KR102134021B1 - A Fan with improved suction performance - Google Patents

Abstract

The present invention relates to a fan for circulating air in the form of forcibly inhaling and discharging air. A fan having improved suction performance according to an embodiment of the present invention is installed in a bell mouse portion where air is sucked to improve suction performance including a plurality of main blades that suck and discharge air through the bell mouse portion according to rotation. In the fan, the end portion of the fan facing the end of the bell mouse extends to extend outwardly along the circumference of the fan, and the discharge of air flowing back into the gap generated between the edge portion and the bell mouse And a skirt portion extending toward the side of the bell mouse from an end of the edge extension portion to prevent a gap generated between the end of the bell mouse and the edge extension portion, and an inner circumferential surface to the bell mouse and an inner circumferential surface of the fan The inner diameter of the tip of the bell mouse and the inner diameter of the edge extension are formed to have the same size so that the resistance of air is reduced by having this continuity. Therefore, it is possible to improve the exhaustability of the air by preventing the inhalability from falling due to the inflow of the backflow.

Description

A fan with improved suction performance

The present invention relates to a fan for circulating air in the form of forcibly inhaling and discharging air.

In general, a fan inhales air to forcibly circulate air, and exhausts the inhaled air.

On the other hand, the fan is installed in the housing to guide the movement of the inhaled air, and a bell mouse is installed in the portion where the air of the housing is inhaled, thereby minimizing the resistance of the inhaled air, thereby improving suction performance.

However, in the conventional fan, a gap is generated between the end of the bell mouth and the fan by rotating the fan with the bell mouse, and the air sucked due to the occurrence of the gap leaks between the bell mouse and the fan, There is a problem in that the suction performance is deteriorated because the flowing air flows back into the gap and generates turbulence of the sucked air.

In order to solve this, the "Sirocco fan" of Korean Patent Publication No. 10-2015-0098100 (published on August 27, 2015) has been disclosed.

The conventional sirocco fan includes an impeller having a plurality of blades disposed on a main plate connected to a motor and a rim connected to a plurality of blades; An impeller is rotatably received and includes a scroll housing formed with a bell mouse for guiding air drawn into the impeller, the bell mouse being partially inserted into the inner space of the plurality of blades, and the bell mouse inserted into the inner space of the plurality of blades Some depths were constructed to have 002 to 008 times the impeller width.

Since the conventional sirocco fan partially overlaps the inner space of the bell mouse and the blade, it is possible to reduce the occurrence of backflow and minimize the occurrence of noise along with the flow loss.

However, the conventional sirocco fan is difficult to check the installation gap due to the difference in diameter between the bell mouse and the blade, and even if it is partially inserted into the interior of the bell mouse and the blade, the effect of blocking the occurrence of backflow is insignificant. there was.

In addition, the conventional sirocoro fan has a problem in that the suction performance is deteriorated due to the turbulence in the intake air due to the difference in the inner diameter of the bell mouse and the sirocco fan. There was a problem to be done.

The present invention has been devised to solve the above problems, and the problem to be solved by the present invention is to minimize the occurrence of turbulence caused by backflow to improve the suction performance, and minimize the step according to the diameter when inhaling air to minimize turbulence. By preventing the occurrence, it is an object of the present invention to provide a fan that minimizes noise generation, improves suction performance, and can easily check and install a gap between the fan and the bell mouse.

A fan having improved suction performance according to an embodiment of the present invention for achieving the above-described problem is installed in a bell-mouse portion where air is sucked, and a plurality of main blades for suctioning and discharging air through the bell-mouse portion according to rotation. A fan having improved suction performance, comprising: an edge extension portion extending so as to protrude outward along an end circumference of the fan facing the end of the bell mouse, and a gap generated between the edge extension portion and the bell mouse It includes a skirt portion extending from the edge of the edge extension portion toward the side of the bell mouse to prevent the discharge of the air flowing back to cover the gap generated between the edge of the bell mouse and the edge extension portion, the bell mouse The inner circumferential surface of the fan and the inner circumferential surface of the fan have continuity so that the resistance of air is reduced, so that the inner diameter of the end of the bell mouse and the inner diameter of the edge extension are formed to have the same size.

It includes a guide ring connecting the circumference of the plurality of main blades, the edge extension portion may be formed to extend outward from the circumference of the end facing the end of the bell mouse.

It is installed on the lower portion of the plurality of main blades to form a lower plate portion supporting the plurality of main blades, and a suction port in the center of the plurality of main blades. It includes an upper plate portion covering the upper portion of the plurality of main blades, the edge extension portion may be formed to extend outward from the circumference of the suction port.

It may include a gap complement member that is screwed to the inner circumference of the skirt portion to reduce the gap between the skirt portion and the side surface of the bell mouse portion according to the thickness of the tip of the bell mouse portion.

The gap complementary member includes a complementary extension portion extending from the end of the gap supplementary member in the circumferential direction, a complementary cover portion downward from the end of the complementary extension portion to cover the outer side of the skirt portion, and radiating yarn from the outer circumferential surface of the complementary cover portion In order to prevent the air discharged by the blades from being discharged to the side of the bell-wood part and discharged between the skirt part and the bell-mouse part, guide the direction of movement of the reverse flow so as to be discharged in the direction in which the reversed air is discharged. It may include a guide blade.

According to the present invention, by preventing the occurrence of turbulence by blocking the flow of turbulence between the fan and the bell mouse part by the skirt portion, it is possible to improve the suction performance, as well as the continuity of the inner peripheral surface of the bell mouse portion and the inner peripheral surface of the fan. By having the same diameter so as to have, it is possible to prevent the suction performance due to turbulence caused by the occurrence of the step difference from falling.

In addition, it is easy to install by easily checking the distance between the fan and the bell mouse portion.

In addition, even though the gap between the skirt portion and the bell-mouse portion is increased by installing a gap complementary member, the gap can be compensated to minimize the outflow of air through the gap, and the air flowing back by the guide blade formed in the complement cover portion It is possible to prevent the noise and suction performance from falling due to the occurrence of turbulence by discharging in the direction in which it does not flow out between the gaps.

In addition, since the gap-filling member is formed of a porous material, noise caused by turbulence can be prevented.

1 is a perspective view of a fan with improved suction performance according to a first embodiment of the present invention.
2 is a side cross-sectional view of a fan with improved suction performance according to the first embodiment of the present invention.
3 is a side cross-sectional view of a fan with improved suction performance according to a second embodiment of the present invention.
4 is a perspective view of a fan with improved suction performance according to a third embodiment of the present invention, and is a perspective view showing a state applied to the fan of the first embodiment.
5 is a side sectional view of a fan with improved suction performance according to a third embodiment of the present invention, showing a state applied to the fan of the first embodiment.
6 is a side cross-sectional view of a fan with improved suction performance according to a third embodiment of the present invention, showing a state applied to the fan of the second embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

First, the fan 100 having improved suction performance according to an embodiment of the present invention may be installed inside the casing so as to face the bell-mouse part 200 through which air is sucked in the casing accommodating the fan 100 and driven. It can be installed to rotate by a motor to suck air through the bell mouse part 200 and discharge the sucked air through an outlet formed in the housing.

1 and 2, the fan 100 with improved suction performance according to the first embodiment of the present invention is configured by modifying the axial fan 100, the shaft support and the main blade 110, And a guide ring 115, an edge extension part 130, and a skirt part 140.

The shaft support portion may have a rotating shaft for rotating the fan 100, and a plurality of main blades 110 may be radially installed around the shaft support portion.

On the other hand, the main blade 110 may be configured to be installed obliquely from the shaft support portion to inhale the air located in front of the main blade 110 when rotating to be discharged to the rear of the blade.

At this time, the main blade 110 may be formed in various shapes such as a plate shape, a streamlined shape such as the main blade 110 of the fan, and the shaft support portion and the main blade 110 in the first embodiment are known. It can be implemented in the same manner as the configuration of the various types of axial fan 100.

Guide ring 115 may be formed in the shape of a ring to connect the outer ends of the plurality of main blades 110 to each other, the width of both sides of the guide ring 115 has a width that the main blade 110 does not protrude Can be formed.

In addition, the inner diameter of the guide ring 115 is formed to be the same as the inner diameter of the end facing the guide ring 115 in the bell mouse part 200, so that the inner circumferential surface of the bell mouse part 200 and the inner circumferential surface of the guide ring 115 are formed. It can have continuity without any protruding parts.

Here, when the diameter of the bell-mouse part 200 and the diameter of the guide ring 115 do not coincide with each other, due to the step difference caused by the difference in diameter in the moving direction of the intake air, the airflow of the intake air changes. Because the suction property may be lowered, the inner peripheral surface of the bell mouse part 200 and the inner peripheral surface of the guide ring 115 are formed to have continuity with each other, thereby minimizing the resistance of air, thereby improving suction performance.

Meanwhile, an edge extension portion 130 extending from the circumference of the guide ring 115 to the outside of the guide ring 115 may be formed at an end of the guide ring 115 facing the bell-mouse portion 200. The protruding length may be protruded to have a longer length than the thickness of the tip of the bell mouse part 200 so that the end of the bell mouse part 200 can be positioned within the edge extension part 130.

In addition, the skirt portion 140 may be formed to have a length extending from the end of the edge extension portion 130 toward the bell mouse portion 200 to cover a part of the side surface of the bell mouse portion 200.

In this way, the end of the bell mouse part 200 is accommodated in the inside of the guide ring 115 by the edge extension part 130 and the skirt part 140 formed on the guide ring 115, so that the suctioned air is the bell mouse. The inflow or outflow between the end of the portion 200 and the guide ring 115 can be minimized to decrease the suction performance.

The fan 100 with improved suction performance according to the first embodiment configured as described above sucks air through the bell mouse unit 200 by a plurality of main blades 110 when rotated by a driving motor, and the bell mouse unit ( 200) in the opposite direction.

At this time, even if a gap is generated between the bell-mouse part 200 and the guide ring 115, the air flowing into the bell-mouse part 200 is covered by the skirt part 140 to minimize the outflow of air. , Since the inner circumferential surface of the bell-mouse part 200 and the inner circumferential surface of the guide ring 115 are formed with the same diameter and have continuity without any protruding parts, the resistance is minimized to improve the suction performance to increase the air flow of the fan 100. Can be increased.

On the other hand, most of the air discharged by the main blade 110 is discharged toward the opposite direction of the main blade 110, but the air discharged from the circumference of the guide ring 115 has a relatively low pressure in the bell mouse part 200 In this case, the backflowing air is blocked by the skirt part 140, the inflow is blocked between the ends of the guide ring 115 and the bell mouse part 200, and the bell mouse part 200 and the fan 100 are blocked. ), by reducing the vortex generated as the air flows into the intake portion, the suction resistance can be reduced to improve the suction performance.

Therefore, in the fan 100 having improved suction performance according to the first embodiment of the present invention, the inner peripheral surface of the bell mouse part 200 and the inner peripheral surface of the guide ring 115 have continuity with the same diameter as each other, thereby increasing the resistance of the suction fluid. Minimizing, it is possible to improve the suction performance by reducing the occurrence of vortex as the air flowing back from the circumference of the guide ring 115 is re-entered into the portion where the air is sucked.

Hereinafter, a second embodiment of the present invention will be described. In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the same components have the same operation and effects, and thus detailed descriptions are omitted.

As shown in FIG. 3, the fan 100 having improved suction performance according to the second embodiment of the present invention is configured by modifying a centrifugal fan, and has a shaft support portion, a top plate portion 113, It may include a main blade 110, the lower plate portion 111, the edge extension portion 130, and the skirt portion 140.

The upper plate portion 113 may be formed in a disc shape, and the upper plate portion 113 may be positioned to face the bell-mouse portion 200.

In addition, the upper plate portion 113 may be formed with a suction port through which air is sucked in the center, and the upper plate portion 113 may be formed to gradually increase in diameter and have a slope of a curved surface as the air is discharged from the suction port. .

Meanwhile, the lower plate portion 111 may be disposed to be spaced apart from the upper plate portion 113 in an opposite direction to which the suction port protrudes, and the lower plate portion 111 and the upper plate portion 113 may be formed to have the same diameter.

In addition, a plurality of main blades 110 may be radially formed between the upper plate portion 113 and the lower plate portion 111, and the plurality of main blades 110 bend toward the circumference from the center when viewed from a plane. Can be formed.

In addition, a shaft support portion to which a rotating shaft rotating by a driving motor is coupled may be formed at the center of the lower plate portion 111. Here, the upper plate portion 113, the lower plate portion 111, the main blade 110, and the shaft support portion may be implemented with a variety of known centrifugal fans (100).

On the other hand, the inner diameter of the inner diameter of the end of the end of the ball mouth portion 200 and the suction port facing the suction port in the bell-mouse part 200 is formed to have the same diameter as each other, the inner peripheral surface of the inner ring and the inner peripheral surface of the suction port One can improve the suction performance by minimizing the resistance of the inhaled air by having continuity without a protruding portion.

In addition, a border extension portion 130 may be formed outside the suction hole protruding from the center of the upper plate portion 113, and the length of the edge extension portion 130 protruding is a bell mouse portion 200 having a border extension portion. It may be formed to have a length that protrudes more than the thickness of the bell-mouse portion 200 so as to be positioned inside the 130.

In addition, a skirt portion 140 extending in a direction in which the bell mouse portion 200 is located may be formed at an end of the edge extension portion 130 to cover a gap generated between the suction port and the bell mouse portion 200. .

Here, the skirt part 140 may be formed to have a length covering a part of the side surface of the bell mouse part 200.

The fan 100 with improved suction performance according to the second embodiment of the present invention configured as described above sucks air through the bell mouse unit 200 by a plurality of main blades 110 when it is rotated by a driving motor, thereby allowing the upper panel unit ( 113) is sucked through the suction port, the sucked air is discharged around the main blade (110).

At this time, even if a gap is generated between the bell-mouse part 200 and the suction port, the air flowing into the bell-mouse part 200 is covered by the skirt part 140 to minimize the outflow of air, and the bell-mouse part Since the inner circumferential surface of the 200 and the inner circumferential surface of the suction port are formed to have the same diameter and have continuity without any protruding portion, the resistance can be minimized to improve the suction performance to increase the air volume of the fan 100.

On the other hand, some of the air discharged by the main blade 110 flows back toward the bell mouse part 200 having a relatively low pressure at the end of the main blade 110, at this time, the backflowed air is the skirt part 140 By blocking the inflow between the inlet and the end of the bell mouth part 200 by being blocked by reducing the vortex generated as it flows into the part where air is sucked through between the bell mouth part 200 and the fan 100. , It is possible to improve the suction performance by reducing the suction resistance.

Therefore, in the fan 100 having improved suction performance according to the second embodiment of the present invention, the inner circumferential surface of the bell mouse part 200 and the inner circumferential surface of the suction port have continuity with the same diameter to minimize the resistance of the suction fluid, and guide It is possible to improve the suction performance by reducing the occurrence of vortex as the air flowing back from the ring 115 recirculates into the portion where the air is sucked.

In addition, since the distance between the bell-mouse part 200 and the suction port can be clearly understood, there is an advantage of easy installation.

Hereinafter, a third embodiment of the present invention will be described. In the third embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the same components have the same action and effects, and thus detailed descriptions are omitted.

Although the third embodiment is described as being applied to the first embodiment, as shown in FIGS. 4 and 5, it is needless to say that the second embodiment can also be applied to the second embodiment.

4 to 6, the fan 100 with improved suction performance according to the third embodiment of the present invention may include a gap complement member 150.

The gap complementary member 150 is formed in a ring shape, and may be installed on the inner circumferential surface of the skirt portion 140 so that the gap generated between the skirt portion 140 and the bell mouse portion 200 is minimized.

Here, the gap between the skirt portion 140 and the bell-mouse portion 200 may be varied by the edge extension portion 130 according to the thickness of the bell-mouse portion 200. It is installed on the inner circumference of (140) to fill the gap generated between the bell-mouse portion 200 and the skirt portion 140 by the thickness of the gap-compensating member 150 to prevent the intake air from flowing into the gap.

On the other hand, the gap complementary member 150 may include a supplementary extension portion 151, a complementary cover portion 153, and a guide blade 155.

The complementary extension portion 151 protrudes from the circumference of the end of the gap complementary member 150 and can be spread over the upper end of the skirt portion 140, and the supplementary cover portion 153 is downward from the end of the complementary extension portion 151 The outer side of the skirt portion 140 may be covered.

That is, the skirt portion 140 may be combined in a form to be fitted into the insertion groove formed by being surrounded by the gap complementary member 150, the complement cover portion 153, and the supplement extension portion 151.

In addition, a guide blade 155 may be formed on the outside of the complementary cover portion 153 to induce discharge to minimize vortex generation of air discharged through the fan 100 and flowing back to the bell mouse portion 200.

A plurality of guide blades 155 may be radially formed along the circumferential direction of the complementary cover portion 153, and the guide blades 155 rotate together with the gap compensating member 150 when the fan 100 is rotated. The air may be discharged from the bell-mouse part 200 toward a direction, that is, a reverse flow direction in which air is introduced.

That is, the guide blade 155 is a direction in which the air flowing back to the bell mouse part 200 flows back to the bell mouse part 200 in order to initialize the flow of air between the skirt part 140 and the bell mouse part 200. As a result, it is possible to guide the discharge of the backflowed air so that the air can be discharged again.

On the other hand, the guide blade 155 may be formed of a porous material in order to reduce the noise colliding by the backflowing air, as well as the guide blade 155, noise caused by the air impinging on the gap complement member 150 The occurrence of can be minimized.

When the fan 100 having improved suction performance according to the third embodiment of the present invention configured as described above is installed in a form in which the gap-reinforcing member 150 is screwed into the inner circumference of the skirt portion 140, the skirt portion 140 The circumference of the complementary extension portion 151 and the complementary cover portion 153 of the gap complementary member 150 is installed in a form that is fitted around.

Since the guide blade 155 is formed on the outside of the complement cover 153 of the gap complement member 150 installed in the skirt portion 140 installed in this way, air discharged when the fan 100 is rotated is the bell mouse portion 200 ), the air is blocked by the skirt portion 140, and the complementary cover portion 153 narrows the gap between the skirt portion 140 and the bell mouse portion 200, thereby minimizing the gap. It can prevent a drop in suction performance.

In addition, when the fan 100 rotates, by forming an air stream that discharges reverse flow from the guide blade 155, the air flowing in or out of the skirt part 140 and the bell mouse part 200 is blocked to minimize the occurrence of turbulence. By doing so, the suction performance can be improved.

In addition, since the guide blade 155 and the gap-reinforcing member 150 are formed of a porous material, noise generated by backflow can be minimized.

Although the embodiments of the present invention have been described above, the scope of rights of the present invention is not limited to this, and it is easily changed and equalized by those skilled in the art from the embodiments of the present invention. Includes all changes and modifications to the extent possible.

100: fan with improved suction performance 110: main blade
111: lower portion 113: upper portion
115: guide ring 120: shaft support
130: rim extension 140: skirt
150: gap complement member 151: complementary extension
153: Complementary cover part 155: Guide blade
200: Bell Mouse part

Claims (5)

In the fan is installed in the bell-mouse portion to be sucked air, including a plurality of main blades to suck and discharge air through the bell-mouse portion according to rotation, to improve the suction performance,
An edge extension portion extending so as to protrude outward along the circumference of the end of the fan facing the end of the bell mouse portion, and
The end portion of the edge extension portion is extended toward the side of the bell mouth portion to prevent the discharge of air flowing back into the gap generated between the edge extension portion and the bell mouse portion, and between the end portion of the bell mouse portion and the edge extension portion. And a skirt portion covering the generated gap,
The inner diameter of the bell mouth portion and the inner diameter of the edge extension portion have a continuity so that the resistance of air is reduced, so that the inner diameter of the end portion of the bell mouse portion and the inner diameter of the edge extension portion are formed in the same size,
It is screwed to the inner circumference of the skirt portion comprises a gap complement member for reducing the gap between the gap between the skirt portion and the bell mouse portion according to the thickness of the tip of the bell mouse portion,
The gap complementary member includes a complementary extension portion extending from the end of the gap supplementary member in an outer circumferential direction, a complementary cover portion downwardly downward from the end of the complementary extension portion to cover the outside of the skirt portion, and radially from the outer circumferential surface of the complementary cover portion In order to prevent the air discharged by the blades from being discharged between the skirt part and the bell mouse part by refluxing the air toward the bell mouse part, the direction of movement of the reverse flow so as to be discharged in the direction in which the reversed air flows It includes a guide blade to guide,
It is installed on the lower portion of the plurality of main blades to form a lower portion to support the plurality of main blades, and a suction port in the center of the plurality of main blades. It includes a top plate portion having a continuous surface with the inner end of the bell-mouse portion and covering the upper portions of the plurality of main blades, and the edge extension portion is formed to extend outward from the circumference of the suction port,
The gap-complement member is a fan with improved suction performance, characterized in that it is formed of a porous material to reduce noise colliding with air. delete delete delete delete

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