KR101193604B1 - Local ventilator with swirler - Google Patents

Abstract

Disclosed is a swirl type local exhaust apparatus having a swirler. The disclosed vortex type local exhaust device is provided with a swirler which is installed at the suction end of the exhaust pipe and rotates to generate vortex, and is installed in the exhaust pipe, and is connected to the swirler to rotate the swirler. The swirler is rotated by being coupled to the driving unit, and includes a disk-shaped rotating plate member having an air suction hole communicating with an exhaust pipe in a central region thereof, a plurality of upper wings installed on an upper surface of the rotating plate member, and an upper end of the plurality of upper wings. An upper guide member for guiding air flow formed by the plurality of upper blades by forming a first air flow path between the upper surface of the rotating plate member and covering the plurality of upper blades, and perpendicular to the rotating plate member. A plurality of connecting holes formed through the communication plate and the upper and lower parts of the rotating plate member, a plurality of lower wings provided on the lower surface of the rotating plate member, and attached to the lower end of the plurality of lower wings to cover the plurality of lower wings, It is formed by a plurality of lower wings by forming a second air flow passage communicating with the plurality of connection holes between the lower surface and the lower surface. And a lower guide member for guiding the air flow.

Description

Local ventilator with swirler with swirler

The present invention relates to a local exhaust device for sucking and discharging contaminated air to the outside. More particularly, the present invention relates to a vortex type local exhaust device for expanding an exhaust area and improving exhaust efficiency by forming a vortex using a rotary swirler. It is about.

Local exhaust systems are generally used in factories, homes, restaurants, etc., where pollutants are generated a lot, especially when partial pollutants are generated on the floor away from the exhaust vents or by other installations. In this case, it can be usefully used when pollutant occurs instantaneously.

However, the conventional local exhaust apparatus used for this purpose had various problems. That is, in the conventional local exhaust device, the efficiency of inhaling and removing pollutants rapidly decreases as the source of contamination is farther from the exhaust pipe. Therefore, the local exhaust device is preferably installed as close as possible to the location of the pollutant. And there is a limitation in the installation conditions because it interferes with the movement of the workers.

In order to supplement the problems of the conventional local exhaust device, local exhaust devices have been developed to expand the exhaust area and improve the exhaust efficiency by using vortices. Korean Patent Nos. 10-0529002, 10-0821295, and 10 -0873521 and 10-0873522 disclose examples of such vortex type local exhaust devices. The vortex type local exhaust system has a configuration in which a rotary swirler is installed on the inlet side of the exhaust pipe.As the swirler rotates, a donut-shaped vortex is generated around the exhaust pipe, thereby contaminating the contaminated air in a large area. It is efficiently inhaled into the exhaust pipe.

The conventional vortex type local exhaust devices have a configuration in which a swirler wing is formed to form a vortex at the bottom of a rotating annular disk. In this case, vortices are formed by using the air below the swirler, in which part of the exhaust flow from the exhaust area to the exhaust pipe flows into the swirler wing, and contaminants contained in the exhaust flow, such as oil components, are swirled. In addition to contaminating the swirler wing is attached to the wing, there is a disadvantage that the pollutant is scattered to the outside by the rotation of the wing.

On the other hand, among the conventional vortex type local exhaust device, for example, Republic of Korea Patent No. 10-0529002 (prior art 1), a swirler blade is installed on the upper surface of the rotating annular disk, the upper and lower portions of the swirler wing A local exhaust device is disclosed which is provided with a top cover and a bottom cover configured to draw air above the exhaust port to form a vortex.

According to the local exhaust device of the prior art 1, the swirler vanes do not come into contact with the exhaust flow from the exhaust region to the exhaust pipe, so that the swirler vanes are not contaminated by the pollutants and the pollutants are returned to the outside. The scattering can be minimized.

By the way, in the local exhaust device of the prior art 1, the swirler wing is rotatably installed at the lower end of the exhaust pipe, the upper cover is fixed to the outer surface of the exhaust pipe using a fixing pin, the lower cover is the upper cover again Has a configuration that is fixed to the lower portion of the installation using a fixing pin, the installation process is complicated. In addition, the swirler wings should be installed to be inserted between the upper cover and the lower cover, and should be installed so that a constant gap is maintained between the rotating swirler wing and the fixed upper cover and the lower cover, which is a very difficult task. Will be

And, even if the installation is complete, the vibration generated during the rotation of the swirler blades is likely to cause friction between the swirler blades and the upper or lower lid, in which case the noise increases and the components wear out. There is a possibility of breakage.

Patent Document 1: Republic of Korea Patent Registration No. 10-0529002 (2005. 11. 09. registered) Patent Document 2: Republic of Korea Patent No. 10-0821295 (2008. 04. 03. registration) Patent Document 3: Republic of Korea Patent No. 10-0873521 (2008. 12. 04. registration) Patent Document 4: Republic of Korea Patent No. 10-0873522 (Dec. 4, 2008 registration)

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object thereof is to provide a vortex type local exhaust device having a swirler which is configured integrally to simplify installation and which can expand the exhaust area.

In order to achieve the above technical problem, according to an aspect of the present invention,

A swirler installed at an inlet end of the exhaust pipe and rotating to generate a vortex; And a driving part installed at the exhaust pipe and connected to the swirler to rotate the swirler.

The swirler,

A disk-shaped rotating plate member which is coupled to the driving unit and rotates and has an air suction hole communicating with the exhaust pipe in a central region thereof; A plurality of upper wings installed on an upper surface of the rotating plate member; It is attached to the upper end of the plurality of upper wings to cover the plurality of upper wings, by forming a first air flow path between the upper surface of the rotating plate member to guide the air flow formed by the plurality of upper wings An upper guide member; A plurality of connection holes formed through the rotating plate member to communicate with the upper and lower portions of the rotating plate member; A plurality of lower wings installed on a lower surface of the rotating plate member; And a second air flow path attached to a lower end of the plurality of lower wings to cover the plurality of lower wings, and forming a second air flow passage communicating with the plurality of connection holes between the lower surface of the rotating plate member. It is provided with a vortex type local exhaust device comprising a; lower guide member for guiding the air flow formed by the wing.

Each of the plurality of upper wings may have a shape in which its height gradually decreases as it moves away from the center of rotation, and the upper guide member may have an inclined shape such that a distance from the rotating plate member is gradually narrowed toward the outer circumference. .

In addition, each of the plurality of lower wings has a constant height, and the lower guide member may be arranged horizontally to be parallel to the rotating plate member.

In addition, the plurality of upper wings may be disposed radially around the exhaust pipe, and the plurality of lower wings may be disposed radially around the air suction hole.

In addition, the plurality of upper blades may have a shape extending from the upper surface of the rotating plate member and extending in the radial direction, and the plurality of lower wings may have a shape extending from the lower surface of the rotating plate member and extending in the radial direction.

In addition, the inner ends of the plurality of upper wings are spaced apart from the outer surface of the exhaust pipe by a predetermined interval, the outer end may protrude out of the outer edge of the rotating plate member.

In addition, the upper guide member is formed in an annular shape having an inner diameter larger than the outer diameter of the exhaust pipe, a gap in communication with the first air flow passage is formed between the inner peripheral surface of the upper guide member and the outer surface of the exhaust pipe. Can be.

In addition, the lower guide member may be formed in an annular shape having an inner diameter greater than or equal to the outer diameter of the air suction hole.

In addition, the outer diameter of the plurality of lower wings and the outer diameter of the lower guide member may be the same as the outer diameter of the rotating plate member.

In addition, the plurality of connection holes may be formed between each of the plurality of lower wings.

In addition, a cylindrical partition wall that vertically connects the rotating plate member and the lower guide member may be formed between the outer edge of the air suction hole and the inner ends of the plurality of lower wings.

According to the vortex type local exhaust device according to the embodiment of the present invention, components of the swirler, that is, the rotating plate member, the plurality of upper blades, the upper guide member, the plurality of lower blades and the lower guide member are all integrally configured. And rotate together. Therefore, the handling and installation of the swirler is very simple and easy, and even if vibration occurs during the rotation of the swirler, no friction occurs between the wing and the guide member, so noise and component wear caused by such friction And breakage can be prevented.

The upper wing and the lower wing inhale clean air around the exhaust pipe above the swirler to form an air flow, and do not contact the exhaust flow from the exhaust area to the exhaust pipe. Therefore, the phenomenon that the upper wing and the lower wing are contaminated by the contaminants included in the exhaust flow does not occur, and it is possible to minimize the scattering of these contaminants back to the outside.

In addition, a high flow rate air flow is formed by the plurality of upper blades and the inclined upper guide member, and the air flows are joined with the air flows formed by the plurality of lower wings, thereby increasing the flow rate and the flow rate. Therefore, a strong vortex can be formed so that the exhaust efficiency can be further improved.

In addition, since the downward inclined air flow formed by the plurality of upper blades and the inclined upper guide member is pushed up by the horizontal air flow formed by the plurality of lower blades, the joined air flow is slightly from the horizontal direction or horizontally. It is formed in a downwardly inclined direction. By this air flow, the vortex is also pulled up to open its lower end to form a wide spread shape, and since the exhaust flow inside the vortex becomes wider, the exhaust area can be further extended in the width direction.

1 is a cross-sectional view showing a vortex type local exhaust device according to an embodiment of the present invention.
FIG. 2 is a plan view of the swirler shown in FIG. 1.
3 is a perspective view illustrating the bottom of the swirler illustrated in FIG. 1.

Hereinafter, a vortex type local exhaust device according to an embodiment of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same elements.

1 is a cross-sectional view showing a vortex type local exhaust device according to an embodiment of the present invention, Figure 2 is a plan view of the swirler shown in Figure 1, Figure 3 is a bottom view of the swirler shown in Figure 1 Perspective view.

1 to 3 together, the swirl type local exhaust device 100 according to an embodiment of the present invention, the swirler 110 is installed on the suction end of the exhaust pipe 10 to generate the vortex by rotating, It is configured to include a drive unit 120 connected to the swirler 110 to rotate the swirler 110.

The exhaust pipe 10 is a conduit for sucking contaminated air through the open suction end and discharging the contaminated air to the outside. The exhaust pipe 10 may be formed of various kinds of pipes such as a flexible pipe or a metal pipe. The contaminated air may be sucked into the exhaust pipe 10 by natural negative pressure, or forcedly sucked by the operation of the exhaust fan.

The swirler 110 includes a rotating plate member 111 rotatably installed at the suction end of the exhaust pipe 10, a plurality of upper wings 112 provided on the upper surface of the rotating plate member 111, and the plurality of swirlers. An upper guide member 113 covering the upper wings 112, a plurality of lower wings 114 installed on the lower surface of the rotating plate member 111, and a lower guide member 115 covering the plurality of lower wings 114. It is configured to include).

The rotating plate member 111 has a disk shape having a predetermined thickness and a diameter larger than the diameter of the exhaust pipe 10. The rotating plate member 111 is provided at the suction end of the exhaust pipe 10 so that its rotation center coincides with the central axis of the exhaust pipe 10. An air suction hole 118 communicating with the exhaust pipe 10 is formed in the central region of the rotating plate member 111. The contaminated air sucked from the exhaust area is sucked into the exhaust pipe 10 through the air suction hole 118 of the rotating plate member 111.

The rotating plate member 111 is coupled to the driving unit 120 is rotated. To this end, the rotating shaft coupling portion 125 of the boss-shaped protruding boss is provided in the rotation center of the rotating plate member 111, the rotating shaft coupling portion 125, as will be described later, the rotating shaft of the drive motor 121 ( 123 is connected. Specifically, the rotation shaft insertion hole 126 is vertically penetrated at the center of the rotation shaft coupling portion 125, and the rotation shaft 123 of the driving motor 121 is inserted into the rotation shaft insertion hole 126 and then fixed. Tightly coupled by screws 127. The air suction hole 118 is formed around the rotation shaft coupling portion 125, and the rotation shaft coupling portion 125 is formed by a plurality of connecting portions 119 traversing the air suction hole 118 in the radial direction. It is connected to and supported by 111.

The plurality of upper blades 112 serves to form an air flow F3 in an outward direction while rotating together with the rotating plate member 111, and the rotating plate to be disposed radially along the circumference of the exhaust pipe 10. It is fixedly installed on the upper surface of the member 111, that is, the exhaust pipe facing surface. Each of the plurality of upper blades 112 has a shape extending from the upper surface of the rotary plate member 111 and extending in the radial direction.

While the plurality of upper blades 112 rotate together with the rotating plate member 111, the exhaust pipe 10 is fixed, so that the inner ends of the plurality of upper blades 112 are not disturbed by the exhaust pipe 10. It is spaced apart from the outer surface of the exhaust pipe 10 by a predetermined interval. In addition, the outer ends of the plurality of upper wings 112 protrude a predetermined length out of the outer edge of the rotating plate member 111. That is, the plurality of upper wings 112 is formed so that the outer diameter is larger than the outer diameter of the rotating plate member 111.

The upper guide member 113 is disposed to be spaced apart from the upper surface of the rotating plate member 111 by a predetermined interval to form a first air flow path between the upper surface of the rotating plate member 111, the plurality of upper wings ( It serves to guide the air flow (F3) formed by 112.

Specifically, the upper guide member 113 is attached to the upper end of the plurality of upper wings 112 to cover the plurality of upper wings 112 and rotates with the plurality of upper wings 112. That is, a plurality of upper blades 112 are fixedly installed between the rotating plate member 111 and the upper guide member 113, and they rotate together.

The upper guide member 113 is formed in an annular shape having an inner diameter larger than the outer diameter of the exhaust pipe 10, and thus a predetermined distance between the outer surface of the exhaust pipe 10 and the inner peripheral surface of the upper guide member 113 ( D) is formed, and the air around the exhaust pipe 10 is sucked into the first air flow path formed between the rotary plate member 111 and the upper guide member 113 through this gap D. In addition, the upper guide member 113 may have an outer diameter larger than the outer diameter of the plurality of upper wings (112).

As described later, in order to form a strong vortex F1, the flow rate of the air flow F3 formed by the plurality of upper blades 112 needs to be large and the flow rate is high. To this end, in the present invention, by increasing the height of the upper blade 112 and widening the cross-sectional area of the first air flow path between the upper guide member 113 and the rotary plate member 111, the flow rate of the air flow (F3) To increase. And, in order to increase the flow rate, each of the plurality of upper blades 112 has a shape that gradually decreases as the distance from the center of rotation, the upper guide member 113 also inclined downward while going toward the outer circumference That is, it was configured to have an inclined shape so that the interval with the rotating plate member 111 is gradually narrowed. Accordingly, the first air flow path formed between the rotating plate member 111 and the upper guide member 113 also becomes narrower as it moves away from the rotation center, and is formed by the plurality of upper blades 112 so that the first air flow path may be narrowed. The air flow (F3) exiting the air flow path also increases its flow rate.

Since the outer ends of the plurality of upper blades 112 protrude outside the outer edges of the rotating plate member 111 and the upper guide member 113 is inclined downward, the outer edges of the rotating plate member 111 and the upper guide member. The outlet of the air flow passage formed between the outer edges of the 113 faces downward. Accordingly, the air flow F3 exiting the outlet of the air flow passage is guided by the inclined upper guide member 113 and is formed in a direction inclined downward from the horizontal.

The plurality of lower blades 114 are fixedly installed on the lower surface of the rotating plate member 111, that is, the air inflow side facing the exhaust area. Each of the plurality of lower blades 114 has a shape extending from the lower surface of the rotating plate member 111 and extending in the radial direction.

The plurality of lower wings 114 rotates together with the rotating plate member 111 to form a horizontal air flow F4 in the outward direction, and surrounds the air suction hole 118 of the rotating plate member 111. Are disposed radially.

A plurality of connection holes 116 are formed in the rotating plate member 111 to vertically penetrate the upper and lower portions of the rotating plate member 111. The plurality of connection holes 116 may be formed between each of the plurality of lower wings 114, and may be formed in a circular shape or an elliptical shape or other shape. Accordingly, a part of the air introduced through the gap D between the outer surface of the exhaust pipe 10 and the inner circumferential surface of the upper guide member 113 is directed toward the plurality of lower wings 114 through the plurality of connection holes 116. Can be introduced.

The lower guide member 115 is disposed to be spaced apart from the lower surface of the rotating plate member 111 by a predetermined interval to form a second air flow path between the lower surface of the rotating plate member 111, thereby providing a plurality of lower wings ( It serves to guide the air flow (F4) formed by 114 in the horizontal direction.

Each of the plurality of lower wings 114 has a constant height, and an outer diameter thereof may be the same as an outer diameter of the rotating plate member 111. The lower guide member 115 is disposed horizontally to be parallel to the rotating plate member 111, the outer diameter thereof may be the same as the outer diameter of the rotating plate member 111, like the plurality of lower wings (114).

The lower guide member 115 is attached to the lower end of the plurality of lower wings 114 to cover the plurality of lower wings 114 and rotates together with the plurality of lower wings 114. That is, a plurality of lower blades 114 are fixedly installed between the rotating plate member 111 and the lower guide member 115, and they rotate together. The lower guide member 115 passes through the air suction hole 118 of the rotary plate member 111 from the exhaust area so that the air guide hole 118 does not obstruct the air flow F2 toward the inside of the exhaust pipe 10. It consists of an annular shape with an inner diameter greater than or equal to the outer diameter of.

A cylindrical partition wall vertically connecting the rotary plate member 111 and the lower guide member 115 between the air suction hole 118 formed in the rotary plate member 111 and the inner ends of the plurality of lower wings 114. 117 is formed, and the partition wall 117 serves to isolate the air flow F2 from the exhaust region to the exhaust pipe 10 from the plurality of lower wings 114.

The driving unit 120 is connected to the swirler 110 to provide power for rotating the swirler 110. The driving unit 120 includes a driving motor 121 disposed on a central axis of the exhaust pipe 10, a motor supporting member 122 supporting the driving motor 121 inside the exhaust pipe 10, and a driving motor 121. It includes a rotating shaft 123 drawn out from). As described above, the rotating shaft 123 is coupled to the rotating shaft coupling portion 125 provided at the rotating center of the rotating plate member 111 of the swirler 110.

However, the driving unit 120 having the above configuration is illustrative, and may have various configurations capable of providing power for rotating the swirler 110, and the installation position thereof is not limited to the above. For example, the driving unit 120 may be installed inside or outside the exhaust pipe 10 by a means such as a bracket to rotate the swirler 110 through a power transmission means such as a belt or a gear.

According to an embodiment of the present invention having the configuration as described above, the components of the swirler 110, that is, the rotating plate member 111, a plurality of upper wings 112, the upper guide member 113, a plurality of lower Since both wings 114 and the lower guide member 115 are integrally formed and integrally formed, the handling of the swirler 110 is easy and the rotating plate member 111 needs only to be connected to the driving unit 120. ) Is also very simple and easy to install.

In addition, since the rotating plate member 111, the plurality of upper blades 112, the upper guide member 113, the plurality of lower blades 114 and the lower guide member 115 are rotated together, the swirler 110 Even when vibration occurs during rotation, friction does not occur between the wings 112 and 114 and the guide members 113 and 115, and noise and components caused by such friction prevent wear and breakage of the components.

Hereinafter, with reference to Figure 1, it will be described the operation of the vortex type local exhaust device 100 according to an embodiment of the present invention having the above configuration and the flow of air accordingly.

Referring to FIG. 1, when the exhaust operation through the exhaust pipe 10 is performed, an exhaust flow F2 from the exhaust area into the exhaust pipe 10 is formed. In this state, when the swirler 110 is rotated by the drive unit 120, the air flows through the first air flow path between the rotary plate member 111 and the upper guide member 113 from the periphery of the exhaust pipe 10. Is introduced, the air introduced in this way forms an air flow (F3) in the outward direction by a plurality of upper blades (113). In particular, as described above, since the upper guide member 113 is formed to be inclined, the air flow (F3) formed by the plurality of upper blades 112 is formed in a direction inclined downward from the horizontal, the flow rate is faster. You lose.

At the same time, the air around the exhaust pipe 10 is introduced into the second air flow path between the rotating plate member 111 and the lower guide member 115 through the plurality of connection holes 116, and the air introduced as described above A plurality of lower wings 114 to form a horizontal air flow (F4). The air flows F4 formed by the plurality of lower wings 114 join each other while pushing up the air flows F3 formed by the plurality of upper wings 112. At this time, the direction of the joined air flow (F3, F4), the flow rate and flow rate of the air flow (F3) formed by the plurality of upper blades 112 and the air flow formed by the plurality of lower blades 114 ( Depending on the flow rate and flow rate of F4), it may be formed in a horizontal direction or a direction inclined slightly downward from the horizontal.

A donut-shaped vortex F1 is formed on the lower outer side of the swirler 110 by the air flows F3 and F4 joined to the exhaust flow F2 as described above. The vortex (F1) formed as described above serves as an air curtain to partition the region where the pollutant is generated and the region where the pollutant does not occur, while exhaust efficiency of the pollutant through the exhaust flow (F2) inside the vortex (F1) This is improved.

In particular, according to an embodiment of the present invention, the plurality of upper blades 112 and the plurality of lower blades 114 sucks clean air around the exhaust pipe 10 above the swirler 110 and flows the air (F3, F4). ) And does not contact the exhaust flow F2 from the exhaust region to the exhaust pipe 10. Therefore, the phenomenon that the upper blade 112 and the lower blade 114 are contaminated by the pollutants included in the exhaust flow F2 does not occur, and it is possible to minimize the scattering of the pollutants again to the outside.

And, as described above, a high flow rate air flow (F3) is formed by a plurality of upper blades 112 and the inclined upper guide member 113, this air flow (F3) is a plurality of lower blades 114 By joining the air flow (F4) formed by the), the flow rate and flow rate is increased. Accordingly, the strong vortex F1 can be formed, so that the exhaust efficiency can be further improved.

In addition, the downward inclined air flow F3 formed by the plurality of upper blades 112 and the inclined upper guide member 113 is pushed by the horizontal air flow F4 formed by the plurality of lower blades 114. Since they are raised, the joined air flows F3 and F4 are formed in a horizontal direction or in a direction inclined slightly downward from the horizontal. By the air flows F3 and F4, as shown in FIG. 1, the vortices F1 are also pulled up to open their lower ends to form a wide spread shape, and the exhaust flows F2 inside the vortices F1. ) Becomes wider, the exhaust area can be further expanded. Therefore, it is more useful when the pollutant is in a large area.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of protection of the present invention should be defined by the appended claims.

10.Exhaust pipe 100 ... Vortex type local exhaust
110 Swallower 111
112 Top blade 113 Top guide member
114 Lower wing 115 Lower guide member
116 connection hole 117 bulkhead
118 Air intake hole 119 Connection
120 Drive 121 Drive motor
122 Motor support member 123 Rotary shaft
125 Rotating shaft coupling part 126 Rotating shaft insertion hole
127 fixing screws

Claims (11)

A swirler installed at an inlet end of the exhaust pipe and rotating to generate a vortex; And
It is provided in the exhaust pipe, the drive unit is connected to the swirler to rotate the swirler;
The swirler,
A disk-shaped rotating plate member which is coupled to the driving unit and rotates and has an air suction hole communicating with the exhaust pipe in a central region thereof;
A plurality of upper wings installed on an upper surface of the rotating plate member;
It is attached to the upper end of the plurality of upper wings to cover the plurality of upper wings, by forming a first air flow path between the upper surface of the rotating plate member to guide the air flow formed by the plurality of upper wings An upper guide member;
A plurality of connection holes formed through the rotating plate member to communicate with the upper and lower portions of the rotating plate member;
A plurality of lower wings installed on a lower surface of the rotating plate member; And
The plurality of lower wings are attached to the lower ends of the plurality of lower wings to cover the plurality of lower wings, thereby forming a second air flow passage communicating with the plurality of connection holes between the lower surfaces of the rotating plate members. Vortex type local exhaust device comprising a; lower guide member for guiding the air flow formed by. The method of claim 1,
Each of the plurality of upper wings has a shape in which the height thereof gradually decreases away from the rotation center, and the upper guide member has an inclined shape so as to gradually narrow the gap with the rotating plate member while going toward the outer circumference. Vortex type local exhaust device. The method of claim 1,
Each of the plurality of lower wings has a constant height, the lower guide member is a vortex type local exhaust device, characterized in that arranged horizontally parallel to the rotating plate member. 4. The method according to any one of claims 1 to 3,
The plurality of upper wings are disposed radially around the exhaust pipe, and the plurality of lower wings are disposed radially around the air intake hole. The method of claim 4, wherein
The plurality of upper wings are erected from the upper surface of the rotating plate member and has a radially extending shape, wherein the plurality of lower wings are erected from the lower surface of the rotating plate member and have a radially extending shape Type local exhaust system. 4. The method according to any one of claims 1 to 3,
An inner end of the plurality of upper wings is spaced apart from the outer surface of the exhaust pipe by a predetermined distance, the outer end is a vortex type local exhaust device, characterized in that protruding outside the outer edge of the rotating plate member. 4. The method according to any one of claims 1 to 3,
The upper guide member is formed in an annular shape having an inner diameter larger than the outer diameter of the exhaust pipe, the gap is formed in communication with the first air flow path between the inner peripheral surface of the upper guide member and the outer surface of the exhaust pipe. Vortex type local exhaust device characterized in that. 4. The method according to any one of claims 1 to 3,
The lower guide member is a vortex-type local exhaust device, characterized in that the annular shape having an inner diameter greater than or equal to the outer diameter of the air suction hole. 4. The method according to any one of claims 1 to 3,
Vortex type local exhaust device, characterized in that the outer diameter of the plurality of lower wings and the outer diameter of the lower guide member is the same as the outer diameter of the rotating plate member. 4. The method according to any one of claims 1 to 3,
The plurality of connection holes are vortex type local exhaust device, characterized in that formed between each of the plurality of lower wings. 4. The method according to any one of claims 1 to 3,
And a cylindrical partition wall that vertically connects the rotary plate member and the lower guide member between an outer edge of the air intake hole and an inner end of the plurality of lower vanes.

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