RU2423591C1 - Safe building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: safe building consists of a reinforced concrete prefabricated monolithic frame with girderless slabs, a glass outer barrier. The outer barrier and the wall form an air heliochamber. The building comprises a cellular system of adjacent air heliochambers arranged outside the building along its perimetre and resting against its own foundation, and also anti-seismic belts at the level of the first floor and at the level of slabs. The first floor is arranged with ramps for entry and exit of vehicles. A stair-elevator unit of the building is equipped with a separate entrance with a ramp access for wheelchairs. The building comprises a special passage for entry and exit of vehicles, which is closed at both sides by automatic gates, arranged near a street entrance into the stair-elevator unit room, equipped with a separate entrance via a separating wall between adjacent premises.

EFFECT: improved safety of people that reside or work in this building.

16 cl, 4 dwg

Description

The invention relates to the construction and can be used in the construction of residential and public buildings.

The construction of the building is known, described in the patent for the invention of Russia No. 2166032, published on April 27, 2001, in which the prestressed reinforced concrete frame of the building, including columns, overlap with channels of variable depth, made along the faces of the columns in mutually perpendicular directions, prestressed reinforcement located in in accordance with the diagram of bending moments in the floor channels and fixed at the ends of the floor around the perimeter of the building frame, and the monolithic concrete, the floor span completed with cast.

The disadvantage of this analogue is the low level of safety of people in the building, in particular, the safety of people in emergency situations is not provided for: directed shot (attempt on life), explosion, fire, flooding of apartments, flooding, ramming the building with vehicles, shutting down heat supply.

The building is described in the article "Prefabricated monolithic multi-storey residential building" authors T. Baranova and others in the magazine "Housing" 1999, No. 2, pp. 16-17. The known design is located on the foundation and rigidly connected with it, bearing a monolithic reinforced concrete frame spatial frame, columns, load-bearing beams and connecting beams of which are located mainly in the planes of the outer and interroom walls, and their orientation is selected taking into account the specific planning solution, and assembled in a fixed factory-made formwork, which is a claydite-concrete shell of a channel profile with an internal insulation layer of expanded polystyrene, at Ohm, floor slabs are prefabricated or monolithic or prefabricated monolithic slabs, and wall elements are made with insulation in the form of a three-layer structure.

The disadvantage of this analogue is the low level of safety of people in the building, in particular, the safety of people in emergency situations is not provided for: directed shot (attempt on life), explosion, fire, flooding of apartments, flooding, ramming the building with vehicles, shutting down heat supply.

The closest analogue selected as a prototype is the building described in the patent for invention No. 2048648 “Building, section of the building (options)”, published on 11/20/1995. The building can be made monolithic or precast-monolithic, at least one block oriented meridionally, consisting of at least two sections and a staircase and / or staircase elevator node, the building structure includes foundations, external and internal longitudinal and transverse walls, floors, with anti-seismic belts, loggias and / or balconies, roof, residential and auxiliary rooms and premises of sanitary units, at least part of the transverse sections of the transverse walls are installed with variable pitch, with a certain the ratio of the bearing transverse walls of the sections, the length of the staircase and elevator unit in the outer axes being equal to the width of the sections, block and building in the outer axes, and at least one section is made of two parts installed in plan at an angle of 90 ° relative to each other with the formation of bearing the longitudinal walls of the sections, wherein each block is composed of two sections with bearing longitudinal and transverse walls, and / or two sections with bearing transverse walls, and / or from one section with bearing longitudinal and transverse walls and one section with esuschimi transverse walls. The basement is made with ramps for the entry and exit of vehicles and exit from the elevator shaft. The building is equipped with solar collectors and solar energy batteries.

The disadvantage of this analogue is the low level of safety of people in the building, in particular, the safety of people in emergency situations is not provided for: directed shot, attempted death, explosion, fire, flooding of apartments, flooding, ramming the building with vehicles, shutting down heat supply.

The technical task of the invention is to eliminate this drawback, namely improving the safety of people living or working in this building in emergency situations by neutralizing the effects of hazard factors.

The technical result of the claimed invention is achieved by the fact that the safe building contains a reinforced concrete precast-monolithic frame with bezel-less floors, oriented in the meridional direction, walls that are internal fencing and solar energy receivers and heat accumulators, an external glass fencing, while the glass fencing and the wall form an air solar camera, a cellular system of adjacent air solar cameras located outside the building around the entire perimeter and based on their own the foundation, anti-seismic belts at the level of the first floor and at the level of the ceilings, the first floor is made with ramps for the entry and exit of vehicles, the staircase and elevator unit is equipped with a separate entrance with a ramp for wheelchairs, according to the invention, the building on the first floor contains a special passage for the entrance and exit of vehicles, closed on both sides by an automatic gate, located next to the street entrance to the staircase and elevator unit, equipped with a separate entrance through a separation wall between adjacent rooms, while the special passage may contain automatic entry and exit barriers, the walls of the building can be made of light and easily destructible materials, while they can be made monolithic, the height of the first floor can be at least 5 meters, the height of the second and subsequent floors can be at least 3 meters, energy communications (pipes) laid below the mark of ± 0.00 can be laid in channels closed by removable covers that are located at floor level on the first floor, the main channel runs along the central longitudinal axis of the building and has a slope to the south, and the side channels are perpendicular to the main, communicate with it and have a slope in its direction, the floor level of the first floor can be located at least 0 above the blind area, 5 meters, may contain reinforced concrete monolithic fence along the entire perimeter of the building with a height of at least 1 meter and a thickness of at least 0.5 meters, which is part of the outer wall of the building, as well as an antiseismic belt on the first floor, the thickness of the concrete protective layer flush-free interfloor ceilings can be at least 20 mm, flare-free interfloor ceilings can contain water outlets, such as a “gangway”, in each apartment with a discharge into the sewer, the external fence (coating) can be made of glass, glued with transparent film on both sides, the building may contain an autonomous heat supply system with natural coolant circulation, which is able to function during an emergency power outage, the roof of the attached boiler system of autonomous heat supply tions may be made of lightweight and easily breakable material, which in case of explosion in the boiler will work as an explosive valve overlap on the upper deck may be disposed helipad, from room staircase-elevator assembly in the attic may be carried out at a heliport.

Due to the fact that the safe building on the ground floor contains a special passage for the entry and exit of vehicles, closed on both sides by an automatic gate, located next to the street entrance to the staircase and elevator unit, equipped with a separate entrance through the dividing wall between adjacent rooms, while special passage may contain automatic entry and exit barriers, the walls of the building can be made of light and easily destructible materials, while they can be made monolithic mi, the height of the first floor can be at least 5 meters, the height of the second and subsequent floors can be at least 3 meters, energy communications (pipes) laid below the mark of ± 0.00 can be laid in channels closed by removable covers that are located at floor level on the first floor, the main channel runs along the central longitudinal axis of the building and has a slope to the south, and the side channels are perpendicular to the main, communicate with it and have a slope in its direction, the floor level of the first floor can be located above the level The blind area of at least 0.5 meters may contain reinforced concrete monolithic fencing along the entire perimeter of the building with a height of at least 1 meter and a thickness of at least 0.5 meters, which is part of the outer wall of the building, as well as an antiseismic belt on the first floor, the thickness of the protective layer concrete, bezel-less floors can be at least 20 mm, bezel-less floors can contain water outlets, such as a “gangway”, in each apartment with a discharge into the sewer, the outer fence (coating) can be made of glass with the side of the sides covered with a transparent film, the building may contain an autonomous heat supply system with natural coolant circulation, which is able to function during an emergency power outage, the roof of the attached autonomous heat supply boiler system can be made of light and easily destructible materials, which in the event of an explosion in the boiler room will work as an explosive valve, on the ceiling of the upper floor a helipad can be located, from the premises of the staircase-elevator unit to the attic It may not be possible to enter the helipad; the level of safety of people living or working in the building in emergency situations will be increased.

Thus, the combination of the claimed features allowed to increase the level of safety of people living or working in the building in emergency situations.

The inventive safe building has novelty, differing from the prototype of the above features, and ensures the achievement of the technical result perceived by the applicant.

The claimed safe building can find wide application in the development of settlements, therefore, meets the criterion of "industrial applicability".

The essence of a safe building is illustrated by drawings, which show:

figure 1 is a longitudinal section of a safe building;

figure 2 is a cross section of a safe building;

figure 3 is a stepped section of a safe building in the horizon;

in Fig: 4 is a local section of a safe building.

The safe building consists of a reinforced concrete prefabricated-monolithic frame 1 with beam-free floors between floors 2, an external fence (cover) 3 of glass, the roof of the building 4, loggias 5 with heat sinks 6, ramps 7 for the entry and exit of vehicles, a staircase and elevator node 8. The building contains a special passage 9 for vehicles, which is closed on both sides by an automatic gate 10. The staircase and elevator assembly 8 has an entrance 11 from the street and a separate entrance 12 through the partition wall 13 from the special passage 9. Special zd 9 can be equipped with automatic barriers 14. The inner walls 15 of the building are made of lightweight and easily breakable material, such as foam and gas-filled. Power communication pipes 16 are laid below ± 0.00 in the channels 17 closed by removable covers 18 (in the example, the main channel runs along the central axis of the building and has a slope to the south, and the side channels are perpendicular to the main one, communicate with it and have a slope in it side). Floor level 19 of the first floor is located above the level of the blind area 20 by at least 0.5 meters. The building contains a reinforced concrete fence 21 around the entire perimeter of the building with a height of at least 1 meter and a thickness of at least 0.5 meters. The thickness of the protective layer 22 of concrete bezbalkochny floors 2 buildings is at least 20 mm Beam-to-ceiling floors 2 contain special water outlets 23, such as a “gangway”, in each apartment with a discharge into the sewer 24. The external fence (coating) 3 is made of glass, like the roof of a building 4 (in the example of execution made of glass), it can be glued on both sides with a transparent film 25. The autonomous heat supply system 26 in the drawings is shown in the form of pipes and a boiler room, which contains a roof 27 made of light and easily destroyed materials. The building contains a helipad 28 on the ceiling 29 of the upper floor, while from the elevator building 30 in the attic there is an exit 31 to the helipad 28.

Safe building works as follows. The safe building contains a particularly strong reinforced concrete precast-monolithic frame with bezel-less floor floors oriented in the meridional direction, which increases the efficiency of using solar energy, walls that are internal fencing and solar energy receivers and heat accumulators, contain an external glass fencing, while the glass fencing and the wall forms an air solar chamber, the building contains a cellular system of adjacent air solar cells located outside the building throughout perimeter and relying on their own foundation, this ensures a reduction in operating costs for heating the building (energy security), contains anti-seismic belts at the level of the first floor (especially strong monolithic reinforced concrete fence around the perimeter of the building) and at the level of ceilings (bezel-less floor has powerful reinforcement and is anti-seismic belt), the first floor is made with ramps for the entry and exit of vehicles, a staircase and elevator unit, equipped with a separate entrance with a ramp odezdom for wheelchairs. The building contains a special passage for the entry and exit of vehicles, closed on both sides by an automatic gate, located next to the street entrance to the staircase and elevator unit through the dividing wall by adjacent rooms, a special passage and a separate entrance from it to the staircase and elevator unit provide hidden the entrance to the building, and this protects people from a directed shot (attempt at life), a special passage may contain automatic barriers at the entrance and exit, which protects against unauthorized entry into a special passage, which means it increases the level of security for people living or working in the building, the internal fences of the building’s walls are made of light and easily destructible materials, such as foamed and gas-filled (foam blocks), which ensures almost free propagation of the shock air wave that forms when explosion inside the building, as a result of the destructive effect of the wave quickly decreases, the internal fences (walls) of the building made of light and easily destructible m materials can be made monolithic, which will reduce the building cost of the building, the height of the first floor of the building should be at least 5 meters, and the height of the second and subsequent floors at least 3 meters, this design of the building increases the freedom for the propagation of the shock air wave that occurs during the explosion inside the building, the height of the first floor is assumed to be significantly higher than the height of the second floor and the subsequent ones, since it is easier to penetrate the premises of the first floor and the probability of an explosion on the first floor is correspondingly higher, energy communications (pipes) laid below the zero mark are laid in channels (trays) that are closed on top with removable covers that are located on the floor level of the first floor, the main channel runs along the central longitudinal axis of the building and has a slope to the south, and the side channels are perpendicular to the main , communicate with him and have a bias in his direction, this allows you to build a building without basements, which greatly reduces the construction cost of the building and increases the safety of the building, since the basement is from It’s a prominent place for laying explosives, and there is a high likelihood of flooding the basement during floods, the floor level of the first floor (level ± 0.00) is located at least 0.5 meters above the level of the mark, which increases the building’s safety during floods and during terrorist attacks made by hitting (ramming) the building with vehicles, the ground floor floor located at least 0.5 meters above the mark will be dry and warm, and this is part of energy security, the building contains a reinforced concrete monolith The fencing along the entire perimeter of the building with a height of at least 1 meter and a thickness of at least 0.5 meters, which is part of the outer wall, as well as the anti-seismic belt of the first floor, is the protection of the building from ramming the outer walls by vehicles, the floor level of the first floor, adopted above a level mark of not less than 0.5 meters, creates a structure due to which the above-mentioned fence is significantly strengthened due to the floor of the first floor, the thickness of the concrete protective layer of bezel-free floors is accepted 20 mm, This is a protection against the catastrophic consequences of a fire, the temperature of which reaches 800-1000 ° С, an increase in the thickness of the concrete protective layer of bezel-free floor slabs up to 20 mm ensures the preservation of the bearing capacity of the bezel-free floor slabs reinforcement, bezelless floor slabs contain water outlets, such as “gangways”, in each apartment with a discharge into the sewer, which is the protection of the apartment from flooding with water, the outer fence (coating) of the building is made of glass, glued on two sides with transparent This means that it protects people from being damaged by glass fragments when it breaks, and also reduces heat loss, since the film is a thermal insulation of the glass, and the glass is heated in a special way due to solar energy, the building contains an autonomous heat supply system with natural coolant circulation , which is able to function during an emergency power outage, which is part of the energy security of the building, the roof of the attached boiler system of autonomous heat supply from light and easily destructible materials, such as foamed and gas-filled, which in the event of an explosion in the boiler room will work as an explosive valve, this increases the reliability of the autonomous heat supply system and the safety of the building as a whole, the building contains a helipad located on the ceiling of the upper floor, and in the attic of the elevator the premises have a separate exit to the helipad, this provides the opportunity to evacuate people in case of fire, as well as the arrival of doctors, rescuers and other specialists who can azat emergency assistance in the future air transport will be the standard solution for the city.

The claimed safe building is characterized by increased safety of people living or working in the building, due to the fact that the safe building on the ground floor contains special access for vehicles to enter and exit, closed on both sides by an automatic gate, located next to the street entrance to the staircase-elevator building a node equipped with a separate entrance through the separation wall between adjacent rooms, while the special passage may contain automatic barriers at the entrance and exit, the walls of the building can be made of light and easily destructible materials, while they can be made monolithic, the height of the first floor can be at least 5 meters, the height of the second and subsequent floors can be at least 3 meters, power lines (pipes) laid below the mark ± 0, 00, can be laid in channels closed by removable covers, which are located on the floor level of the first floor; the main channel runs along the central longitudinal axis of the building and has a slope to the south, and the side channels are perpendicular to the main channel, communicate with it and have a slope to its side, the floor level of the first floor can be located at least 0.5 meters above the blind area, may contain reinforced concrete monolithic fencing along the entire perimeter of the building with a height of at least 1 meter and a thickness of at least 0.5 meters, which is part of the exterior wall of the building, as well as an anti-seismic belt on the first floor, the thickness of the concrete protective layer is beam-free between flooring can be at least 20 mm, flush-mounted flooring can contain water outlets, such as “gangway”, in each apartment with a discharge into the sewer, the external fence (coating) can be made of glass, glued with transparent film on both sides, the building can contain an autonomous heat supply system with natural coolant circulation, which is able to function during an emergency power outage, the roof of the attached boiler system of autonomous heat supply can be in polyene from light and easily breakable material, which in case of explosion in the boiler will work as an explosive valve overlap on the upper deck may be disposed helipad, from room staircase-elevator assembly in the attic may be carried out at a heliport.

SPECIFICATION of building elements of a safe building

Item No. Name of elements Note one Reinforced concrete precast-monolithic frame especially strong from concrete of brand 800 (1000) 2 Bezel-less flooring particularly strong concrete grade 800 (1000) 3 External fence (covering) of the building glass plus metal four Building roof glass plus metal 5 Loggia (heliocamera), a cellular circuit along the perimeter glazing + heat sinks 6 The heat sink, which is also the heat accumulator of solar energy sheet metal concrete panel 7 Ramp for car entry and exit reinforced concrete 8 Stairlift Assembly entrance hall 9 Special entry and exit vehicles for hidden entrance to the staircase 10 Automatic gates secrecy eleven Entrance to the staircase and elevator unit entrance to the street 12 Entrance to the entrance from a special driveway special entrance to the entrance 13 Separation wall between the special passage and the staircase and elevator assembly wall between adjacent rooms fourteen Automatic barrier at the entrance and exit from the passage vehicle protection against ramming fifteen Internal fences (walls) of the building made of light and easily destructible materials (foamy, gas-filled) in case of explosion, the walls work like an explosive valve (foam blocks or monolithic) 16 Power communication pipes laid below ± 0.00 laid in canals to discard the basement 17 Pipe channel channel (tray) typical eighteen Removable channel covers metal covers 19 Floor of the first floor, (mark ± 0,00)
The floor level is located at least 0.5 meters above the blind area increasing the floor level by 0.5 m strengthens the fence 21, and it also protects against floods twenty The blind area of the building (typical device) concrete 21 A reinforced concrete fence with a height of at least 1 meter and a thickness of at least 0.5 meters is an anti-seismic belt on the first floor protection of external walls from ramming by vehicles 22 The protective layer of concrete without beams is at least 20 mm fire protection, withstand temperatures of 800-1000 ° C 23 Water outlets of the “gangway” type with discharge of water into the sewer flood protection 24 Sewerage, fecal sewage riser in each apartment emergency water discharge 25 Transparent film for gluing glass on both sides (reducing heat loss and ensuring the safety of people) protection of people from damage by glass fragments when it is destroyed 26 Autonomous heat supply system with natural coolant circulation, which is able to function in case of emergency power outage protection of people living or working in this building during emergency blackouts 27 The roof of the attached boiler room is made of light and easily destructible materials, which in the event of explosion will work like an explosive valve protection against gas explosions; light and easily destructible - these are foamy gas-filled materials 28 Helipad located on the upper floor emergency evacuation 29th Overlapping the top floor reinforced floor thirty Lift room in the attic typical closure 31 Access to the helipad in the future, air transport will become a standard solution for the city

Claims (16)

1. A safe building containing a reinforced concrete precast-monolithic frame with beam-free floors, oriented in the meridional direction, walls that are internal fencing, and receivers of solar energy, and heat accumulators, an external fencing of glass, while the glass fencing and the wall form an air solar camera , contains a cellular system of adjacent solar aerial cameras located outside the building around the perimeter and based on its own foundation, antiseismic belts at the level of the ground floor and at the level of ceilings, the first floor is made with ramps for the entry and exit of vehicles, the staircase and elevator node is equipped with a separate entrance with a ramp for wheelchairs, characterized in that it contains a special passage for the entry and exit of vehicles, closed on both sides with automatic gates, located next to the street entrance to the staircase and elevator unit, equipped with a separate entrance through the dividing wall between adjacent rooms. 2. The safe building according to claim 1, characterized in that the special passage contains automatic barriers to entry and exit. 3. The safe building according to claim 1, characterized in that the internal fences (walls) of the building are made of light and easily destroyed materials. 4. Safe building according to claims 1 and 3, characterized in that the internal fencing (walls) of the building are made of light and easily destructible materials, made of monolithic. 5. The safe building according to claim 1, characterized in that the height of the first floor is at least 5 m. 6. The safe building according to claim 1, characterized in that the height of the second and subsequent floors is at least 3 m. 7. The safe building according to claim 1, characterized in that the energy communications (pipes) laid below the mark of ± 0.00 are laid in the channels closed by removable covers, which are located on the floor level of the first floor; the main channel runs along the central longitudinal axis of the building and has a slope to the south, and the side channels are perpendicular to the main channel, communicate with it and have a slope in its direction. 8. The safe building according to claim 1, characterized in that the floor level of the first floor (elevation ± 0.00) is located at least 0.5 m above the blind area. 9. A safe building according to claims 1 and 7, characterized in that it contains a reinforced concrete monolithic fence around the entire perimeter of the building, at least 1 m from the blind area and at least 0.5 m thick, which is part of the outer wall, as well as the antiseismic belt of the first floors. 10. The safe building according to claim 1, characterized in that the thickness of the protective layer of concrete of the bezel-less floors is at least 20 mm. 11. The safe building according to claim 1, characterized in that the bezel-less floor floors contain water outlets, such as a “gangway”, in each apartment with a discharge into the sewer. 12. A safe building according to claim 1, characterized in that the external fence (coating) is made of glass, glued with a transparent film on both sides. 13. The safe building according to claim 1, characterized in that it contains an autonomous heat supply system with natural coolant circulation, which is capable of functioning during an emergency power outage. 14. Safe building according to claims 1 and 13, characterized in that the roof of the attached boiler room is made of light and easily destructible materials, which in the event of an explosion in the boiler room will work as an explosive valve. 15. The safe building according to claim 1, characterized in that it contains a helipad located on the ceiling of the upper floor. 16. Safe building according to claims 1 and 14, characterized in that the attic from the elevator has a separate exit to the helipad.

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