KR20200043643A - Air curtain blower for Smoke Control - Google Patents

Abstract

The present invention relates to an air curtain blower for smoke control. More specifically, the present invention relates to an air curtain blower for smoke control which is configured to integrate an outlet nozzle on impeller sides of the blower in order to efficiently block smoke in a fire section. The outlet nozzle has a structure which maintains linearity of sprayed wind and uniformly sprays the wind by distributing the wind over the entire area of the outlet nozzle. Accordingly, air curtain is formed through efficient spraying of the wind, thereby rapidly blocking and delaying smoke in case of fire.

Description

Air curtain blower for smoke control

The present invention relates to an air curtain blower having a structure capable of efficiently delaying and blocking smoke diffusion in a fire zone.

As civil engineering technology develops, various types of roads are being made, among which there are underpasses or tunnels (hereinafter referred to as "tunnels") for the purpose of shortening the length of roads.

Since these tunnels are built underground, entry is difficult, and there are many difficulties such as fire suppression and evacuation measures or ventilation. Therefore, for extinguishing and evacuating fires, fire hydrants, sprinklers, ventilation ducts for air circulation, and the like are provided.

However, in the event of a fire in such a tunnel, there was a problem that the smoke inside the tunnel easily spread to other parts of the tunnel due to the flow of air, and people inside the tunnel could not easily evacuate because of smoke or choke.

Accordingly, although the air tunnel system is developed to block and delay volcanic smoke in the event of a fire in a railway tunnel with a great depth or a long road, these conventional tunnel air curtains suck air inside the tunnel and supply it back into the tunnel. Since it is made of a structure that forms an air curtain, it is possible to prevent the spread of flame, but it is not possible to prevent the spread of toxic gases such as soot contained in the flame. On the contrary, there was a problem in that the role of increasing the speed at which the fumes were propagated by encouraging the circulation of the flames.

In addition, depending on the type of motor or impeller, there may be an empty space where the air curtain cannot be utilized at the installed position, and the sprayed wind may not be uniformly sprayed from the impeller or sprayed without maintaining straightness. There was also a problem.

Republic of Korea Registered Patent Publication No. 10-1745214 (2017.06.01.registration)

The present invention has been devised to solve the above problems, and the object of the present invention is to minimize the diffusion of smoke during a tunnel fire and to prevent disasters, and to provide a discharge nozzle in the direction of injection to the impeller side of the blower. And

By variously presenting the shape of the outlet nozzle, the sprayed wind is distributed over the entire area of the outlet nozzle while maintaining uniformity of the sprayed wind, and uniform spraying is also possible.

The present invention is to provide an air curtain blower for ventilation, which can be widely applied regardless of the tunnel size and ventilation method used (type of blower, etc.).

Other objects and advantages of the present invention will be described below, and will be learned by examples of the present invention. In addition, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

The present invention as a means for solving the above problems,

It is formed with air curtains on both sides of the fire zone in the tunnel to delay and block the spread of flames and smoke, and at each preset distance interval in the tunnel, a number of counterparts are installed in the width direction at the top of the tunnel, and a single motor ( 11) First and second impellers (11, 12) are installed on both sides, respectively, to blow the inhaled air at a predetermined angle toward the ground to blow the air curtain (10); The first and second impellers 11 and 12 are installed to correspond to each air outlet, so that the lowermost sides of each other are installed in close contact with each other, and induce the diffusion of the discharged wind so that uniform spraying is possible. A discharge port nozzle 20 to maintain straightness; It characterized in that it comprises a.

As described above, the present invention can be installed in consideration of a variety of tunnel fire environment, there is an effect that can effectively block fire smoke according to the situation.

In addition, the present invention has an effect of not being subject to installation restrictions, regardless of the size of the tunnel, the ventilation method, and the type of blower used.

In addition, the present invention has an effect of minimizing traffic congestion by shortening the construction period compared to existing disaster prevention facilities, and significantly reducing the installation cost when preparing for the installation cost of an existing evacuation connection passage, jet fan, and the like.

In addition, the present invention has an effect that can be applied to various installation locations for preventing the diffusion of tunnels and smoke.

1 is a view of one embodiment showing an air curtain blower for ventilation according to the present invention.
2 is a view of another embodiment showing an air curtain blower for ventilation according to the present invention.
3 is a plan view of one embodiment showing a shape according to the width of the discharge nozzle according to the present invention.
Figure 4 is a plan view of one embodiment showing a shape according to the width of the discharge nozzle according to the present invention.
Figure 5 is a block diagram of an embodiment showing a discharge nozzle coupling structure when a centrifugal fan is applied in the air curtain blower according to the present invention.
Figure 6 is a block diagram of an embodiment showing a nozzle structure of the discharge port when the cross-flow fan is applied in the air curtain blower according to the present invention.
7 and 8 are views for explaining in detail the shape of the discharge nozzle according to the present invention.
Figure 9 is a use of an embodiment showing a state in which the air curtain blower according to the present invention is applied.

Before describing the various embodiments of the present invention in detail, it will be appreciated that its application is not limited to the details of the configurations and arrangements of components described in the following detailed description or illustrated in the drawings. The present invention can be implemented and implemented in other embodiments and can be performed in a variety of ways. Also, the device or element orientation (eg "front", "back", "up", "down", "top", "bottom") The expressions and predicates used herein with respect to terms such as "," left "," right "," lateral ", etc. are only used to simplify the description of the present invention, and related devices Or you will see that the element simply indicates or does not mean that it should have a specific direction. Also, terms such as “first” and “second” are used in the present application and appended claims for explanation and are not intended to indicate or mean relative importance or purpose.

The present invention has the following features to achieve the above object.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately explains the concept of terms to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and at the time of this application, various alternatives are possible. It should be understood that there may be equivalents and variations.

Looking at one embodiment according to the present invention,

It is formed with air curtains on both sides of the fire zone in the tunnel to delay and block the spread of flames and smoke, and at each preset distance interval in the tunnel, a number of counterparts are installed in the width direction at the top of the tunnel, and a single motor ( 11) First and second impellers (11, 12) are installed on both sides, respectively, to blow the inhaled air at a predetermined angle toward the ground to blow the air curtain (10); The first and second impellers 11 and 12 are installed to correspond to each air outlet, so that the lowermost sides of each other are installed in close contact with each other, and induce the diffusion of the discharged wind so that uniform spraying is possible. A discharge port nozzle 20 to maintain straightness; It characterized in that it comprises a.

In addition, the discharge nozzle 20 is the first case in which the width W is gradually widened toward the longitudinal direction in which the wind is sprayed, and the length is further extended to a uniform width W at the end of the discharge nozzle 20 (A ), Or in the first case (A) of the discharge port nozzle 20, characterized in that it is made of any one of the planar shape of the second case (B), the length is further extended to a uniform width (W) .

In addition, the discharge port nozzle 20, if the blower 10 is a cross-flow blower, one side is extended to a uniform width (W), the other side is gradually widened in the longitudinal direction toward the width (W), and then, The third case (C), which is further extended by one width (W), is characterized in that it is made of a planar shape of.

In addition, the discharge port nozzle 20, the width (H) is gradually narrowed toward the longitudinal direction in which the wind is sprayed, the upper surface is level with the ground, the lower surface is a fourth case having a form inclined at a predetermined angle (D) , Or the fifth case (E), or the fourth case (D), in which the width (H) is gradually narrowed while the upper / lower surfaces are inclined at a predetermined angle toward the center of the nozzle width toward the longitudinal direction where the wind is injected. It characterized in that it is made of a side shape of any one of the sixth case (F), the length of which is further extended with a uniform width (H) at the end of the discharge nozzle (20).

In addition, the discharge nozzle 20 is provided with a guide member 30 that divides the interior of the discharge nozzle 20 into a plurality of discharge spaces, the wind is concentrated and discharged to the center of the discharge nozzle 20, the It is also distributed to both sides of the discharge nozzle 20 by the guide collar 30, it is characterized in that it is possible to uniform spray over the entire width (W) of the discharge nozzle 20.

In addition, the guide feather 30 is respectively installed on both sides of the longitudinal center line C 'inside the nozzle 20 of the discharge port, and a single guide feather 30 is installed on both sides of the center line C', or A plurality of spaced apart from each other on both sides of the center line (C ') is characterized in that the structure is installed.

In addition, each guide member 30 on both sides of the center line (C '), on both sides of the center line (C'), is the same as the shape of the side walls of the discharge nozzle 20, single or multiple times in the longitudinal direction. has a straight line shape which is bent, the bending angle between both side walls of said discharge port nozzle _{(20) (θ 1, θ} 11) and the bending angle of the side walls and the guide vane (30) of said discharge port nozzle (20) (θ _1, θ ₁₁ ) (θ ₂ , θ ₂₂ ) is characterized by being formed identically or differently.

In addition, each of the first and second impellers 11 and 12 on both sides of the motor 11 of the air blower 10 is sucked horizontally from both sides, so that air is perpendicular to the outlet nozzle 20. Centrifugal blower to be injected, or each of the first and second impellers 11 and 12 on both sides of the motor 11, the air is sucked horizontally at the rear end, so that air is injected at a right angle toward the outlet nozzle 20 Characterized in that one of the cross-flow blowers is used.

Hereinafter, an air curtain blower for ventilation according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 9.

The air curtain blower for ventilation of the present invention is configured to delay and block diffusion of flame and smoke by forming air curtains by spraying wind from both sides of the fire zone in the tunnel toward the ground. Accordingly, a plurality of preset distance intervals in the tunnel are installed correspondingly in the width direction on the upper side of the tunnel, and include a blower 10 and a discharge nozzle 20.

The blower 10 is provided with first and second impellers 11 and 12 that are rotated by the motor 11 on both sides of a single motor 11, respectively, so that inhaled air is injected at a preset angle toward the ground. By doing so, the air curtain is formed.

In the case of such a blower 10, air is sucked horizontally from both sides of each of the first and second impellers 11 and 12 on both sides of the motor 11, so that air is perpendicular to the discharge nozzle 20 Each of the first and second impellers 11 and 12 on either side of the centrifugal blower or the motor 11 to be sprayed is transversely flowed so that air is sucked horizontally at the rear end and air is injected at a right angle toward the outlet nozzle 20. Any one of the blowers can be used, and is not limited to the type of blower used, and can be used. (Wind velocity of the wind sprayed in the present invention can be to be injected at 30 ~ 35m / s.)

The outlet nozzle 20 is installed to correspond to the air outlets of the first and second impellers 11 and 12, and the outlet nozzles 20 installed on the first and second impellers 11 and 12, respectively, It is to be installed so that the bottom one side of each other is in close contact with each other.

The outlet nozzle 20 maintains the straightness of the discharged wind and is sprayed toward the ground, while being distributed over the entire area of the outlet nozzle 20 to allow uniform injection, thereby enabling efficient air curtain formation. will be.

In the case of the discharge nozzle 20 for this in the present invention,

As shown in Fig. 3, three planar shapes (first case (A), second case (B), third case (C)) and three side shapes (fourth case), as shown in Fig. (D), the fifth case (E), and the sixth case (F).

First, three planar embodiments of the discharge nozzle 20 will be described.

1. In the first case (A): the outlet nozzle 20 is gradually widened in the width (W) toward the longitudinal direction in which the wind is sprayed, and then the length is further increased by a uniform width (W) at the end of the outlet nozzle (20). It has an extended shape.

2. Second case (B): The front end of the discharge port nozzle 20 of the first case (A) has a shape in which the length is further extended with a uniform width (W). That is, the flow induction zone (a) extending in a uniform width (W) toward the direction of injection of the wind, and subsequent to the flow induction zone, the width (W) on both sides gradually widens and extends the nozzle expansion zone (b) And, the nozzle expansion zone (b), followed by a flow induction zone (a), rather than a relatively large width (W) of the nozzle straight zone (c) extending uniformly.

3. Third case (C): As the blower 10 is used as a cross-flow blower, one side extends in a straight line with a uniform width (W), and the other side gradually increases the width (W) toward the longitudinal direction. After is widened, it has a shape that is further extended to a uniform width (W).

 In the case, between the outlet nozzles 20 mounted on the first and second impellers 11 and 12 on both sides of the single motor 11, the shape portions (one side) further extending with a uniform width W are in contact with each other. It has a structure, forms one set, and has a structure in which the other side extending in a straight line with a uniform width (W) is in contact with another set and is continuously arranged. Accordingly, a plurality of discharge nozzle nozzles 20 are provided with side surfaces in continuous contact with each other, so that an empty space is not formed between each other, so that an empty space is not generated when spraying air for the air curtain. Of course, the contact between the plurality of outlet nozzles 20 is also applied to the first and second cases.

In addition, in the first, second, and third cases (A, B, C) described above,

The nozzle expansion angle (θ ₁ ) at which the nozzle 20 is widened is related to adjusting the extent to which the nozzle will be widened (the length of expansion of the nozzle). The angle of 30 (guide feather 30 flow distribution angle θ ₂ ) is related to the adjustment of the air volume inside the nozzle and maintaining the flow straightness.

In addition, when the width W of the outlet nozzle 20 gradually increases, according to various embodiments of the user, the bending angles (nozzle expansion angles (θ ₁ , θ ₁₁ )) of both sides of the outlet nozzle 20 are Equally, it may be widened to be symmetrical, or non-symmetrically widened asymmetrically, and the length (l ₂ , l ₃ ) of a region in which the width W is widened is the center line C to be described later. ') It can be changed according to the flow distribution angle (θ ₂ , θ ₂₂ ) of each of the guide feathers 30 formed on both sides.

In addition, the inside of the discharge nozzle 20 is provided with a guide member 30 for dividing the inside of the discharge nozzle 20 into a plurality of discharge space, the wind is concentrated and discharged to the center of the discharge nozzle 20, the It is also distributed to both sides of the discharge nozzle 20 by the guide collar 30, so that the discharge nozzle 20 can be uniformly distributed over the entire width (W),

The bending angle of the guide feather 30 to be installed in this way (the guide feather 30 flow distribution angle) also assumes that there is a virtual center line C 'in the longitudinal direction in the center of the inside of the discharge nozzle 20. C ') The guide feathers 30 are installed on both sides, and the bending angles of the guide feathers 30 on both sides of the center line C' (the guide shaft 30 flow distribution angles (θ ₂ , θ ₂₂ )) are also It can be widened to be equally symmetrical, or widened asymmetrically.

The guide feather 30 is installed on each side of the center line (C '), a single one toward the longitudinal direction inside the outlet nozzle 20, or a plurality of spaced apart from each other on the center line (C') are installed multiple It may have a structure, and may have a straight shape that is bent one or more times in the longitudinal direction, the same as the shape of both sides of the outlet nozzle 20.

In the following, three embodiments of the discharge nozzle 20 will be described.

1. Case 4 (D): The discharge nozzle 20 has a narrow width (H) toward the longitudinal direction in which the wind is sprayed, but the upper surface is level with the ground, and the lower surface is inclined at a predetermined angle. The branch has a shape. As shown in FIG. 7, the speed distribution of the wind sprayed in the absence of the outlet nozzle 20 is gradually reduced from the left to the right (from the top to the bottom of the discharge entrance), and thus, in the present invention, It is to have the same shape as the fourth case (D) of the same shape according to the speed distribution.

2. Fifth Case (E): The outlet nozzle 20 has a shape in which the width (H) is gradually narrowed while the upper / lower surfaces are inclined at a predetermined angle toward the center of the nozzle width toward the longitudinal direction where the wind is injected. Is to have In the case of the fifth case (E), the nozzle injection angle θ ₃ that is narrowed on the upper and lower surfaces of the discharge nozzle 20 can be set to be 0 to 20 °.

3. Sixth case (F): The fourth case (D) has a shape in which the length is further extended with a uniform width (H) at the end of the discharge port nozzle (20).

Of course, in the case of the fourth and sixth cases (D, F), it will be natural that the upper and lower surfaces of the longitudinal direction in which the wind is injected may be formed in reverse.

As described above, although the present invention has been described by a limited number of embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following will be described by those skilled in the art to which the present invention pertains. Of course, various modifications and changes can be made within the equal scope of the claims to be described.

10: blower 11: motor
12: 1st impeller 13: 2nd impeller
20: outlet nozzle 30: guide collar
C ': Centerline H: Width
W: width

Claims (8)

It is formed with air curtains on both sides of the fire zone in the tunnel to delay and block the spread of flames and smoke, and each preset distance interval in the tunnel is installed in the width direction at the top of the tunnel.
First and second impellers (11, 12) are installed on both sides of a single motor (11), respectively, to blow the inhaled air toward the ground at a predetermined angle to blow the air curtain (10);
The first and second impellers 11 and 12 are installed to correspond to each air outlet, so that the lowermost sides of each other are installed in close contact with each other, and induce the diffusion of the discharged wind so that uniform spraying is possible. A discharge port nozzle 20 to maintain straightness;
Air curtain blower for ventilation, characterized in that comprises a.
According to claim 1,
The outlet nozzle 20 is
After the width (W) gradually increases toward the longitudinal direction in which the wind is sprayed, the first case (A) in which the length is further extended to a uniform width (W) at the end of the discharge nozzle (20), or
In the second case (B), in which the length is further extended by a uniform width (W) at the front end of the nozzle 20 of the first case (A),
Air curtain blower for ventilation, characterized in that made of any one of the flat shape.
According to claim 1,
The outlet nozzle 20 is
When the blower 10 is a cross-flow blower,
In the third case (C), where one side extends to a uniform width (W), and the other side extends further to a uniform width (W) after the width (W) gradually increases toward the longitudinal direction,
Air curtain blower for ventilation, characterized in that made of a flat shape.
According to claim 1,
The outlet nozzle 20 is
The fourth case (D) in which the width H gradually narrows toward the longitudinal direction in which the wind is sprayed, but the upper surface is level with the ground, and the lower surface is inclined at a predetermined angle, or
The fifth case (E) in which the width (H) gradually narrows while the upper / lower surfaces are inclined at a predetermined angle toward the center of the nozzle width toward the longitudinal direction where the wind is sprayed, or
In the sixth case (F) in which the length is further extended by a uniform width (H) at the end of the discharge port nozzle (20) in the fourth case (D),
Air curtain blower for ventilation, characterized in that made of any one of the side shape.
The method according to any one of claims 1 to 4,
The outlet nozzle 20 is
A guide feather 30 is provided to partition the inside of the discharge nozzle 20 into a plurality of discharge spaces, and the wind that is concentrated and discharged to the center of the discharge nozzle 20 is discharged by the guide nozzle 30. (20) The air curtain blower for ventilation, characterized in that it is also distributed to both sides of the inside and allows uniform injection over the entire width (W) of the outlet nozzle (20).
The method of claim 5,
The guide feather 30 is
The discharge port nozzle 20 is installed on both sides of the longitudinal center line (C ') inside,
A guide piece 30 is installed on both sides of the center line C ', or
A plurality of air space blowers for ventilation, characterized in that a plurality of spaced apart from each other on both sides of the center line (C ').
The method of claim 6,
Each guide feather 30 on both sides of the center line (C '),
On both sides of the center line (C '), it has a straight shape that is bent one or more times in the longitudinal direction, the same as the shape of both sides of the outlet nozzle 20,
Bending angle (θ ₁ , θ ₁₁ ) between the two side walls of the outlet nozzle 20 and
Bending angle (θ ₁ , θ ₁₁ ) (θ ₂ , θ ₂₂ ) of both side walls of the discharge nozzle 20 and the guide collar 30 is the same or differently formed. .
According to claim 1,
The blower 10 is
Each of the first and second impellers 11 and 12 on each side of the motor 11 is a centrifugal blower that allows air to be sucked horizontally from both sides, so that air is injected at a right angle toward the outlet nozzle 20, or
Each of the first and second impellers 11 and 12 on the both sides of the motor 11 is horizontally blower to allow air to be sucked horizontally at the rear end, so that air is injected at right angles toward the outlet nozzle 20,
Air curtain blower for ventilation, characterized in that is used.

Images