KR20110003170A - Building fire fighting cooler system - Google Patents

Abstract

PURPOSE: A fire fighting cooler system for extinguishing building fire is provided, which prevents fire from spreading to a neighboring building and secures a fire suppression route. CONSTITUTION: A fire fighting cooler system for extinguishing building fire comprises: an injection body(20) which is inserted into a hole formed in a fixed body(10) and in which a fire-extinguishing water passage is formed; and a fixing member(25) which is combined with an inner end exposed to an indoor place of the injection body and supports the injection body to be fixed the hole of the fixed body.

Description

Building fire fighting cooler system

The present invention relates to a fire fighting cooler system for building fire suppression, and more particularly, to a fire fighting cooler system for building fire suppression that can help to quickly suppress the initial fire in the event of a building fire.

In general, in the case of a building such as an apartment or a building, it is true that there is a difficulty in emergency evacuation or rescue activities, and in case of fire, emergency evacuation or rescue activities may lead to large casualties. Therefore, the initial suppression of the fire is very important in the event of an emergency in which the fire occurs in the building, and it can be said that minimizing the occurrence of large-scale human injury or other damage depending on the initial extinguishment of the fire.

However, there is no system to help the initial suppression of the building itself in the event of a fire, so in the event of an unexpected fire, it is almost totally dependent on external rescue activities such as fire departments or 119 rescue teams. In other words, if there is a fire in a building, stairs and elevators are damaged by flames and lose their function at any time. Therefore, it is best to occupy a building's interior and wait until there is a separate structure from the outside. The doors and stairs upstairs are exposed to open flames and are completely trapped in their own homes.They are even more difficult to ask for help through the veranda windows or to jump out of the windows in defenseless cases. There is no choice but to be.

Therefore, even if a fire occurs, it is possible to minimize the occurrence of the above situation if the initial fire can be quickly suppressed, and in this respect, the initial suppression of the fire may be very important.

As shown by the fire accident reported through the media, the early evolution is very important in case of fire, and when entering the building for fire extinguishing of the building, it may be exposed to the risk of secondary accidents. In the case of fire in dense buildings such as officetels and test houses and in narrow evacuation spaces, the entry and rescue of firefighting is more difficult and limiting.In addition, the unfortunate situation of the firefighting firefighters' accidents and property damages is increasing. It is. Moreover, in the case of multi-family houses, multi-family houses, and private houses (rows, multi-family houses) such as apartments, even the entry of the fire site is difficult and the entry into the site is difficult.

On the other hand, there have been many ideas of using a hose with low pressure or connecting a hose by making a hole in a long pipe which is not suitable for a door. However, when using a household hose, the extinguishing water injection pressure is low, so it is insufficient for sufficient extinguishing. If the hole is connected to the hose and the hose is too time-consuming, the purpose of extinguishing the initial fire cannot be achieved. For example, when ignited inside a container box, the fire extinguishing water does not enter the container box, so only water is sprayed from the outside and waits for all to burn out.

The present invention is to solve the above problems, the object of the present invention can make a significant contribution to the rapid initial evolution in the event of a building fire, block the internal fire extinguishing and the spread of fire to neighboring buildings, evacuation of fire and fire fighting It is to provide a fire fighting cooler system for extinguishing a building fire that can play a role in securing a furnace.

According to the present invention for solving the above problems, it is inserted into the hole 12 formed in the fixed object 10 forming the main part of the building is installed inside the digestive water passage communicating with the inner and outer ends is formed and the outdoor of the building The outer end exposed to the injection body 20 is provided with a hose connecting portion 26, the injection body 20 is coupled to the inner end exposed to the building interior of the injection body 20 to the fixed body 10 Provided is a fire fighting cooler system for building fire suppression, characterized in that it comprises a fixing member (25) fixed to the hole (12).

According to the present invention can be provided a fire fighting cooler system for building fire suppression having the following effects.

(1) It can be installed easily regardless of installation place such as fire door, steel front door and building wall.

(2) Due to the revision of the fire law, the application of fire doors is mandatory. However, since the cost of installation is not high, the cost burden is small.

(3) It is possible to prevent the spread of fire not only at the site of fire but also to other areas than the site of fire, which means that the cost of personal investment can be reduced and social efficiency can be expected.

(4) It is possible to quickly and easily extinguish the fire by installing it easily in all buildings where fire hydrants are installed.

(5) After the fire is reported, the initial fire extinguishing is carried out before the arrival of the firefighters and the entrance to the fire site is easily accessible, thus reducing the risk of secondary accidents and maximizing the overall fire extinguishing efficiency.

(6) It can greatly contribute to the construction of fire protection systems such as container doors, sandwich panel buildings, warehouses as well as fire doors.

(7) Low-cost, high-efficiency, indirect facilities can be secured, and productive items can activate relevant industries and contribute to the national economy.

(8) Since the injection nut, which is the main part, is to be inserted into the entrance door of the existing building and the like, and then the fastening type is fastened to the fixing member, the installation nut can be easily installed in the door of the reference building.

(9) The anticipated effects of fire screening and fire protection on complementary fire fighting facilities can be expected.

(10) There may be an alternative to accessing by rope when there is no entry window or when entering small and high-rise buildings.

(11) In the event of a fire, rapid extinguishing of the extinguishing water of the extinguishing water can reduce the damage of life and evacuate to the front door, maintain the strong pressure of the extinguishing water sprayed from the fire hose, and extinguish the fire by the same pressure.

As a result, the present invention is a system that maximizes aesthetics, production, cost, and practicality, with little protrusion on doors and walls, and is very simple to install and use. It is a useful system that prevents fire in the fire and exerts the full effect during the time when the fire is reported.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a view showing the interior and exterior of the door is a fixed object to which the present invention is installed, Figure 2 is a side cross-sectional view showing the structure and the installed state of the present invention, Figure 3 is a side cross-sectional view showing the structure of the injection filter is the main part of the present invention Figure 4 is a front view of Figure 3, Figure 5 is a side cross-sectional view showing a state of use of the present invention, Figure 6 is a side cross-sectional view showing the structure and installed state of another embodiment of the present invention. Referring to this, the present invention is inserted into the hole 12 formed in the fixed object 10 (for example, a fire door, a steel front door, a wall, etc.) constituting the main part of the building and installed inside the fire extinguishing communicated to the inner and outer ends An injection body 20 having a water passage formed therein and exposed to the outside of the building is coupled to an injection body 20 having a hose connection portion 26 and an inner end of the injection body 20 exposed to the interior of the building. It is a fire fighting cooler system for building fire suppression comprising a fixing member (25) for fixing to the hole 12 of the fixed object (10). In Figure 1 (a) shows the door outdoor side and (b) shows the door interior side.

The injection body 20 is configured in a circular tube shape having a digestive water passage communicating from the outer end to the inner end therein. A locking step 22 extending radially outward is formed at the outer end of the injection body 20 that is exposed to the building outdoors, and a coupling part 20a is formed on the outer peripheral side of the injection end of the injection body 20 that is exposed to the interior of the building. Is formed, the injection body 20 is inserted into the hole 12 of the fixed object 10 forming the main part of the building, the fixing member 25 to the engaging portion 20 of the inner peripheral side side of the injection body 20 By combining), the locking step 22 and the fixing member 25 of the injection body 20 is supported on the outdoor side and the indoor side of the fixed object 10 to fix the injection body 20 to the fixed object 10, That is, it can be fixed to a fire door, a steel front door, a wall, and the like.

At this time, the fixing member 25 may have a nut structure that is screwed to the outer peripheral surface of the end side exposed to the interior of the injection body 20. That is, the coupling part 20a of the inner end side outer circumferential surface of the injection body 20 into the room is made of a screw part, and the fixing member 25 is attached to the threaded coupling part 20a of the inner end of the injection body 20. By coupling the nut, the outer end side of the injection body 20 is supported on the fixed object 10 by the locking step 22, while the inner end side of the injection body 20 by the fixing member 25 Since it is supported by the to-be-fixed object 10, the injection body 20 can be firmly fixed to the to-be-fixed object 10.

In addition, the fixing member 25 may be coupled to the injection body 20 by a riveting method in addition to the screw-coupled nut structure, and when the riveting method or the like is adopted, the fixing member 25 may be simply installed. have. In addition, it is noted that a fastening method that can couple the fixing member 25 with the injection body 20 more simply can adopt a general-purpose method.

A separate injection filter 30 is provided at the inner end exposed to the interior of the injection body 20. The injection filter 30 is configured in a disk shape when viewed from the front. The injection filter 30 has a plurality of fire extinguishing water injection holes 32 are formed in the radial direction with respect to the center, and the front surface of the fire extinguishing water injection hole 32 has both ends in the longitudinal direction integrated with the injection filter 30 itself. Covered by the injection guide piece 34, the digestion water injection hole 32 is in communication with both sides of the injection guide piece 34. The injection filter 30 is configured in a cap shape having a side wall portion at the outer periphery, so that the cap-shaped injection filter 30 can be fitted to the inner end of the injection body 20 by fitting. Preferably, a screw portion is formed on the inner circumferential surface of the side wall portion of the injection filter 30 so that the side wall portion of the injection filter 20 is screwed to the threaded portion 20a of the inner circumferential surface of the injection body 20.

The injection body 20 has a circular tube shape having a digestive water passage formed therein, and a locking step 22 extending radially outward is formed at an outer end of the injection body 20 exposed to the building outdoors. The outer circumferential surface of the locking step jaw 22 is formed with a threaded portion 22a, and the outer cover 50 is screwed to the threaded portion 22a of the locking step jaw 22 at an outer end of the injection body 20. Is further provided. On the back of the outer cover 50, an annular engagement fixing portion protrudes, and a threaded portion (not shown) is formed on an inner circumferential surface of the annular engagement fixing portion, such that the engagement fixing portion on the back of the outside cover 50 is injected into the injection body ( The outer cover 50 can be coupled to the outer end of the injection body 20 by screwing the screw rotationally to the threaded portion 22a of the flange-shaped engaging step 22 of the flange 20. That is, by coupling the rectangular outer cover 50 to the outer end of the injection body 20 in a rotational manner it is possible to prevent the end exposed to the outside of the injection body 20.

In other words, the outer cover 50 is an outer cover member that takes into account the external exposure and aesthetics in general, and is assembled with the outer end side threaded portion 22a of the injection body 20. The outside cover 50 is closed after the Teflon treatment for rapid separation in the event of fire.

In addition, the name plate 70 of each household or office was glued or bolted to the outside cover 50 in front. When installing the name plate 70, considering the same aesthetics as the appearance of the existing door (for example, the front door), and considered a function to easily remove the outer cover 50 in case of fire.

The inner cover 40 of the injection body 20 protrudes into the building interior is further provided with an inner cover 40 of the opening. Specifically, the inside cover 40 is installed at the end of the fixing member 25 for fixing the injection body 20 to the fixed object 10 such as a fire door. Inside cover 40 installation method may be used to form a locking portion on the back surface of the inside cover 40, such a one-touch coupling to the locking groove formed at the end of the fixing member 25, the inside cover 40 It is also possible to use a method of installing the upper end portion of the hinge to the fixing member 25 by the upper and lower pivots. While the inner cover 40 normally blocks the inner end side of the injection body 20 while being coupled to be easily opened by the pressure of the extinguishing water 6 injected from the extinguishing water passage of the injection body 20, I can employ them all.

The present invention of such a configuration, including a fire door, regardless of its thickness can be installed in any place where the internal fire is required to cause a fire. Depending on the type of the injection filter (30) to pour water in the installation in consideration of the conditions of the site will be different from the injection water stream and type.

Outline of the installation method of the present invention, all front doors. In particular, the hole 12 is inserted and the injection body 20 is inserted in the same manner as the handle is installed at the same position as the height of the person in the main entrance (fire door, panel, etc.) of the underground business and the small window outside the building.

Subsequently, when the nut-shaped fixing member 25 is fixed to the threaded portion 20a formed on the inner peripheral side outer circumferential surface of the injection body 20 in the room, the installation of the main part is completed. On the other hand, the internal and external fastening screws have a structure that is tightened more and more when trying to loosen by turning from either side with the left and right screws. Specifically, the inner end side outer circumferential surface of the injection body 20 exposed to the building interior side of the injection body 20 is a right-handed screw thread 22a formed on the outer circumferential surface of the flange-shaped locking step 22 exposed to the building exterior. When the threaded portion 20a of the screw is left-handed, the nut-type fixing member 25 is tightened more firmly even when the outside cover 50 is screwed out of the outdoor, and thus, the present invention is endlessly endless. It is impossible to remove the present invention, and in the case where the present invention is to be separated, the nut-type fixing member 25 may be loosened indoors while the outside cover 50 is held on the outdoor side.

At this time, the internal diameter of the digestive tract passage of the injection body 20 is made of the same value as the inner diameter of the connecting portion of the fire hose 2, the pressure and quantity of the extinguishing water 6 injected from the fire hose 2 is sprayed the same. The screw of the hose coupling part 24 which is connected to the fire hydrant or the fire hose 2 at the outside of the injection body 20 is equal to about 10 mm of thread (3 threads) depth which can be a quick coupling of the fire hose 2. . The hose may be slightly twisted when connecting the hose, but this twist is leap, and if there is a twisting problem, if the coupler (4) of the relative slide rotation structure is adopted, the twisting of the fire hose (2) can be prevented and the quick connection can compensate for the problem. have. The coupler (4) of the relative slice rotation structure is composed of two relatively rotated first tube and the second tube, so that the first tube and the second tube is connected to the two divided fire hose (2), respectively, Two pipes are connected to the end of the fire hose (2) side is connected to the connection socket to be connected to the hose coupling portion of the injection body 20 of the present invention. The coupler 4 of the relative slide rotation structure which prevents this fire hose 2 from being twisted can employ | adopt other well-known means.

According to the present invention having such a configuration, the outer end side of the injection body 20 exposed to the outside is blocked by the outside cover 50, while the portion protruding into the interior of the injection body 20 is the inside cover 40. Blocked by).

When a fire occurs, the outer cover 50 is removed from the injection body 20, and then the fire hose 2 is connected to the hose connection part of the injection body 20, and when the extinguishing water 6 is sprayed, the injection body Since the extinguishing water 6 is sprayed to the ignition point of the building interior at a proper pressure and amount through the extinguishing water passage of the 20 and the extinguishing water injection hole 32 of the spraying filter 30, the fire is easily and early. You can fight quickly. On the other hand, since the injection filter 30 is configured in the direction of the comb pattern or various forms during press molding, the extinguishing water 6 is spread as wide as possible to the ignition point, it is possible to further increase the extinguishing efficiency.

At this time, the present invention is divided into A type and B type according to the structure of the injection portion of the extinguishing water 6 which plays a key role in premature fire suppression. Type A is to employ the injection filter 30, this type A is a fixed spray type component suitable for a simple office or a small space that is not complicated, the spray is sprayed to a predetermined scale in the range of the fire hydrant or fire engine spraying pressure It is a fixed type, and the injection amount and the injection angle, the shape and the like in the direction or various forms of the comb pattern during press molding can be adjusted. This type A has an advantage that can be installed even if the thickness of the installation door or wall is 1mm, for example, can be installed in the subway.

On the other hand, type B is a system in which the function of the injection pipe window 60 is added. That is, type B is that the injection pipe window 60 is further provided in the digestive water passage in the injection body 20, the injection pipe window 60 is facing the inner end of the injection body 20 of the injection pipe window 60 A sealing pad for blocking the digestion water passage of the injection body 20 at the end is provided so as to be able to move back and forth, and may have a structure having a return means such as a spring for returning the sealing pad to its original position when the injection of the digestion water 6 stops.

According to the present invention (type B) having such a configuration, when the fire hose 2 is connected to the injection body 20 during a fire, a sealing pad constituting the nozzle portion of the injection pipe window 60 is applied to the injection pressure of the extinguishing water 6. By pushing forward by opening the digestive water passage of the injection body 20, it is possible to spray the extinguishing water (6) to the ignition point of the building indoors, while the disconnection of the fire hose (2) to the return means such as spring Due to the elastic restoring force, the sealing pad portion of the injection pipe window 60 returns to its original position and closes the digestive water passage of the injection body 20 again. In addition, when the extinguishing water passage of the injection body 20 is opened by the pressure of the extinguishing water 6 and the extinguishing water 6 is blocked, the injection pipe window 60 which closes the extinguishing water passage of the injection body 20 again. A well-known thing can be employ | adopted.

In the B type of the present invention, it is possible to secure a certain dimension of the thickness of the door that is installed as a part having a function of spraying, spraying, and direct weaving. This is because parts such as injection nozzles of the injection pipe window 60 are installed inside according to sizes. If the external design is not taken into consideration, the structure in which the injection pipe windows 60 are inserted one by one may be assumed.

At this time, the size of the injection body 20 can be adjusted according to the thickness of the installation door or wall, and the type B of the injection pipe 60 type requires an installation thickness rather than the A type, but the thickness of the current fire door is about 40 mm. The thinner the injector parts, the thinner the building can be installed.

Therefore, the present invention was developed in consideration of the fact that the initial evolution is very important in the event of a fire, it is possible to spray the fire extinguishing water 6 to the ignition point by quickly connecting the fire hose (2) in the event of a fire in the building, It is very useful for the rapid initial extinguishing of fire, and it has the advantage of blocking the occurrence of enormous damages such as the loss of large lives or the loss of large property due to the large contribution to the initial extinguishing of the fire.

In addition, the present invention can exclude the risk of secondary accidents when entering the building for the fire extinguishing of the building, and in a compact building and evacuation space, such as underground sales offices, freezers, container offices, officetels, test houses In the event of a fire, it is easier to enter and rescue the fire, and furthermore, it is possible to block the unfortunate situation in which the firefighting firefighter's accident and property damage are increased. Moreover, it is possible to extinguish a fire in advance before the arrival of a professional firefighting team in places where it is difficult to enter the fire site, such as multi-unit houses such as apartments, multi-family houses and private houses (couplings, multi-family). It can be said that the invention is more useful in residential districts or apartment houses where dwellings are concentrated. In addition, unlike the conventional method of connecting a hose by using a low pressure household hose or making a hole in a long pipe not suitable for a door, it is possible to spray the extinguishing water 6 having a sufficient pressure at the beginning of ignition, The initial fire extinguishing effect can be obtained, and the time required for the initial fire suppression can be sufficiently achieved since it does not take much time compared to the case where the door is opened and the hose is connected. In addition, since fire extinguishing water 6 can be quickly moved into the container box when it is ignited inside the container box, unlike the conventional case of evolving only by spraying water from the outside, there is an unreasonable case of waiting for the container box to burn out. It is not.

On the other hand, the injection body 20, which is the main part of the present invention is formed with an inclined portion 33 whose diameter is gradually enlarged on the inner peripheral surface of the inner end toward the indoor side. That is, the inclined portion 33 has a tapered structure so as to gradually increase in diameter from the outer end to the inner end of the injection body 20.

The inclined portion 33 of the tapered structure, when the extinguishing water is injected through the digestion water passage of the injection body 20, so that the extinguishing water can be spread more radially outwards, thereby expanding the spraying range of the extinguishing water more It can contribute more to the efficient evolution.

On the other hand, Figure 8 is a conceptual view showing a state in which the present invention installed on the basement floor of the building, Figure 9 is an enlarged cross-sectional view showing the installation state of the present invention. According to FIG. 8, the present invention can be installed on the ground floor 1a of the building 1 as well as on the basement floor 1b.

In the event of a fire in the building (1), in particular in the case of the basement (1b) it is more difficult early rapid evolution than the ground floor (1a) in many respects, as shown in Figs. 8 and 9, the basement floor of the building (1) (1b) When installed in each room, the fire extinguishing water can be sprayed quickly to the ignition point of the basement layer 1b by using the present invention in the event of a fire, so that even if the basement (1b) of the initial fire is more difficult to fire quickly and efficiently Evolutionary effects can be obtained.

8 and 9 show a state in which the present invention is installed in each interior wall W of the basement floor 1b. The present invention is installed in each room of the basement floor 1b, and the common pipe W is installed. By connecting the present invention installed in each room by using, and by installing the fire facilities such as fire hydrants connected to the common pipe (P) to be exposed to the upper side of the ground (E), in the event of fire by simply connecting the fire hose to the basement floor (1b Fire water can be sprayed into each room at the same time. At this time, by installing an on-off valve for intermittently supplying the indoor fire extinguishing water of the basement layer 1b to the joint pipe P connecting the indoors of the basement layer 1b to the point where the fire of the basement layer 1b does not occur. It would be desirable to ensure that the extinguishing water is not sprayed.

The present invention is not limited to the above-described embodiments and the accompanying drawings, and those skilled in the art that various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. Will be obvious to you.

1 is a view showing the inside and outside of the door to be fixed to which the present invention is installed

Figure 2 is an exploded perspective view of the main part of the present invention

Figure 3 is a side cross-sectional view showing a structure and installed state of the present invention.

Figure 4 is a side cross-sectional view showing the structure of the injection filter which is the main part of the present invention.

5 is a front view of FIG. 3

Figure 6 is a side cross-sectional view showing a state of use of the present invention.

Figure 7 is a side cross-sectional view showing the structure and installed state of another embodiment of the present invention.

8 is a view conceptually showing a state in which the fire cooler system of the present invention is installed on the basement floor of a building.

9 is a side cross-sectional view showing an enlarged structure of the present invention installed in FIG.

Claims (6)

The injection body 20 is inserted into the hole 12 formed in the to-be-fixed object 10 forming the main part of the building, and has a digestive water passage communicating with the inner and outer ends, and into the building interior of the injection body 20. A fire fighting cooler for building fire suppression, comprising: a fixing member 25 coupled to the exposed inner end and supporting the injection body 20 to be fixed to the hole 12 of the fixed object 10. system. According to claim 1, wherein the injection body 20 is configured in a tubular shape with a digestive water passage therein, the outer end of the injection body 20 is exposed to the outside of the building in the radially outwardly engaging step ( 22 is formed, and a coupling portion 20a is formed on an inner end side outer circumferential surface of the injection body 20 that is exposed to the interior of the building, and the injection body 20 of the fixed object 10 forming the main part of the building. The locking step 25 and the fixing member 25 are inserted into the hole 12 and the coupling member 25 is coupled to the coupling portion 20a of the inner peripheral side outer peripheral surface of the injection body 20. Is respectively supported on the outdoor side and the indoor side of the to-be-fixed object (10), the fire fighting cooler system for building fire suppression, characterized in that the fixed support. According to claim 2, wherein the inner end exposed to the interior of the injection body 20 is provided with a separate injection filter 30, the injection filter 30 is a plurality of extinguishing water spray in the radial direction based on the center The hole 32 is formed, the front surface of the extinguishing water injection hole 32 is covered with the injection guide piece 34 integrated into the injection body 20, the fire extinguishing to both sides of the injection guide piece 34 Fire fighting cooler system for building fire suppression, characterized in that the water injection hole 32 is in communication. According to claim 1, wherein the injection body 20 is formed in a tubular shape with a digestive water passage therein, the outer end of the injection body 20 exposed to the outside of the building in the radially outward locking step ( 22) is formed, the fire fighting cooler system for building fire suppression, characterized in that the outer cover 50 is further provided to be coupled to the engaging step (22) at the outer end position of the injection body (20). The fire fighting for building fire suppression according to any one of claims 1 to 4, wherein an inner cover 40 is further provided at an inner end of the injection body 20 exposed to the building interior side. Cooler system The fire fighting cooler system according to any one of claims 1 to 4, wherein a fire hose injection pipe window (60) is provided in the digestion water passage in the injection body (20).

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