KR20190137285A - Fire Protection Equipment System of Building - Google Patents

Abstract

The present invention relates to a fire fighting facility system for preventing the expansion of fire in a building, which prevents fire from spreading from a fire generation building to an adjacent building and allows rescue requesters to evacuate from a roof to the ground. The system comprises: a water collection container provided on an upper portion of a side wall of the building; a roof drain connection pipe connected to the water collection container; a pressure pump connected to the fire extinguishing water tank provided on the roof; a fire extinguishing water supply pipe connected to the pressure pump to be connected to the water collection container; a fixed drain pipe fixed in the vertical direction at regular intervals by a fixing band connected to a fixing member fixed to a wall surface of the side wall, and having an upper portion provided in the water collection container; a rotating drain pipe provided inside the fixed drain pipe; an opening and closing valve provided on a lower portion of the rotating drain pipe; a step motor rotating a rotating shaft fixed to a fixing disk of an upper portion of the rotary drain pipe, and provided on an upper portion of the water collection container; a plurality of spray nozzles provided at predetermined intervals on both sides of the fixed drain pipe; and a plurality of evacuation scaffolding means provided at regular intervals on wall surfaces of both side walls of the fixed drain pipe. An impeller of the pressure pump includes: a circular upper plate having an opening in the center, a circular lower plate spaced apart from the upper plate, and a plurality of blades which are connected between the upper plate and lower plate, are disposed radially from the center side of the upper and lower plates toward the outside of the upper and lower plates, and are disposed radially from the center side of the upper and lower plates toward the outside of the upper and lower plates in a curved form while having a curvature.

Description

Fire Protection Equipment System of Buildings

The present invention relates to a fire extinguishing system for preventing fire expansion of a building, and more specifically, to prevent a fire from spreading from a fire generating building to an adjacent building, and to allow a rescuer to evacuate himself from the rooftop to the ground. Fire extinguishing prevention system of fire protection system.

In general, the firefighting laws applicable to ordinary buildings require that fire extinguishing equipment be provided as necessary, depending on the size and use of the building. The fire extinguishing facility has various forms such as a fire hydrant, a sprinkler, and an alarm device, so that a fire can be suppressed or a signal of a fire can be quickly spread.

As is known, in the event of an emergency such as a fire or earthquake, a lot of property damage and casualties occur in buildings such as hotels, apartments, office buildings, and mall buildings where many people live. In particular, in the case of personnel living on the upper part of the building, it is virtually impossible to escape from the building without the help of rescue equipment such as rescue helicopters or elevated ladder vehicles. In order to use the elevated ladder vehicle, a space enough for the vehicle to enter the fire area must be secured. Therefore, the ladder cannot be used efficiently in an urban area where many buildings are concentrated. Because it takes a certain time, there is a problem that lifesaving and fire suppression can not be made quickly.

As one of the techniques for solving this problem, Korean Patent No. 10-1062677 includes a lift unit disposed on a roof of a building; One side is supported by the lift unit disposed on the roof of the building through the first wire, the other side is supported on the ground through the second wire, the length of the first wire is adjusted by the lift unit in the vertical direction A fire extinguishing unit moved to the fire extinguishing unit, wherein the fire extinguishing body is fixed to the first and second wires; A rotating body which is connected to the extinguishing body by a hinge hinge and rotates; Installed on the rotating body, a technique related to an ultra-high rise building fire suppression apparatus including a pipe module that is injected from the ground fire extinguishing fluid has been disclosed.

However, the above-mentioned conventional technique is to extinguish a fire that cannot be extinguished by an elevated ladder or the like while the fire extinguishing unit moves up and down by the operation of the lift unit, and thus is practical in that it does not use materials provided in a building. This is very degraded.

In particular, the prior art is to perform a fire suppression for the building in which the fire occurs, it does not prevent the flame of the building in the fire spread to the adjacent building, suppressing the occurrence of a large fire before the fire truck arrives It is pointed out that there is a problem that cannot be avoided, and it is pointed out that the fire-fighting system is very vulnerable because it cannot be accompanied by a facility where the rescue requester who is evacuated to the roof cannot evacuate under adverse conditions such as a fire.

Patent Registration No. 10-1062677

An object of the present invention is to solve the problems of the prior art, to provide a fire expansion prevention fire prevention system of a building that can prevent the flame of a building in which the fire occurs to spread to the adjacent building.

Another object of the present invention is to provide a fire spreading prevention system for a building that enables a rescue requester evacuated to a rooftop to allow the rescuer to evacuate to the ground before arriving.

As a means for achieving the above object, the configuration of the present invention, the water collecting passage installed on the upper side wall of the building; A roof drain pipe connected to the sump; A pressure pump connected to the fire extinguishing tank installed on the roof; A digestive water supply pipe connected to the pressure pump and connected to the sump; A fixed drain pipe installed in a vertical direction at a predetermined interval by a fixing band connected to a fixing member fixed to a wall of the side wall, and having an upper portion installed inside the sump; A rotary drain pipe installed inside the fixed drain pipe; An on / off valve installed under the rotary drain pipe; A step motor installed at the upper part of the sump and rotating the rotary shaft fixed to the upper part of the rotary drain pipe; And a plurality of injection nozzles provided at predetermined intervals on both sides of the fixed drain pipe, wherein the impeller of the pressure pump includes a circular upper plate having an opening formed at a center thereof, a circular lower plate spaced apart from the upper plate, and It is connected between one upper plate and the lower plate and is radially disposed toward the outside of the upper plate and the lower plate from the center side of the upper plate and the lower plate, and has the curvature of the upper plate and the lower plate. It is preferable to include a plurality of blades disposed radially toward the outside of the upper plate and the lower plate.

It is preferable that the configuration of the present invention further includes a plurality of evacuation scaffolding means provided on the wall surfaces of the side walls of both sides of the fixed drain pipe at regular intervals.

In the configuration of the present invention, it is preferable that the blade of the pressure pump has at least one protrusion formed on one surface thereof in the longitudinal direction of the blade, and a plurality of grooves formed at the end thereof.

It is preferable that the configuration of the present invention be formed such that the distance between the protrusions is widened from one end to the other end.

It is preferable that the configuration of the present invention is formed so that the interval between the protrusions becomes narrower as it progresses from one end to the other end.

It is preferable that the structure of this invention is provided by providing a bearing below the said rotary drain pipe.

The structure of this invention is that the said scaffolding means for evacuation comprises: a solenoid embedded in both sides of the side wall in which the fixed drain pipe is installed; It is preferable to include a scaffolding rod for operating the solenoid to protrude forward when detecting the occurrence of fire.

The configuration of the present invention is preferably such that the scaffolding bar is formed by forming a bent portion on one side.

In the configuration of the present invention, it is preferable that the evacuation scaffolding means is provided in parallel in the longitudinal direction on the wall surfaces of both side walls of the fixed drain pipe, or in parallel with the windows of the building at a predetermined interval in the horizontal direction.

The present invention supplies the extinguishing water inside the fire extinguishing water tank disposed on the roof to the rotary drainage pipe while closing the on / off valve installed at the lower part of the rotary drainage pipe to fill the extinguishing water with strong pressure over the entire length of the rotary drainage pipe. At the same time, the extinguishing water supplied through the extinguishing water discharge hole of the rotating drain pipe and the extinguishing water discharge hole of the fixed drain pipe is discharged to both sides of the side wall of the building where the fire is caused by the spray nozzles installed on both sides of the fixed drain pipe. It is possible to prevent large fires by spraying the flames by spraying to prevent the fire from spreading or spreading to adjacent buildings, as well as to quickly extinguish the fire early before the fire truck arrives.

In addition, the present invention, when detecting the fire occurrence, by the operation of the plurality of evacuation scaffolding means by projecting the scaffold rod in front of both sides of the fixed drain pipe, the rescue requester who evacuated to the rooftop stepped on the cold bar protruding by itself, fixed by hand By holding the drain pipe and allowing it to descend to the ground, the rescue requester can evacuate himself from the fire before the fire truck and the rescue arrives, thereby preventing human accidents caused by the fire.

In addition, since the present invention provides a system using a roof drain pipe in constructing a fire fighting system, the installation cost of a fire fighting facility is greatly reduced, and a system can be constructed without significantly damaging or changing a side wall of a building. It has the effect of shortening the installation work.

1 is a side view of an installation state of the fire expansion prevention fire protection system of a building according to a first embodiment of the present invention.
2 is a front view of a state of use of the fire expansion prevention fire protection system of the building according to the first embodiment of the present invention.
3 is a plan view of a part of the fire expansion prevention fire protection system of the building according to the first embodiment of the present invention, (a) is a state before the detection of the fire, (b) is a state diagram after the detection of the fire.
Figure 4 is a side cross-sectional view of the installation state of the fire expansion prevention fire prevention system of the building according to the first embodiment of the present invention.
5 is a longitudinal cross-sectional view of an operating state of a fire spreading prevention system of a building according to a first embodiment of the present invention.
FIG. 6 is a plan sectional view of an essential part of a fire extinguishing prevention system of a building according to a first embodiment of the present invention, in which (a) is a state before a fire is detected and (b) is a state diagram after a fire is detected. .
7 is a perspective view of the impeller of the pressure pump of the fire expansion prevention fire prevention system of a building according to the first embodiment of the present invention.
8 is a perspective view of a blade of the pressure pump of the fire expansion prevention fire protection system of the building according to the first embodiment of the present invention.
9 is a plan view of a blade of the pressure pump of the fire expansion prevention fire protection system of the building according to the first embodiment of the present invention.
10 is a schematic view of the main parts of a blade of a pressurized pump of a fire extinguishing prevention system of a building according to a first embodiment of the present invention.
Figure 11 is a perspective view of a part of the installation state of the fire expansion prevention fire protection system of a building according to a second embodiment of the present invention.
12 is a longitudinal cross-sectional view of the installation state of the fire expansion prevention fire prevention system of a building according to a second embodiment of the present invention.
13 is an operational state diagram of the scaffolding means for evacuation of the fire expansion prevention fire protection system of the building according to the second embodiment of the present invention, (a) is a state in which the supporting rod is retracted, (b) is a state in which the supporting rod protrudes to be.
FIG. 14 is a perspective view of a supporting rod of a fire extinguishing system of a building according to a second embodiment of the present invention, (a) is a supporting rod having a steel pipe shape, and (b) is a perspective view of a supporting rod having a bent portion at one side thereof. to be.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment in order to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not limited or limited only by the embodiments presented In addition, various changes, additions, and modifications including equivalents and substitutes may be made without departing from the spirit of the present invention.

In addition, the terms or words used in the specification and claims herein are defined on the basis of the principle that the inventor can appropriately define the concept of the term in order to best explain his invention in the best way. However, the present invention should not be construed as being limited to the ordinary or dictionary meaning, but should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. As an example, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. The expression “includes” includes not only a direct connection or connection but also a connection or connection through another component in the middle.

Before describing the present invention, it should be noted that, first, the present invention may be installed on the side wall of the building and the side wall adjacent to the side wall of the building, or may be installed on the rear wall of each building. It is assumed that it is installed. This is because the roof drain pipe installed in the building is installed longitudinally on the side wall or the rear wall of the building to use it, and if necessary, the roof drain pipe installed on the front of the building may be used. Second, in the following description, the rotary drain pipe and the fixed drain pipe constituting the rooftop drain pipe should use a drain pipe formed of copper or stainless steel.

As shown in Figures 1 to 14, the configuration of the fire expansion prevention fire protection system of the building according to the embodiments of the present invention, the sump (10) installed on the upper side of the side wall 110 of the building (100) and; A rooftop drainage pipe (11) connected to the sump (10); A pressure pump 21 connected to the fire extinguishing water tank 20 installed on the rooftop 120; A fire extinguishing water supply pipe 22 connected to the pressure pump 21 and connected to the water collecting tank 10; It is fixed in the vertical direction at a predetermined interval by a fixing band 30A connected to a fixing member 30 fixed to the wall surface 110A of the side wall 110, the upper portion is installed in the sump (10) A fixed drain pipe 40; A rotary drain pipe 50 installed inside the fixed drain pipe 40; An on / off valve (60) installed below the rotary drain pipe (50); A step motor 70 which rotates the rotary shaft 71 fixed to the upper fixed disk 50A of the rotary drain pipe 50, and is installed on the sump container 10; A plurality of spray nozzles 80 provided at predetermined intervals on both sides of the fixed drain pipe 40; And a plurality of evacuation scaffold means 90 installed at predetermined intervals on the wall surface 110A of both side wall walls 110 of the fixed drain pipe 40.

In the above, the pressure pump 21 connected to the water tank 20 for fire extinguishing is designed to be operated automatically when the fire is detected so that the water extinguishing water 20A inside the water tank 20 for fire extinguishing into the rotary drain pipe 50. It can be supplied, and the on-off valve 60 installed below the rotary drain pipe 50 is also designed as an solenoid valve to automatically operate upon detection of a fire to close down the inside of the rotary drain pipe 50 or manually close it. You can do it.

And, as shown in Figure 3 (a) is a roof drainage in the water inlet hole 41, 51 formed on the upper side of the fixed drain pipe 40 and the rotary drain pipe 50 installed inside the sump (10) One end of the water connecting pipe 11 is interviewed and rainwater, which is usually dropped on the rooftop 120, is introduced through the water input holes 41 and 51 and discharged downward through the rotary drain pipe 50. As shown in (b), when the fire is detected, the rotary drain pipe 50 is rotated by the step motor 70 so that the water input hole 51 of the rotary drain pipe 50 is rearward of the upper part of the fixed drain pipe 40. The extinguishing water 20A supplied through the extinguishing water supply pipe 22 is introduced into the rotary drainage pipe 50 by matching with the extinguishing water supply hole 42 bored in the fixed drainage pipe 40 and Fire extinguishing water outlet formed at predetermined intervals on both sides of the lower part of the rotary drain pipe 50 Each of the positions 43 and 52 is formed to rotate differently from the positions of the water input holes 41 and 51 and the digestion water supply hole 42 formed at one side of the fixed drain pipe 40 and the upper part of the rotary drain pipe 50. The extinguishing water discharge hole 43 of the fixed drainage pipe 40 and the extinguishing water discharge hole 52 of the rotary drainage pipe 50 are designed to coincide with the rotation of the drainage pipe 50.

That is, as shown in FIG. 6 (a), the fire extinguishing water discharge hole 43 of the fixed water discharge pipe 40 and the fire extinguishing water discharge hole 52 of the rotary drain pipe 50 do not communicate with each other in a normal manner. When it occurs, the rotary drain pipe 50 is rotated by the step motor 70 so that the digestive water discharge hole 43 of the fixed drain pipe 40 and the digestive water discharge hole 52 of the rotary drain pipe 50 communicate with each other. The extinguishing water 20A filled by the high pressure inside the rotary drain pipe 50 is sprayed through the spray nozzle 80.

In addition, the inner surface of the fixed drain pipe 40 and the outer surface of the rotary drain pipe 50 are interviewed with each other so as to be naturally rotatable by the rotation shaft 71 of the step motor 70, which is the The lower portion of the rotary shaft 71 of the step motor 70 is fixed to the upper fixed disk 50A fixed to the upper portion so that the rotary drain pipe 50 is rotated by the rotation of the rotary shaft 71. Since the state is interviewed on the ground, the rotation of the rotary drain pipe 50 is not disturbed. Preferably, a bearing (not shown) is installed below the rotary drain pipe 50 to smoothly rotate the rotary drain pipe 50. The rotation angle of the rotation shaft 71 of the step motor 70 can be set by the control means.

In particular, the fixed drain pipe 40 is fixed in a vertical direction at a predetermined interval by a fixing band 30A connected to the fixing member 30 fixed to the wall surface 110A of the side wall 110 to maintain a solid state. Can be.

In addition, the raised step motor 70 may also be designed to operate automatically when detecting a fire.

7 is a perspective view of the impeller of the pressure pump of the fire expansion prevention fire prevention system of a building according to the first embodiment of the present invention.

As shown in FIG. 7, the configuration of the impeller of the pressure pump 21 of the fire expansion prevention fire protection system for a building according to the first embodiment of the present invention is a circular upper plate 211 having an opening 211 a formed at the center thereof. ), A circular lower plate 212 which is spaced apart from the upper plate 211, and is connected between the upper plate 211 and the lower plate 212 and the upper plate 211 and the lower plate 212 The upper plate 211 and the upper plate 211 are radially disposed toward the outside of the lower plate 212 from the center side of the upper plate 211 and the upper plate 211 from the center side of the upper plate 211 and the lower plate 212 in a curved shape. And a plurality of blades 213 disposed radially toward the outside of the lower plate 212.

8 is a perspective view of a blade of the pressure pump of the fire expansion prevention fire protection system of the building according to the first embodiment of the present invention, Figure 9 is a fire expansion prevention fire protection system of the building according to the first embodiment of the present invention 10 is a plan view of the blades of the pressure pump, and FIG. 10 is a schematic view of the main parts of the blades of the pressure pump of the fire extinguishing system of a building according to the first embodiment of the present invention.

8 to 10, the blade 213 of the pressure pump 21 of the fire expansion prevention fire protection system of the building according to the first embodiment has at least one protrusion (213a) on one surface of the blade ( It is formed in the longitudinal direction of the 213, the end portion is made of a structure in which a plurality of grooves (213b) are formed.

The gap S between the protrusions 213a is formed to be wider as it progresses from one end to the other end. For example, the interval S between the protrusions 213a is 8 mm at one end and 10 mm at the other end. On the contrary, the interval s between the protrusions 213a may be formed to be narrower as it progresses from one end to the other end. For example, the interval s between the protrusions 213a may be 10 mm at one end and 8 mm at the other end.

The height of the protruding portion 213a becomes higher as it progresses from one end to a certain section, and lowers as it progresses from a certain section to the other end. The height of the protrusion 213a is preferably set to 1 to 3 mm.

The width W of the protrusion 213a becomes wider as it progresses from one end to a predetermined section, and narrows as it progresses from a certain section to the other end. The width W of the protrusion 213a is preferably set to 1 to 3 mm.

By the above configuration, the operation of the fire expansion prevention fire protection system of the building according to the embodiments of the present invention is as follows.

When the fire is detected, the pressurized pump 21, the on-off valve 60 and the step motor 70 are operated. First, the rotary drain pipe 50 is rotated at a predetermined angle by the operation of the step motor 70 to fix the fixed drain pipe ( 40 and the extinguishing water 20A in the extinguishing water tank 20 disposed on the roof in the state in which the extinguishing water discharge holes 43 and 52 of the rotary drain pipe 50 are communicated with the pressurizing pump 21. The valve body 60A closes the lower side of the rotary drain pipe 50 by forcibly supplying it into the rotary drain pipe 50 and operating the on / off valve 60 installed below the rotary drain pipe 50. The extinguishing water 20A is filled with a strong pressure with respect to the entire inner length and discharged through the extinguishing water discharge hole 43 of the extinguishing water discharge hole 52 of the rotary drain pipe 50 and the fixed drain pipe 40. Fire is caused by the spray nozzles 80 having the fire extinguishing water 20A installed on both sides of the fixed drain pipe 40. Fire extinguishing water (20A) to both sides of the side wall 110 of the building 100 to prevent the fire from expanding or spreading to the adjacent building to prevent large fires, as well as before the fire truck arrives Early fire suppression can be carried out quickly.

In the above, it is possible to supply the insufficient digestion water 20A through the pressure pump 21 in proportion to the consumption of the extinguishing water 20A injected through the injection nozzle 80, in this case, the extinguishing water tank 20 Through the water pipe (not shown) connected to the can be enough to supply the digestive water (20A).

When the pressure pump 21 is operated, the suction of the fluid is generated through the opening 211a formed in the upper plate 211 of the impeller of the pressure pump 21, the upper plate 211 and the lower plate 212 and the blade The outflow of fluid occurs through the opening 215 formed by the 213. The frictional resistance is reduced by the protrusion 213a formed on one surface of the blade 213, and the Vortex flow is eliminated by the plurality of grooves 213b formed at the end, thereby increasing lift and weakening resistance by drag, and also preventing seizure damage, thereby increasing the flow rate and increasing water supply efficiency. Reduce noise.

According to the experiment, when the height of the highest point of the protruding portion 213a of the blade 213 is formed at 3 mm, and the width W of the protruding portion 213a is formed at 3 mm, the blade having no protruding portion 213a is formed. Compared with this, the frictional resistance is reduced by about 7.6%.

In addition, the protrusion 213a of the blade 213 serves to reduce the adhesion of foreign matter to the surface of the blade 213.

And, by the action of the blade 213, the noise reduction effect of about 1ddb occurs in the section of the flow rate of 500 ~ 1300 (m ³ / h) and the section of 2300 ~ 2500 (m ³ / h), the flow rate is In the section of 1300 ~ 2300 (m ³ / h), the noise reduction effect of about 1 ~ 2db occurs.

The present invention is a system configured to fit the rotary drain pipe 50 rotated by the step motor 70 inside the fixed drain pipe 40 constituting the roof drain pipe, and the side wall 110 of the existing roof drain pipe and the building 100. It is possible to greatly reduce the installation cost and installation construction period of the fire extinguishing system system because the spraying of the digestive water (20A) is made without damaging or significantly modifying.

On the other hand, the present invention can provide the evacuation scaffolding means 90 so that the rescue requester evacuated to the rooftop 120 can be evacuated to the ground before the fire truck or rescuer arrives as shown in FIG. Bar, this is to hold the outer circumferential surface of the fixed drain pipe 40 by hand so that the rescue requester can safely descend to the ground of the building 100 while the rescue requester steps on the scaffolding rod 91 constituting the evacuation scaffold means 90. It is to provide a means of evacuation.

In this regard, the evacuation scaffold means 90 should be fixed to the wall surface 110A of the side wall 110 with a fixing band 30A and installed on the basis of the fixed drain pipe 40 formed of stainless steel. I came to mind.

That is, the evacuation scaffolding means 90 includes solenoids 92 embedded in both sides of the side wall 110 on which the fixed drainage pipe 40 is installed, and the solenoid 92 operates forward when the fire is detected. It comprises a scaffolding rod 91 for protruding, the scaffolding rod 91 is to maintain the state entered into the wall surface 110A of the side wall 110 of both sides of the fixed drain pipe 40 before a fire occurs The intruder is easily prevented from entering the interior of the building 100 using the scaffold rod 91.

In addition, the scaffolding rod 91 may be provided with a bent portion 91A on one side as shown in FIG.

In addition, the evacuation scaffold means 90 may be installed in parallel in the vertical direction on the wall surface 110A of both side wall 110 of the fixed drain pipe 40 in a plurality, the building 100 with a predetermined interval in the horizontal direction In parallel with the installation of the window, the structure requester inside the building 100 in the event of a fire catches or stepped on the protruding scaffolding rod 91 of the evacuation scaffold means 90 installed vertically through the window to fix the drainage pipe 40. By allowing freedom of movement to the sides, temporary or actual evacuation from fire can be made.

Therefore, in the present invention, when the fire occurrence is detected, the rescuer who has evacuated to the roof by protruding the scaffolding rods 91 from both sides of the fixed drain pipe 40 by the operation of the plurality of evacuation scaffolding means 90 protrudes on their own. By stepping on (91) and allowing the hand to descend to the ground while holding the fixed drainage pipe 40, the rescue requester can evacuate himself from the fire before the fire truck and the rescue arrives. You can prevent it.

In addition, since the present invention is to provide a system using a roof drain pipe in the construction of a fire fighting system, it is possible to greatly reduce the installation cost of the fire fighting facilities, and the system can be built without significantly damaging or changing the side wall of the building. System installation work can be shortened.

10: sump 11: drain water connector
20 water tank for extinguishing 21 pressurized pump
22: digestion water supply pipe 20A: digestion water
30: fixing member 30A: fixing band
40: fixed drain pipe 41, 51: water input hole
50: rotary drain pipe 42: digestion water supply hole
43, 52: digestion water discharge hole 60: on-off valve
70: step motor 71: rotation axis
80: injection nozzle 90: scaffolding means for evacuation
91: scaffolding rod 91A: bend
92: solenoid

Claims (9)

A sump container 10 installed on an upper side wall 110 of the building 100;
A roof drainage pipe (11) connected to the sump (10); A pressure pump 21 connected to the fire extinguishing water tank 20 installed on the rooftop 120;
A fire extinguishing water supply pipe 22 connected to the pressure pump 21 and connected to the water collecting tank 10;
It is fixed in the vertical direction at a predetermined interval by a fixing band 30A connected to the fixing member 30 fixed to the wall surface 110A of the side wall 110, the upper portion is installed in the sump (10) A fixed drain pipe 40;
A rotary drain pipe 50 installed inside the fixed drain pipe 40;
An on / off valve (60) installed below the rotary drain pipe (50);
A step motor 70 which rotates the rotary shaft 71 fixed to the upper fixed disk 50A of the rotary drain pipe 50, and is installed on the sump container 10;
It includes a plurality of injection nozzles 80 provided at predetermined intervals on both sides of the fixed drain pipe 40,
The impeller of the pressure pump 21 has a circular upper plate 211 having an opening 211a formed in the center, a circular lower plate 212 disposed to be spaced apart from the upper plate 211, and the upper plate ( It is connected between the 211 and the lower plate 212 and is radially disposed toward the outside of the upper plate 211 and the lower plate 212 from the center side of the upper plate 211 and the lower plate 212 and has a curvature. And a plurality of blades 213 radially disposed toward the outer side of the upper plate 211 and the lower plate 212 from the center side of the upper plate 211 and the lower plate 212 in a curved shape. Fire expansion prevention fire protection system of building. The method of claim 1,
Fire expansion prevention fire of a building, characterized in that it further comprises a plurality of evacuation scaffold means 90 installed at a predetermined interval on the wall surface (110A) of both side wall wall 110 of the fixed drain pipe (40). Fixture system. The method according to claim 1 or 2,
The blade 213 of the pressure pump 21 has at least one protrusion 213a formed on one surface thereof in the longitudinal direction of the blade 213, and a plurality of grooves 213b are formed at the end thereof. Fire expansion prevention fire prevention system of the building characterized by the above-mentioned. The method of claim 3,
The distance (S) between the protrusions (213a) is a fire expansion prevention fire prevention system of a building, characterized in that is formed so as to be wider as it proceeds from one end to the other end. The method of claim 3,
Fire bulge prevention system of a building, characterized in that formed so that the interval (s) between the protrusions (213a) is narrowed from one end to the other end. The method according to claim 1 or 2,
Fire spreading prevention system of the building, characterized in that by installing a bearing installed below the rotary drain pipe (50). The method of claim 2,
The evacuation scaffold means 90,
Solenoids 92 embedded in both sides of the side wall 110 on which the fixed drain pipe 40 is installed;
Fire expansion system of the building to prevent fire expansion, characterized in that comprises a scaffolding rod (91) for the solenoid (92) to operate to protrude forward when detecting the occurrence of fire. The method of claim 7, wherein
The scaffolding rod 91 is formed by forming a bent portion 91A on one side. The method of claim 2,
The plurality of evacuation scaffold means 90 is installed in parallel in the vertical direction on the wall surface 110A of both side wall 110 of the fixed drain pipe 40 or parallel to the windows of the building 100 with a predetermined interval in the horizontal direction. Fire extinguishment consumption system of a building, characterized in that the installation and configuration.

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