KR101606864B1 - Local ventilator having swirler and guide member - Google Patents

Abstract

A local exhaust system with swirlers is disclosed. The disclosed local exhaust apparatus includes a driving part provided on an exhaust pipe, a swirler, a first guide member, and a second guide member. The swirler includes a base member which is disposed near the suction end of the exhaust pipe and connected to the driving unit so as to be rotated and has an air suction hole communicating with the exhaust pipe in a central region thereof, A plurality of connection holes formed in the base member and communicating the upper portion and the lower portion of the base member; a second air flow provided on the bottom surface of the base member to form a second vortex; And a plurality of lower wings for generating the lower wings. The first guide member is disposed so as to surround the periphery of the plurality of upper blades so as to extend the air curtain formed by the first vortex in the vertical direction by guiding the first vortex downward, Is arranged to surround the periphery of the plurality of lower vanes at the inner side of the member and guides the second vortex downward to expand the air curtain formed by the second vortex in the vertical direction.

Description

[0001] The present invention relates to a local ventilator having a swirler and a guide member,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a local exhaust system for sucking contaminated air and discharging the polluted air to the outside, and more particularly, to a local exhaust system capable of improving exhaust efficiency by forming a double air curtain using a rotatable swirler And an exhaust device.

In general, the local exhaust system is installed in a factory where a lot of pollutants are generated, a kitchen of a home and a restaurant, and is widely used for sucking contaminated air and discharging it to the outside.

Conventional local exhaust systems used for this purpose are installed in an exhaust pipe. As the distance between the pollution source and the exhaust pipe increases, the exhaust efficiency for sucking and discharging the polluted air is drastically lowered. In addition, there is a problem that the exhaust efficiency of the local exhaust system is lowered even when the pollution source is located in a wide open space. Therefore, in order to improve the exhaust efficiency, it is preferable to dispose the local exhaust device as close as possible to the contamination source and block the contamination source from the surrounding space.

However, when it is difficult to install the exhaust pipe near the contamination source by other fixtures, when a certain working space is required between the contamination source and the exhaust pipe, and when it is difficult to block the contamination source from the surrounding space, It is often difficult.

In order to overcome the problems of the conventional local exhaust system, local exhaust systems have been developed to expand the exhaust area and improve the exhaust efficiency by using a swirler that forms a vortex, and Korean Patent No. 10-0529002 , 10-0821295, 10-0873521 and 10-0873522 disclose examples of local exhaust using swirlers.

These local exhaust devices are generally equipped with a swirler which is installed on the suction port side of the exhaust pipe to form a vortex. The airflow created by the rotation of the sweller creates a vortex around the exhaust stream of contaminated air rising along the swirl center axis of rotation towards the inlet of the exhaust pipe, Serves as an air curtain that blocks the surrounding air from the surrounding area, thereby allowing the contaminated air to be sucked into the exhaust pipe more efficiently.

However, in the conventional local exhaust system, the air flow forming the vortex spreads in the horizontal direction due to the centrifugal force due to the rotation of the swirler as it moves out of the outer end of the swirler, A spread air curtain is formed. Therefore, although the conventional local exhaust system has the effect of expanding the exhaust region horizontally, the effect of expanding the exhaust region in the vertical direction is insufficient.

Especially, in a gas range installed in a kitchen, harmful gas is generated as the gas is burned. Such harmful gas is generally heavier than air, and it spreads to the surroundings from the gas range and harms human health. However, since the exhaust pipe of the range hood installed in the kitchen is installed at a distance of about 60 cm or more from the gas range in order to secure a cooking space, even if a swirler is installed in the exhaust pipe, the harmful gas spreading sideways near the gas range is sucked and exhausted There is a difficult problem.

Accordingly, there is a need for a local exhaust device capable of vertically expanding the air curtain so that contaminated air far from the exhaust pipe can be effectively sucked and exhausted.

Patent Document 1: Korean Patent No. 10-0529002 (Registered on November 09, 2005) Patent Document 2: Korean Patent No. 10-0821295 (registered on Apr. 03, 2008) Patent Document 3: Korean Patent No. 10-0873521 (Registered on December 04, 2008) Patent Document 4: Korean Patent No. 10-0873522 (Registered on December 04, 2008)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a double air curtain which is formed by a swirler and a guide member, The purpose of the device is to provide.

According to an aspect of the present invention, there is provided a local exhaust system comprising:

A driving unit installed in the exhaust pipe;

A base member disposed near the suction end of the exhaust pipe and connected to the driving unit to have an air suction hole communicating with the exhaust pipe in a center region thereof; A plurality of connection holes formed through the base member and communicating an upper portion and a lower portion of the base member, and a plurality of connection holes formed on the bottom surface of the base member to form a second vortex, A sweller comprising a plurality of lower wings for generating an air flow;

A first guide member disposed to surround the plurality of upper blades and guiding the first vortex downward to thereby extend the air curtain formed by the first vortex in a vertical direction; And

A second guide member disposed to surround the plurality of lower vanes at an inner side of the first guide member and guiding the second vortex downward to extend an air curtain formed by the second vortex in a vertical direction; And a control unit.

Here, a cylindrical exhaust passage forming member may be installed on the upper surface of the base member to surround the air intake hole and form an exhaust passage communicating with the exhaust pipe.

The sweller may further comprise: An upper guide member installed to cover the plurality of upper wings and guiding the first air flow generated by the plurality of upper wings by forming a first air flow passage between the upper wings and the base member, And a lower guide member installed to cover the wings and guiding a second air flow generated by the plurality of lower vanes by forming a second air flow passage between the base member and the base member.

The plurality of upper blades may have a shape in which the height of the upper blades gradually decreases from the center of rotation, and the upper guide member may have an inclined shape so as to gradually narrow the distance from the base member toward the outer periphery.

In addition, the upper ends of the lower vanes may be inclined so as to be gradually lowered toward the outer end side. An inclined guide member may be installed to cover the inclined upper ends of the plurality of lower vanes, and the inclined guide member may be inclined downward And may have an inclined shape.

The first guide member is formed in a vertically extending cylindrical shape, and the upper end of the first guide member is fixed to the bottom surface of the support plate, As shown in Fig.

In addition, the support plate may have at least one through hole for allowing air to flow into the swirler.

The second guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the first guide member and extending vertically. The upper end of the second guide member is fixed to the bottom surface of the outer edge of the base member, can do.

The second guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the first guide member and extending vertically. The upper end of the second guide member is spaced from the bottom edge of the outer edge of the base member, And may be connected to and fixed to the first guide member.

A plurality of first vertical guide plates may be provided between the first guide member and the second guide member to vertically downwardly guide the first vortex that has passed through the outlet of the first air flow passage of the sweller.

An inner guide member may be disposed under the lower guide member to guide an exhaust flow rising from the inside of the second guide member toward the exhaust pipe toward the air intake hole.

The inner guide member may have a diameter smaller than the diameter of the second guide member and may have a cylindrical shape extending vertically. An upper end of the inner guide member may be fixed to the bottom surface of the lower guide member, have.

The inner guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the second guide member and extending vertically. The upper end of the inner guide member is spaced from the bottom surface of the lower guide member. 1 guide member.

A plurality of second vertical guide plates may be installed between the second guide member and the inner guide member to vertically downwardly guide the second vortex that has passed through the outlet of the second air flow passage of the swirler.

In the local exhaust system according to the embodiment of the present invention, not only the air curtains surrounding the exhaust area by the plurality of upper wings and the plurality of lower wings are doubly rigidly formed, but also the first guide member and the second guide member The air curtain can be further extended in the vertical direction. Therefore, the polluted air far from the exhaust pipe can be more easily and efficiently sucked and exhausted to improve the exhaust efficiency, and it is also possible to efficiently exhaust and exhaust the noxious gas generated by the combustion of the gas in the gas range .

Further, since the vortex flowing downward and the exhaust flow rising toward the exhaust pipe can be separated by the inner guide member and the exhaust flow can be smoothly guided toward the air intake hole, the exhaust efficiency There is an advantage that the deterioration can be prevented.

1 is a vertical sectional view showing a local exhaust system according to an embodiment of the present invention.
2 is a perspective view of the local exhaust system shown in FIG. 1 as viewed from above.
3 is a perspective view of the local exhaust system shown in FIG. 1 as seen from below.
FIG. 4 is a partial cross-sectional view showing a modified example in which the second guide member and the inner guide member shown in FIG. 1 are connected and fixed to the first guide member by a connecting member.
Fig. 5 is a perspective view of the modification shown in Fig. 4 as viewed from below.
FIG. 6 is a partial sectional view showing a first vertical guide plate installed between the first guide member and the second guide member shown in FIG. 4, and a second vertical guide plate installed between the second guide member and the inner guide member.
FIG. 7 is a perspective view of the local exhaust system with the first and second vertical guide plates shown in FIG. 6, as viewed from below.

Hereinafter, a local exhaust system according to embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same elements.

FIG. 1 is a vertical sectional view showing a local exhaust system according to an embodiment of the present invention, FIG. 2 is a perspective view of the local exhaust system shown in FIG. 1, and FIG. 3 is a cross- FIG.

1 to 3, a local exhaust system 100 according to an embodiment of the present invention includes a driving unit 110 installed in an exhaust pipe 10, a plurality of exhaust pipes 10 disposed near a suction end of the exhaust pipe 10, A swirler 120 for generating first and second vortices Fs1 and Fs2 forming a double air curtain by rotation of the first and second vortices 120 and 120, And first and second guide members 140 and 150 for extending the double air curtain in the vertical direction by guiding the first and second guide members Fs1 and Fs2 downward.

Specifically, the exhaust pipe 10 is a pipe for sucking contaminated air through a suction end opened at a lower end thereof and discharging the polluted air to the outside, and may be formed of various kinds of pipes such as a flexible pipe or a metal pipe generally known. The contaminated air can be sucked into the exhaust pipe 10 by natural negative pressure and can be sucked into the exhaust pipe 10 by an exhaust fan such as a sirocco fan 20 installed in the exhaust pipe 10. [ It may be forced inhalation.

The driving unit 110 is connected to the swirler 120 to provide power for rotating the swirler 120. The driving unit 110 may include a driving motor 111 disposed on the center axis of the exhaust pipe 10 and a rotating shaft 113 drawn from the driving motor 111. The rotating shaft 113 is coupled to a rotating shaft coupling portion 130 provided at a rotational center portion of the base member 121 of the sweller 120 as described later. As described above, when the sirocco fan 20 is installed in the exhaust pipe 10, the driving unit 110 may rotate the sirocco fan 20 together with the sweller 120.

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

The swirler 120 is disposed near the suction end of the exhaust pipe 10 and connected to the driving unit 110 so that a double air curtain is formed around the exhaust flow Fe rising toward the exhaust pipe 10 A base member 121 installed to be rotatable near the suction end of the exhaust pipe 10 and a second base member 121 provided on the upper surface of the base member 121 so as to generate first and second vortices Fs1 and Fs2, A plurality of upper wings 124 installed on the base member 121 and a plurality of lower wings 126 installed on the bottom surface of the base member 121.

The base member 121 may be formed in a disk shape having a predetermined thickness and a diameter larger than the diameter of the exhaust pipe 10. The base member 121 is installed near the suction end of the exhaust pipe 10 so that its central axis of rotation coincides with the central axis of the exhaust pipe 10. [ An air suction hole 122 communicating with the exhaust pipe 10 is formed in the central region of the base member 121. The contaminated air in the exhaust area passes through the air suction hole 122 and sucked into the exhaust pipe 10 do.

The base member 121 is connected to the driving unit 110 and rotated. The rotation shaft of the base member 121 is provided with a protruding boss-shaped rotation shaft coupling part 130 and the rotation shaft 113 of the driving motor 111 is coupled to the rotation shaft coupling part 130 . Specifically, a rotation shaft insertion hole 132 is vertically formed at the center of the rotation shaft coupling part 130, and the rotation shaft 113 of the drive motor 111 is inserted into the rotation shaft insertion hole 132, And is tightly coupled by a screw 133. The air intake hole 122 is formed around the rotation shaft coupling part 130. The rotation shaft coupling part 130 is formed by a plurality of connection parts 134 radially crossing the air intake hole 122, (Not shown).

The upper surface of the base member 121 is provided with a cylindrical exhaust passage forming member 123 which surrounds the air intake hole 122 and forms an exhaust passage Pe communicating with the exhaust pipe 10 May be provided. The exhaust passage forming member 123 may be disposed outside the exhaust pipe 10 at a predetermined distance from the outer circumferential surface of the exhaust pipe 10. The exhaust passage forming member 123 may be formed to have substantially the same height as the plurality of upper vanes 124. Meanwhile, the lower end of the exhaust pipe 10 may extend near the upper surface of the base member 121, and in this case, the exhaust passage forming member 123 may not be required.

The plurality of upper blades 124 rotate together with the base member 121 to produce a first air flow Fa1. The first air flow Fa1 generated by the plurality of upper vanes 124 is rotated downward so that the first vortex 124 flows around the exhaust flow Fe rising toward the exhaust pipe 10, Fs1.

The plurality of upper blades 124 may be fixedly mounted on the upper surface of the base member 121 and radially disposed around the air intake hole 122. Each of the plurality of upper wings 124 may have a shape rising from a top surface of the base member 121 and extending in a radial direction.

As described above, when the exhaust passage forming member 123 is provided on the upper surface of the base member 121, the inner ends of the plurality of upper vanes 124 are separated from the outer circumferential surface of the exhaust passage forming member 123 The spacing can be spaced. The inner ends of the plurality of upper vanes 124 may extend to the outer circumferential surface of the exhaust passage forming member 123.

The outer ends of the plurality of upper wings 124 may protrude from the outer edge of the base member 121 by a predetermined length. That is, the plurality of upper blades 124 may be formed such that the outer diameter thereof is larger than the outer diameter of the base member 121.

An upper guide member 125 covering the plurality of upper blades 124 may be installed on the plurality of upper blades 124. The upper guide member 125 is spaced apart from the base member 121 by a predetermined distance to form a first air flow path Pa1 between the upper guide member 125 and the base member 121, The first air flow Fa1 formed by the first air flow Fa1 is guided.

Specifically, the upper guide member 125 is attached and fixed to the upper ends of the plurality of upper wings 124, thereby rotating with the plurality of upper wings 124. That is, a plurality of upper blades 124 are fixedly installed between the base member 121 and the upper guide member 125, and they are rotated together.

The upper guide member 125 is formed in an annular shape having an inner diameter larger than the outer diameter of the exhaust pipe 10 so that a predetermined gap is formed between the outer peripheral surface of the exhaust pipe 10 and the inner peripheral surface of the upper guide member 125 The air around the exhaust pipe 10 flows into the first air flow passage Pa1 formed between the base member 121 and the upper guide member 125 through the gap. That is, the interval serves as an inlet of the first air flow passage Pa1 from which the air flows from the outside.

As described above, when the exhaust passage forming member 123 is provided on the upper surface of the base member 121, the upper guide member 125 is formed in an annular shape having an inner diameter larger than the outer diameter of the exhaust passage forming member 123, The air around the exhaust pipe 10 passes through the gap between the outer circumferential surface of the exhaust passage forming member 123 and the inner circumferential surface of the upper guide member 125 so that the air around the exhaust pipe 10 passes through the base member 121 and the upper guide member 125 And the first air flow passage Pa1.

The upper guide member 125 may have an outer diameter larger than the outer diameter of the plurality of upper blades 124.

In order for the plurality of upper vanes 124 to form a strong first vortex Fs1, the velocity of the first air flow Fa1 formed by the plurality of upper vanes 124 needs to be fast. To this end, in the present embodiment, each of the plurality of upper blades 124 has a shape in which its height gradually decreases as it moves away from the center of rotation, and the upper guide member 125 also has a shape inclined downward That is, the base member 121 is gradually narrowed. Accordingly, the first air flow path Pa1 formed between the base member 121 and the upper guide member 125 becomes gradually narrower as the distance from the rotation center becomes larger. Therefore, the first air flow path Pa1 formed by the plurality of upper blades 124, The speed of the first air flow Fa1 exiting the outlet of the one air flow passage Pa1 is increased.

Since the outer ends of the plurality of upper wings 124 protrude from the outer edge of the base member 121 and the upper guide member 125 is inclined downwardly from the outer edge of the base member 121, The outlet of the first air flow passage Pa1 formed between the outer edges of the first air flow passage 125 is opened downward. Accordingly, the first air flow Fa1 exiting the outlet of the first air flow passage Pa1 is guided by the inclined upper guide member 125 and formed in a downward inclined direction.

The plurality of lower vanes 126 rotate together with the base member 121 to produce a second air flow Fa2. The second air flow Fa2 generated by the plurality of lower vanes 126 is rotated downward so that the second vortex 126 flows around the exhaust flow Fe rising toward the exhaust pipe 10, Fs2).

The plurality of lower vanes 126 may be fixedly installed on the bottom surface of the base member 121 and radially disposed around the air intake hole 122. Each of the plurality of lower vanes 126 may have a shape rising from the bottom surface of the base member 121 and extending in the radial direction. The outer diameter of the plurality of lower vanes 126 may be equal to or slightly smaller than the outer diameter of the base member 121.

The base member 121 is vertically formed with a plurality of connection holes 129 for communicating the upper portion and the lower portion of the base member 121. The plurality of connection holes 129 are located around the air intake hole 122 and may have a substantially rectangular shape, or may have a circular shape, an elliptical shape, or other shapes. As described above, when the exhaust passage forming member 123 is provided on the upper surface of the base member 121, the plurality of connection holes 129 may be located around the exhaust passage forming member 123. A portion of the air introduced through the gap between the outer circumferential surface of the exhaust passage forming member 123 and the inner circumferential surface of the upper guide member 125 is guided to the plurality of lower vanes 126 through the plurality of connection holes 129 Can be introduced.

A lower guide member 128 may be installed on the lower portion of the plurality of lower vanes 126 to cover the plurality of lower vanes 126. The lower guide member 128 is spaced a predetermined distance from the bottom surface of the base member 121 to form a second air flow passage Pa2 between the lower guide member 128 and the base member 121, To guide the second air flow Fa2 formed by the second air flow (Fa2).

Specifically, the lower guide member 128 is attached and fixed to the inner end and the lower end of the plurality of lower vanes 126, thereby rotating together with the plurality of lower vanes 126. That is, a plurality of lower vanes 126 are fixedly installed between the base member 121 and the lower guide member 128, and they are rotated together.

The lower guide member 128 is disposed in the air intake hole 122 so as not to interfere with the exhaust flow Fe passing through the air intake hole 122 of the base member 121 from the exhaust region to the inside of the exhaust pipe 10. [ And has an inner diameter equal to or greater than the outer diameter. The outer diameter of the lower guide member 128 is smaller than the outer diameter of the plurality of lower vanes 126.

For the same reason as described above with respect to the plurality of upper blades 124, the plurality of lower blades 126 may also be formed to be inclined so that the upper ends of the lower blades 126 gradually decrease from the rotation center, that is, toward the outer ends. An inclined guide member 127 may be provided to cover the inclined upper end of the plurality of lower vanes 126. The inclined guide member 127 may also be inclined downward toward the outer periphery. With this configuration, the speed of the second air flow Fa2 formed by the plurality of lower vanes 126 and exiting the outlet of the second air flow passage Pa2 is increased. Since the outer ends of the lower vanes 126 are protruded from the outer edge of the lower guide member 128 and the inclined guide member 127 is inclined downward, The outlet of the second air flow passage Pa2 formed between the outer edges of the guide member 127 is opened downward. Accordingly, the second air flow Fa2 exiting the outlet of the second air flow passage Pa2 is guided by the inclined guide member 127 and formed in a downward inclined direction.

In this embodiment, the support plate 170 may be installed horizontally above the sweller 120. The support plate 170 may be fixed to the inside of the range hood, for example. The sweller 120 is spaced apart from the bottom surface of the support plate 170 by a predetermined distance so that rotation of the sweller 120 is not disturbed by the support plate 170.

The support plate 170 may be provided with a plurality of through holes 172 for allowing air to flow smoothly into the first and second air flow passages Pa1 and Pa2 of the swirler 120. [ 6, one through hole 174 having a diameter slightly smaller than the inner diameter of the first guide member 140 may be formed on the support plate 170. [

The first guide member 140 is disposed to surround the outer peripheries of the plurality of upper blades 124 of the swirler 120 and extends to a predetermined height in the vertical direction. The first guide member 140 may be spaced apart from the outer edge of the upper guide member 125 by a predetermined gap G1 and may be fixed to the bottom surface of the support plate 170. [ Therefore, even if the swirler 120 rotates, the first guide member 140 does not rotate. In this case, the load applied to the drive motor 111 is reduced, so that the local exhaust 100 can be operated with less power consumption, and noise can be reduced.

The first guide member 140 may be formed in a cylindrical shape having a predetermined diameter, but is not limited thereto. The height of the first guide member 140 can be properly determined in consideration of the distance between the sweller 120 and the contaminant source, the diameter of the sweller 120, and the like, for example, within a range of about 120 mm to 200 mm.

The first guide member 140 having the above-described configuration guides the first vortex Fs1 generated by the plurality of upper vanes 124 of the swirler 120 downward to the first vortex Fs1 And the air curtain formed by the air curtain is expanded in the vertical direction, which will be described later in detail.

The second guide member 150 is disposed to surround the outer peripheries of the plurality of lower vanes 126 of the swirler 120 and extends to a predetermined height in the vertical direction. That is, the second guide member 150 is disposed inside the first guide member 140. The upper end of the second guide member 150 may be fixed to the bottom of the outer edge of the base member 121. The inner circumferential surface of the second guide member 150 may be in contact with the outer edge of the plurality of lower vanes 126 or may be in contact with the outer edge of the inclined guide member 127. Therefore, when the swirler 120 rotates, the second guide member 150 also rotates.

The second guide member 150 may be formed in a cylindrical shape having a diameter smaller than the diameter of the first guide member 140. The lower end of the second guide member 150 may be positioned at the same height as the lower end of the first guide member 140, but the present invention is not limited thereto. That is, the first guide member 140 may extend further downward than the second guide member 150.

The second guide member 150 having the above-described configuration guides the second vortex Fs2 generated by the plurality of lower vanes 126 of the swirler 120 downward to the second vortex Fs2 And the air curtain formed by the air curtain is expanded in the vertical direction, which will be described later in detail.

The local exhaust system 100 according to the present embodiment guides the exhaust flow Fe of the contaminated air in the exhaust region rising toward the exhaust pipe 10 toward the air intake hole 122 to generate the exhaust flow Fe, And an inner guide member 160 for preventing the second vortex Fs2 generated by the plurality of lower vanes 126 from mixing with the second vortex Fs2 directed downward.

The inner guide member 160 may be fixed to the bottom surface of the outer edge of the lower guide member 128, and may extend in a vertical direction to a predetermined height. Accordingly, the inner guide member 160 rotates together with the swirler 120.

The inner guide member 160 may be disposed on the inner side of the second guide member 150 and may have a cylindrical shape having a diameter smaller than that of the second guide member 150. The lower end of the inner guide member 160 may be positioned at the same height as the lower ends of the first guide member 140 and the second guide member 150, but the present invention is not limited thereto.

According to the local exhaust system 100 of the present invention having the above-described configuration, the components of the swirler 120, that is, the base member 121, the plurality of upper blades 124, and the upper guide member 125 The swirler 120 can be handled easily and the base member 121 can be easily rotated by the rotation shaft 113 of the driving unit 110. Further, So that the sweller 120 is installed in a very simple and easy manner.

In addition, since the base member 121, the plurality of upper vanes 124, the upper guide member 125, the plurality of lower vanes 126, and the lower guide member 128 are rotated together, Friction does not occur between the vanes 124 and 126 and the guide members 125 and 128 even if vibration is generated in the vanes 124 and 126 and wear and damage of the components due to such friction are prevented.

Hereinafter, the operation of the local exhaust system 100 according to the embodiment of the present invention having the above-described configuration and the flow of air will be described with reference to FIG.

Referring to FIG. 1, when the exhaust operation is performed through the exhaust pipe 10, the exhaust flow Fe is formed while the contaminated air in the exhaust region rises toward the exhaust pipe 10. When the swirler 120 rotates by the driving unit 110, the base member 121 and the upper guide member (not shown) are inserted through the plurality of through holes 172 formed in the support plate 170 from the periphery of the exhaust pipe 10 125 into the first air flow passage Pa1, and the air thus introduced forms a first air flow Fa1 by the plurality of upper wings 124. [ In particular, as described above, since the upper guide member 125 is formed to be inclined, the first air flow Fa1 formed by the plurality of upper blades 124 is directed in a downward inclined direction, and the flow velocity thereof is increased .

At the same time, the air around the exhaust pipe 10 flows through the second air flow path Pa1 between the base member 121 and the lower guide member 128 through the plurality of connection holes 129 formed in the base member 121, And the air thus introduced forms a second air flow Fa2 by the plurality of lower vanes 126. [ The second air flow Fa2 is directed toward the downward inclined direction by the inclined guide member 127, and the flow velocity of the second air flow Fa2 is increased.

The first air flow Fa1 forms a first vortex Fs1 rotating around the exhaust flow Fe while exiting the outlet of the first air flow passage Pa1, Fa2 form a second vortex Fs2 that rotates around the exhaust flow Fe while exiting the outlet of the second air flow passage Pa2. Since the first and second vortices Fs1 and Fs2 form a double air curtain which surrounds the exhaust area and separates the exhaust area from the surrounding area, a thick and firm air curtain can be formed as compared with the conventional one.

As described above, conventionally, the air flow forming the vortex is spread out in the horizontal direction by the centrifugal force due to the rotation of the swirler as the air flows out of the outer end of the sweller.

However, in the present invention, the first vortex Fs1 generated by the plurality of upper vanes 124 is separated from the outer ends of the plurality of upper vanes 124 by the first guide member 140 Guided. That is, the first vortex Fs1 passing through the outlet of the first air flow passage Pa1 of the swirler 120 can not be spread and spread by the first guide member 140, So that the straightness of the first vortex Fs1 in the vertical downward direction is increased.

The second vortex Fs2 generated by the plurality of lower vanes 126 is also guided downward by the second guide member 150 while being out of the outer end of the lower vane 126. [ That is, the second vortex Fs2 passing through the outlet of the second air flow passage Pa2 of the swirler 120 is blocked by the second guide member 150 and can not spread widely, and the inner circumferential surface of the second guide member 150 So that the directivity of the second vortex Fs2 in the vertical downward direction is also increased.

Particularly, the second vortex Fs2 generated by the plurality of lower vanes 126 is blocked by the first vortex Fs1 formed around the lower end of the second guide member 150, So that the directivity of the second vortex Fs2 in the vertical downward direction is further increased, so that the air curtain can be formed farther.

As described above, according to the local exhaust system 100 of the present invention, since the air curtains surrounding the exhaust area are not only doubly rigidly formed but also extend in the vertical direction, the polluted air away from the exhaust pipe 10 It is possible to more easily and efficiently suck and exhaust the exhaust gas, thereby improving the exhaust efficiency.

In addition, when the local exhaust system 100 is installed on a gas range installed in a kitchen, harmful gas generated while the gas is burned in the gas range can be efficiently sucked and exhausted.

The second vortex Fs2 flowing downward can be distinguished from the exhaust flow Fe rising toward the exhaust pipe 10 by the inner guide member 160 and the exhaust flow Fe can be separated from the air suction holes 122). ≪ / RTI > Therefore, since the turbulent flow generated by mixing the second vortex Fs2 and the exhaust flow Fe is suppressed, the decrease of the exhaust efficiency can be prevented.

The swirler 120 sucks clean air around the exhaust pipe 10 above the swirler 120 to form the first and second air flows Fa1 and Fa2 so that the upper blade 124 and the lower blade 126 Does not contact the exhaust flow (Fe) from the exhaust area toward the exhaust pipe (10). Accordingly, the upper blade 125 and the lower blade 126 are not contaminated by contaminants contained in the exhaust flow Fe, and the problem of scattering the contaminants to the outside can be minimized.

FIG. 4 is a partial cross-sectional view showing a modified example in which the second guide member and the inner guide member shown in FIG. 1 are connected and fixed to the first guide member by a connecting member, and FIG. 5 is a cross- FIG.

4 and 5, the second guide member 150 and the inner guide member 160 are fixedly connected to the first guide member 140 without being fixed to the swirler 120, . Accordingly, the second guide member 150 and the inner guide member 160 do not rotate in the same manner as the first guide member 140, even if the swirler 120 rotates. In this case, the load applied to the drive motor 111 is further reduced, and the noise can be further reduced.

Specifically, an upper end of the second guide member 150 is spaced apart from the bottom surface of the base member 121 by a predetermined gap G2, and an inner circumferential surface of the second guide member 150 is connected to the inclined guide member 127 ) At a predetermined gap G3 from the outer end. The upper end of the inner guide member 160 is spaced apart from the bottom of the lower guide member 128 by a predetermined gap G4.

The second guide member 150 and the inner guide member 160 may be connected to and fixed to the first guide member 140. A plurality of connecting members 181 connecting the first guide member 140, the second guide member 150 and the inner guide member 160 may be installed at the lower ends of the first guide member 140, the second guide member 150 and the inner guide member 160, respectively. Specifically, one end of each of the plurality of connecting members 181 is fixed to the lower end of the first guide member 140, and the other end of each of the plurality of connecting members 181 is fixed to the lower end of the inner guide member 160, 2 guide member 150. [0052]

The first guide member 140, the second guide member 150, the inner guide member 160 and the plurality of connecting members 181 may be made of metal. In this case, the plurality of connecting members 181 are welded The first guide member 140, the second guide member 150, and the inner guide member 160. The first guide member 140, the second guide member 150, The first guide member 140, the second guide member 150 and the inner guide member 160 may be made of synthetic resin. In this case, the plurality of linking members 181 may be formed by a screw or a clamp, And may be fixedly coupled to the first guide member 140, the second guide member 150, and the inner guide member 160.

As described above, when the second guide member 150 and the inner guide member 160 are fixedly connected to the first guide member 140 without being fixed to the swirler 120, The second guide member 150 and the inner guide member 160 do not rotate in the same manner as the first guide member 140. In this case, there is an advantage that the load applied to the drive motor 111 is further reduced, and the noise can be further reduced.

FIG. 6 is a partial sectional view showing a first vertical guide plate provided between the first guide member and the second guide member shown in FIG. 4, a second vertical guide plate provided between the second guide member and the inner guide member, 7 is a perspective view of the local exhaust system provided with the first and second vertical guide plates shown in FIG. 6 as viewed from below.

Referring to FIGS. 6 and 7, a plurality of first vertical guide plates 182 may be provided between the first guide member 140 and the second guide member 150. The plurality of first vertical guide plates 182 may be radially disposed at regular intervals along the inner circumferential surface of the first guide member 140. The plurality of first vertical guide plates 182 may have a plate shape extending in the vertical direction and one end thereof may be fixed to the inner circumferential surface of the first guide member 140.

A plurality of second vertical guide plates 183 may be provided between the second guide member 150 and the inner guide member 160. The plurality of second vertical guide plates 183 may be radially disposed at regular intervals along the inner circumferential surface of the second guide member 150. The plurality of second vertical guide plates 183 may have a plate shape extending in the vertical direction and both ends of the second vertical guide plates 183 may be fixed to the inner peripheral surface of the second guide member 150 and the outer peripheral surface of the inner guide member 160, . In the case where the inner guide member 160 is not provided, one end of the plurality of second vertical guide plates 183 may be fixed to the inner circumferential surface of the second guide member.

The first vertical guide plate 182 and the second vertical guide plate 183 may be fixed to the swirler 120 such that the second guide member 150 and the inner guide member 160 are fixed to the swirler 120 . ≪ / RTI >

The first vortex Fs1 having passed through the outlet of the first air flow passage Pa1 of the swirler 120 is guided downward by the first guide member 140 as described above, And is also vertically downwardly guided by the first vertical guide plate 182 of FIG. Similarly, the second vortex Fs2, which has passed through the outlet of the second air flow passage Pa2 of the swirler 120, is guided downward by the second guide member 150, 2 vertical guide plate 183 as shown in Fig. Therefore, since the straightness of the first and second vortices Fs1 and Fs2 is further improved, the air curtain can be further extended in the vertical direction.

An air curtain sufficiently extended vertically downward by the first and second vertical guide plates 182 and 183 may be formed without increasing the height of the first and second guide members 140 and 150 Therefore, there is an advantage that the total volume of the local exhaust system 100 can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of protection of the present invention should be determined by the appended claims.

10 ... Exhaust pipe 20 ... Sirocco fan
30 ... wall 100 ... local exhaust
110 ... drive unit 111 ... drive motor
113 ... rotation shaft 120 ... spooler
121 ... base member 122 ... air intake hole
123 ... exhaust passage forming member 124 ... upper blade
125 ... upper guide member 126 ... lower blade
127 ... inclined guide member 128 ... lower guide member
129 ... connection hole 130 ... rotational axis connection portion
132 ... rotation shaft insertion hole 133 ... fixing screw
134 ... connection portion 140 ... first guide member
150 ... second guide member 160 ... inner guide member
170 ... supporting plate 172, 174 ... through hole
181 ... connecting member 182 ... first vertical guide plate
183 ... second vertical guide plate

Claims (14)

A driving unit installed in the exhaust pipe;
A base member disposed near the suction end of the exhaust pipe and connected to the driving unit to have an air suction hole communicating with the exhaust pipe in a center region thereof; A plurality of connection holes formed through the base member and communicating an upper portion and a lower portion of the base member, and a plurality of connection holes formed on the bottom surface of the base member to form a second vortex, A plurality of upper blades for generating a plurality of upper blades and a plurality of upper blades for generating a plurality of upper blades, An upper guide member for guiding the lower vanes and an upper guide member for covering the plurality of lower vanes, By forming the flow path going to swallow a lower guide member for guiding the second airflow generated by the plurality of the lower blade;
A first guide member disposed to surround the plurality of upper blades and guiding the first vortex downward to thereby extend the air curtain formed by the first vortex in a vertical direction; And
A second guide member disposed to surround the plurality of lower vanes at an inner side of the first guide member and guiding the second vortex downward to extend an air curtain formed by the second vortex in a vertical direction; And,
A support plate is provided on the upper part of the swirler with an interval from the swirler,
Wherein the first guide member is formed into a vertically extending cylindrical shape, and an upper end thereof is fixed to a bottom surface of the support plate, and is spaced from an outer periphery of the swirler,
Wherein the second guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the first guide member and extending vertically, the upper end of the second guide member being spaced from the bottom edge of the outer edge of the base member, Wherein the guide member is fixedly connected to the guide member. The method according to claim 1,
Wherein a cylindrical exhaust passage forming member is provided on an upper surface of the base member so as to surround the air intake hole and form an exhaust passage communicating with the exhaust pipe. delete The method according to claim 1,
Wherein the plurality of upper blades have a shape in which their height gradually decreases as they are away from the rotation center, and the upper guide member has an inclined shape so as to gradually narrow the distance from the base member to the outer periphery. Exhaust system. The method according to claim 1,
The upper ends of the lower vanes are inclined so as to gradually decrease toward the outer end side. An inclined guide member is installed to cover the inclined upper ends of the plurality of lower vanes, and the inclined guide member is inclined downward And a second exhaust gas outlet. delete The method according to claim 1,
Wherein at least one through hole is formed in the support plate so as to allow air to flow into the swirler. delete delete The method according to claim 1,
Wherein a plurality of first vertical guide plates for vertically downwardly guiding a first vortex passing through an outlet of the first air flow passage of the sweller is provided between the first guide member and the second guide member. . The method according to claim 1,
And an inner guide member for guiding an exhaust flow rising from the inside of the second guide member toward the exhaust pipe toward the air suction hole is disposed under the lower guide member. 12. The method of claim 11,
Wherein the inner guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the second guide member and extending vertically and the upper end thereof is fixed to the bottom surface of the lower guide member and rotated together with the swirler Local exhaust. 12. The method of claim 11,
Wherein the inner guide member is formed in a cylindrical shape having a diameter smaller than the diameter of the second guide member and extending vertically, the upper end of the inner guide member is spaced from the bottom surface of the lower guide member, And is connected to and fixed to the member. 12. The method of claim 11,
Wherein a plurality of second vertical guide plates for vertically downwardly guiding the second vortex passing through the outlet of the second air flow passage of the swirler are provided between the second guide member and the inner guide member.

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