KR20210149486A - Air clean fan - Google Patents

Abstract

The present invention is to provide an air clean fan that is convenient to move. The air clean fan comprises: a base formed with an inlet; a tower disposed on the upper side of the base and formed with an outlet; a fan which sucks air through the inlet and blows the sucked air toward the outlet; and a handle which forms a space opened to the outside on the inside. The handle includes a cover provided movably in the space inside the handle to open and close the space.

Description

Air clean fan {Air clean fan}

The present invention relates to an air clean fan that discharges air, and more particularly, to an air clean fan including a handle.

In general, a blower is a device that generates a flow of air by driving a fan. The blower is also used as an air purifier or an air clean fan by installing a filter at the inlet.

Patent Registration No. 10-1331487 (hereinafter referred to as 'prior document 1') discloses a fan assembly that provides wind to a user by using the Coando effect. The fan assembly of Prior Document 1 includes a cylindrical case and a nozzle disposed above the case and discharging air. A user may move the fan assembly by holding the nozzle, but there is a risk that the nozzle through which air is discharged may be contaminated.

Laid-Open Patent Publication No. 10-2016-0048499 (hereinafter referred to as 'Prior Document 2') discloses an air purifier having a handle groove recessed from the main body to the inside. The handle groove may be exposed to the outside and dust may be accumulated.

Registered Patent Publication No. 10-1331487 Laid-Open Patent Publication No. 10-2006-0048499

An object of the present invention is to provide an air clean fan that is convenient to move.

Another object of the present invention is to provide an air clean fan that prevents dust from accumulating on a handle.

Another object of the present invention is to provide an air clean fan that reduces flow resistance due to a handle.

Another object of the present invention is to provide an air clean fan that improves air circulation efficiency.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an air clean fan according to the present invention includes a base having an inlet port, a tower having an outlet port, and a fan generating air flow. The air clean fan includes a handle that forms a space open to the outside therein.

The handle may be disposed toward the rear.

The handle includes a cover for opening and closing the space. The cover may be provided to be movable in the space.

The handle may include a handle case that forms an opening open to the outside of the space.

The cover may include a board having a shape corresponding to the opening, and a first shaft protruding inwardly from the board.

The handle may include a guide for guiding the movement of the cover.

The guide may include a shaft hole into which the first shaft is inserted.

The guide may include a body in which the shaft hole is formed. The body may be coupled to the handle case.

The guide may include an extension protruding from the body. The extension portion may protrude in a direction opposite to the cover with respect to the body. The extension may protrude from a position corresponding to the shaft hole. The extension part may have the shaft hole extending therein.

A hollow may be formed in the first shaft.

The handle may include a second shaft inserted into a hollow formed in the first shaft, and a spring disposed on an outer circumference of the second shaft.

The handle may include a positioning protrusion protruding from the handle cover. The positioning protrusion may protrude in a direction crossing the moving direction of the handle cover.

The positioning protrusion may include a first positioning protrusion protruding from the cover to the left and a second positioning protrusion protruding from the cover to the right. The positioning protrusion may protrude from the inner surface of the board. The first positioning protrusion may protrude from the inner surface of the board to the left. The second positioning protrusion may protrude to the right from the inner surface of the board.

The handle may include a positioning groove recessed from the periphery of the interior space of the handle. The positioning groove may be depressed at a position spaced apart from the outer surface of the handle case. The positioning groove may extend in the moving direction of the handle cover at a position spaced apart from the outer surface of the handle case by the thickness of the board. The positioning protrusion may be inserted into the positioning groove. The positioning groove may include a first positioning groove into which the first positioning projection is inserted, and a second positioning groove into which the second positioning projection is inserted.

The handle case may include a handle groove extending upwardly from the interior space of the handle. The handle case may include a grip disposed outside the handle groove and defining an upper end of the opening.

The fan may suck in air through an inlet. The fan may blow air toward the outlet. The fan may discharge air to the outside through the outlet.

The tower may discharge air toward the front, and the handle may be disposed toward the rear.

The tower may include a discharge guide for guiding the discharged air forward. The discharge guide may be disposed at the discharge port. The discharge guide may be inclined toward the front from the inside to the outside of the tower.

The discharge port may be located behind the center of the tower. The tower may include an air guide inclined upward toward the rear therein.

The tower is disposed above the base.

The tower may include a tower base disposed above the base. The tower may include a first tower and a second tower disposed above the tower base. The first tower and the second tower may be disposed to be spaced apart from each other.

The air clean fan may include a divider disposed above the fan. The divider may have an arc-shaped cross-section and a lower surface.

The first tower may be disposed on one side with respect to the divider, and the second tower may be disposed on the other side with respect to the divider.

The divider may be disposed in a first direction crossing the tower base. The cover of the handle may be provided to be movable in the first direction. The first direction may be a direction in which air is discharged from the outlet.

A portion of the handle may be disposed on the inside of the tower base. The handle may include a panel forming a part of the exterior of the tower base and a coupling portion protruding inwardly from the panel. The guide may be coupled to the coupling portion. The guide and the coupling part may be disposed inside the tower base.

A portion of the handle disposed inside the tower base may be smaller than or equal to a width of the divider. The width of the coupling portion and the guide may be less than or equal to the width of the divider.

The air clean fan includes a diffuser for guiding the air discharged from the fan upward. The diffuser may be disposed above the fan. The diffuser may be disposed below the divider.

The handle may be disposed at a height corresponding to the diffuser.

The diffuser may include a hub, a plurality of vanes extending outwardly from the hub, and an outer rim connected to outer ends of the plurality of vanes.

The outer rim may have an arc shape in which one end and the other end are separated in a circumferential direction.

A portion of the handle may be disposed between one end and the other end of the outer rim. The coupling portion of the handle may be inserted between one end and the other end of the outer rim.

The details of other embodiments are included in the detailed description and drawings.

According to the air clean fan of the present invention, there are one or more of the following effects.

First, it has the advantage of convenient movement, including a handle that forms an open space to the outside.

Second, there is also an advantage in that dust does not accumulate in the space inside the handle, including the cover for opening and closing the space. In addition, the handle may include a spring so that the cover automatically closes the handle inner space when the user removes the hand from the handle inner space. In addition, the handle includes a positioning protrusion and a positioning groove to prevent the cover from being separated to the outside.

Third, a part of the handle that is not exposed to the outside is disposed on the air flow path to secure a space for the user to put their hand, but it is possible to reduce flow resistance by placing it in the same direction as the divider that distributes air to the first and second towers. There are also possible advantages. Furthermore, the width of a portion of the handle disposed on the air passage is smaller than the width of the divider, so that flow resistance can be further reduced.

Fourth, the diffuser for guiding the air flowing by the fan upward toward the tower, and the handle are disposed on the same height, so that the height other than the portion for sucking air and the portion for discharging air can be minimized, thereby There is also the advantage of improving the air circulation efficiency. Furthermore, the diffuser includes an outer rim having one end and the other end separated, and a part of the handle is disposed between one end and the other end of the diffuser, so that the handle and the diffuser are disposed at the same height while preventing interference with each other. there is also

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a rear view of an air clean fan according to an embodiment of the present invention.
FIG. 2 is a perspective view of the air clean fan shown in FIG. 1 .
FIG. 3 is a front view of the air clean fan shown in FIG. 2 .
FIG. 4 is a plan view of the air clean fan shown in FIG. 2 .
5 is a right sectional view of the air clean fan 1 shown in FIG. 2 .
FIG. 6 is a bottom cross-sectional view taken along II shown in FIG. 3 .
7 is a front cross-sectional view of the air clean fan 1 shown in FIG.
8 is an exemplary view showing the air flow of the air clean fan according to an embodiment of the present invention.
9 is an enlarged view of part A shown in FIG. 5 .
FIG. 10 is an exploded perspective view of the handle 500 shown in FIG. 9 .
11 is a cross-sectional view of the handle 500 showing the movement of the handle cover 530. FIG. 11 (a) shows a state in which the handle cover 530 closes the handle inner space 514, and FIG. 11 (b) indicates a state in which the handle cover 530 opens the handle inner space 514 .
12 is a perspective view illustrating an assembly of the divider 131 , the handle 500 , and the diffuser 340 .
13 is an exploded perspective view of the assembly shown in FIG. 12 ;
14 is a plan view of the assembly shown in FIG. 12 ;

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining an air clean fan according to embodiments of the present invention.

1 is a rear view of an air clean fan according to an embodiment of the present invention.

Referring to FIG. 1 , the air clean fan 1 according to an embodiment of the present invention includes a base 150 and a tower 140 disposed above the base 150 . The air clean fan 1 further includes a handle 500 having a space 514 (refer to FIG. 9 ) therein.

The base 150 may form a lower portion of the air clean fan (1). The tower 140 may form the upper portion of the air clean fan (1). The tower 140 may be disposed above the base 150 and supported by the base 150 .

A suction port 155 (refer to FIG. 2) may be formed in the base 150, and an outlet 117 (refer to FIG. 2) may be formed in the tower 140. The air introduced into the base 150 through the inlet 155 may be discharged to the outside of the tower through the outlet 117 .

The tower 140 may include a first tower 110 and a second tower 120 spaced apart from each other. The tower 140 may include a tower base 130 connected to the first tower 110 and the second tower 120 .

The tower base 130 may be disposed above the base 150 . The tower base 130 may be coupled to the base 150 . The tower base 130 may supply the air supplied from the base 150 to the first tower 110 and the second tower 120 .

The first tower 110 and the second tower 120 may be disposed above the tower base 130 . The first tower 110 and the second tower 120 may have a first outlet 117 and a second outlet 127 (see FIG. 4 ), respectively. The air supplied to the first tower 110 may be discharged to the outside through the first outlet 117 , and the air supplied to the second tower 120 may be discharged to the outside through the second outlet 127 . have.

The handle 500 may be disposed at a height between the suction port 155 and the discharge ports 117 and 127 . The handle 500 may be disposed at a position higher than the inlet 155 . The handle 500 may be disposed at a lower position than the discharge ports 117 and 127 . The handle 500 may be disposed on the tower base 130 . The handle 500 may be coupled to the tower base 130 .

The handle 500 may be disposed to face a direction opposite to the direction in which the air is discharged (S, see FIG. 2 ). The handle 500 may be disposed to face the rear of the air clean fan 1 .

A detailed description of the handle 500 will be described later with reference to FIGS. 7 and 10 to 14 .

FIG. 2 is a perspective view of the air clean fan shown in FIG. 1 .

Referring to FIG. 2 , the base 150 may include a base plate 151 and a base outer 152 disposed above the base plate 151 . The base plate 151 may be seated on the ground. The base outer 152 may be coupled to the upper side of the base plate 151 .

The base plate 151 may have a disk shape. The base outer 152 may have a circular cross-section.

The base outer 152 may form a lower exterior of the air clean fan 1 . The base outer 152 may have a truncated cone shape with upper and lower sides open.

The base outer 152 may form a space 101 (refer to FIG. 3 ) therein. A portion 154 of the side of the base outer 152 may be opened.

The base 150 may further include a cover 153 disposed on a portion 154 of an open side surface of the base outer 152 . The cover 153 may be detachably coupled to the base outer 152 . The cover 153 may be coupled to the base outer 152 to cover the opening 154 formed in the base outer 152 .

The suction port 155 may be formed in the base outer 152 and/or the cover 153 . The suction port 155 of the air clean fan 1 according to an embodiment of the present invention may be formed in the base outer 152 and the cover 153 . Accordingly, it is possible to suck air in all directions around 360 degrees of the base 150 .

The suction port 155 may be a hole communicating the inside and the outside of the base 150 . A plurality of suction ports 155 may be formed in the base outer 152 and/or the cover 153 .

The air clean fan 1 may include a filter 200 for filtering foreign substances in the sucked air.

The filter 200 may be disposed inside the base 150 . The filter 200 may be disposed in the space 101 formed inside the base outer 152 . Hereinafter, the space 101 is also referred to as a filter installation space 101 .

The filter 200 may be drawn in and out through the open side part 154 of the base outer 152 . Hereinafter, the part of the opened side surface 154 of the base outer 152 is also referred to as a filter insertion hole 154 .

The filter 200 may be formed in a cylindrical shape in which a hollow is formed in the vertical direction. The outer surface of the filter 200 may face the suction port 155 .

The filter cover 153 may cover the filter insertion hole 154 . The filter cover 153 may be detachably assembled to the base outer 152 .

The filter cover 153 may be disposed in the filter insertion hole 154 to partition the inside and the outside of the base 150 . However, a suction port 155 is formed in the filter cover 153 so that air outside the base 150 can be introduced into the filter installation space 101 .

The tower base 130 may be coupled to the base 150 . The tower base 130 may be coupled to the upper side of the base outer 152 .

The tower base 130 may distribute the filtered air supplied from the base 150 , and provide the distributed air to the first tower 110 and the second tower 120 . The tower base 130 may guide a portion of the sucked air to the first tower 110 , and guide the remaining portion to the second tower 120 . The tower base 130 may include a divider 131 for distributing the sucked air to the first tower 110 and the second tower 120 .

The divider 131 may be disposed on the tower base 130 . One end 131a of the divider 131 may be connected to the first tower 110 , and the other end 131b of the divider 131 may be connected to the second tower 120 .

The divider 131 may be located below the blowing space 105 to be described later. The divider 131 may define a lower end of the blowing space 105 .

A first tower 110 and a second tower 120 are disposed above the tower base 130 . The first tower 110 and the second tower 120 may be connected to the tower base 130 . Hereinafter, for convenience of description, the first tower 110 is disposed on the left of the first and second towers 110 and 120 , and the second tower 120 is disposed on the right side.

The first tower 110 and the second tower 120 may be spaced apart from each other. A blowing space 105 is formed between the first tower 110 and the second tower 120 spaced apart from each other. The blowing space 105 may have front and rear openings. In addition, the blowing space 105 may be opened upwards.

The first tower 110 may include an inner wall 115 facing the blowing space 105 and an outer wall 114 disposed on the opposite side of the inner wall 115 . The second tower 120 may include an inner wall 125 facing the blowing space 105 and an outer wall 124 disposed on the opposite side of the inner wall 125 .

When it is necessary to separate the inner walls 115 and 125 , the inner wall 115 of the first tower 110 is referred to as the first inner wall 115 , and the inner wall 125 of the second tower 120 is It is referred to as the second inner wall 125 . When it is necessary to distinguish the outer walls 114 and 124, the outer wall 114 of the first tower 120 is referred to as the first outer wall 114, and the outer wall 124 of the second tower 120 is referred to as the second outer wall. do.

The outlets 117 and 127 are disposed in the first and second towers 110 and 120, respectively, and the first tower 110 and the second tower 120 are disposed left and right, and the air discharged from the outlet is forward and backward. It can flow in the direction (S).

The air clean fan 1 may be in the shape of a column whose diameter decreases toward the top. The air clean fan 1 may have a conical or truncated cone shape as a whole. When the cross section becomes narrower toward the upper side as in the present embodiment, the center of gravity is lowered and the risk of overturning due to external impact is reduced. However, unlike the present embodiment, the cross-section does not need to be in a form that becomes narrower toward the upper side.

The outer surface of the tower base 130 may have a truncated cone shape continuous with the shape of the base outer 152 . The outer surfaces of the first and second towers 110 and 120 may form a part of a truncated cone shape continuous with the shape of the base outer 152 . The tower base 130 may be manufactured integrally with the first tower 110 and the second tower 120 .

3 is a front view of the air clean fan 1 shown in FIG. 2 , and FIG. 4 is a plan view of the air clean fan 1 shown in FIG. 2 .

Referring to FIG. 3 , the blowing space 105 of the air clean fan 1 according to an embodiment of the present invention may be formed to have a constant horizontal width in the vertical direction. The distance of the upper part of the blowing space 105 (ie, the distance between the upper ends of the first and second towers 110 and 120) and the distance of the lower part (ie, the distance between the lower ends of the first and second towers 110 and 120) are the same can be formed.

Therefore, the air flow in the blowing space 105 can be formed uniformly. On the other hand, when the width of the upper side and the lower side of the blowing space 105 are different from each other, the flow velocity of the side having the larger width may be formed to be low, and a deviation of the velocity in the vertical direction may be induced. This can change the air's reach.

Referring to FIG. 4 , the first tower 110 and the second tower 120 may be symmetrical with respect to a center line L-L'. In particular, the first outlet 117 and the second outlet 127 may be disposed symmetrically with respect to the center line L-L'.

The discharge ports 117 and 127 may be respectively disposed in the first tower 110 and the second tower 120 . The discharge ports 117 and 127 discharge air to the blowing space 105 . When it is necessary to distinguish the outlets, the outlet formed in the first tower 110 is referred to as a first outlet 117 , and the outlet formed in the second tower 120 is referred to as a second outlet 127 .

When viewed from the top, the distance between the first inner wall 115 and the second inner wall 125 may be closest to the approximate center of the tower 140 . The horizontal distance between the first inner wall 115 and the second inner wall 125 may be closest to the approximate center of the tower 140 . The shortest distance between the first inner wall 115 and the second inner wall 125 is referred to as BO. The discharge ports 117 and 127 may be located at the rear of the portion having the closest distance between the first and second inner walls 115 and 125 .

A distance between the front end 112 of the first tower 110 and the front end 122 of the second tower 120 is referred to as a first separation distance B1, and the rear end 113 and the second end of the first tower 110 The separation distance of the rear end 123 of the tower 120 is referred to as a second separation distance B2.

The discharge ports 117 and 127 are disposed between the portion having the closest distance between the first inner wall 115 and the second inner wall 125 and the rear ends 113 and 123 of the first and second towers 110 and 120 . can be The first outlet 117 and the second outlet 127 are rear ends of the first and second towers 110 and 120 rather than the portion forming the shortest distance BO between the first and second towers 110 and 120 . It can be placed close to (113, 123). The closer the discharge ports 117 and 127 are disposed to the rear ends 113 and 123, the easier it is to control the airflow through the Coanda effect to be described later. A distance between the first outlet 117 and the second outlet may be greater than BO and smaller than B2.

In this embodiment, B1 and B2 are formed identically. Unlike the present embodiment, any one of B1 and B2 may be formed to have a longer length.

The inner wall 115 of the first tower 110 and the inner wall 125 of the second tower 120 directly provide the Coanda effect, and the outer wall 114 of the first tower 110 and the second The outer wall 124 of the second tower 120 may indirectly provide a Coanda effect.

That is, the inner walls 115 and 125 may directly guide the air discharged from the outlets 117 and 127 to the front ends 112 and 122 . The outer walls 114 and 124 induce a Coanda effect on the indirect air flow and guide the indirect air flow to the front ends 112 and 122 .

FIG. 5 is a right sectional view of the air clean fan 1 shown in FIG. 2 , and FIG. 6 is a bottom sectional view taken along line I-I shown in FIG. 3 .

Referring to FIG. 5 , the first outlet 117 and the second outlet 127 may be disposed within the height of the blowing space 105 . The first outlet 117 and the second outlet 127 may be elongated in the vertical direction. By forming the upper and lower lengths of the first outlet 117 and the second outlet 127 much longer than the left and right widths B0, B1, and B2 of the blowing space, the air discharged from the first outlet 117 and the second outlet 127 ) of the discharge air may be guided to be merged in the blowing space (105).

The first outlet 117 may be disposed between the front end 112 and the rear end 113 of the first tower 110 , and disposed close to the rear end 113 . Air discharged from the first outlet 117 may flow along the first inner wall 115 due to the Coanda effect, and may flow toward the front end 112 .

The first discharge port 117 includes a first border 117a forming an edge on the air discharge side (front end in this embodiment), and a second border 117b forming an edge on the air discharge side (rear end in this embodiment) opposite to the air discharge side (rear end in this embodiment). ), an upper border 117c forming an upper edge of the first outlet 117 , and a lower border 117d forming a lower edge of the first outlet 117 .

The first border 117a and the second border 117b may be disposed parallel to each other. The upper border 117c and the lower border 117d may be disposed parallel to each other.

The first border 117a and the second border 117b may be disposed to be inclined with respect to the vertical direction (V). In addition, the rear end 113 of the first tower 110 may also be inclined with respect to the vertical direction (V). The inclination with respect to the vertical direction V of the discharge port 117 may be greater than the inclination with respect to the vertical direction V of the rear end 113 of the tower or the outer surface of the tower. For example, the inclination a1 of the first border 117a and the second border 117b may be formed at 4 degrees, and the inclination a2 of the rear end 113 may be formed at 3 degrees.

The first outlet 117 of the first tower 110 may be disposed to face the second tower 120 . Air discharged from the first outlet 117 may flow along the inner wall 115 of the first tower 110 through a Coanda effect.

Referring to FIG. 6 , the second outlet 127 may be symmetrical with the first outlet 117 . The second discharge port 127 includes a first border 127a forming an air discharge side (front end) edge, a second border 127b forming an air discharge side (rear end) edge, and the second discharge port 127 ) may include an upper border 127c forming an upper edge and a lower border 127d forming a lower edge of the second outlet 127 .

The second outlet 127 of the second tower 120 may be disposed to face the first tower 110 . Air discharged from the second outlet 127 may flow along the inner wall 125 of the second tower 120 through a Coanda effect.

The tower 140 of the air clean fan 1 according to an embodiment of the present invention may further include discharge cases 170 and 180 . The discharge cases 170 and 180 may include a first discharge case 170 disposed in the first tower 110 and a second discharge case 180 disposed in the second tower 120 .

A discharge opening may be formed in the inner wall 115 of the first tower 110 and the inner wall 125 of the second tower 120 . A first discharge case 170 may be disposed in the discharge opening of the first tower 110 . A second discharge case 180 may be disposed in the discharge opening of the second tower 120 .

The first discharge case 170 includes a first discharge guide 172 disposed on the side in which the air is discharged (ie, the front side), and the first discharge guide 172 disposed on the opposite side (ie, the rear side) of the direction in which the air is discharged. Two discharge guides 174 may be included. A first discharge port 117 may be formed between the first discharge guide 172 and the second discharge guide 174 .

An inner side of the first discharge guide 172 may be disposed to face a first discharge space 103a to be described later, and an outside side thereof may be disposed to face the blowing space 105 . An inner side of the second discharge guide 174 may be disposed to face the first discharge space 103a , and an outer side thereof may be disposed to face the blowing space 105 .

The outer surface 172a of the first discharge guide 172 and the outer surface 174a of the second discharge guide 174 may form a part of the first inner wall 115 . The outer surface 172a of the first discharge guide 172 may be formed in a curved surface. The outer surface 172a may provide a surface continuous with the first inner wall 115 . In particular, the outer surface 172a may form a continuous curved surface with the outer surface of the first inner wall 115 .

The outer surface 174a of the second discharge guide 174 may provide a continuous surface with the first inner wall 115 . The inner surface 174b of the second discharge guide 174 may have a curved surface. In particular, the inner surface 174b may form a continuous curved surface with the inner surface of the first outer wall 115 . The second discharge guide may guide the air in the first discharge space 103a toward the first discharge guide 172 .

The first discharge port 117 is formed between the first discharge guide 172 and the second discharge guide 174 , and the air in the first discharge space 103a passes through the first discharge port 117 . It may be discharged into the blowing space 105 .

Specifically, the air in the first discharge space 103a may be discharged between the outer surface 172a of the first discharge guide 172 and the inner surface 174b of the second discharge guide 174 . A discharge interval 175 is defined between the outer surface 172a of the first discharge guide 172 and the inner surface 174b of the second discharge guide 174 . The discharge interval 175 forms a predetermined channel.

The discharge interval 175 may have a narrower width of the middle portion 175b than the inlet 175a and the outlet 175c. The middle portion 175b is defined as the shortest distance between the second border 117b and the outer surface 172a.

7 is a front cross-sectional view of the air clean fan 1 shown in FIG.

5 and 7 , the air clean fan 1 includes a fan device 300 that sucks in external air. The fan device 300 may suck in air and discharge it to the outside.

The fan device 300 may suck in external air into the base 150 . The fan device 300 may flow the air sucked into the base 150 into the tower 140 and discharge it to the outside. The fan device 300 may suck external air into the base 150 through the inlet 155 , and the air sucked into the base 150 may be sucked into the tower 140 through the outlets 117 and 127 . ) can be discharged to the outside.

Air introduced into the base 150 by the fan device 300 may flow through the filter 200 from the outside to the inside of the filter 200 . In this process, foreign substances and/or harmful gases in the air may be removed.

The fan device 300 may be disposed above the filter 200 . The fan device 300 may flow the air that has passed through the filter 200 to the first tower 110 and the second tower 120 . A detailed description of the fan device 300 will be described later with reference to FIG. 9 .

Inside the air clean fan 1 , a space below the suction grill 350 may be defined as a filter installation space 101 . Inside the air clean fan 1 , a space between the suction grill 350 and the discharge ports 117 and 127 may be defined as a blowing space 102 . An inner space of the first tower 110 and the second tower 120 may be defined as a discharge space 103 . The inner space of the first tower 110 is referred to as a first discharge space 103a, and the inner space of the second tower 120 is referred to as a second discharge space 103b.

By the fan device 300 , the outside air is introduced into the filter installation space 101 through the suction port 155 , and then passes through the ventilation space 102 , and then through the divider 131 to the first discharge space 103a and It may be distributed and flowed to the second discharge space 103b, and may be discharged through the discharge ports 117 and 127.

An air guide 160 for converting the flow direction of air to a horizontal direction may be disposed in the discharge space 103 . A plurality of air guides 160 may be disposed.

The air guide 160 may change the direction of the air flowing from the lower side to the upper side in a horizontal direction, and the changed direction may flow to the outlets 117 and 127 . When it is necessary to distinguish the air guides, the first air guide 161 disposed inside the first tower 110 is referred to as a first air guide 161 , and the second air guide 162 disposed inside the second tower 120 is referred to as a second air guide 162 .

8 is an exemplary view showing the air flow of the air clean fan according to an embodiment of the present invention.

Referring to FIG. 8 , the air discharged from the first discharge port 117 and the air discharged from the second discharge port 127 may flow forward after they merge in the blowing space 105 . In addition, by the air discharged to the blowing space 105 , the air behind the blowing space 105 may also flow forward through the blowing space 105 .

The first outlet 117 and the second outlet 127 are formed to extend long in the vertical direction, and are arranged symmetrically, so that the air flowing from the upper side of the first outlet 117 and the second outlet 127 and Air flowing from the lower side can be formed more uniformly. In addition, since the air discharged from the first discharge port 117 and the air discharged from the second discharge port 127 are merged in the blowing space 105 , the straightness of the discharged air may be improved.

Furthermore, the air discharged from the first outlet 117 and the air discharged from the second outlet 127 are merged in the blowing space 105 , so that the air around the first tower 110 and the second tower 120 is also An indirect flow may be generated in the air discharge direction (S). Air around the first tower 110 may flow forward along the first outer wall 114 . Air around the second tower 120 may flow forward along the second outer wall 124 .

9 is an enlarged view of part A shown in FIG. 5 .

5 and 9 , the air inside the base 150 flows upward by the rotation of the fan 320 , a part of the air flows to the first tower 110 , and a part of the air flows to the second tower 110 . flow to tower 120 . The air introduced into the first tower 110 may be discharged to the outside through the first outlet 117 , and the air introduced into the second tower 120 may be discharged to the outside through the second outlet 118 .

The fan device 300 may include a rotatably provided fan 320 and a fan motor 310 rotating the fan 320 . The fan device 300 may be disposed inside the tower base 130 . A lower portion of the tower base 130 may overlap an upper portion of the base 150 .

The fan motor 310 may be disposed above the fan 320 . A motor shaft of the fan motor 310 may be coupled to a fan 320 disposed below.

The fan device 300 may further include a motor housing 330 accommodating the fan motor 310 . The motor housing 330 may be disposed above the fan 320 . The fan motor 310 may be disposed inside the motor housing 330 . The motor shaft of the fan motor 310 may be coupled to the fan 320 through a lower portion of the motor housing 330 .

The motor housing 330 may be coupled to a hub 341 to be described later. The hub 341 may be coupled to an upper side of the motor housing 330 . The motor housing 330 may surround the lower portion of the fan motor 310 . The hub 341 may wrap an upper portion of the fan motor 310 . The motor housing 330 may surround the fan motor 310 together with the hub 341 .

The fan 320 connects the fan hub 321 coupled to the shaft of the fan motor 310 , the shroud 323 spaced apart from the fan hub 321 , and the fan hub 321 and the shroud 325 . It may include a plurality of blades 322. The fan 320 may be a four-flow fan that flows air in a motor shaft direction and generates a radially outward flow as it goes downstream.

The flow fan 320 may suck in air about an axis and discharge air in a radial direction, but the discharged air may be formed to be inclined with respect to the axial direction. Since the overall air flow flows from the lower side to the upper side, when air is discharged in a radial direction like a general centrifugal fan, a flow loss due to the flow direction change occurs greatly. The flow fan 320 may minimize air flow loss by discharging air upward in the radial direction.

The fan device 300 may include a fan housing 325 disposed outside a radius of the fan 320 . The fan housing 325 may be coupled to an upper portion of the base outer 152 . A step may be formed on the upper inner surface of the base outer 152 , and the fan housing 325 may be coupled to the portion where the step is formed. The fan housing 325 may be part of the tower base 130 . An upper portion of the fan housing 325 and the base outer 152 may overlap.

The fan device 300 may include a suction grill 350 coupled to the lower end of the fan housing 325 . A hole may be formed in the suction grill 350 to communicate the inside of the base 150 and the inside of the tower base 130 .

The fan device 300 may include a diffuser 340 disposed above the fan 320 . The diffuser 340 may guide the air flow by the fan 320 in an upward direction. The diffuser 340 may reduce the radial component in the airflow and enhance the upward component.

The diffuser 340 may include a vane 343 for guiding the air flow by the fan 320 in an upward direction. A plurality of vanes 343 may be provided.

The diffuser 340 may include a hub 341 connected to the vane 343 . The plurality of vanes 343 may be connected to the hub 341 . A hub 341 may be disposed inside the plurality of vanes 343 . A vane 343 may be disposed on the outside of the hub 341 .

The diffuser 340 may further include an outer rim 345 connected to the outer end of the vane 343 . The outer rim 345 may be disposed on the upper side of the fan housing 325 . The outer rim 345 may be coupled to the fan housing 325 .

The hub 341 , the vane 343 , and the outer rim 345 may be integrally formed.

The handle 500 may have a space 514 that is opened and closed therein. The handle 500 includes a handle case 510 that forms an opening 514a (refer to FIG. 11 ) open to the outside of the space 514 , a handle cover 530 that opens and closes the space 514 , and the handle A guide 520 for guiding the movement of the cover 530 may be included.

The handle 500 may include a grip 517 defining the top of the opening 514a. A handle groove 512 may be formed inside (ie, on the front side) of the grip 517 . The handle groove 512 may extend upwardly from the space 514 inside the handle. With this structure, the user can easily move the air clean fan 1 by putting a hand into the opening 514a and hooking a finger on the grip 517 .

The handle cover 530 may be provided to be movable in the radial direction. The handle cover 530 may close the opening 514a when moving to the outside (rear side) and open the opening 514a when moving to the inside (front side).

The handle 500 may be disposed on the tower base 130 . The outer surface of the handle 500 may form a surface continuous with the tower base 130 .

A portion of the handle 500 may be located inside the tower base 130 . That is, the handle 500 may be partially disposed on a flow path through which air flows. The flow resistance may vary depending on the size and arrangement position of the handle 500 .

At least a portion of the handle 500 may be disposed on the same height as the diffuser 340 . A detailed description of the arrangement of the handle 500 , the divider 131 , and the diffuser 340 will be described later with reference to FIGS. 12 to 14 .

FIG. 10 is an exploded perspective view of the handle 500 shown in FIG. 9 .

Referring to FIG. 10 , the handle 500 may include a handle case 510 having a space 514 open to the outside, and a handle cover 530 for opening and closing the space 514 . In addition, the handle 500 may further include a guide 520 for guiding the movement of the handle cover 530 .

The handle case 510 may include a panel 511 that forms a surface continuous with the outer surface of the tower base 130 . An opening 514a (refer to FIG. 11 ) that is an outer portion of the space 514 may be formed in the panel 511 . An upper end and a lower end of the opening 514a may be parallel to each other. Left and right ends of the space 514 may be curved outwardly rounded. The left and right ends of the space 514 may be semi-circular or semi-elliptical.

The panel 511 may support the divider 131 . A downwardly recessed groove 513 may be formed at an upper end of the panel 511 . A rear end 1314 of a divider 131 to be described later may be inserted into the groove 513 .

The handle cover 530 may include a board 531 that opens and closes the opening 514a. The board 531 may have a shape corresponding to the opening 514a. The board 531 may have an outer surface facing outward and an inner surface facing the ventilation space 102 . The outer surface of the board 531 may form a surface continuous with the outer surface of the panel 511 . Accordingly, when the board 531 is positioned on the outermost side (ie, the opening 514a) of the space 514 of the handle, the outer surfaces of the board 531 , the panel 511 and the tower base 130 are continuous. It is possible to achieve the desired surface and improve the aesthetics.

The handle cover 530 may include a first shaft 533 protruding inward (ie, forward) from the board 531 . A plurality of first shafts 533 may be provided. The first shaft 533 may be provided as a pair disposed left and right. The first shaft 533 may be inserted into a shaft hole 523 of a guide 520 to be described later. The handle cover 530 may be movably supported by inserting the first shaft 533 into the shaft hole 523 .

The guide 520 may include a body 521 and a shaft hole 523 into which the first shaft 533 is inserted. Also, the guide 520 may include an extension 525 protruding from the body 521 . The extension part 525 may be disposed at a position where the shaft hole 523 is formed, and the shaft hole 523 may be formed to extend inside the extension part 525 . The shaft hole 523 and the extension part 525 may be provided in the same number as the first shaft 533 .

The extension 525 may be disposed on the opposite side of the board 531 with respect to the body 521 . One end of the extension 525 may be coupled to the guide 520 . The extension 525 may have a hollow cylindrical shape. The hollow may have the same diameter as the shaft hole 523 . The hollow is a portion from which the shaft hole 523 extends.

In order to movably support the first shaft 523 , the shaft hole 523 requires a predetermined length similar to that of the first shaft 523 . When the thickness of the body 521 is increased to secure the length of the shaft hole 523 , there is a risk of interference with the hub 341 of the diffuser 340 . Also, flow resistance may increase. The extension 525 may secure the length of the shaft hole 523 while reducing the thickness of the body 521 .

A cover groove 524 recessed in a shape corresponding to the board 531 may be formed in the body 521 . The cover groove 524 may be recessed from an outer surface of the body facing the panel 511 . The board 531 may be positioned in the cover groove 524 in a state in which the cover 530 is moved to the inside (ie, the front side).

The shaft hole 523 may be disposed in a portion in which the cover groove 524 is formed.

A groove 522 in which the handle groove 512 is extended may be formed in the body 521 . The extended handle groove 522 may have a shape recessed upward from the cover groove 524 .

Meanwhile, the cover 530 may include a second shaft 535 inserted into the first shaft 533 . A hollow 534 may be formed inside the first shaft 533 , and a second shaft 535 may be inserted into the hollow 534 . The hollow 534 may be opened in a direction opposite to the board 531 . The second shaft 535 may be disposed in the shaft hole 523 formed in the guide 520 and the extension 525 .

The cover 530 may include a spring 539 disposed outside the second shaft 535 . The spring 539 may be disposed in the shaft hole 523 formed in the guide 520 and the extension 525 . The spring 539 may be compressed by the first shaft 533 , and may apply a force to the first shaft 533 in an outward direction (ie, rearward). Therefore, the user can push the handle cover with a force greater than the elastic force of the spring and put his hand into the space 514 and the handle groove 512 of the handle, and when the user removes the hand from the space 514, the spring 539 is By applying a force to the first shaft 533 , the board 531 may be positioned in the opening 514a to close the space 514 .

The cover 530 may further include a fixing ring 537 coupled to the second shaft 535 . The second shaft 535 and the fixing ring 537 may be separately manufactured and combined with each other, or may be manufactured integrally. The fixing ring 537 may be coupled to the other end of the extension 525 . The other end means an end opposite to one end coupled to the guide 520 described above.

A handle of a conventional fan, an air purifier, etc. has a structure in which an opening in which a user grips a hand is always exposed to the outside. Therefore, dust may accumulate in the opening, and there is a problem that the aesthetic feeling is impaired.

The air clean fan 1 according to an embodiment of the present invention includes a handle cover 530 that opens and closes the opening 514a of the handle 500 and closes the opening 514a to solve the above problem. In addition, the handle cover 530 is provided to be movable in the space 514 formed inside the handle, and when the user moves the air clean fan 1, the handle cover 530 is moved inward to move the handle cover 530 to the space ( 514 ) and the handle groove 512 .

11 is a cross-sectional view of the handle 500 showing the movement of the handle cover 530 . 11( a ) shows a state in which the handle cover 530 closes the handle inner space 514 , and FIG. 11 ( b ) illustrates a state in which the handle cover 530 opens the handle inner space 514 .

The handle case 510 may further include a coupling part 515 extending rearward from the panel 511 . The coupling part 515 may be coupled to the guide 511 . A detailed description of the coupling unit 515 will be described later with reference to FIG. 13 .

The panel 511 includes an upper portion 516 located above the space 514 inside the handle, a lower portion 518 located below the space 514 , and the upper portion 516 protruding downward from the upper portion 516 . A grip 512 may be included. The grip 512 may have a thickness smaller than the thickness of the upper portion 516 . The grip 512 may form a continuous surface with the outer surface of the upper portion 516 .

A handle groove 512 may be formed by a thickness difference between the grip 512 and the upper portion 516 . In addition, the handle case 510 may include a coupling portion 515 , so that the handle groove 512 may be formed by a difference between the thickness of the upper portion 516 and the coupling portion 516 and the thickness of the grip 512 . . Furthermore, as described above, a groove 522 in which the handle groove 512 extends may be formed in the guide 520 .

The handle inner space 514 may include a first opening 514a located below the grip 517 and a second opening 514b extending from the first opening in a direction in which the handle cover 530 moves. . The handle groove 512 may extend upwardly from the second opening 514b.

Hereinafter, the movement of the handle cover 530 will be described with reference to FIG. 11 .

When no external force is applied, the handle cover 530 is positioned in the opening 514b and closes the handle interior space 514 as shown in FIG. 11( a ). That is, the board 531 is positioned on the same line as the outer surface of the panel 511 .

When an external force F is applied to the board 531 in the inward direction (ie, forward), as shown in FIG. 11( b ), the handle cover 530 moves inward, and the spring 539 is compressed. do. When the handle cover 530 is moved inward, the handle inner space 514 and the handle groove 512 are opened. Accordingly, the user may push the board 531 to open the inner space 514 , and put a hand into the handle groove 512 .

When the external force F acting on the board 531 is removed, the spring 539 pushes the first shaft 533 outward (ie, rearward) so that the handle cover 530 closes the handle inner space 514 . and returns to the state of Fig. 11(a). That is, the board 531 is positioned in the first opening 514a.

10, 11 and 13 , the handle 500 includes positioning protrusions 531a and 531b that prevent the handle cover 530 from being separated, and the positioning protrusions 531a and 531b are inserted. It may include a position limiting groove (511a, 511b, 521a, 522b).

The positioning protrusions 531a and 531b may protrude from the inner surface of the handle cover 530 . The positioning protrusions 531a and 531b may protrude from the inner surface of the board 531 . The inner surface of the board 531 is opposite to the outer surface of the board 531 facing the outside.

The positioning protrusions 531a and 531b may protrude in a direction crossing the moving direction of the handle cover 530 . The positioning protrusions 531a and 531b are the first positioning protrusions 531b that protrude from the inner surface of the board 531 to the right when the air clean fan 1 is viewed from the rear (FIG. 10) and the left protrusion It may include a second positioning protrusion 531b.

The position limiting grooves 511a and 511b are recessed from the periphery of the space 514 inside the handle at a position spaced apart from the outer surface of the panel 511 , and may extend in the front-rear direction. The position limiting grooves 511a and 511b may extend forward from a position spaced apart from the outer surface of the panel 511 by the thickness of the cover 530 .

The positioning grooves 511a and 511b include a first positioning groove 511a into which the first positioning protrusion 531a is inserted and a second positioning groove 512b into which the second positioning protrusion 531b is inserted. may include The positioning groove may include third and fourth positioning grooves 521a and 521b recessed from the circumference of the cover groove 524 of the guide 520 . The third positioning groove 521 may be connected to the first positioning groove 511a, and the fourth positioning groove 521b may be connected to the second positioning groove 511b.

12 is a perspective view showing the assembly of the divider 131, the handle 500, and the diffuser 340, FIG. 13 is an exploded perspective view of the assembly shown in FIG. 12, and FIG. 14 is a plan view of the assembly shown in FIG. .

Referring to FIG. 12 , the divider 131 controls the air flow by the upper side 1311 defining the lower end of the blowing space 105 and the fan device 300 to the first tower 110 and the second tower 120 . It may include a lower side 1312 for distributing to. The lower surface 1312 may have a semicircular cross-section and a columnar shape. With this structure, the air flow can be distributed and flow path resistance can be reduced.

The divider 131 may further include a front end 1313 extending forward from the upper side and a rear end 1314 extending rearward from the upper side. The thickness of the front end 1313 and the rear end 1314 may be thinner than the thickness between the upper side surface 1311 and the lower side surface 1312 . The front end 1313 may be supported by the case of the tower base 130 , and the rear end 1314 may be inserted into the groove 513 formed at the top of the panel 511 to be supported by the panel 511 .

Referring to FIG. 13 , the handle case 510 may further include a coupling part 515 extending rearward from the panel 511 . The coupling portion 515 has an outer surface of the guide 511 and an inner surface of the pendulum corresponding to the inner surface of the guide 511 . A first fastening groove 515h may be formed in the coupling portion 515 , and a second fastening groove 521h may be formed in the guide 520 . A fastening member (not shown) passes through the second fastening groove 521h and is inserted into the first fastening groove 515h so that the guide 520 may be coupled to the coupling part 515 .

On the other hand, the coupling part 515 protrudes from the panel 511 in the inner direction of the tower base 130 , and the guide 520 is disposed in the inner direction of the tower base 130 rather than the panel 511 to the ventilation space 102 . ), there may be a problem that acts as a flow resistance to the air flow.

In the handle 500 of the air clean fan 1 according to an embodiment of the present invention, the panel 511 forms a part of the exterior of the air clean fan 1, and the coupling part 520, the guide 520 may be disposed below the divider 130 . Thereby, the flow path resistance can be reduced.

Specifically, the divider 131 may be disposed in the air discharge direction (S, see FIG. 2 ), and the guide 520 may be disposed in the direction in which the divider 131 is disposed from the handle case 510 .

The width D2 of the guide 520 may be less than or equal to the width D1 of the divider 131 (more specifically, the width D1 of the lower surface 1312 of the divider 131 ). The width D2 of the coupling portion 515 protruding from the panel 511 may also be smaller than or equal to the width D1 of the divider 131 . Furthermore, the distance D3 between the extension parts 525 of the guide 520 may be smaller than the width D1 of the divider 131 . The flow path resistance can be minimized by the size and arrangement of the divider 131 and the handle 500 .

13 and 14 , the diffuser 340 may include an outer rim surrounding the outside of the vane 342 . The outer rim 345 may have an arc shape with a central angle of less than 360 degrees. That is, the outer rim 345 may have an arc shape in which a portion 3455 is opened. The outer rim 345 may have an arc shape in which one end 345a and the other end 345b are separated in the circumferential direction.

A plurality of vanes 345 may be provided. The plurality of vanes 345 may be provided between the hub 341 and the outer rim 345 . That is, the vane 345 may be disposed in the first region S1 defined between the arc-shaped outer rim 345 and the hub 341 .

A vane may not be disposed between the portion 3455 in which the outer rim 345 is opened and the hub 341 . That is, an empty space S2 may be formed between the portion 3455 in which the outer rim is opened and the hub 341 . The empty space is referred to as a second area S2. A vane may not be disposed in the second region S2 . The second region includes a vane 345 closest to one end 345a of the outer rim 345 , a vane 343b closest to the other end 345b of the outer rim 345 , a hub 341 , and an outer rim 345 . ) can be defined as the area between the open portions 3455 of the

The handle 500 may be disposed in the empty space S2 between the portion 3455 in which the outer rim 345 is opened and the hub 341 . A portion of the handle 500 may be inserted between the one end 345a and the other end 345b are separated 3455 . The coupling portion 515 of the handle 500 may be inserted between the one end 345a and the other end 345b are separated 3455 . The coupling part 515 and the guide 520 may be disposed in the second area.

With this structure, at least a portion of the handle 500 may be positioned at the same height as the diffuser 340 without interfering with the diffuser 340 . Accordingly, the height of the tower base 130 other than the first and second towers 110 and 120 in which the inlet 155 is formed and the first and second towers 110 and 120 formed with the base 150 and the discharge ports 117 and 127 can be reduced. Accordingly, it is possible to improve the air circulation efficiency.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those of ordinary skill in the art, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

110: first tower 120: second tower
117, 127: outlet 130: tower base
131: divider 140: tower
150: base 155: intake
300: fan unit 340: diffuser
500: handle 510: handle case
520: guide 530: handle cover

Claims (15)

a base formed with an inlet;
a tower disposed on the upper side of the base and formed with a discharge port;
a fan that sucks air through the inlet and blows the sucked air toward the outlet; and
Including a handle forming a space open to the outside on the inside,
The handle is
An air clean fan provided to be movable in the space and including a cover for opening and closing the space.
The method of claim 1,
The handle is
a handle case forming an opening open to the outside of the space; and
An air clean fan including a guide for guiding the movement of the cover.
3. The method of claim 2,
The cover is
a board having a shape corresponding to the opening; and
and a first shaft protruding inwardly from the board;
The guide is
An air clean fan including a shaft hole into which the first shaft is inserted.
4. The method of claim 3,
The guide is
a body coupled to the handle case and having the shaft hole formed therein; and
and an extension part protruding in the opposite direction of the cover with respect to the body at a position corresponding to the shaft hole and extending therein with the shaft hole.
4. The method of claim 3,
The handle is
a second shaft fixed to the guide and inserted into a hollow formed in the first shaft; and
An air clean fan including a spring disposed around the outer periphery of the second shaft.
3. The method of claim 2,
The handle is
a positioning protrusion protruding from the handle cover in a direction crossing the moving direction of the handle cover; and
and a positioning groove recessed from the periphery of the interior space of the handle at a position spaced apart from the outer surface of the handle case,
The positioning projection is an air clean fan inserted into the positioning groove.
7. The method of claim 6,
The handle case is
a handle groove extending upwardly from the interior space of the handle; and
a grip disposed on the outside of the handle groove and defining an upper end of the opening;
The positioning protrusion,
a first positioning protrusion protruding from the cover to the left; and
An air clean fan including a second positioning protrusion protruding to the right from the cover.
The method of claim 1,
The tower includes a discharge guide disposed at the discharge port and inclined toward the front from the inside to the outside of the tower,
The handle is an air clean fan disposed toward the rear.
9. The method of claim 8,
The outlet is located behind the center of the tower,
The tower is an air clean fan having an air guide inclined upward toward the rear therein.
The method of claim 1,
Further comprising a divider disposed above the fan,
The tower is
a tower base disposed on the upper side of the base;
Comprising a first tower and a second tower disposed on the upper side of the tower base,
The first tower is disposed on one side with respect to the divider,
The second tower is an air clean fan disposed on the other side with respect to the divider.
11. The method of claim 10,
The divider is an air clean fan having a lower side having an arc-shaped cross section.
11. The method of claim 10,
The divider is disposed in a first direction crossing the tower base,
The cover is an air clean fan provided to be movable in the first direction.
11. The method of claim 10,
The handle is partially disposed on the inside of the tower base,
The width of the portion of the handle is less than or equal to the width of the divider.
The method of claim 1,
It is disposed on the upper side of the fan, further comprising a diffuser for guiding the air discharged from the fan to the upper side,
The handle is an air clean fan disposed at a height corresponding to the diffuser.
15. The method of claim 14,
The diffuser is
Herb;
a plurality of vanes extending outwardly from the hub; and
It is connected to the outer ends of the plurality of vanes, and includes an arc-shaped outer rim in which one end and the other end are separated in the circumferential direction,
An air clean fan in which a part of the handle is disposed between one end and the other end of the outer rim.

Images