The present invention relates to a building fire safety facility and more particularly to a building fire escape system and a refuge chamber.
Building fire safety is an important issue relating to people's lives and properties, and although regulated and inspected under regulations and rules by governments at all levels, fire disasters still happen sometimes. Particularly, fires that take place at high-rise buildings may cause severe casualties. At the initial moment when a building fire breaks out, within the brief moment before the fire brigade could rush to the scene, it is firstly important to quickly guide the evacuation of the indoor individuals, if the fire cannot be put out by persons onsite, to take refuge waiting for rescue, or to make self-rescue. Unfortunately many casualties take place along the way of escape, due to being obstructed in the fire escape of modern buildings, or being blocked by the fire and poisonous smoke.
In view of the above defects residing in the prior art, the present invention provides, in one respect, a building fire escape system, and in another respect, a building fire refuge chamber, which are provided for individuals to escape quickly from a building or to take temporary refuge waiting for rescue in case of a fire or an earthquake etc. takes place.
The present invention provides a building fire escape system, comprising an auxiliary descending device, which can be used for escapers to quickly descend from the building to evacuate if a fire takes place.
In a further embodiment, the auxiliary descending device enables the escapers to descend with gravity.
In a further embodiment, the auxiliary descending device is a sliding pole.
In a further embodiment, a cushioning device is disposed at the bottom of the sliding pole.
In a further embodiment, the cushioning device is a metal wire mesh affixed to a metal framework.
In a further embodiment, the upper end of the sliding pole is provided with a safety rope and a rope hook.
In another embodiment, the auxiliary descending device is a chute.
In a further embodiment, the chute is spiral shaped.
In a further embodiment, the auxiliary descending device extends straight through along the height direction of the building.
In a further embodiment, the system further comprises at least one refuge chamber, the escaper utilizing the auxiliary descending device to evacuate to the refuge chamber or to evacuate from the refuge chamber. When a fire happens, the escapers quickly evacuate to the closest refuge chamber and leave by quick auxiliary sliding device, and when there is a plurality of refuge chambers, the escapers can transfer to the refuge chambers located on the lower floors to avoid the risk possibly from a long distance of straight downward sliding.
In a further embodiment, the refuge chamber is provided on each floor of the building.
In a further embodiment, the auxiliary descending devices of the two neighboring refuge chambers are staggered in vertical direction, so that the risk of physical collisions is avoided during the escapers' descending process.
In a further embodiment, the refuge chamber is a fireproof spatial structure integrated with the building, the interior of the refuge chamber is divided by a fire partition into a first space and a second space, the first space communicates with the interior space of the building, the second space communicates with the exterior space of the building, the fire partition is provided with a fire door communicating the first space with the second space, any two neighboring refuge chambers are also communicated with each other.
In a further embodiment, the fireproof spatial structure is of a reinforced concrete frame structure or a steel structure.
In a further embodiment, at least a part of the second space is protruding to the outside of the outer wall of the building.
In a further embodiment, an observation window is provided on the fire partition.
In a further embodiment, the first space and the second space are both provided with an air supply pipe and an air exhaust pipe.
In a further embodiment, the first space is provided with a first fire door leading to the interior space of the building, a water curtain is provided above the first fire door.
In a further embodiment, drencher devices are provided inside the first space.
In a further embodiment, a water tank connected to a fire main pipe is provided on the top of the refuge chamber.
In a further embodiment, the water tank is connected to a water outlet pipe having a gate valve, the water outlet pipe being provided with a hydrant connectable with a fire gun hose.
In a further embodiment, any neighboring the refuge chambers are interconnected with each other through an evacuation exit equipped with a fireproof cover plate.
In a further embodiment, the fireproof cover plate is a two-leaf, upwardly flippable steel plate.
The present invention also provides a building having a building fire escape system as mentioned above.
The present invention also provides, in another respect, a building fire refuge chamber, the refuge chamber is a fireproof spatial structure integrated with the building, the interior of the refuge chamber is divided by a fire partition into a first space and a second space, the first space may be communicated with the interior space of the building, the second space may be communicated with the exterior space of the building, the fire partition is provided with a fire door that may connect the first space with the second space.
In a preferred embodiment of the present invention, the fireproof spatial structure is of a reinforced concrete frame structure or a steel structure.
In a further embodiment, at least a part of the second space is protruding to the outside of the outer wall of the building.
In a further embodiment, an observation window is provided on the fire partition.
In a further embodiment, the first space and the second space are both provided with an air supply pipe and an air exhaust pipe.
In a further embodiment, a water tank is provided on the top of the refuge chamber, a water inlet pipe of the water tank being connected to a fire main pipe.
In a further embodiment, the water tank is connected to a water outlet pipe having a gate valve, the water outlet pipe being provided with a hydrant connectable with a fire gun hose.
In a further embodiment, the first space is provided with a first fire door leading to the interior space of the building, a water curtains provided above the first fire door.
In a further embodiment, drencher devices are provided inside the first space.
The present invention also provides a building having a building fire escape system as mentioned above.
The main beneficial effects of the present invention are as follows:
1. The elevator cannot be used during a fire disaster, whereas by utilizing the building fire escape system, those trapped individuals can quickly escape from the building in a speed much quicker than using a fire escape. When there are refuge chambers provided, the escapers can also evacuate to the refuge chambers on the floors that are not affected or minorly affected by the fire, waiting for external rescue, so as to further guarantee the safety of the escapers by providing precious time for rescue.
2. The refuge chamber of the present invention is an independent reinforced concrete frame structure or a steel structure integrated with the building, which is not easily affected by fire behavior of the main body of the building or earthquake etc. resulting in being blocked or destroyed.
3. The refuge chamber of the present invention is provided with a first space for isolation of fire behavior and prevention of toxic gas, and a second space for waiting for external rescue, comprising first grade fire-proof walls, fire doors, fire-proof floors, water curtains, drenchers, and air supply pipes etc., which can greatly avoid and reduce casualties.
In conclusion, the building fire escape system and fire refuge chamber provided by the present invention can effectively reduce casualties in case of a fire takes place in the building.
Hereinafter more detailed description will be made by incorporating figures to illustrate the conception, structure and technical effect of the present invention for a better understanding of the object, features and effects of the present invention.
Moreover, in one embodiment, the system provides refuge chambers on each floor, thus in one respect, the escaper can quickly evacuate to the closest refuge chamber and leave by quick auxiliary descending device; and in another respect, the auxiliary descending devices are staggered in vertical direction, the escapers can transfer between the refuge chambers to reduce the risk from a long distance of straight downward sliding, shown in
In addition, under the circumstances where the building is low-rise or safety can be guaranteed during other quick descending process, the aforementioned auxiliary descending device may also be set up straight throughout the building along the height thereof, shown in
As illustrated in
As illustrated in
As illustrated in
Furthermore, as illustrated in
Then as illustrated in
As illustrated in
The outer column board of the wall of the second space 3 facing the exterior space is painted by spray with white luminous coating to show the number of the corresponding floor. The escape sliding pole 6 is painted by spray with red and white reflective coatings, a section per 300 mm, all gate valves, fire-proof cover plate 22 and pin 26 being painted with red reflective coating, so as to facilitate the escapers to identify under poor lighting conditions.
At the first moment of a fire, indoor persons evacuate into the refuge chamber along the direction of the sign of the building evacuation exit corresponding to the first fire door 8 of the refuge chamber, in the following steps:
1. Turn off the indoor power supply and call 119 or 110 (911 in U.S.); immediately open the first fire door 8 of the entrance of the refuge chamber and the gate valve of the water curtain 13 on the door arch thereof, guiding people quickly entering the refuge chamber in order;
2. If body is with flames, immediately run to the drencher 9 of the first space 2 and turn on the shower head below the drencher to put out the fire;
3. Learn about the situation of the fire via the signal observation window, if the fire source is from inside the room, then quickly transfer to the second space 3 and shut the second fire door 11 of the refuge chamber thereafter. Meanwhile emergently enabling the fire-fighting equipment, and make self-rescue as putting out the fire, waving with a red flag during the day in combination with speakers or knocking drums for help, at night using red emergency lights or light sticks for help.
4. If the fire source is from outside the building, and the second space 3 is affected by the fire, persons should immediately transfer from the first space 2 using escape sliding pole 6 to slide downward. First, open the fire-proof cover plate 22 on the evacuation exit 5, children under 3 years of age are hold by adults to slide down, children of 4 years of age or above slide down under the guidance of adults, the inconvenient elderly should be assisted by healthy individuals with fastening the safety belt being hooked onto the rope hook 21 of the self-winding steel safety rope 20, then slide down along the escape sliding pole 6 to the next lower floor, so on and so forth until reaching a safe floor or the ground.
The refuge chamber is suitable for two or three at most families to use in the view of the plane layout, and is shared by multiple floors to use in the view of elevation layout. public buildings should be set up depending on the flow of people. The evacuation using the escape sliding pole 6 should be properly organized and cooperated, by first taking care of children, the elderly and women in an orderly evacuation.
Preferred embodiments of the present invention have been described above. It should be understood that many modifications and variations can be made by ordinary technician of the field according to conception of present invention without creative labor. Therefore, all the technical schemes obtained through logical analysis, deductions or limited experimentation based on the present invention by technicians of the field are within the scope of the claims.
Number | Date | Country | Kind |
---|---|---|---|
201110036081.7 | Feb 2011 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/CN2012/071087 | 2/13/2012 | WO | 00 | 2/13/2014 |