KR20210004252A - Air cleaner - Google Patents

Abstract

According to an embodiment of the present invention, an air purifier can comprise: a purification unit purifying air; and a discharge body having a discharge flow passage, where the air purified by the purification unit is discharged, formed around an outer circumference thereof. The discharge flow passage can comprise: a first area discharging the air in a first direction; and a second area discharging the air in a second direction which faces a lower side compared to the first direction. The air purifier can rapidly purify a lower area of an indoor space.

Description

Air cleaner

The present invention relates to an air purifier, and more particularly, to an air purifier in which air purified by a purification unit is discharged through a discharge body.

An air purifier is a device installed in homes, offices, and government offices to purify contaminated air indoors.

The air purifier may include a blowing unit for flowing air and a purification unit such as a filter.

Air purifiers can be classified into a ceiling type air purifier that is embedded in the ceiling or mounted to be suspended according to the installation location, a wall-mounted type air purifier mounted on a wall, and a standing type air purifier that is erected and used in the indoor floor.

The air purifier may further include a lighting unit that illuminates the room, and such an air purifier may be an air purifier equipped with a lighting function, and an example of such an air purifier is Korean Patent Registration 10-1176565 (August 23, 2012 Announcement).

The air purifier with lighting function disclosed in Korean Patent Registration No. 10-1176565 (announced on August 23, 2012) has a fan and at least one filter member accommodated in the upper and lower frames, and indoor air is stored in the upper and lower frames. A discharge port to be discharged is formed, and the air purified by the at least one filter member is discharged to the vicinity of the discharge port through the discharge port.

Registered Korean patent 10-1176565 (announced on August 23, 2012)

In the air purifier according to the prior art, since the air purified by the purification unit is discharged in a lateral direction of the air purifier, the upper area of the room can be mainly purified, and the ability to purify the lower area of the room is low.

In addition, it may take a long time to purify the lower area of the room where the human body mainly lives.

An object of the present invention is to provide an air purifier capable of rapidly purifying a lower area of a room by discharging the air purified by a purification unit in a vertical air flow.

Another object of the present invention is to provide an air purifier capable of evenly purifying the entire indoor space by discharging up and down three-dimensional airflows in all directions of 360°.

Another object of the present invention is to provide an air purifier capable of quickly purifying a lower area of a room where the human body is mainly located by inducing the air purified by the purification unit to be moved to the indoor floor quickly.

An air purifier according to an embodiment of the present invention includes a purification unit for purifying air; It may include a discharge body formed with a discharge passage through which the air purified by the purification unit is discharged.

The outlet of the discharge passage is located in the vicinity of the first region along the outer circumference of the discharge body and the first region that discharges air toward the first direction, and from a height lower than the first region toward the second direction lower than the first direction. It may include a second area for discharging air.

The discharge passage may include an outlet through which air is discharged to the outside.

The height of the outlet of the discharge passage may be increased and decreased along the outer circumference of the discharge body. The height of the outlet of the discharge passage can be repeatedly increased and decreased along the circumferential direction. The outlet of the discharge passage may have a shape in which mountains and valleys are alternately formed in the circumferential direction of the discharge body.

The first region may guide air in an upward inclined direction based on a horizontal plane.

The second area may guide air in a downward inclined direction based on the horizontal plane.

The discharge passage may include a third region positioned between the first region and the second region along the outer circumference of the discharge body and discharges air in a third direction. The third direction may be a direction further downward than the first direction and a more upward direction than the second direction.

The third area may guide air in a horizontal direction.

The air purifier may further include a rotating mechanism connected to and connected to the discharge body to rotate the discharge body.

The discharge body may have a ring shape with a space formed therein. The discharge passage may penetrate from the inner circumference of the discharge body to the outer circumference of the discharge body.

The air purifier may further include a top cover disposed above the discharge body to cover the space and mounted on the ceiling, and a blowing unit accommodated in the space and mounted on the top cover.

The discharge body may include an upper body and a lower body spaced apart from the upper body in the vertical direction.

The lower surface of the upper body and the upper surface of the lower body may be an air guide surface guiding air.

The discharge passage may be formed between the upper body and the lower body. The discharge passage may be formed between the lower surface of the upper body and the upper surface of the lower body. The discharge passage may be formed in a curved shape between the upper body and the lower body. A cross-sectional shape between the inlet of the discharge passage and the second region may be more curved than a cross-sectional shape between the inlet and the first region of the discharge passage.

At least one of the lower surface of the upper body and the upper surface of the lower body may alternately form mountains and valleys. At least one of the upper body and the lower body may be rotated by a rotating mechanism.

The discharge body may further include a plurality of bridges connecting the upper body and the lower body.

The air purifier may further include a lighting device disposed under the lower body and covering the space.

The lighting fixture may include an air guide spaced apart from the lower body and guiding air into the space.

According to an embodiment of the present invention, since the air discharged from the discharge passage of the discharge body is discharged in all directions by 360° to form a vertical three-dimensional airflow, the air purified by the purification unit can be evenly spread up and down the entire room. .

1 is a side view of an air purifier according to an embodiment of the present invention,
2 is a plan view of an air purifier according to an embodiment of the present invention,
3 is a cross-sectional view taken along line A-A' shown in FIG. 2;
4 is a cross-sectional view taken along line B-B' shown in FIG. 2;
5 is a cross-sectional view taken along line C-C' shown in FIG. 2;
6 is a side view when a three-dimensional airflow is discharged from the air purifier according to an embodiment of the present invention;
7 is a cross-sectional view showing the interior of an air purifier according to another embodiment of the present invention,
8 is a cross-sectional view showing the inside of an air purifier according to another embodiment of the present invention.
9 is a side view showing a modified example of the embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail together with the drawings.

1 is a side view of an air purifier according to an embodiment of the present invention, FIG. 2 is a plan view of an air purifier according to an embodiment of the present invention, FIG. 3 is a cross-sectional view taken along line AA′ shown in FIG. 2, and FIG. 4 is FIG. 2 is a cross-sectional view taken along line BB′, FIG. 5 is a cross-sectional view taken along line CC′ in FIG. 2, and FIG. 6 is a side view when a three-dimensional airflow is discharged from the air purifier according to an embodiment of the present invention.

The air purifier consists of an inlet guide (1) for inhaling and guiding air, a discharge body (2) for discharging air, a purification unit (3) for purifying air, and a purification unit (3) by inhaling air. It may include a blowing unit (4) for blowing air to the discharge body.

The air purifier can be installed on the ceiling of the room. The air purifier may be installed on the indoor ceiling, or connected to a wire extending vertically (Z) from the indoor ceiling toward the indoor floor.

The inlet guide 1 may form the exterior of the bottom of the air purifier. The inlet guide 1 may guide the air outside the air purifier to be sucked into the air purifier when the blowing unit 4 is driven.

Between the inlet guide 1 and the discharge body 2, a suction passage 11 through which air outside the air purifier is sucked into the air purifier may be formed.

An example of the inlet guide 1 may be spaced apart from the discharge body 2, and may not rotate or move together with the discharge body 2 even if the discharge body 2 is rotated or moved. In this case, the inlet guide 1 may be a fixed suction guide.

Another example of the inlet guide 1 is that the inlet guide 1 may be connected to the discharge body 2, and the inlet guide 1 rotates integrally with the discharge body 2 when the discharge body 2 rotates or moves. Can be moved. In this case, the inlet guide 1 may be a variable suction guide.

The inlet guide 1 may be located under the discharge body 2.

The inlet guide 1 may include an outer surface 12 facing the outside of the air purifier and an inner surface 13 facing the inside of the air purifier.

The outer surface 12 of the inlet guide 1 may form the lower surface of the air purifier, and may face the floor of the room where the air purifier is installed in the vertical direction (Z).

The inner surface 13 of the inlet guide 1 may face the inside of the air purifier in the vertical direction (Z).

The inner surface 13 of the inlet guide 1 may function as an air guide surface guiding air to be sucked into the air purifier.

The inlet guide 1 may be located under the purifying unit 3 and the blowing unit 4, and the inlet guide 1 is purifying under the purifying unit 3 and the blowing unit 4 (3). And it is possible to protect the blowing unit (4). The inner surface 13 of the inlet guide 1 may face the discharge body 2, the purification unit 3 and the blowing unit 4. The inner surface of the inlet guide 1 may include an area facing the discharge body 2 in the vertical direction, an area facing the purification unit 3, and an area facing the blowing unit 4.

Part of the inner surface 13 of the inlet guide 1 may be an air guide surface 13A facing the discharge body 2. The air guide surface 13A may be an edge and a region around the inner surface 13 of the inlet guide 1.

An example of the inlet guide 1 may be a lighting device that irradiates light toward the outside, and another example of the inlet guide 1 may be a suction body that guides inhalation of air without including a lighting function. An example in which the inlet guide 1 is a lighting device will be described later in detail.

The discharge body 2 may be provided with a discharge passage 22 through which air purified by the purification unit 3 is discharged and guided. The discharge passage 22 may be formed along the circumference of the discharge body 2. The discharge passage 22 may be formed long in the circumferential direction of the discharge body 2.

The discharge body 2 may have a ring shape or a donut shape with a space S1 formed therein.

The discharge passage 22 may be a discharge passage formed to penetrate from the inner circumference 2A of the discharge body 2 to the outer circumference 2B of the discharge body 2.

The space S1 formed inside the discharge body 2 may be a space in which the purification unit 3 and the blowing unit 4 are accommodated. When the blowing unit 4 is driven, air outside the air purifier may pass through the suction passage 11 and be sucked into the space S1, and while passing through the purification unit 3 in the space S1, the purification unit 3 ) Can be purified. The air purified by the purification unit 3 may be blown from the space S1 to the discharge body 2. The air blown into the discharge body 2 may be introduced into the discharge passage 22 to pass through the discharge passage 22 and may be discharged in a direction guided by the discharge passage 22.

The discharge passage 22 may have an inlet 22A through which air blown from the blowing unit 4 is introduced, and an outlet 22B through which the air that has passed through the air discharge port 22 is discharged to the outside of the air purifier.

The inlet 22A of the discharge passage 22 can be opened toward the space S1 in the inner circumference 2A of the discharge body 2, and the outlet 22B is the outer circumference 2B of the discharge body 2 It can be opened toward the outside of the air purifier.

Air purified while passing through the purification unit 3 may be introduced into the discharge passage 22 through the inlet 22A, and may be guided to the discharge body 2 while passing through the discharge passage 22, and the outlet ( Through 22B), the outlet 22B may be discharged in a guide direction.

It is preferable that the inlet 22A of the discharge passage 22 is formed at a position where the flow of the air blown from the blowing unit 4 can be minimized. The inlet 22A of the discharge passage 22 may be opened toward the outer circumference of at least one of the purification unit 3 and the blowing unit 4. The height of the inlet 22A of the discharge passage 22 is slightly different in the circumferential direction along the inner circumference 2A of the discharge body 2, but may be the same as a whole.

The outlet 22B of the discharge passage 22 is preferably formed in a position and shape in which the air guided in the discharge passage 22 can be discharged in a three-dimensional shape.

The discharge passage 22 can guide air to be discharged in all directions 360° based on the center of the air purifier, and the air discharged from the discharge passage 22 is discharged in different directions in the vertical direction (Z). Air can be guided into a combination of compound airflows.

The outlet 22B of the discharge passage 22 may be formed continuously along the outer circumference 2B of the discharge body 2 so as to discharge air in all directions by 360°.

The outlet 22B of the discharge passage 22 includes a plurality of regions (H, L, M) having different heights and discharge directions to form a plurality of air flows with different discharge directions in the vertical direction (Z). can do.

The outlet 22B of the discharge passage 22 has a first area H for discharging air in the first direction (D1, see FIG. 3), and a second area at a different height and different position than the first area H. It may include a second region L (refer to FIG. 4) for discharging air toward the direction D2.

The second region L may discharge air in a second direction D2 that is relatively lower than the first direction D1 at a position below the side of the first region H.

The first region H may guide air in an upward inclined direction D1 (refer to FIG. 3) based on a horizontal plane. The first region H may be an upward airflow region that discharges air in an upward inclined direction with respect to the outlet 22B.

The second area L may guide air in a downward inclined direction D2 (refer to FIG. 4) with respect to the horizontal plane. The second region L may be a downward airflow region that discharges air in a downward oblique direction with respect to the outlet 22B.

The outlet 22B of the discharge passage 22 may include a third region M positioned between the first region H and the second region L along the outer circumference of the discharge body 2. .

The third area M may discharge air toward the third direction D3. The third direction D3 may be a direction toward a lower side than the first direction D1. The third direction D3 may be a direction facing upwards than the second direction D2.

The third direction D3 of the third area M may be a horizontal direction (D3, see FIG. 5), and in the third area M, the air among the outlets 22B of the discharge passage 22 is in a horizontal direction ( It may be an area guiding to be discharged to X or Y). The third area M may be a horizontal airflow area that discharges air in a horizontal direction extending in a horizontal direction (X or Y) from the outlet 22B with respect to the outlet 22B.

The third area M may be located between the first area H and the second area L, and the first area H and the second area L are formed by the third area M. Can be communicated.

As shown in FIGS. 1 and 2, the first region H, the second region L, and the third region M are formed along the outer circumference of the discharge body 2. The third region M, the second region L, the third region M, and the first region H may be in the order.

The number of third regions M may be greater than the number of first regions H or the number of second regions L.

The number of the third regions M may be twice the number of the first regions H or the number of the second regions L, respectively. The number of third regions M may be equal to the sum of the number of first regions H and the number of second regions L.

For example, when the discharge passage 22 includes one first region H and one second region L, the discharge passage 22 may include two third regions M. . As another example, when the discharge passage 22 includes two first regions H and two second regions L, the discharge passage 22 may include four four regions M. .

The height H1 of the first region H may gradually increase and decrease in one of clockwise and counterclockwise directions along the outer circumference of the discharge body 2, and the height H2 of the second region L is It may gradually decrease and then increase in one of the clockwise and counterclockwise directions.

The discharge passage 22 may repeat that the height of the outlet 22B gradually increases and then decreases in the circumferential direction along the outer circumference of the discharge body 2. The outlet 22B of the air discharge port 22 may have a shape in which mountains and valleys are alternately formed along the outer circumference of the discharge body 2. The outlet 22B of the air discharge port 22 may be formed in a wavy shape as a whole when the discharge body 2 is viewed from the side of the air purifier, and when viewed from the outside, the air purifier has a wavy discharge passage ( 22).

The discharge passage 22 may be formed in a curved shape between the upper body 24 and the lower body 26.

Among the discharge passages 22, the cross-sectional shape between the inlet 22A and the first region H and the cross-sectional shape between the inlet 22A and the second region L differ in the degree of bending (i.e., the degree of bending). can do.

Here, the degree of bending may be a degree of bending between the inlet 22A and the outlet 22B.

A cross-sectional shape between the inlet 22A and the second region L may be more curved than a cross-sectional shape between the inlet 22A and the first region H.

Among the discharge passages 22, the cross-sectional shape between the inlet 22A and the third area H is the cross-sectional shape between the inlet 22A and the first area H, and the inlet 22A and the second area L It can be substantially similar to each of the cross-sectional shapes between.

Among the discharge passages 22, the cross-sectional shape between the inlet 22A and the third area H may be more curved than the cross-sectional shape between the inlet 22A and the first area H, and the inlet 22A and It may have a shape that is less curved than a cross-sectional shape between the second regions L.

Here, the cross-sectional shape of the discharge passage 22 may be a cross-sectional shape in the radial direction of the discharge passage 22 rather than a cross-sectional shape of the discharge passage 22 in the circumferential direction.

For example, a cross-sectional shape between the inlet 22A and the first region H may be curved to a shape having a first radius of curvature, and the cross-sectional shape between the inlet 22A and the second region L is It can be bent into a shape having a second radius of curvature smaller than the first radius of curvature.

In this case, a cross-sectional shape between the inlet 22A and the second region L may be a shape having a third radius of curvature smaller than the first radius of curvature and larger than the second radius of curvature.

The discharge body 2 may include an upper body 24 and a lower body 26.

The upper body 24 may be located on the upper side of the lower body 26.

The lower body 26 may be spaced apart from the upper body 24 in the vertical direction, and the discharge passage 22 is formed between the lower surface 24B of the upper body 24 and the upper surface 26A of the lower body 26 Can be.

The lower surface 24B of the upper body 24 and the upper surface 26A of the lower body 26 may be an air guide surface that guides air, or may be a discharge guide surface that guides air discharge.

The lower surface 24B of the upper body 24 may be an upper discharge guide surface that guides air passing through the discharge passage 22 on the upper surface 26A of the lower body 26.

The upper body 24 may be rotatably connected to the top cover 5. One of the upper body 24 and the top cover 5 may be provided with a guide rail for rotatably guiding the upper body 24, and the other of the upper body 24 and the top cover 5 is provided with a guide. A guide body rotating along the rail may be formed.

The upper body 24 may be suspended from the top cover 5 by a guide body that rotates along a guide rail.

The upper surface 26A of the lower body 26 may be a lower discharge guide surface that guides air passing through the discharge passage 22 under the lower surface 24B of the upper body 24.

Meanwhile, the lower surface 26B of the lower body 26 may face the inner surface 13 of the inlet guide 1. The lower surface 26B of the lower body 26 and the inner surface 13 of the inlet guide 1 may be an air guide surface that guides air or a suction guide surface that guides air intake.

The lower surface 26B of the lower body 26 may be an upper suction guide surface that guides air passing through the suction passage 11 on the inner surface 13 of the inlet guide 1.

The inner surface 13 of the inlet guide 1 may be a lower suction guide surface that guides air passing through the suction passage 11 under the lower surface 26B of the lower body 26.

The discharge body 2 may further include a plurality of bridges 28 connecting the upper body 24 and the lower body 26. The lower body 26 may be suspended from the upper body 24 by a plurality of bridges 28. The plurality of bridges 28 may be spaced apart from each other in the circumferential direction of the discharge passage 22.

When the upper body 24 and the lower body 26 are connected by the bridge 28, the upper body 24 and the lower body 26 may be integrated by the bridge 28, and the discharge body 2 is When either of the body 24 and the lower body 26 rotates, the other may also rotate.

The air purifier may further include an inner guide 29 positioned inside the discharge body 2. The inner guide 29 may be disposed to be located inside the discharge body 2. An example of the inner guide 29 is coupled to the inner circumference of the discharge body 2 and may rotate together with the discharge body 2. Another example of the inner guide 29 is located inside the discharge body 2, but it is possible to be coupled to the top cover (5).

An inner passage 30 through which the air purified by the purification unit 3 is guided to the discharge body 2 may be formed in the inner guide 29. The inner passage 30 may have an inlet toward the purification unit 3 or the blowing unit 4, and an outlet toward the inlet 22A of the discharge passage 22. Air passing through the inner passage 30 may be introduced into the discharge passage 22 through the inlet 22A of the discharge passage 22 and may be guided to the discharge passage 22.

The purification unit 3 may include a filter accommodated in the space S1, and an example of such a filter includes a high-performance filter such as a HEPA filter, a humidifying filter for absorbing moisture, or a charging unit (or an ionizing unit). ) Or an electrostatic precipitating filter having a dust collecting unit, or a reproducible zeolite filter.

If the purification unit 3 is configured to purify air, it is not limited to the operation method and can be applied to all.

The purification unit 3 may be accommodated in a space S1 formed inside the discharge body 2, and the outer circumference of the purification unit 3 may be surrounded by the inner circumference 2A of the discharge body 2. have. The outer circumference of the purification unit 3 may be horizontally spaced apart from the inner circumference 2A of the discharge body 2.

The purification unit 3 may be disposed to surround the outer circumference of the blowing unit 4 or may be disposed above or below the blowing unit 4.

When the purification unit 3 is arranged to surround the outer circumference of the blowing unit 4, the purification unit 3 may be formed in an overall hollow shape, and all or part of the blowing unit 4 is accommodated therein A space for accommodating the blowing unit may be formed.

The purification unit 3 may include a filter member 31 through which air passes, and a housing 32 to which the filter member 31 is fixed.

The blowing unit 4 may be accommodated in the space S1 and may be located inside the inner circumference 2A of the discharge body 2. The blowing unit 4 may include a centrifugal blower that sucks air from the lower side and blows it in a centrifugal direction. The blowing unit 4 may be accommodated in a blowing unit accommodating space formed inside the purification unit 3.

The blowing unit 4 may include a fan motor 41 mounted on the top cover 5 and a fan 42 connected to the fan motor 41 and rotated by the motor 41.

The blowing unit 4 may be mounted on the top cover 5 when the air purifier includes a top cover 5 to be described later. The blowing unit 4 may be coupled to the top cover 5 with a fastening member such as a screw, and may form an airflow while being suspended from the top cover 5.

The air purifier may further include a top cover 5 mounted on the ceiling. The top cover 5 may be disposed above the discharge body 2 to cover the space S1. The top cover 5 may form the upper surface of the air purifier.

As an example of the top cover 5, the top cover 5 may be fastened to the ceiling with a fastening member such as an anchor bolt.

Another example of the top cover 5 is that the top cover 5 may be coupled to a hanging member such as a wire (hereinafter, referred to as a hanging member), and may be suspended from a hanging member fixed to the ceiling.

The top cover 5 may be provided with at least one connector that is connected to a fixed position among the configurations located under the top cover 5.

The purification unit 3 and the inlet guide 1 may be positioned under the top cover 5 and have a fixed position, and at least one of the purification unit 3 and the inlet guide 1 is It can be connected to the cover 5 and can be supported. In this case, the load of the purification unit 3 and/or the load of the inlet guide 1 may be applied to the top cover 5.

An example of an air purifier is that the purification unit 3, in particular, the housing 32 may be directly coupled to the top cover 5 or coupled to the first connector 72 provided on the top cover 5, and the inlet guide ( It is possible for 1) to be coupled to the purifying unit 3, in particular to the housing 32 or to the second connector 74 provided in the housing 32 of the purifying unit 3.

Another example of the air purifier is that the purification unit 3, in particular the housing 32, can be directly coupled to the top cover 5 or coupled to the first connector 72 provided on the top cover 5, and the inlet guide 1 ) Can be coupled to the second connector 74 provided on the top cover 5. The second connector 74 may extend downward from the top cover 5 to avoid the purification unit 3, and the inlet guide 1 is connected to the second connector 74 to be independent of the purification unit 3 Can be supported by That is, the purification unit 3 and the inlet guide 1 may be coupled to the top cover 5 independently of each other.

An example of the discharge body 2 is that the discharge body 2 may be directly connected to and supported by the top cover 5 or may be connected by a separate connector and suspended by the top cover 5. In this case, the discharge body 2 is not rotated around a rotation axis, and air may be discharged and guided in a fixed position.

Another example of the discharge body 2 is that the discharge body 2 may be rotatably connected to the top cover 5 or the inlet guide 1. On the top cover 5 or the inlet guide 1, a rotation guide for guiding the discharge body 2 to rotate about a vertical axis may be formed in a ring shape or an arc shape, and the discharge body 2 is guided by a rotation guide. Thus, a rotating body rotating along the rotating guide may be formed. In this case, the discharge body 2 may be rotated about a rotation axis, especially a vertical axis.

The air purifier may further include a rotating mechanism 6 connected to the discharge body 2 to rotate the discharge body 2. The rotating mechanism 6 may rotate the discharge body 2 around a vertical axis.

When the discharge body 2 is rotated by the rotating mechanism 6, the air purifier may have a rotating wave passage in which the wave-shaped discharge passage is rotatable when viewed from the outside.

The rotating mechanism 6 may include a drive source such as a motor, and at least one power transmission member that transmits power of the drive source to the discharge body 2.

An example of the rotating mechanism 6 is a motor 61, a drive gear 62 connected to any one of the motor 61 and the discharge body 2, and the drive gear 62 is directly engaged with or a separate intermediate gear It may include a driven gear 63 meshed through the motor 61 and the other one of the discharge body (2).

The driving gear 62 may be a pinion connected to the motor 61, and the middle gear 63 may be a rack formed in a circular or arc shape.

The rotating mechanism 6 is capable of rotating the discharge body 2 in either a clockwise or counterclockwise direction, and rotating the discharge body 2 clockwise and counterclockwise is alternately repeated. It is possible.

Meanwhile, when the inlet guide 1 is a lighting device, such a lighting device may be disposed under the lower body 26 to cover the space S1. Hereinafter, the lighting device may function as a lower cover covering the space S1. Hereinafter, the lighting equipment will be described using the same reference numerals as the inlet guide.

The lighting equipment 1 may include a light source 16 such as an incandescent lamp, a fluorescent lamp, or an LED assembly, and a light source space S2 in which the light source 16 can be accommodated is formed in the lighting equipment 8. I can.

The lighting device 8 may include a light transmitting body 17 through which light generated from the light source 16 is transmitted.

The lower surface of the light transmitting body 17 may be the outer surface 12 of the inlet guide 1. The lighting device may further include a light diffusion unit positioned between the light transmitting body 17 and the light source 16. The light diffusion unit may be composed of a light diffusion film or a light diffusion sheet having a light diffusion layer formed thereon, and may be composed of a light diffusion layer coated on the upper surface of the light transmitting body 17.

The lighting device 8 may include an air guide 18 that is spaced apart from the lower body 26 and guides air to the space S1. The air guide 18 may be disposed on the light transmitting body 17, and the light source space S2 may be formed between the light transmitting body 17 and the air guide 18.

The light source 16 may be accommodated in the light source space S2 and may be coupled to at least one of the light transmitting body 17 and the air guide 18.

The upper surface of the air guide 18 may be the inner surface 13 of the inlet guide 1, and the air guide 18 may form the suction passage 11 together with the lower body 26.

7 is a cross-sectional view showing the inside of an air purifier according to another embodiment of the present invention.

The discharge body 2 shown in FIG. 7 includes an upper body 24 and a lower body 26 forming a discharge passage 22 ′, but any one of the upper body 24 and the lower body 26 is The position may be fixed so as not to rotate, and the other one of the upper body 24 and the lower body 26 may be rotatably disposed.

When one of the upper body 24 and the lower body 26 is rotated, the other may not rotate together, and the upper body 24 and the lower body 26 may be supported independently of each other.

For example, the upper body 24 may be rotatably connected to the top cover 5, and the lower body 24 may be supported to be fixed in position to the inlet guide 1, as in an embodiment of the present invention. . In this case, the lower body 24 may be connected to the inlet guide 1 through the bridge 28 ′, and may be supported by the inlet guide 1.

When the lower body 24 is not rotated and is fixedly connected to the inlet guide 1, the rotating mechanism 6 may be installed on the lower body 24 or the top cover 5, and such a rotating mechanism 6 ) Is connected to the upper body 24 to rotate the upper body 24.

The lower surface of the upper body 24 may include an upper outlet end 24C, and the upper surface of the lower body 26 may include a lower outlet end 26C.

The discharge body 2 may be defined as an outlet 22B between the upper outlet end 24C and the lower outlet end 26C.

The upper exit end 24C may be defined as an edge of the lower surface of the upper body 24, and the lower exit end 26C may be defined as an edge of the upper surface of the lower body 26.

At least one of the upper outlet end (24C) and the lower outlet end (26C) may have different heights along the outer circumference of the discharge body 2, and the height of the discharge body 2 may be different along the outer circumference of the discharge body 2 It may have a shape in which mountains and valleys are alternately formed in the circumferential direction.

The discharge body 2 is preferably formed so that the upper outlet end 24C does not hit the lower outlet end 26C when at least one of the upper body 24 and the lower body 26 rotates.

An example of the discharge body 2 may have an upper outlet end 24C in which mountains and valleys are alternately formed along the circumferential direction, and a lower outlet end 26C having a constant height. In this case, the height of the valley of the upper exit end 24C may be higher than the height of the lower exit end 26C.

Another example of the discharge body 2 may have an upper outlet end 24C having a constant height and a lower outlet end 26C in which mountains and valleys are alternately formed along the circumferential direction. In this case, the mountain height of the lower outlet end 26C may be lower than the height of the upper outlet end 24C.

Another example of the discharge body 2 may have an upper exit end 24C in which mountains and valleys are alternately formed along the circumferential direction, and a lower exit end 26C in which mountains and valleys are alternately formed along the circumferential direction. The height H3 of the upper exit end 24C is preferably formed higher than the height H4 of the lower exit end 26C.

In this embodiment, according to the relative positions of the upper outlet end 24C and the lower outlet end 26C, the outlet area of the discharge passage 22 and the flow velocity of air passing through the outlet 22B of the discharge passage 22 are It can be different.

For example, when either of the upper body 24 and the lower body 26 is rotated, the valley of the upper exit end 24C is directed toward the mountain of the lower exit end 26C in a vertical direction, or the lower exit end It may face the valley of (26C), or the region between the mountain and the valley of the lower exit end (26C).

In this case, the outlet 22B of the discharge passage 22 does not have a constant area in the circumferential direction, and may include an area having a relatively large area of the outlet 22B and an area having a relatively small area of the outlet 22B. have.

For example, the area of the exit 22B of the region where the valley of the upper exit end 24C is located on the mountain of the lower exit end 26C may be relatively smaller than that of other regions located at the main number. Conversely, the area of the exit 22B of the region where the mountain of the upper exit end 24C is located above the valley of the lower exit end 26 may be relatively larger than that of other regions located around it.

Among the air discharged to the outside through the outlet 22B of the discharge passage 22, an area with a large area of the outlet 22B (for example, the mountain at the upper outlet end 24C is located above the valley of the lower outlet end 26). Area), it may be slow.

Out of the air discharged to the outside through the outlet 22B of the discharge passage 22, the area of the outlet 22B is small (the area where the valley of the upper outlet end 24C is located on the mountain of the lower outlet end 26C) When passing through, it can be high speed.

That is, the air purifier may be discharged in the form of a three-dimensional three-dimensional airflow having a flow velocity difference along the circumferential direction while the air discharged through the discharge passage 22 is three-dimensionally discharged.

8 is a cross-sectional view showing the inside of an air purifier according to another embodiment of the present invention.

The discharge body 2 of this embodiment includes a lower body 26 and an upper body 24 forming a discharge passage 22 ′, but the lower body 26 and the upper body 24 are rotated independently of each other. I can arrange it.

The shape of each of the lower body 26 and the upper body 24 constituting the discharge body 2 and the shape of the outlet 22B of the discharge passage 22 may be the same or similar to the other embodiments of the present invention, Detailed description thereof will be omitted.

The upper body 24 may be rotatably supported on the top cover 5 as in the exemplary embodiment of the present invention.

The lower body 26 may be rotatably supported on the inlet guide 1. At least one of the lower body 26 and the inlet guide 1 may be provided with a lower supporter 28" for guiding the lower body 26 to rotate on the inlet guide 1.

The lower supporter 28" may be positioned between the lower body 26 and the inlet guide 1, and the lower body 26 rotates while maintaining the lower body 26 spaced apart from the inlet guide 1 Can support.

The air purifier of the present embodiment may include a plurality of rotation mechanisms 6A and 6B capable of independently rotating the lower body 26 and the upper body 24 from each other.

The plurality of rotating mechanisms 6A and 6B are connected to the upper body 24 to rotate the upper body 24, and the upper rotating mechanism 6A is connected to the lower body 26 to rotate the lower body 26. It may include a lower rotating mechanism (6B).

The upper rotating mechanism 6A is installed on the top cover 5 to rotate the upper body 24.

The lower rotating mechanism 6B is installed on the inlet guide 1 to rotate the lower body 26.

The upper rotation mechanism 6A and the lower rotation mechanism 6B may be configured in the same manner, and examples of each are the motor 61, the driving gear 62, and the driven gear in the same or similar to the embodiment of the present invention. It may include a gear 63, a detailed description thereof will be omitted.

The rotation direction of the upper body 24 by the upper rotation mechanism 6A and the rotation direction of the lower body 26 by the lower rotation mechanism 6B may be the same or opposite.

The rotational speed of the upper body 24 by the upper rotation mechanism 6A and the rotational speed of the lower body 26 by the lower rotation mechanism 6B may be the same or opposite.

For example, the upper rotating mechanism 6A can rotate the upper body 24 clockwise in the first rotational speed range, and the lower rotating mechanism 6B rotates the lower body 26 clockwise and counterclockwise. While rotating in either direction, the lower body 26 may be rotated in a second rotation speed range that is faster or slower than the first rotation speed range.

When at least one of the rotational direction and rotational speed of the upper body 24 and the lower body 26 is different, a more diverse type of complex three-dimensional airflow may be formed.

9 is a side view showing a modified example of the embodiment of the present invention.

In this embodiment, the discharge body 2 may not be formed flat in the vertical direction (Z), but may have a long shape in the vertical direction, and an example may have a hollow cylindrical shape that is long in the vertical direction. The vertical length (L1, ie, thickness) of the discharge body 2 may be 70 to 95% of the vertical length L2 of the entire air purifier.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention.

Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments.

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 interpreted as being included in the scope of the present invention.

2: discharge body 3: purification unit
4: Blowing unit H: first area
L: second area

Claims (16)

A purification unit that purifies air;
And a discharge body having a discharge passage through which the air purified by the purification unit is discharged,
The outlet of the discharge passage is
A first region for discharging air toward a first direction,
An air purifier comprising a second region positioned around the first region along an outer circumference of the discharge body and discharges air from a height lower than the first region toward a second direction lower than the first direction. The method of claim 1,
The discharge flow path
An air purifier repeating that the height of the outlet increases and then decreases along the outer circumference of the discharge body. The method of claim 1,
The outlet of the discharge passage is
An air purifier having a shape in which mountains and valleys are alternately formed in the circumferential direction of the discharge body. The method of claim 1,
The first region guides air in an upward slope direction based on a horizontal plane,
The second area is an air purifier that guides air in a downward inclined direction based on a horizontal plane. The method of claim 1,
The outlet of the discharge passage includes a third region located between the first region and the second region along the outer circumference of the discharge body,
The third area discharges air toward a third direction,
The third direction is a direction toward a lower side than the first direction and a direction toward an upper side than the second direction. The method of claim 5,
The third area is an air purifier that guides air in a horizontal direction. The method of claim 1,
The air purifier further comprises a rotating mechanism connected to the discharge body to rotate the discharge body. The method of claim 1,
The discharge body has a ring shape with a space formed inside,
The air purifier passes through the discharge passage from an inner circumference of the discharge body to an outer circumference of the discharge body. The method of claim 8,
A top cover disposed above the discharge body to cover the space and mounted on the ceiling,
The air purifier further comprises a blowing unit accommodated in the space and mounted on the top cover. The method of claim 1,
The discharge body
With the upper body,
Including a lower body spaced apart from the upper body in the vertical direction,
An air purifier wherein a lower surface of the upper body and an upper surface of the lower body are air guide surfaces for guiding air. The method of claim 10,
The discharge body
An air purifier further comprising a plurality of bridges connecting the upper body and the lower body. The method of claim 10,
The discharge passage is formed in a curved shape between the upper body and the lower body,
The air purifier having a cross-sectional shape between the inlet of the discharge passage and the second region is more curved than that between the inlet of the discharge passage and the first region. The method of claim 10,
Further comprising a lighting device disposed under the lower body and covering the space,
The discharge body has a space formed inside,
The lighting equipment is spaced apart from the lower body and air purifier including an air guide to guide air to the space. A purification unit that purifies air;
A discharge body having a discharge passage through which the air purified by the purification unit is discharged;
It includes a rotation mechanism for rotating the discharge body,
An air purifier repeating that the outlet height of the discharge passage increases and decreases along the outer circumference of the discharge body. The method of claim 14,
The discharge body
With the upper body,
Including a lower body spaced apart from the upper body in the vertical direction,
The discharge passage is an air purifier formed in a curved shape between the upper body and the lower body. A purification unit that purifies air;
And a discharge body having a discharge passage through which the air purified by the purification unit is discharged,
The discharge body
With the upper body,
It includes a lower body spaced apart from the upper body in the vertical direction,
The discharge passage is formed between the lower surface of the upper body and the upper surface of the lower body,
At least one of the lower surface of the upper body and the upper surface of the lower body is formed alternately with mountains and valleys,
At least one of the upper body and the lower body is rotated by a rotating mechanism.

Images