KR101777998B1 - Facility for preventing smoke spread using air knife - Google Patents

Abstract

It is possible to prevent the spread of smoke when a fire occurs by discharging a jet stream and smoke through a forced exhaust system and to prevent the spread of smoke by using an air knife, By forming the second jet stream, it is possible to increase the effect of preventing the spread of smoke. In addition, by providing the smoke diffusion preventive device using the alternating air knife for forming the curved jet air stream, There is provided a smoke diffusion preventive facility using an air knife.

Description

TECHNICAL FIELD [0001] The present invention relates to a smoke diffusion preventive apparatus using an air knife,

More particularly, the present invention relates to an apparatus for preventing smoke spread, and more particularly, to an apparatus for preventing smoke from spreading when a fire occurs by forming a jet stream using an air knife and discharging a jet stream and smoke through a forced exhaust system. To a smoke diffusion preventive device capable of preventing smoke diffusion.

In general, more than 85% of casualties are analyzed as being affected by the fire in the event of a fire. Thus, there is a need to develop a system capable of effectively preventing the spread of smoke in a state of high risk of smoke in a fire. To date, however, sprinkler systems and water curtain systems have been offered as fire suppression and evacuation methods.

For example, when a fire accident occurs in the underground passage, the high-temperature fire smoke is ventilated through the ventilation duct located at the upper part of the underpass. At this time, in order to move the fire smoke to the upper ventilation duct, A large vent is installed. However, when a fire occurs, it is impossible to export all of the fire smoke to the ventilation duct, so that the smoke spreads quickly. In addition, it is difficult to evacuate the firepipe as the smoke spreads to the entire tunnel in a short time, and the evacuation time is prolonged. As the toxic substance of the fire smoke spreads, .

FIG. 1 is a diagram illustrating an apparatus for preventing flue gas diffusion using an air curtain according to a conventional technique. For example, a flue gas diffusion preventing apparatus 12 is installed at the ceiling of a box-like road structure 11.

When a fire occurs, the flameproof diffusion preventing device 12 compresses the air and blows it toward the bottom of the road structure 11 to form an air curtain so that the flameproof generated at the fire scene is not diffused or delayed.

However, according to the apparatus for preventing flue gas diffusion according to the related art, the performance of the air curtain is determined by the jetting pressure of the air. Even if the jetting pressure of the air is increased, As the distance from the bottom surface decreases, the efficiency of air curtain is lowered, so that the flue is spread around the bottom portion.

Under this condition, the air discharged from the flue gas diffusion preventing device 12 is jetted to the bottom of the road structure 11 to form an air curtain. Air is blown into the flue gas diffusion preventing device 12 by the forced air flow in the road structure 11, The blocking efficiency is significantly lowered.

Further, in the case of the apparatus for preventing flue gas diffusion using an air curtain according to the related art, since the air curtain jetting angle and the air flow rate are not considered in consideration of the pressure at which the fire smoke expands due to the fire occurrence position and the fire intensity, There is a problem that the blocking wall is pushed backward by the fire pressure or a vortex is generated on the floor surface and the fire smoke can not be blocked.

On the other hand, Korean Patent No. 10-1378730 discloses an invention of the name "smoke cut-off device" as a prior art, which will be described with reference to FIG.

2 is a view illustrating a smoke cutoff device according to a conventional technique.

2, the smoke cutoff device 20 according to the related art includes an inlet 21, a flow path forming portion 22, a pan portion 23, an outlet portion 24, and a fluid supply portion 25 And the outlet portion 24 may include a nozzle 24a, a vane portion 24b, and a body portion 24c. At this time, the sections E and F of the structure can be distinguished from the site where the smoke cutoff device 20 according to the related art is installed.

The inlet section (21) receives the second fluid (B) and supplies the suctioned fluid to the outlet section (24).

The outlet portion 24 may be formed, for example, so as to form an air curtain, which is installed in a tunnel or a smoke-free zone in a building and which prevents smoke generated in a tunnel or a fire source in the building from escaping a specified zone. A).

The outlet portion 24 is for spraying the first fluid and may include a nozzle 24a for forming an air curtain. In addition, it may include a vane portion 24b that can change the direction of the nozzle 24a or the direction of injection of the first fluid, if necessary.

According to the outlet portion 24, an air curtain can be formed to prevent smoke in a specific section where a fire occurs in a structure such as a tunnel or a building from diffusing into another section. Such an air curtain can form a shielding film regardless of the feature material, unlike a general smoke shielding film composed of a solid body. In addition, since the air curtain is a shielding film by fluid, the evacuator can easily escape to the safety area through the air curtain, and the fire truck for suppressing the fire is not limited to entry into the fire scene.

The smoke cut-off device 20 according to the related art can reliably prevent the smoke generated at the time of fire from diffusing from the fire occurrence section to another section by including the outlet portion 24 that forms the air curtain.

However, in the case of the smoke cutoff device 20 according to the related art, it is possible to prevent the smoke generated at the time of fire from spreading from the fire occurrence section to other sections by forming the air curtain. However, There is a problem in that the installation is complicated, and the smoke generated when a fire occurs can not be exhausted, resulting in a problem that the efficiency of shutting down is low.

Korean Patent No. 10-1378730 filed on November 9, 2012, entitled " Korean Patent No. 10-1289865 filed on November 21, 2012, entitled "Air curtain-type flameproof diffusion preventing device using flour, and civil engineering building structure applied thereto" Korean Patent No. 10-1289864 filed on November 21, 2012, entitled "Upper and lower-layered flameproof diffusion prevention apparatus and air-curtain construction apparatus & Korean Patent No. 10-1136990 filed on Apr. 6, 2011, entitled "Air curtain-type gallium diffusion preventive device and road structure using the same" Korean Patent No. 10-1452099 filed on Apr. 1, 2013, entitled "Emergency Outside Air Supply Device for Building Fires" Korean Registered Patent No. 10-893205 filed on August 21, 2007, entitled "Air Supply Pressurizing Apparatus"

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an air cleaner which is capable of preventing the spread of smoke when a fire occurs by forming a jet stream by using an air knife, And to provide a smoke diffusion preventive facility using a knife.

It is another object of the present invention to provide an air knife structure capable of increasing the effect of preventing smoke diffusion by forming first and second jet air streams by alternately installing a smoke diffusion preventing apparatus using an air knife Smoke diffusion prevention facility.

Another object of the present invention is to provide a smoke diffusion preventive device using an alternating air knife for forming a curved jet air stream, And to provide a smoke diffusion preventive facility using an alternating air knife for forming an air flow.

According to an aspect of the present invention, there is provided a smoke diffusion prevention system using an air knife,
A smoke diffusion preventive device for preventing the spread of harmful gas fumes in the event of a fire, comprising: a forced air supply device for forcibly supplying air; an air supply connection port connected to the air knife for forced air supply by a blower; An air knife for discharging air supplied through the air supply connection airflow at a predetermined speed to generate a jet stream; An ejection guide vertically installed on the first vertical wall surface and guiding to eject the jet stream generated by the air knife; An exhaust hood installed in a vertical direction on a second vertical wall surface facing the first vertical wall surface to suck and collect the jet flow discharged through the discharge guide to prevent air forming the jet flow from spreading or leaking; And an exhaust connection airway connected to the exhaust hood end so that the jet airflow can be sucked into the exhaust hood. The air knife is formed by a plurality of slit-shaped nozzles formed on the other side, And the exhaust connection air flow is provided vertically along the discharge guide provided on the first vertical wall surface to form a jet flow of the surface shape by discharging the air forcedly supplied through the discharge air guide through the discharge guide, A forced exhaust system for forcibly exhausting air is formed so that the pressure inside the exhaust hood becomes a negative pressure.

According to another aspect of the present invention, there is provided a smoke diffusion prevention system using an alternating air knife,
1. A smoke diffusion preventing apparatus for preventing the spread of harmful gas fumes in the event of a fire, comprising: a first vertical air flow connection member, a first air knife and a first discharge guide formed vertically on a first vertical wall, A first exhaust hood and a first exhaust connection airflow are vertically formed on a second vertical wall facing the first air supply connection airflow, and air discharged through the first air supply connection airflow is discharged by the first air knife, A first smoke diffusion preventing apparatus for generating a smoke diffusion preventing apparatus; A second air supply connection airflow, a second air knife and a second air discharge guide formed vertically on the second vertical wall, A second exhaust hood and a second exhaust air connection port are vertically formed on a second vertical wall facing the vertical wall, and air discharged through the second air supply connection port is discharged by the second air knife, And a second smoke diffusion preventing facility for generating a jet stream, wherein smoke is prevented from being primarily spread by the first jet stream, and the smoke passing through the first jet stream flows through the first jet stream and the second jet stream, The first smoke diffusion prevention device is a forced air supply device for forcibly supplying air. The forced air supply device forcibly supplies air by a blower A first air supply connection port connected to the first air knife to allow the first air supply knife to be connected to the first air knife; A first air knife for discharging air supplied through the first air supply connection airflow at a predetermined speed to generate a first jet flow; A first ejection guide vertically installed on the first vertical wall surface and guiding to eject the first jet stream generated by the first air knife; The first jet airflow is vertically installed on the second vertical wall surface facing the first vertical wall surface and sucks and collects the first jet airflow discharged through the first discharge guide to spread the air forming the first jet stream A first exhaust hood to prevent leakage; And a first exhaust connection airway connected to the first exhaust hood end so that the first jet airflow can be sucked into the first exhaust hood, wherein a first air supply connection airway is connected to one side of the first air knife And a jet nozzle for jetting air supplied through the first air supply connection port through a first discharge guide formed by a plurality of slit nozzles formed on the other side to form a jet flow in the form of a plane. The first exhaust connection air flow is a forced air exhaust device for forcibly exhausting air, and the pressure inside the first exhaust air hood is formed to be negative.

According to another aspect of the present invention, there is provided a smoke diffusion prevention system using an alternating air knife for forming a curved jet flow,
1. A smoke diffusion preventing system for preventing the spread of harmful gas fumes in the event of a fire, comprising: a first vertical air flow connection member, a first air knife and a first air flow direction adjusting and discharging guide formed vertically on a first vertical wall, The first exhaust hood) and the first exhaust air connection airflow formed on the second vertical wall facing the first vertical wall, and air discharged through the first air supply connection airflow is discharged by the first air knife A first smoke diffusion preventive facility for generating a first curved jet stream; A second air flow connection guide air guide, a second air knife and a second air flow direction adjusting and discharging guide formed vertically on the second vertical wall, A second exhaust hood and a second exhaust connection air flow are formed vertically on a second vertical wall facing the second vertical wall, and air discharged through the second air supply connection air flow is discharged by the second air knife And a second smoke diffusion preventing facility for generating a second curved jet flow,
Wherein the first and second airflow direction adjusting and discharging guides discharge the air generated through the first and second air knives at a predetermined angle? Wherein the first curved jet stream and the second curved jet stream are generated by the first curved jet stream and the second curved jet stream, respectively, wherein smoke is prevented from being primarily spread by the first curved jet stream, The second smoke diffusion prevention device is a forced air supply device for forcedly supplying air, and the air can be forcedly supplied by a blower. A first air supply connection port connected to the first air knife; A first air knife for discharging air supplied through the first air supply connection airflow at a predetermined speed to generate a first jet flow; A first ejection guide vertically installed on the first vertical wall surface and guiding to eject the first jet stream generated by the first air knife; The first jet airflow is vertically installed on the second vertical wall surface facing the first vertical wall surface and sucks and collects the first jet airflow discharged through the first discharge guide to spread the air forming the first jet stream A first exhaust hood to prevent leakage; And a first exhaust connection airway connected to the first exhaust hood end so that the first jet airflow can be sucked into the first exhaust hood, wherein a first air supply connection airway is connected to one side of the first air knife And a jet nozzle for jetting air supplied through the first air supply connection port through a first discharge guide formed by a plurality of slit nozzles formed on the other side to form a jet flow in the form of a plane. The first exhaust connection air flow is a forced air exhaust device for forcibly exhausting air, and the pressure inside the first exhaust air hood is formed to be negative.

According to the present invention, a jet stream is formed by using an air knife, and jet airflow and smoke are discharged through a forced exhaust system, thereby preventing smoke diffusion when a fire occurs.

According to the present invention, the effect of preventing smoke diffusion can be enhanced by forming the first and second jet streams by alternately installing the smoke diffusion preventing apparatus using the air knife.

According to the present invention, it is possible to increase the effect of preventing smoke diffusion and reduce the installation space by installing a smoke diffusion preventive facility using an alternating air knife for forming a curved jet flow.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view illustrating an apparatus for preventing flue gas diffusion using an air curtain according to the prior art; FIG.
2 is a view illustrating a smoke cutoff device according to a conventional technique.
3 is a perspective view of a smoke diffusion prevention system using a single air knife according to an embodiment of the present invention.
4 is a plan view showing installation of a smoke diffusion preventing apparatus using a single air knife according to an embodiment of the present invention.
5 is a plan view showing installation of a smoke diffusion preventing apparatus using an alternating air knife according to an embodiment of the present invention.
FIG. 6 is a view showing distances between jet airflows in a smoke diffusion prevention system using an alternating air knife according to an embodiment of the present invention. FIG.
7 is a plan view showing installation of a smoke diffusion preventing apparatus using an alternating air knife for forming a curved jet flow according to an embodiment of the present invention.
FIG. 8 is a view showing that the airflow direction adjusting and discharging guide adjusts the jet airflow discharging angle in the smoke diffusion preventing apparatus using the alternating air knife for forming the curved jet airflow according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Smoke diffusion prevention system using single air knife]

FIG. 3 is a perspective view of a smoke diffusion prevention system using a single air knife according to an embodiment of the present invention, and FIG. 4 is a plan view illustrating installation of a smoke diffusion prevention system using a single air knife according to an embodiment of the present invention.

3 and 4, the smoke diffusion preventing apparatus 100 using a single air knife according to an embodiment of the present invention is a smoke diffusion preventing apparatus for preventing the spread of harmful gas fumes when a fire occurs, An air knife 120, a discharge guide 130, an exhaust hood 140, and an exhaust connection air flow 150. [

The air supply connection air duct 110 is a forced air supply device for forcibly supplying air, and is connected so that air can be forcibly supplied by a blower (not shown).

The air knife 120 discharges air supplied through the air supply connection airflow 110 at a predetermined speed, for example, 50 to 200 km / h to generate a jet stream. At this time, the air knife 120 is provided with an air supply connection air flow 110 at one side thereof, and is forced through the air supply connection air flow 110 through a discharge guide 130 formed of a plurality of slit- And the supplied air is discharged to form a jet flow in the form of a plane. At this time, the plane-shaped jet stream generated by the air knife 120 is formed perpendicular to the smoke diffusion direction, thereby preventing smoke diffusion during a fire.

The discharge guide 130 is vertically installed on the first vertical wall surface 310 and guides the jet stream generated by the air knife 120 at a high speed. The discharge guide 130 has a plurality of slits Type nozzle.

The exhaust hood 140 is vertically installed on the second vertical wall surface 320 facing the first vertical wall surface 310 and sucks and collects the jet stream discharged through the discharge guide 130, Thereby preventing the air forming the jet stream from spreading or leaking.

The exhaust connection air flow 150 is connected to the end of the exhaust hood 140 so that the jet flow can be sucked into the exhaust hood 140. In addition, the exhaust connection air flow 150 is a forced air exhausting apparatus for forcibly exhausting air, and the inside of the exhaust hood 140 is formed to have a negative pressure.

4, the smoke diffusion preventive apparatus 100 using a single air knife according to an embodiment of the present invention may include a supply air connection 110, an air knife 120, The guide 130, the exhaust hood 140, and the exhaust connection air flow 150, which is a forced exhaust system, are each composed of one type.

The air knife 120 generates a jet stream in the form of a plane by forcibly supplying air by a blower (not shown) or the like and discharging it at a high speed, for example, 50 to 200 km / h , When the jet stream generated by the air knife 120 is formed perpendicular to the direction of the smoke diffusion, the diffusion of the smoke can be effectively prevented in the event of a fire.

At this time, if the jet airflow is not exhausted but spreads to the space of the building, since the smoke can be spread along the jet stream, it is very difficult to prevent the jet stream discharged by the air knife 120 from spreading or leaking The air knife 120 is installed on the first vertical wall surface 310 and the second vertical wall surface 320 facing the first vertical wall surface 310 is provided with an exhaust hood 140, And an exhaust connection air flow 150 as a facility is installed.

In the smoke diffusion prevention system using a single air knife according to the embodiment of the present invention, air is forcedly supplied to the air knife 120 by a blower, and a jet air stream is formed through the air knife 120. 4, the air knife 120 is installed on a first vertical wall surface 310 and a second vertical wall surface 320 facing the first vertical wall surface 310 is provided with an exhaust hood 140, and an exhaust connection air flow 150, which is a forced exhaust system, to suck a part of the jet stream and the smoke.

In this case, it is important to design the speed and flow rate of the jet airflow so as to overcome the diffusing power of the smoke and to prevent the jet airflow discharged from the discharge guide 130 formed in the discharging portion of the air knife 120 from leaking or spreading, (140). If some of the jet flow is not discharged to the exhaust hood 140 but spreads to the indoor space of the building, the smoke generated by the fire may be diffused together, so that this phenomenon should not occur.

The air knife 120 according to the embodiment of the present invention is provided with the air supply connection air flow 110 at one side and the air supply connection air flow 110 through the discharge guide 130 formed of a plurality of slit- And the jet airflow is formed by discharging air supplied at a high speed through the air flow passage. Specifically, the air knife 120 has a portion opened to discharge air, and a plurality of discharge guides 130 are installed at predetermined intervals in the opened portion to form a nozzle so that air can be discharged at a high speed. do. The air knife 120 supplies air through the discharge guide 130 to the exhaust hood 140. The air knife 120 is connected to the exhaust hood 140 via the air- ), And the discharged air forms a jet flow, whereby the diffusion of smoke can be effectively prevented in the event of a fire.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, wherein like reference numerals refer to like elements throughout. In the drawings: FIG. 1 is a perspective view of an air- The smoke diffusion preventing equipment used will be described with reference to Figs. 5 and 6. Fig.

[Smoke diffusion prevention system using alternating air knife]

FIG. 5 is a plan view showing a smoke diffusion preventive facility using an alternating air knife according to an embodiment of the present invention. FIG. 6 is a cross- Fig.

As shown in FIG. 5, the smoke diffusion prevention system using the interchangeable type air knife according to the embodiment of the present invention includes two types of smoke diffusion prevention facilities using the single air knife described above. And the smoke diffusion preventing device is installed in an alternating manner so that the first jet flow and the second jet flow are formed alternately.

5 and 6, the smoke diffusion prevention system using the alternating air knife according to the embodiment of the present invention includes a first smoke diffusion preventing apparatus 100 and a second smoke diffusion preventing apparatus 200 Wherein the first smoke diffusion preventive device 100 includes a first air supply connection port 110, a first air knife 120, a first discharge guide 130, a first exhaust hood 140, The second smoke diffusion preventive device 200 includes a second air supply connection port 210, a second air knife 220, a second discharge guide 230, a second exhaust hood 210, 240 and a second exhaust connection port 250.

The first smoke diffusion preventive device 100 includes a first vertical air flow connection pipe 110, a first air knife 120 and a first discharge guide 130 vertically formed on a first vertical wall 310, A first exhaust hood 140 and a first exhaust connection air flow 150 are vertically formed on a second vertical wall body 320 facing the first vertical wall body 310, Air supplied through the first air supply connection air flow path 110 to generate a first jet flow.

Specifically, the first air supply connection air flow 110 is a forced air supply device for forcibly supplying air, and is connected so that air can be forcibly supplied by a blower (not shown).

The first air knife 120 discharges air supplied through the first air supply connection air flow path 110 at a predetermined speed, for example, 50 to 200 km / h to generate a first jet flow. At this time, the first air knife 120 has a first air supply connection airflow 110 at one side and a first air supply connection airflow 110 through a first discharge guide 130 formed at a second side of the first air knife 120, The air supplied forcibly through the air flow 110 is discharged to form a first jet flow in the form of a plane. In this case, the first jet airflow generated by the first air knife 120 is formed perpendicular to the smoke diffusion direction, thereby preventing smoke diffusion during a fire.

The first discharge guide 130 is vertically installed on the first vertical wall surface 310 and guides the first jet stream generated by the first air knife 120 to be discharged at a high speed, The guide 130 may be a plurality of slit-shaped nozzles.

The first exhaust hood 140 is vertically installed on a second vertical wall surface 320 facing the first vertical wall surface 310 and is connected to a first jet airflow 130 discharged through the first discharge guide 130, So that the air forming the first jet flow is prevented from spreading or leaking.

The first exhaust connection air flow 150 is connected to the end of the first exhaust hood 140 so that the first jet flow can be sucked into the first exhaust hood 140. In addition, the first exhaust connection air flow 150 is a forced air exhaust system for forcibly exhausting air, and a pressure inside the first exhaust air hood 140 is negative.

Referring to FIGS. 5 and 6 again, the second smoke diffusion preventing apparatus 200 is installed in an alternating manner spaced apart from the first smoke diffusion preventing apparatus 100 by a predetermined distance, A second air knife 220 and a second discharge guide 230 are formed perpendicular to the second vertical wall body 310 and the second vertical wall body 310 facing the second vertical wall body 320, A second exhaust hood 240 and a second exhaust connection air flow 250 are formed perpendicularly to the first air supply connection hole 210. Air discharged through the second air supply connection air flow 210 is discharged by the second air knife 220 Thereby generating a second jet flow. Thus, the smoke is prevented from being primarily spread by the first jet flow, and the smoke passing through the first jet flow is trapped while being swirled in the space between the first jet flow and the second jet flow, Can be prevented.

Specifically, the second air supply connection air flow 210 is a forced air supply device for forcibly supplying air, and is connected so that air can be forcibly supplied by a blower (not shown).

The second air knife 220 is installed on the second vertical wall 320 opposite to the first vertical wall 310 on which the first air knife 120 is installed, And discharges the air supplied through the second air supply connection port 210 at a predetermined speed, for example, 50 to 200 km / h to generate a second jet flow. At this time, the second air knife 220 is provided with a second air supply connection airflow 210 at one side thereof and a second air supply connection airflow 210 through a second discharge guide 230 formed of a plurality of slit- And the air supplied forcibly through the air flow 210 is discharged to form a second jet flow in the form of a plane. At this time, the jet stream of the plane shape generated by the second air knife 220 is formed perpendicular to the smoke diffusion direction, thereby preventing smoke diffusion in the event of a fire.

The second discharge guide 230 is vertically installed on the second vertical wall surface 320 and guides the second jet airflow generated by the second air knife 220 to be discharged at a high speed, 2 ejection guide 230 may be a plurality of slit-shaped nozzles.

The second exhaust hood 240 is installed in a vertical direction on the first vertical wall surface 310 facing the second vertical wall surface 320, So that the air forming the jet stream is prevented from spreading or leaking.

The second exhaust connection air flow path 250 is connected to the end of the second exhaust hood 240 so that the second air flow can be sucked into the second exhaust hood 240. In addition, the second exhaust connection air flow path 250 is a forced air exhausting device for forcibly discharging air, and is formed so that a pressure inside the second exhaust hood 240 becomes a negative pressure.

As described above, two jet streams are generated on the space in the direction of the smoke diffusion and are formed in the alternating manner, so that the effect of preventing smoke diffusion can be increased. That is, even if some of the smoke generated by the fire passes through the first jet stream, further spreading by the second jet stream can be prevented. That is, since the smoke passing through the first jet stream is trapped while swirling in the space between the first jet stream and the second jet stream, smoke diffusion can be additionally prevented.

Meanwhile, in the case of the smoke diffusion preventing apparatus using the interlacing air knife according to the embodiment of the present invention, as shown in FIG. 6, when the distance L between the first and second jet airflows formed in the alternating manner is an important design Variable. Specifically, when the distance L between the first and second jet streams is equal to or smaller than a predetermined distance, interference between the first and second jet streams occurs, so that the shape of the jet stream can not prevent the spread of the smoke. That is, the first jet flow and the second jet flow collide with each other, and a jet flow of a plane shape across the space is not formed. In addition, in the smoke diffusion preventive facility using the interchangeable air knife according to the embodiment of the present invention, there may be a case where the distance L between the jet airflows should be narrowed due to the space limitation.

[Smoke diffusion preventive facility using alternating air knife to form curved jet airflow]

7, when the distance L between the first and second jet streams is to be narrowed, the smoke diffusion preventing apparatus using the alternating air knife according to the embodiment of the present invention is introduced. However, Airflow direction adjusting and discharging guides 130a and 230a are respectively installed in the second air knives 120 and 220 and a curved jet airflow is generated by discharging air at a predetermined angle? In other words, in the smoke diffusion prevention system using the alternating air knife according to the embodiment of the present invention, the first and second jet streams are arranged in such a manner that the jet streams are formed without interference, It is necessary to keep the distance L between the jet airflows at a predetermined distance or more. However, if the distance L between the first and second jet airflows should be narrowed, and the air discharged at the predetermined angle (?) generates the first and second curved jet flows, respectively, so that the diffusion of the smoke can be suppressed by the air flow direction adjustment discharge guides (130a, 230a) . In addition, the installation space can be reduced by narrowing the distance L between the first and second jet airflows.

FIG. 7 is a plan view showing installation of a smoke diffusion preventive facility using an alternating air knife for forming a curved jet flow according to an embodiment of the present invention, and FIG. 8 is a cross- FIG. 5 is a view showing that the airflow direction adjustment and discharge guide adjusts the jet airflow discharge angle in the smoke diffusion prevention system using the alternating air knife.

7 and 8, the smoke diffusion prevention system using the alternating air knife for forming the curved jet airflow according to the embodiment of the present invention includes a smoke diffusion prevention apparatus for preventing diffusion of harmful gas fumes when a fire occurs, Wherein the first smoke diffusion preventing apparatus 100 includes a first smoke diffusion preventing apparatus 100 and a second smoke diffusion preventing apparatus 200 wherein the first smoke diffusion preventing apparatus 100 includes a first air supply connection conductor 110, The second smoke diffusion preventing apparatus 200 includes an air knife 120, a first airflow direction adjusting and discharging guide 130a, a first exhaust hood 140 and a first exhaust connecting airflow 150, A second air flow direction adjustment discharge guide 230a, a second exhaust hood 240, and a second exhaust connection air flow path 250. The air supply connection air flow 210, the second air knife 220, the second air flow direction adjustment discharge guide 230a,

The first smoke diffusion preventing apparatus 100 includes a first vertical air flow connecting member 110 formed on the first vertical wall 310 and a first air knife 120 and a first air flow direction adjusting and discharging guide 130a A first exhaust hood 140 and a first exhaust connection air flow 150 are vertically formed on a second vertical wall 320 facing the first vertical wall 310, 120 generates the first curved jet stream by discharging the air supplied through the first air supply connection air flow 110. [

Specifically, the first air supply connection air flow 110 of the first smoke diffusion preventive device 100 is a forced air supply device for forcibly supplying air, and is connected to the air supply fan for forced air supply.

The first air knife 120 is vertically installed on the first vertical wall surface 310 so that the air supplied through the first air supply connection air flow path 110 is supplied at a predetermined speed, for example, 50 to 200 km / h To generate the first curved jet flow.

The first airflow direction adjusting and discharging guide 130a is vertically installed on the first vertical wall surface 310 and guides the first curved jet airflow generated by the first air knife 120 to be discharged.

The first exhaust hood 140 is installed vertically on the second vertical wall surface 320 facing the first vertical wall surface 310 and is disposed in the vertical direction on the second vertical wall surface 320 facing the first vertical wall surface 310, 1 curved jet stream to trap and leak air forming the first curved jet stream.

The first exhaust connection airflow 150 is connected to the end of the first exhaust hood 140 so that the first curved jet airflow can be sucked into the first exhaust hood 140.

In addition, the second smoke diffusion preventing apparatus 200 is installed in an alternating manner spaced apart from the first smoke diffusion preventing apparatus 100 by a predetermined distance, and the second smoke diffusion preventing apparatus 200 is vertically provided on the second vertical wall 320, A second air knife 220 and a second airflow direction adjusting and discharging guide 230a are formed on a second vertical wall body 310 facing the second vertical wall body 320, The air exhaust hood 240 and the second exhaust connection air flow 250 are formed and the air supplied through the second air supply connection air flow 210 is discharged by the second air knife 220, Thereby generating an airflow.

The second air supply connection air flow 210 of the second smoke diffusion preventive device 200 is a forced air supply device for forcibly supplying air and is connected to the air supply fan for forced air supply.

The second air knife 220 is vertically installed on the second vertical wall surface 320 so that the air supplied through the second air supply connection air flow path 210 is supplied at a predetermined speed, for example, 50 to 200 km / h To generate a second curved jet flow.

The second airflow direction adjusting and discharging guide 230a is vertically installed on the second vertical wall surface 320 and guides the second curved jet airflow generated by the second air knife 220 to discharge.

 The second exhaust hood 240 is installed vertically on the first vertical wall surface 310 facing the second vertical wall surface 320 and is disposed in the vertical direction on the first vertical wall surface 310, 2 curved jet stream to trap and leak air forming the second curved jet stream.

The second exhaust air connecting conduit 250 is connected to the end of the second exhaust hood 240 so that the second jet airflow can be sucked into the second exhaust hood 240. At this time, The connection airflows 150 and 250 are forced air exhausting devices for forcibly exhausting air, respectively, so that the pressure inside the first and second exhaust hoods 140 and 240 becomes negative.

The first and second airflow direction adjusting and discharging guides 130a and 230a discharge the air generated through the first and second air knives 120 and 220 at a predetermined angle θ, Air discharged at an angle (?) Produces first and second curved jet streams, respectively, wherein the first curved jet stream is primarily prevented from spreading smoke, and the first curved jet stream One smoke may be trapped while being swirled in the space between the first curved jet stream and the second curved jet stream to further prevent smoke spreading.

That is, as shown in FIGS. 7 and 8, the smoke diffusion prevention system using the alternating air knife for forming the curved jet airflow according to the embodiment of the present invention is characterized in that, in the smoke diffusion prevention system using the alternating air knife The air flow direction adjusting and discharging guides 130a and 230a are installed in the air knife so that the first curved jet flow and the second curved jet flow are curved while facing each other, thereby preventing the spread of smoke and reducing the installation space .

As a result, according to the embodiment of the present invention, the jet airflow is formed by using the air knife, and the jet airflow and the smoke are discharged through the forced air exhaust system, thereby preventing the spread of smoke when a fire occurs, It is possible to increase the effect of preventing the spread of smoke by forming the first and second jet air streams by alternately installing the facilities and by installing the smoke diffusion preventing apparatus using the alternating air knife for forming the curved jet air stream, The installation space can be reduced while enhancing the diffusion prevention effect.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: 1st smoke diffusion preventive facility
200: 2nd smoke spread prevention system
110, 210: Intake airflow
120, 220: air knife
130, 230: Discharge guide
140, 240: exhaust hood
150, 250: Exhaust connection air volume
130a, 230a: an airflow direction adjustment discharge guide
310: first vertical wall surface
320: second vertical wall surface

Claims (14)

A smoke diffusion prevention system for preventing the spread of harmful gas fumes when a fire occurs,
A forced air supply unit for forced air supply, comprising: an air supply connection air flow (110) connected to an air knife (120) so as to forcibly supply air by a blower;
An air knife 120 for discharging air supplied through the air supply connection air flow 110 at a predetermined speed to generate a jet stream;
A discharge guide (130) vertically installed on the first vertical wall surface (310) and guiding to discharge the jet flow generated by the air knife (120);
And a second vertical wall surface 320 opposed to the first vertical wall surface 310. The first vertical wall surface 320 and the second vertical wall surface 320 are arranged in a vertical direction to suck and collect the jet flow discharged through the discharge guide 130, An exhaust hood 140 for preventing the exhaust gas from spreading or leaking; And
(150) connected to an end of the exhaust hood (140) so that the jet stream can be sucked into the exhaust hood (140)
The air knife 120 is connected to an air supply connection air flow 110 at one side and air supplied through the air supply connection air flow 110 through an air discharge guide 130 formed of a plurality of slit nozzles formed at the other side And is formed vertically along the discharge guide 130 provided on the first vertical wall surface 310 to form a jet flow in the form of a plane,
Wherein the exhaust connection air flow (150) is a forced air exhausting device for forcibly exhausting air, and a pressure inside the exhaust hood (140) is formed to be a negative pressure. The method according to claim 1,
Wherein the predetermined speed of the jet stream generated by the air knife 120 is 50 to 200 km / h. delete The method according to claim 1,
Wherein the jet airflow generated by the air knife (120) is formed perpendicular to the smoke diffusion direction, thereby preventing smoke diffusion during a fire. delete A smoke diffusion prevention system for preventing the spread of harmful gas fumes when a fire occurs,
A first air supply connection port 110, a first air knife 120 and a first discharge guide 130 are vertically formed on a first vertical wall member 310, A first exhaust hood 140 and a first exhaust connection air flow 150 are vertically formed on the second vertical wall 320 and the first air supply connection air flow 110 is divided by the first air knife 120, A first smoke diffusion preventing apparatus 100 for discharging air supplied through the first smoke diffusion preventing apparatus 100 to generate a first jet flow; And
A second air supply connection port 210, a second air knife 220, and a second air supply connection port 210 are vertically installed on the second vertical wall 320 in such a manner as to be spaced apart from the first smoke diffusion preventing apparatus 100, A second exhaust guide hood 240 and a second exhaust connection hood 250 are vertically formed on a second vertical wall body 310 facing the second vertical wall body 320, And a second smoke diffusion preventive device (200) for generating a second jet stream by discharging air supplied through the second air supply connection air flow path (210) by the second air knife (220) The smoke is prevented from being primarily diffused by the first jet stream and the smoke passing through the first jet stream is trapped while being swirled in the space between the first jet stream and the second jet stream to further prevent smoke diffusion ,
The first smoke diffusion preventive device 100 is a forced air supply device for forcibly supplying air. The first smoke diffusion preventive device 100 includes a first air supply connection airflow 110 (110) connected to the first air knife 120 so that air can be forcibly supplied by a blower, ); A first air knife 120 for discharging air supplied through the first air supply connection air flow path 110 at a predetermined speed to generate a first jet stream; A first discharge guide (130) vertically installed on the first vertical wall surface (310) and guiding to discharge the first jet stream generated by the first air knife (120); And a second vertical wall surface (320) facing the first vertical wall surface (310), the first vertical wall surface (320) being arranged vertically and sucking and collecting the first jet stream discharged through the first discharge guide (130) A first exhaust hood 140 for preventing the air forming the jet stream from spreading or leaking; And a first exhaust connection air duct 150 connected to an end of the first exhaust hood 140 so that the first jet airflow can be sucked into the first exhaust hood 140. The first air knife 120 The first air supply connection air flow 110 is connected to one side and the air forcibly supplied through the first air supply connection air flow is discharged through the first discharge guide 130 formed of a plurality of slit nozzles formed on the other side And the first exhaust connection air flow 150 is a chamber which is vertically installed along a first discharge guide provided on a first vertical wall surface 310 forming a jet flow of a plane shape, Wherein the first exhaust hood (140) is formed to have a negative pressure in the first exhaust hood (140) as an exhaust system. delete The apparatus according to claim 6, wherein the second smoke diffusion preventing apparatus (200)
A forced air supply device for forced air supply, comprising: a second air supply connection air duct (210) connected to the air supply fan so as to forcibly supply air;
A second air knife 220 for discharging air supplied through the second air supply connection port 210 at a predetermined speed to generate a second jet flow;
A second discharge guide (230) vertically installed on the second vertical wall surface (320) and guiding to discharge the second jet stream generated by the second air knife (220);
The first vertical wall surface 310 and the second vertical wall surface 320 are vertically installed on the first vertical wall surface 310 and suck and collect the second jet stream discharged through the second discharge guide 230, A second exhaust hood 240 for preventing the air forming the jet stream from spreading or leaking; And
A second exhaust connection airflow 250 connected to an end of the second exhaust hood 240 so that the second jet airflow may be sucked into the second exhaust hood 240,
A smoke diffusion prevention apparatus using an alternating air knife. delete The method according to claim 6,
Wherein the first and second jet streams maintain the distance L between the first jet stream and the second jet stream at a predetermined distance or more so that interference is not generated and a surface jet stream is formed. Smoke diffusion prevention equipment. A smoke diffusion prevention system for preventing the spread of harmful gas fumes when a fire occurs,
A first air supply connection air flow 110, a first air knife 120 and a first air flow direction adjusting and discharging guide 130a are vertically formed on a first vertical wall member 310. The first vertical wall member 310, A first exhaust hood 140 and a first exhaust connection air flow 150 are vertically formed on a second vertical wall 320 opposed to the first air supply connection port 120. The first air supply connection port 150 is formed by the first air knife 120, A first smoke diffusion preventing apparatus 100 for discharging air supplied through the first smoke diffusion preventing apparatus 110 to generate a first curved jet flow; And
A second air supply connection port 210, a second air knife 220, and a second air supply connection port 210 are vertically installed on the second vertical wall 320 in such a manner as to be spaced apart from the first smoke diffusion preventing apparatus 100, A second air flow direction adjusting and discharging guide 230a is formed and a second exhaust air hood 240 and a second air exhaust air connecting port 230 are formed vertically on a second vertical wall body 310 facing the second vertical wall body 320 And a second smoke diffusion preventing device 200 for generating a second curved jet flow by discharging air supplied through the second air supply connection air flow path 210 by the second air knife 220 ),
The first and second airflow direction adjusting and discharging guides 130a and 230a discharge the air generated through the first and second air knives 120 and 220 at a predetermined angle? θ) of the first curved jet air flow produces first and second curved jet air streams, respectively, smoke diffusion is prevented primarily by the first curved jet air stream, and the smoke passing through the first curved jet air stream Is trapped while being swirled in the space between the first curved jet flow and the second curved jet flow, and smoke diffusion is additionally prevented,
The first smoke diffusion preventive device 100 is a forced air supply device for forcibly supplying air. The first smoke diffusion preventive device 100 includes a first air supply connection airflow 110 (110) connected to the first air knife 120 so that air can be forcibly supplied by a blower, ); A first air knife 120 for discharging air supplied through the first air supply connection air flow path 110 at a predetermined speed to generate a first jet stream; A first discharge guide (130) vertically installed on the first vertical wall surface (310) and guiding to discharge the first jet stream generated by the first air knife (120); And a second vertical wall surface (320) facing the first vertical wall surface (310), the first vertical wall surface (320) being arranged vertically and sucking and collecting the first jet stream discharged through the first discharge guide (130) A first exhaust hood 140 for preventing the air forming the jet stream from spreading or leaking; And a first exhaust connection air duct 150 connected to an end of the first exhaust hood 140 so that the first jet airflow can be sucked into the first exhaust hood 140. The first air knife 120 The first air supply connection air flow 110 is connected to one side and the air forcibly supplied through the first air supply connection air flow is discharged through the first discharge guide 130 formed of a plurality of slit nozzles formed on the other side And the first exhaust connection air flow 150 is a chamber which is vertically installed along a first discharge guide provided on a first vertical wall surface 310 forming a jet flow of a plane shape, Wherein the first exhaust hood (140) is formed to have a negative pressure as an exhaust system, and a pressure inside the first exhaust hood (140) is negative. delete 12. The system of claim 11, wherein the second smoke diffusion prevention system (200)
A forced air supply device for forced air supply, comprising: a second air supply connection air duct (210) connected to the air supply fan so as to forcibly supply air;
A second air knife 220 vertically installed on the second vertical wall surface 320 and generating a second curved jet flow by discharging the air supplied through the second air supply connection air flow 210 at a predetermined speed, ;
A second airflow direction adjustment discharge guide (230a) vertically installed on the second vertical wall surface (320) and guiding to discharge the second curved jet airflow generated by the second air knife (220);
A second curved jet airflow guide installed in a vertical direction on a first vertical wall surface 310 facing the second vertical wall surface 320 and configured to suck and discharge a second curved jet airflow discharged through the second airflow direction adjusting and discharging guide 230; A second exhaust hood (240) for collecting and preventing the air forming the second curved jet flow from spreading or leaking; And
A second exhaust connection airflow 250 connected to an end of the second exhaust hood 240 so that the second curved jet airflow is sucked into the second exhaust hood 240,
Wherein said air diffuser is formed of an air knife. delete

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