KR101387016B1 - Local ventilator of re-spread prevention - Google Patents

Abstract

The present invention relates to an exhaust apparatus, and more particularly to a vortex type fan exhaust apparatus for preventing repeated diffusions through which guide members are installed along an outer peripheral surface of wings such that a circular band member having a predetermined height is formed in a vortex type fan to prevent repeated diffusions of air containing contaminants through a gap between a housing and the wings when the dispersing air containing the contaminants is introduced into the housing and repeated diffusions by which air is promptly discharged in a direction of an exhaust pipe as the flow rate of the air is increased by a flow boss formed on an inner wall of the housing. Accordingly, the vortex type fan exhaust apparatus for preventing repeated diffusions suggested by the present invention includes: a housing having an inlet hole having a hollow rectangular parallelepiped shape at one end thereof and having an expansion part a width thereof is larger at the one end than at an opposite end thereof; a motor provided within the housing; a rotary shaft mounted to the motor; a vortex type fan including a disk-shaped rotary plate mounted to the rotary shaft to be rotated, a plurality of wings fixedly disposed along an outer peripheral surface of the rotary plate, and a circular band member passing between the plurality of wings to have a predetermined height to block a gap between the wings and the one end of the housing; and an exhaust pipe formed on one side surface of the housing to discharge air introduced into the housing through an operation of the vortex type fan.

Description

Local ventilator of re-spread prevention

The present invention relates to an exhaust device, and more particularly, when the air including the pollutant source dispersed by installing the guide member along the outer circumferential surface into the housing, the ash of the air including the pollutant source through the clearance between the housing and the wing In order to prevent diffusion, a circular band member having a certain height is formed in the vortex-type fan to prevent re-diffusion, and the air flowing into the housing increases the flow velocity by the flow velocity projection formed on the inner wall of the housing, thereby rapidly drawing air toward the exhaust pipe. It relates to a vortex fan exhaust device that prevents re-diffusion to discharge.

Exhaust systems, or ventilators, are generally used in factories, homes, restaurants, etc. where pollution sources are frequent. The ventilator is useful when it is difficult to install the exhaust pipe near the pollution source due to the partial pollution source on the floor away from the exhaust pipe, or when the pollution source occurs momentarily. In addition to pollution sources, the ventilator discharges the odor and moisture generated in the bathroom of the home to the outside.

Such a fan has various problems in performance. As the ventilator moves away from the exhaust pipe, the efficiency of removing the pollutant source sharply decreases. For example, if the odor and moisture generated in the bathroom stays near the floor, it is difficult to discharge because the distance to the ceiling fan is too far. In addition, a fan installed in a closed room has a problem that a tremendous noise is generated by the driving of the motor and the rotation of the fan.

Therefore, although it is preferable that the ventilator is installed close to the position where possible pollutants are generated, it interferes with the work process and the movements of the workers, and there is a restriction on the installation condition because there is a distance from the floor to the ceiling.

In order to solve this problem, a ventilator for expanding an exhaust area using vortices has been developed. In the vortex type fan, a fan generating a vortex is installed on the suction port side of the exhaust pipe and the fan is rotated. The fan generates a vortex in the form of a donut around the exhaust pipe, thereby efficiently sucking contaminated air into the exhaust pipe.

However, the blown flow of the blades before the suction flow into the exhaust housing is stronger, so the products developed so far do not solve the problem of respreading. Attempts have been made to increase the suction flow rate of the exhaust port to solve the problem, but there is a limit and there is a problem that the power consumption is increased. For this reason, even though the size of the vortex is increased by maximizing the rotational force of the fan, in the conventional vortex type fan structure, due to various structures including the motor provided between the fan and the exhaust pipe due to the vortex generated by the fan, And the noise is increased due to the turbulence caused by the mutual interference between the flow blowing in the narrow region below the exhaust pipe and the suction flow, and by the flow blown into the space, There is a fear that the additional diffusion of the pollution may occur.

As a conventional technique for solving the above problems, Republic of Korea Patent Registration No. 10-0821295 (April 03, 2008) in the vortex-type local exhaust system, the exhaust pipe is installed in the inlet, the external power supply A swirler rotating around the exhaust pipe; And at least two vortex-type local exhaust systems provided in the exhaust pipe, wherein the vortex-type local exhaust systems include a driving unit for rotating the swirler, wherein each of the vortex- Wherein the swirlers are arranged such that the swirlers are directed in the same direction, and the adjacent pair of vortex-type local exhaust devices are arranged in such a manner that the areas of the vortexes of the adjacent vortexes are mutually spaced apart from each other, System is known.

However, although the vortex type local exhaust system includes a plurality of vortex-type local exhaust systems, a large amount of polluted air can be sucked in, but the amount of power used is increased. In addition, contamination sources are provided between the fan and the exhaust pipe. Therefore, there is a problem that the vortex and the pollutant source are reflected to the structure to cause the discharge of the pollutant in the direction of the pollutant source, and the pollutant introduced by the fan moves rapidly toward the exhaust pipe.

As another conventional technique for solving the above problems, Korean Patent Application No. 10-2012-0102049 discloses a vortex type ventilator having a bell mouth. The vortex type ventilator has an inner hollow cylindrical shape, and one end has an inner diameter larger than the other side ; A motor provided inside the housing; A rotating shaft mounted on the motor; A first fan including a rotating plate mounted on the rotating shaft and having a curved shape with an outer edge bent toward the motor and a plurality of blades disposed along the outer edge of the rotating plate and fixed in a radial direction; A bell mouth surrounding the first fan at a lower portion of the first fan; And a second fan mounted on the rotating shaft and provided at a lower portion of the bell mouth, the second fan being composed of a plurality of individual blades combined with each other at a predetermined angle with respect to the radial direction, and a vortex- .

However, the above-described conventional technique is clogged so that the amount of redistribution by the rotational force of the blade is larger than the inflow into the housing. That is, the contamination source introduced into the central portion by the first fan has a drawback that the second fan installed inside the housing is stronger than the suction force of the second fan, resulting in additional re-diffusion.

The present invention is to solve the above problems, by introducing a guide member on the inner wall along the wing outer circumference into the air containing the pollutant source dispersed into the housing, and through the play between the housing and the wing when introduced into the housing It is an object of the present invention to provide a vortex fan exhaust device for preventing the re-diffusion to prevent the re-diffusion by forming a circular band member having a certain height in the vortex fan to prevent the re-spread of the air including the pollutant.

In addition, the present invention to increase the exhaust flow rate by forming a three-dimensional area of the exhaust pipe and the three-dimensional area between the motor cover and the wall of the housing to 1: 1 size to quickly discharge the air introduced into the housing through the exhaust pipe, the housing It is to provide a vortex fan exhaust system for preventing the re-diffusion to discharge the air quickly by forming a flow velocity projection on the inner wall to increase the flow rate of the air.

Vortex fan exhaust apparatus for preventing the re-diffusion proposed by the present invention is a hollow rectangular parallelepiped shape inside the inlet is formed at one end and the one end has an extension having a width larger than the other side; and provided inside the housing And a rotating shaft mounted to the motor; and a disk-shaped rotating plate mounted on the rotating shaft to rotate, a plurality of wings fixed along the outer circumferential surface of the rotating plate, and a clearance between the wing and one end of the housing. A vortex fan including a circular band member that is penetrated between the plurality of wings to have a predetermined height and is formed in a circular band shape; and the vortex fan is formed on one side of the housing to discharge air introduced into the housing by operating the vortex fan. Exhaust pipe;

The housing forms a flow velocity protrusion protruding from the inner wall to increase the flow rate of air introduced into the inner wall.

The vortex fan forms a guide member having a height equal to the width of the wing on the inner wall of the outer circumferential surface of the wing so as to introduce air including a pollutant source that is partially dispersed by the wing rotation force into the housing.

In the vortex type fan, the vortex is generated by the rotating plate, the wing, and the guide member during operation, and the air is attracted to the outer circumferential surface of the wing by the air pressure difference and the air flow direction formed by the vortex formation. Air is introduced into the housing, including the external pollution source.

The wing and the guide member form a vortex to form a straight or curved shape so as to introduce air containing the pollutant into the housing.

The vortex fan is mounted on a rotating shaft to form a blade to rotate, a rotating plate consisting of a donut-shaped plate along the outer peripheral surface of the blade, a circular band member formed at a constant height along the inner peripheral surface of the rotating plate, and the outer peripheral surface of the rotating plate It is arranged along a plurality and consists of a guide member fixed upright in the direction of the circular band member.

The circular strip member of the vortex-shaped fan forms a step in which a diameter varies at a predetermined height on an outer surface thereof so that a part thereof is accommodated at an inlet of the housing and the other part is formed to protrude from one end of the housing.

The motor has a motor cover of a circular plate shape to protect the motor in the direction of one end of the housing.

The motor cover is configured by adjusting the size of the motor cover so that the three-dimensional area of the exhaust pipe size and the three-dimensional area between the motor cover and the wall of the housing can be 1: 1.

According to the vortex fan exhaust device for preventing the re-diffusion according to the present invention, when the air containing the polluting source is introduced into the housing when the guide member is installed on the inner wall of the outer peripheral surface of the wing, air containing the polluting source is carried out in the wing wind It can be prevented, by forming a circular band member having a certain height inside the vortex fan has an effect of preventing the air introduced into the housing to be re-spread.

In addition, the three-dimensional area of the exhaust pipe and the three-dimensional area between the motor cover and the wall of the housing are formed in a 1: 1 size to increase the exhaust flow rate, and the flow velocity projection is formed on the inner wall of the housing to increase the flow rate of the air, thereby quickly discharging the air. There is.

1 is a perspective view showing an embodiment according to the present invention;
2 is a cross-sectional view showing an embodiment according to the present invention.
Figure 3 is a perspective view showing a vortex fan in one embodiment according to the present invention.
Figure 4 is a perspective view showing another embodiment of the vortex fan in one embodiment according to the present invention.
Figure 5 is a perspective view showing another embodiment of the vortex fan in one embodiment according to the present invention.
6 is a cross-sectional view schematically showing an embodiment according to the present invention.

According to an aspect of the present invention, there is provided a vortex fan exhaust device which prevents re-diffusion, comprising: a housing having an inlet at one end thereof having an empty rectangular parallelepiped shape, and having an extension having a width larger than the other end thereof; And a rotating shaft mounted to the motor; and a disk-shaped rotating plate mounted on the rotating shaft to rotate, a plurality of wings fixed along the outer circumferential surface of the rotating plate, and a clearance between the wing and one end of the housing. A vortex fan including a circular band member that is penetrated between the plurality of wings to have a predetermined height and is formed in a circular band shape; and the vortex fan is formed on one side of the housing to discharge air introduced into the housing by operating the vortex fan. Exhaust pipe; characterized in that comprises a.

In addition, the housing is characterized in that to form a flow rate projection protruding from the inner wall to increase the flow rate of air introduced into the inner wall.

In addition, the vortex fan is characterized in that a guide member having a height equal to the width of the blade is formed on the inner wall of the outer circumferential surface of the wing so as to introduce air containing the pollutant, which is partially dispersed by the blade rotation force into the housing.

In addition, the vortex fan has a vortex generated by the rotating plate, the wing and the guide member during operation, the air is attracted to the outer peripheral surface of the wing by the air pressure difference and the air flow direction formed by the vortex forming the wing along the inner diameter of the circular band member Between the wing and the air characterized in that the air is introduced into the housing including an external pollution source.

In addition, the wing and the guide member is characterized in that it forms a vortex to form a straight or curved so as to introduce air containing the pollutant into the housing.

In addition, the vortex fan is mounted on a rotating shaft to form a blade to rotate, a rotating plate consisting of a donut-shaped plate along the outer peripheral surface of the blade, a circular band member formed at a constant height along the inner peripheral surface of the rotating plate, and the rotating plate A plurality of arranged along the outer circumferential surface of the characterized in that consisting of a guide member fixed upright in the direction of the circular band member.

In addition, the circular band member of the vortex fan is formed on the outer surface of the stepped diameter is different from a certain height so that a portion is accommodated in the inlet of the housing and the other portion is formed in a shape protruding from one end of the housing.

In addition, the motor is characterized in that it comprises a motor cover of a circular plate shape for protecting the motor in the direction of one end of the housing.

The motor cover may be configured by adjusting the size of the motor cover so that the three-dimensional area of the exhaust pipe size and the three-dimensional area between the motor cover and the wall of the housing are 1: 1.

Next, a preferred embodiment of the vortex fan exhaust system for preventing re-spreading according to the present invention will be described in detail with reference to the drawings.

First, one embodiment of the vortex fan exhaust device to prevent re-diffusion according to the present invention is shown in Figure 2 housing 10, grill 20, vortex fan 30, the rotating shaft 40, the motor 50 ) And the exhaust pipe (60).

As shown in FIGS. 1 and 2, the housing 10 is formed to have a hollow shape to accommodate the rotation shaft 40, the motor 50, and the like. An inlet 11 is formed at one end of the housing 10 to allow air to enter therein, and a grill 20 is coupled to one end, and an exhaust pipe 60 is formed at the side.

One end of the housing 10 is provided with an extension 13 having a width larger than the other side. It is apparent that the expansion unit 13 may be implemented to facilitate the installation of the vortex type fan, and to efficiently absorb external pollutants and the like with a larger width than other parts.

Although not shown in the drawing, the expansion unit 13 may be equipped with LED lamps at predetermined intervals at one end. The LED lamp installed in the expansion unit 13 is turned on only when the fan is driven to easily check whether it is driven from the outside, and it is also possible to make the interior design stand out.

The inner wall of the housing 10 is formed with a flow velocity projection 15 protruding from the inner wall so as to increase the flow rate while reducing the flow rate of the air including the pollution source introduced into the housing 10. The flow velocity protrusion 15 may be formed in a semi-circular curved surface or in a form using a vortex. The flow rate protrusion 15 may increase the flow rate of the air introduced into the housing 10 and quickly discharge the air in the direction of the exhaust pipe 60.

The grill 20 is coupled to an extension 13 formed at one end of the housing 10. The grill 20 is formed in a shape extending radially in a straight line shape around the central hole. Alternatively, although not shown in the drawing, it is also possible to form a radial vortex around a central hole. The grill 20 may be detachably attached to the extension 13 to facilitate cleaning.

As shown in FIG. 3, the vortex fan 30 is seated on the inlet 11 by the step 38 of the circular band member 35. The vortex fan 30 is formed to protrude from one side end of the housing 10, and rotates about the rotation shaft 40 to generate vortices. Vortex fan 30 is mounted to the rotary shaft 40 and rotates in a counterclockwise direction and includes a rotary plate 31 having a disc shape and a plurality of wings 32 is arranged fixed along the outer peripheral surface of the rotary plate (31). The vortex fan 30 has a length of the blade 32 longer than the length of the rotary plate 31 in the form of a flat plate.

The vortex fan 30 rotates counterclockwise when driven and vortices are generated by the rotating plate 31 and the blades 32, and the circular band member 35 is formed by the air pressure direction and the air flow direction formed by the vortex formation. Air including an external pollutant is introduced into the housing 10 between the wing 32 and the wing 32 along the inner diameter.

When the rotating plate 31 is driven in a disc shape in which the central part is blocked, air containing a pollutant introduced into the center by the high speed rotation of the swirler fan 30 is drawn to the edge of the blade 32 and then the inner wall of the circular band member 35. When contaminated, the pollutant is efficiently introduced into the housing 10.

The wing 32 is formed at the same height as the rotating plate 31 in a straight line shape so that air containing a contaminant is introduced between the wing 32 and the wing 32 when the vortex fan 30 is driven, and then flows into the housing 10. do.

A guide member having a height equal to the width of the wing 32 on the inner wall of the outer circumferential surface of the wing 32 so that air including a pollutant source, which is partially dispersed by the high speed rotation force, may be introduced into the housing 10. 33 is formed. The guide member 33 may prevent the pollutant from being carried away by the wind of the blades 32.

As shown in FIG. 4, the blade 32 and the guide member 33 may form the guide member 33 on the upper end of the blade 32 instead of the inner wall, and the blade 32 and the guide member 33 may be straight. It is also possible to form a curved shape rather than a shape. In addition, although not shown in the drawings, the angle between the guide members 33 formed on the inner wall of the wing 32 may be formed at an obtuse angle (90 ° to 180 °).

The circular band member 35 is formed in a circular band shape while penetrating through the plurality of wings 32 so as to block the play between the housing 10 and the wings 32. That is, the radius of the circular band member 35 is larger than the radius of the rotary plate 31 is formed smaller than the radius of the outer peripheral surface of the blade (32).

The circular band member 35 blocks the clearance between the housing 10 and the blade 32 to block the contamination source carried between the clearances, and at the same time, it is possible to quickly move air into the housing 10.

The circular band member 35 is formed in the outer surface of the inlet 11 of the housing 10 by forming a step 38 having a diameter varying from a certain height to be seated. That is, the portion of the circular band member 35 is not received in the housing 10 is formed to protrude from one side end of the housing 10. The height of the step 38 is preferably formed so that the wing 32 is not in contact with the inlet 11 of the housing 10.

Another embodiment of the vortex fan 30, as shown in Figure 5, is formed on the rotating shaft 40 to form a blade 32 to rotate. Along the outer circumferential surface of the wing 32, the rotating plate 31 consisting of a donut-shaped plate and the circular band member 35 formed at a constant height along the inner circumferential surface of the rotating plate 31, and the outer edge of the rotating plate 31 According to the present invention, a plurality of guide members 33 are arranged and fixed upright in the direction of the circular band member 35. The wing is supported by connecting the rotation center of the rotary plate 31 and the guide member 33.

The motor 50 is provided in the housing 10 to mount the rotating shaft 40. The rotary shaft 40 rotates when the motor 50 is operated to rotate the vortex fan 30.

The motor 50 is provided with a circular plate-shaped motor cover 55 to protect the motor from contamination sources flowing in the direction of one end of the housing 10. The motor cover 55 has a three-dimensional area of the exhaust pipe 60 size and a three-dimensional area between the motor cover 55 and the wall surface of the housing 10 so that the flow rate of air introduced into the housing 10 is not reduced. It is configured by adjusting the size of the motor cover 55 to be. Therefore, it is preferable that the size of the motor cover 55 is determined according to the three-dimensional area of the exhaust pipe 60.

The exhaust pipe 60 is formed on one side of the housing 10 to discharge the air introduced into the housing 10.

The operating state of the vortex fan exhaust device for preventing the re-diffusion of the present invention will be described with reference to FIGS. 2 and 6. When the vortex fan 30 rotates counterclockwise by the driving of the motor 50, the vortex is formed and formed by the rotating plate 31, the blade 32, and the guide member 33 of the vortex fan 30. Due to the pressure difference and the air flow direction formed by the air flows a lot of air, including the external pollution source into the housing (10).

The pollutant introduced into the rotating plate 31 is clogged at the center thereof and dragged to the edge of the wing 32 and hit the inner wall of the circular band member 35 so that the pollutant is efficiently introduced into the housing 10. The circular band member 35 blocks the play between the housing 10 and the wings 32 to prevent the air introduced into the housing 10 from being re-extracted.

The air introduced into the housing 10 is quickly discharged in the direction of the exhaust pipe 60 by increasing the flow rate of air without decreasing the flow rate by the flow rate protrusion 15 formed on the inner wall of the housing 10. In addition, the motor cover 55 maintains the flow rate so that it can be discharged to the exhaust pipe (60).

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Housing 13 Extension 15 Flow velocity protrusion
20: grill 30: vortex fan 31: rotating plate
32: wing 33: guide member 35: circular band member
38: step 40: shaft 50: motor
55: motor cover 60: exhaust pipe

Claims (9)

A housing having an inlet formed at one end of the hollow rectangular parallelepiped and having an extension having a width greater than the other at one end; and
A motor provided inside the housing; and
A rotating shaft mounted to the motor; and
A disk-shaped rotating plate mounted on the rotating shaft and rotating, a plurality of wings fixed along the outer circumferential surface of the rotating plate, and a plurality of wings penetrating between the wings and one end of the housing so as to block a clearance therebetween. Vortex fan having a circular band member having a circular band shape; And
And an exhaust pipe formed on one side of the housing to discharge the air introduced into the housing by operating the vortex fan.
And the housing forms a flow rate protrusion protruding from the inner wall to increase the flow rate of air introduced into the inner wall.
delete The method according to claim 1,
The vortex fan is configured to form a guide member having a height equal to the width of the wing on the inner wall of the outer circumference of the wing so that air including a pollutant source that is partially dispersed by the wing rotational force is introduced into the housing. Vortex fan exhaust system.
The method of claim 3,
In the vortex type fan, the vortex is generated by the rotating plate, the wing, and the guide member during operation, and the air is attracted to the outer circumferential surface of the wing by the air pressure difference and the air flow direction formed by the vortex formation. Vortex fan exhaust system to prevent re-diffusion, characterized in that the air flowing into the inside of the housing including an external pollution source.
The method of claim 3,
The wing and the guide member to form a vortex vortex-type fan exhaust device to prevent re-diffusion, characterized in that formed in a straight or curved form to introduce air containing the pollutant into the housing.
The method according to claim 1,
The vortex fan is mounted on a rotating shaft to form a blade to rotate, a rotating plate consisting of a donut-shaped plate along the outer peripheral surface of the blade, a circular band member formed at a constant height along the inner peripheral surface of the rotating plate, and the outer peripheral surface of the rotating plate A plurality of vortex-type fan exhaust device to prevent re-diffusion, characterized in that consisting of a plurality of guide members are arranged upright fixed in the direction of the circular band member.
The method according to claim 1,
The circular band member of the vortex-shaped fan forms a step that varies in diameter at a predetermined height on an outer surface thereof so that a part is accommodated in the inlet of the housing and the other part is formed to protrude from one end of the housing. Vortex fan exhaust system.
The method according to claim 1,
And the motor has a circular plate-shaped motor cover that protects the motor in a direction of one end of the housing.
The method according to claim 8,
And the motor cover is configured to adjust the size of the motor cover so that the three-dimensional area of the exhaust pipe size and the three-dimensional area between the motor cover and the wall of the housing are 1: 1.

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