winches 18, gently lower the platform 1 fixed on the hinges 15 until it assumes a horizontal position, limited

by chain load-bearing elements 21. The lowering of the platform 1 occurs at a speed regulated by the relevant regulatory documents, safety rules and technical specifications of self-braking cable hoists 18. The weakened cable rods 14 are pulled to the required force with the hoists 18 and secured in the tensioned position by their locking devices, after which one of the leaders of the evacuation goes to site 1 and inspects it. Having ascertained that the site 1 is in good working order and that the cable rods 14 are fixed securely, he gives a command to start leaving the emergency zone. On a team, people with property go to platform 1, where they are located until the emergency response by the rescue team indoors, or in an emergency, they descend from platform 1 using the drainage equipment installed outside the earth's surface, which is supposed to be used together with the evacuation device. It is possible to combine the proposed device with other rescue equipment.

Claims (19)

1. A device for evacuating people from floors of high-rise buildings and structures, containing a metal platform suspended on at least two cable rods and hinged along the perimeter, in the absence of an evacuation situation, the area is located on the outer wall of the building at the location of the window opening, the cable rods are kinetically connected through blocks installed in a place adjacent to the upper part of the window opening to self-braking winches, and the hinges of the platform are located in a place adjacent to at least two load-bearing elements mounted on the outer wall of the building are installed to the bottom of the window opening, on the sides of the platform, characterized in that the platform is made integral with a single frame and flooring, in which at least one light opening with doors is installed, in the absence of an evacuation situation, the site is located in a position close to vertical with open doors of the light opening and is pulled by cable rods to the outer wall of the building, and in the event of an emergency situation, the site is behind iksirovana mechanical rope rods and bearing elements in a position close to horizontal, with closed doors light opening. 2. The device according to claim 1, characterized in that the light opening is installed in the middle of the site. 3. The device according to claim 1 or 2, characterized in that when the site is in a position close to vertical, the light opening coincides with the window opening. 4. The device according to claim 2, characterized in that the dimensions of the light opening are equal to the dimensions of the window opening. 5. The device according to claim 2, characterized in that the light opening is equipped with at least two sliding doors moving along the guides. 6. The device according to claim 5, characterized in that in the closed position the doors are interconnected by at least two bolts with nuts. 7. The device according to claim 1, characterized in that the cable rods are attached at the corners of the suspended side of the site. 8. The device according to claim 7, characterized in that the cable rods through the blocks are passed through the holes in the outer wall of the building and are stored on the drums of the winches. 9. The device according to claim 8, characterized in that the cable blocks are attached above the window opening to the outer wall of the building from the street. 10. The device according to claim 8, characterized in that the cable winches are attached above the window opening to the outer wall of the building from the premises. 11. The device according to claim 8, characterized in that the drums of cable winch are combined by a common axial shaft. 12. The device according to claim 8, characterized in that the cable winches are made with the possibility of using a manual drive. 13. The device according to claim 1, characterized in that the hinges of the site are located on the side opposite the suspended on cable rods. 14. The device according to item 13, wherein the hinges are installed under the window opening of the outer wall of the building. 15. The device according to claim 1, characterized in that the fence of the site is made of metal and removable. 16. The device according to claim 1, characterized in that the supporting elements of the site are made in the form of chains. 17. The device according to clause 16, wherein the chains are installed in the middle of the sides of the site. 18. The device according to claim 7 or 16, characterized in that on each side of the platform, cable rods and chains are installed parallel to each other and are located relative to the platform at an angle close to 45 °. 19. The device according to claim 1, characterized in that in the absence of an evacuation situation, it is possible to use an evacuation site as a balcony.