KR102071958B1 - An Air Purifier Having Concentrated Suction Structure - Google Patents

Abstract

According to the present invention, the upper suction part 22 is provided on the upper part of the case 21 having the main fan 30 and the filter 50 to generate air flow, and the purified air is provided on the side or lower part of the case 21. In the upper portion of the main body 20 having a discharge port 27 for discharging the gas, a concentrated suction unit 60 capable of extending the suction distance of the air sucked from the upper suction unit 22 is provided, and the concentrated By controlling the suction unit 60 to face the desired direction, it provides an air purifier that can intensively suck the contaminated air in the space that requires intensive purification in the space to be purified.

Description

An Air Purifier Having Concentrated Suction Structure

The present invention relates to an air purifier for providing a concentrated suction unit capable of adjusting the suction direction on an upper portion of the air purifier, for intensively inhaling and purifying air in the vicinity of a pollutant.

An air purifier is a home appliance that sucks air to be purified, purifies it through a filter, and discharges the same. The air purifier includes a rotary fan for generating a flow of air, a housing providing a prescribed space through which the air flowing by the fan flows, and a filter installed in the housing to filter foreign matter in the air through which the flowing air flows. It includes.

Conventional air purifiers only consist of a structure that sucks and purifies the air around the air purifier, and then discharges it. To purify air in a larger space, an air purifier having a large fan size and a large filter size is used. It was.

However, the conventional air purifier continuously purifies only the air in the surroundings, and the closer the air purifier is, the higher the air quality is, and the farther the air quality is deteriorated.

Thus, there has been an attempt to supply the purified air to the space where a person actually lives by discharging the air purified by the air purifier to the space where a person actually lives.

Patent Document 1 discloses an air purifier that can discharge purified air to a distant position after inhaling and purifying surrounding air. This provides a function of adjusting the direction viewed by the discharge port of the air purifier and discharging the air with a high air volume so that the purified air can reach a far space.

The air purifier of such a structure can be said to be superior to the conventional air purifier in that the purified air is preferentially blown into the space where a person is. However, in terms of still inhaling and purifying air around the air purifier, it does not bring about an improvement in the fundamental purification effect on the contamination of the space where the air purge should be performed.

In addition, considerable noise may occur when discharging air at a high wind volume over a long distance. This noise is a great inconvenience for people in the room.

Republic of Korea Patent Application Publication No. 2017-40163

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and provides an concentrated suction structure in which an air purifier installed in a predetermined space to purify the air can intensively suck air from an air pollutant in the space. For the purpose of

In addition, an object of the present invention is to provide an air purifier having a concentrated suction structure that can increase the suction force to a desired space without increasing the air intake amount.

In addition, an object of the present invention is to provide an air purifier having a concentrated suction structure that can minimize the increase in the air volume of the fan, the suction force can be extended to a long distance.

In addition, an object of the present invention is to provide an air purifier that can increase the air intake efficiency while minimizing the increase of noise.

In order to solve the above-mentioned problems, the present invention includes an upper suction part 22 on the upper part of the case 21 including the main fan 30 and the filter 50 for generating air flow, and the case 21. Intensified suction portion that can extend the suction distance of the air sucked from the upper suction portion 22 on the upper portion of the main body 20 having a discharge port 27 for discharging the purified air on the side or lower portion of the 60) and the concentrated suction unit 60 is controlled so as to view the desired direction, the air purifier to intensively suck the contaminated air in the space that requires intensive purification in the space to be purified To provide.

According to such an air purifier, in contrast to sending purified air to a space where a person is present, it is possible to directly purify the air in a space with more air pollution, thereby directly purifying the entire air in a given space. Has an effect. And without having to greatly increase the capacity of the air purifier itself, it can have the same effect as above.

The main body (20) includes: a cylindrical case (21) having an upper suction part (22) having an open top; A main fan (30) installed inside the case (21) to suck air from the upper suction part (22); A filter 50 installed inside the case 21 to purify air flowing through the case by the main fan 30; And a discharge port 27 for discharging the air purified by the filter 50 to the outside of the case.

In addition, the concentrated suction unit 60 is installed on the case 21 to extend the suction influence distance to the air sucked into the upper suction unit 22 by the main fan 30. The concentrated suction unit 60 extends the suction distance by generating a vortex in the concentrated suction unit, and may preferentially suck air in a desired space without increasing the suction capacity of the main fan 30.

According to the vortex generation principle, the suction force generated by the main fan 30 is further improved. That is, if the air is sucked into the main fan 30 without the intensive suction unit 60 being operated, the air in a wide space around the intensive suction unit 60 is sucked evenly (see FIG. 8), but from the intensive suction unit 60. Air in distant spaces is poorly inhaled. If the main fan 30 only wants to suck air in a farther space, the main fan 30 must be rotated harder, while the effective suction distance does not increase significantly. On the other hand, if the concentrated suction unit 60 is additionally operated by generating a vortex without substantially increasing the rotational speed of the main fan 30, the effective suction distance is increased while minimizing the increase of noise to suck the air at a far distance. It is possible.

In addition, according to the vortex generation principle, it is possible to concentrate the suction flow path to a far source of contamination. Therefore, high suction performance can be maintained at a low flow rate.

According to the present invention, by allowing the concentrated suction unit 60 to adjust the viewing direction, it is possible to further increase the effect of installing the concentrated suction unit 60 that can concentrate the suction passage and increase the effective suction distance.

To this end, in the present invention, the concentrated suction unit 60 is installed to be tiltable with respect to the upper suction unit 22. The tilting operation can be automatic or manual. The specific tilting drive or principle of operation may vary.

Specifically, the concentrated suction unit 60 includes: a guide member 62 installed on the upper suction unit 22 so as to be tiltable; A suction hole 61 provided at one end of the guide member 62 and open in a direction opposite to the upper suction part 22; A communication hole provided at the other end of the guide member 62 and opened in a direction facing the upper suction part 22 to connect a space inside the guide member 62 with a space inside the case 21. 63); And a vortex forming apparatus 70 installed in the suction hole 61.

The guide member 62 guides the air sucked through the suction hole 61 toward the communication hole 63. Therefore, the guide member 62 preferably has a shape that can smoothly flow of air.

Therefore, when the main fan 30 operates, the air in the front space viewed by the suction hole 61 is sucked into the concentrated suction unit 60 through the suction hole 61 and guided by the guide member 62. It may be sucked into the case 21 through the communication hole 63. In addition, when the vortex forming apparatus 70 is operated together with the main fan 30, air at a far distance may be sucked in.

In addition, the concentrated suction unit 60 may be installed to be swivelable.

As an example, the swivel structure of the concentrated suction unit 60 may be provided between the concentrated suction unit 60 and the case 21.

As another example, the upper portion of the case 21 in which the concentrated suction unit 60 is installed may be installed to be swivelable with respect to the lower portion of the case 21, so that the concentrated suction unit 60 may be swivelable. In detail, the case 21 includes an upper case 211 provided with the upper suction part 22 and a lower case 212 installed below the upper case, and the upper case 211 is the lower case. It can be swivelable with respect to the axis of rotation perpendicular to 212.

The swivel operation can be done manually or automatically. For example, for the automatic operation, the main fan 30 is installed in the upper case 211, and the upper case 211 is driven by the power of the first driving part 40 driving the main fan 30. It can be made to swivel operation. Since the main fan 30 is rotated at all times during the operation of the air purifier, a part of the power of the first driving unit 40 driving the main fan 30 is used for the swivel operation and, if necessary, the tilting operation. It is possible.

The filter 50 and the discharge port 27 are provided in the lower case 212. As a result, the upper case having the driving portion and the power transmission configuration necessary for the above-described operation can be avoided, and the filter can be installed in the lower case. Due to the characteristics of the filter requiring replacement or maintenance, the lower case is provided with a cover or door that can be opened and closed, so that the filter can be easily removed. Therefore, if it is installed in the lower case, it is possible to simply design a removable structure required for maintenance.

If there is a gap in the air flow between the concentrated suction unit 60 and the main body 20, the suction force generated while the main fan 30 is rotated in the main body 20 is dispersed, so that the suction force of the air purifier There is a risk of deterioration. That is, the air flow should be concentrated in the path passing through the communication hole 63 from the suction hole 61 of the concentrated suction unit 60.

To this end, while communicating the communication hole 63 of the concentrated suction unit 60 and the upper suction unit 22 of the case 21, it is possible to explore a variety of ways to maintain the seal. For example, a flexible flexible tube-shaped duct may be connected between the communication hole 63 and the upper suction part 22.

According to the present invention, a guide surface 23 is provided around the upper suction part 22 of the case 21 in contact with the guide member 62 to guide the tilting of the guide member 62. 23 is in close contact with the guide member 62.

That is, the guide member 62 and the guide surface 23 have a surface profile that is sealed so that a gap does not occur between the guide surface 23 and the guide member 62 even when the guide member 62 is tilted. You can do that. Then, by the guide member and the guide surface, the sealing and the tilting of the guide member 62 can be made together.

Meanwhile, the vortex forming apparatus 70 includes: a swirler 710 disposed in the suction hole 61 and rotating to form a vortex; A second driving unit 720 rotating the swirler; And a flow guide 730 disposed in the suction hole 61 to guide the air flowing by the rotation of the swirler 710 to the front of the suction hole 61.

As the swirler 710 rotates, radially outward air flow occurs. And the air flow is converted in the forward direction by the flow guide 730. Then, a phenomenon in which the air flow generated by the suction of the main fan 30 is concentrated at the center portion of the suction hole 61 occurs, whereby the effective suction distance is narrow but extends long.

The flow guide 730 may be fixed around the suction hole 61 of the guide member 62 while the swirler 710 is disposed in the suction hole 61. Therefore, the vortex forming apparatus 70 can be simply installed in the guide member 62.

If the suction area of the main fan 30 is wider than the opening area of the suction hole 61, more specifically, the opening area of the flow guide 730, the suction force can be concentrated so that the effective suction distance is further extended. Can be.

Such an air purifier may preferentially inhale air in a space with higher pollution.

An air purifier control method for further exerting such a function, the present invention comprising the steps of detecting the air pollution location where the air pollution source is concentrated in the space in which the air purifier is installed; And tilting and swiveling the concentrated suction unit 60 so that the concentrated suction unit 60 faces the air pollution position.

And, since the effective suction distance can be adjusted according to the operation of the concentrated suction unit 60, when the distance between the concentrated suction unit 60 and the air pollution position is less than the reference distance the main fan 30 is operated and the The intensive suction unit 60 is not operated. If the distance between the intensive suction unit 60 and the air pollution position is greater than or equal to the reference distance, the main fan 30 and the intensive suction unit 60 are operated to operate the main fan. It does not significantly increase the rotational speed of the motor, thus minimizing the generation of noise and providing highly efficient air purification.

According to the air purifier to which the concentrated suction structure of the present invention is applied, since the air from the air pollutant side can be intensively sucked in the space requiring air purification, it is a fundamental solution to the air purification.

In addition, according to the present invention, since the suction power to the desired space can be increased intensively without increasing the air suction amount, it is possible to efficiently purify a wider space even with a smaller capacity air purifier.

In addition, the present invention can selectively inhale and purify the air in the space with high air pollution through the direction control of the concentrated suction unit, while minimizing the increase in the air volume of the fan, the air purification rate is very fast.

In addition, according to the present invention, it is possible to increase the air intake efficiency while minimizing the noise increase of the fan.

In addition to the effects described above, the specific effects of the present invention will be described together with the following description of specifics for carrying out the invention.

1 is a perspective view showing a state in which the concentrated suction portion of the air cleaner to which the concentrated suction structure according to the present invention is separated from the main body.
2 is a side cross-sectional view showing a state in which the concentrated suction part of the air purifier faces upward in the present invention.
3 is a view illustrating a state in which the concentrated suction unit of the air purifier of FIG. 2 is tilted to look obliquely above one side.
4 is a front view of the vortex forming apparatus installed in the concentrated suction unit.
FIG. 5 is a rear view of the vortex forming apparatus of FIG. 4.
6 is an exploded perspective view of the vortex forming apparatus of FIG. 5.
7 is a view showing the effective suction distance and the suction channel concentration of the air sucked into the air purifier in the state in which the main fan and the concentrated suction unit is operating together.
8 is a view showing the effective suction distance and the concentration of the suction flow path of the air sucked into the air purifier in the state that only the main fan is operating.
9 is a conceptual diagram of another embodiment of the air purifier of the present invention.

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

The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to complete the disclosure of the present invention and to those skilled in the art to the full extent of the invention It is provided to inform you.

[Structure of Air Purifier]

1 to 3, the air purifier according to the present invention includes a main body 20 and a concentrated suction unit 60 installed above the main body 20. The main body 20 has a substantially cylindrical or truncated conical shape, and includes a case 21 having an open top portion.

The air inlet 22 of the upper part of the case 21 serves as a passage through which air in the outer space of the case 21 flows into the inner space of the case 21. The upper suction part 22 is provided around the upper suction part 22, and a guide surface 23 on which the concentrated suction part 60 is seated is provided.

The guide surface 23 supports the concentrated suction unit 60, guides the tilting of the concentrated suction unit 60, and is in close contact with the concentrated suction unit 60, and the concentrated suction unit 60 and the guide surface. Prevent or minimize the flow of air into the gaps between the two.

A plurality of discharge ports 27 are provided below the case 21. The discharge holes 27 may be provided in all directions along the circumference of the case 21.

The main fan 30 is installed inside the case 21. The main fan 30 may be an axial fan that rotates about a vertical axis of rotation. The main fan 30 is disposed below the upper suction part 22 in the case 21. An upper room 24 is provided between the main fan 30 and the upper suction part 22. The upper room 24 is blocked by the case 21 on the side, and the upper suction part 22 is arrange | positioned above and the said main fan 30 is provided in the lower part.

In the center of the main fan 30, a first driving unit 40 for rotating the main fan 30 is installed. The first driving part 40 may be a motor. The first driving part 40 may be provided on an upper portion of the main fan 30 and may be fixed to the case 21. In the drawings, a structure for fixing the first driving part 40 to the case 21 is not shown for convenience of description.

When the main fan 30 is rotated by the first driver 40, the air in the upper room 24 is forced to flow downward. Therefore, when the main fan 30 flows, air outside the case 21 flows into the upper room 24 through the upper suction part 22 of the case 21 and flows into the upper room 24. Air flows into the lower space of the case 21 by the main fan 30.

The filter 50 is installed below the main fan 30 in the case 21. The filter 50 is installed to block the air flow and is installed so that the air passes by. The filter 50 may be in the form of a cylinder, such as a roll of tissue. A filter member is installed around the side of the filter 50, and the upper end and the lower end of the filter 50 may be fitted into and fixed to the filter coupling part 26 provided inside the case 21.

As an example, the filter member may be a hepa filter. In addition, the filter member may be a dust collecting filter. In addition, the filter member may be a humidification filter. These may be used alone or in combination.

The filter member is coupled to the filter coupling portion 26 in a replaceable or detachable manner. The case provided on the side of the filter coupler 26 has an openable structure including a cover or a door. Accordingly, the user may open the side of the case 21 and attach or detach the filter 50 to the filter coupler 26.

The air flowing in the lower part of the main fan 30 by rotating the main fan 30 may be purified by passing through the filter 50, and discharged to the outside through the discharge hole 27 provided in the lower part of the case 21. have. The lower discharge port is generally provided along the circumference of the case, and the filter is also cylindrically provided along the inner circumference of the case. That is, the flow cross sectional area of the air passing through the filter and the discharge port is greatly enlarged in comparison with the flow cross sectional area of the air near the main fan 30. Therefore, the air flow resistance generated by the filter can be greatly reduced.

According to the invention, a main fan 30 which generates air flow is arranged upstream of the air flow rather than the filter 50. Therefore, the flow of air passing through the filter 50 is generated not by the suction of the fan but by the discharge of the fan. When the filter is disposed along the circumference of the side of the case, the air flows smoothly even in the case of the air flow due to the discharge of the fan. The air discharged evenly over a large discharge area is not discharged far from the discharge port because the flow velocity is not high.

Since the air purifier of the present invention sucks air from the upper portion but concentrates the air far away from the air purifier, the purified air is re-introduced back to the upper portion of the air purifier even though the purified air is discharged around the main body 20. The phenomenon can be reduced.

Since the filter 50 is downstream of the air flow than the main fan 30, the air suction force on the upstream side of the main fan 30 becomes higher. Furthermore, according to the present invention, the concentrated suction unit 60 is further provided upstream than the main fan 30 to further extend the effective suction distance.

The concentrated suction unit 60 is installed above the upper suction unit 22 of the main body 20. The concentrated suction part 60 includes a guide member 62 in contact with the guide surface 23. The guide member 62 has a curved surface in the shape of a hemisphere. The inside of the guide member 62 is empty, the upper portion of the guide member 62 is provided with a wide circular suction hole 61, the lower portion of the guide member 62 is a narrow circular communication hole 63 Is provided.

The suction hole 61 is provided at a position passing approximately through the center of the hemisphere. The communication hole 63 is disposed in the case 21 and is located in the upper room 24. Therefore, the inner space of the upper room 24 and the guide member 62 are connected to each other by the communication hole (63). On the other hand, the outer surface of the guide member 62 and the guide surface 23 abut each other. Therefore, in order for air to flow into the upper room 24 inside the case 21 through the upper suction part 22, it must pass through the suction hole 61 and the communication hole 63 of the guide member 62.

Since air flows into the inner space of the guide member 62, the inner surface of the guide member 62 is a wired line for guiding the air sucked in the suction hole 61 to smoothly flow into the communication hole 63. It may have a shape of.

The guide member 62 may be in contact with the guide surface 23 and may be tilted (T). The outer surface of the guide member 62 may be shaped to contact the guide surface 23. In addition, the outer surface of the guide member 62 may have a shape capable of maintaining the contact with the guide surface 23 even when the guide member 62 is tilted.

Even if the guide member 62 is tilted within the driving range, the suction hole 61 is located in the upper room 24. When the guide member 62 is tilted, the direction viewed by the suction hole 61 of the guide member 62 is tilted together.

The vortex forming device 70 is installed in the suction hole 61. The vortex forming apparatus 70 blows air in an outward direction from the edge of the suction hole 61 to form a vortex. Since the air suction force toward the inside of the case 21 is applied to the suction hole 61 by the main fan 30, the air blown forward by the vortex forming device 70 is the main fan 30. It joins with the mainstream of the intake air and forms a strong vortex.

Therefore, the suction flow path of the air sucked by the main fan 30 is concentrated, so that the effective suction distance by the air suction force of the main fan 30 is further extended.

That is, when only the main fan 30 operates, air in a space located near the suction hole 61 flows into the suction hole 61 as a whole, but when the main fan 30 and the vortex forming device 70 operate together, In this case, the suction flow path is concentrated, and the air in the space far away from the viewing direction of the suction hole 61 also flows into the suction hole 61.

The case 21 may be formed by vertically divided into the upper case 211 and the lower case 212, the upper case 211 is rotatable about the axis of rotation perpendicular to the lower case 212, that is, Swivel (S) is installed so that possible.

The main case 30 and the first driving part 40 may be disposed in the upper case 211, and the filter 50, the filter coupling part 26, and the discharge hole 27 may be disposed in the lower case 212. Can be. The swivel S may be formed by the first driving part 40. That is, a part of the power of the first driving unit 40 may be used as a driving source of the swivel S operation as necessary. A specific configuration for the first driver 40 to swivel the upper case 211 may use a known method.

By the tilting (T) and swivel (S) operation the direction of the concentrated suction unit 60 is adjustable. This direction adjustment may be manually performed by a user or automatically by a controller not shown.

The filter 50 of the lower case 212 may be installed in two or more layers. For example, as shown in FIG. 9, a case 21 in which the filter 50 is installed, specifically, a lower case may be stacked and used. In addition, the filters 50 installed in the case 21 may be different from each other. By stacking the cases in this way, the arrangement height of the concentrated suction unit 60 can be further increased.

[Structure of Vortex Forming Device]

Hereinafter, the vortex forming apparatus installed in the concentrated suction unit of the air purifier according to the present invention will be described with reference to FIGS. 4 to 6.

The vortex forming apparatus 70 installed in the suction hole 61 of the concentrated suction unit 60 includes a swirler 710, a second driving unit 720, and a flow guide 730.

The swirler 710 is disposed in the suction hole 61 and may be rotated to form a vortex around the suction hole 61. The swirler 710 may include a rotating plate 711 and a wing 715.

The rotating plate 711 has a substantially circular plate shape with a hollow central portion and a wing portion 715 at its edge. The rotating plate 711 is disposed slightly rearward than the suction hole 61, and is installed to be disposed in an area surrounded by the guide member 62. The rotating plate 711 of the center is connected to the shaft of the second driving unit 720, it is installed rotatably around the axial direction of the shaft.

A coupling part 712 is provided at the center of the rotating plate 711 to couple the rotating plate 711 to the shaft of the second driving part 720. This is in the form of a hole in the center of the plate. In addition, a through hole for passing air sucked into the case through the suction hole 61 is formed in the rotating plate 711.

In this embodiment, the rotating plate 711 is illustrated as being formed in a circular ring shape. Accordingly, the through hole of the rotating plate 711 is formed to penetrate between the outer circumferential surface of the rotating plate 711 and the coupling portion 712. And the coupling part 712 is provided at the center of the rotating plate 711 in the position surrounded by the through-hole. The engaging portion 712 may be fixed on the rotating plate 711 by a radial connection 713 crossing between the outer edge of the rotating plate 711 and the engaging portion 712. As an example, the rotating plate 711 may be formed in a form in which the outer circumference of the rotating plate 711, the coupling part 712, and the connecting part 713 are connected in a “ⓧ” shape.

The wing part 715 is arrange | positioned so that the radial direction outer side of the rotating plate 711 may be enclosed. The wing portion 715 is disposed in a form standing at a predetermined angle with respect to the plane including the rotating plate 711. The wing 715 may be formed by bending a portion of the rotating plate 711. The wing 715 extends radially outward with respect to the rotation center of the rotating plate 711 at the edge of the rotating plate 711. The plurality of wings 715 are provided radially at predetermined edges at the edge of the rotating plate 711.

The wing 715 rotates together with the rotary plate 711 to push air outward in the radial direction of the rotary plate 711, and the vortex forming apparatus 70 is sucked by the action of the wing 715. Vortex can be generated around the hole 61.

The vortex forming apparatus 70 including the swirler 710 as described above is provided on the suction hole 61 through which intake air is formed. Therefore, the flow of air sucked through the suction hole 61 may affect the operation of the vortex forming apparatus 70, and the vortex forming device 70 affects the flow of air sucked through the suction hole 61. Can have

For example, during the operation of the vortex forming apparatus 70, if the frequency of the air sucked into the suction hole 61 collides with the swirler 710, the swirler 710 may be due to the resistance generated at this time. The rotational speed of the lowering may not be properly formed vortex, and the phenomenon that the intake of air through the suction hole 61 may also be disturbed.

In consideration of this, in the vortex forming apparatus 70 of the present embodiment, it is possible to form a passage which is somewhat empty between the adjacent wing portions 715. According to this, a part of the air flowing into the wing portion 715 of the air flowing through the suction hole 61 is pushed outward of the swirler 710 by the action of the wing portion 715 to form a vortex And the rest is to pass through the space between the wings 715 flows into the case 21.

As a result, the resistance generated due to the collision between the air sucked into the suction hole 61 and the swirler 710 may be reduced to further improve the performance of the vortex forming apparatus 70, and the suction hole 61 may be further improved. Inhalation of the air through it can be made more smoothly.

Meanwhile, the second driving unit 720 is provided to provide power for rotating the swirler 710 and is installed in the guide member 62. The second driving unit 720 may be disposed at the rear of the configuration of the vortex forming apparatus 70, and may include a motor in which a shaft for transmitting rotational force extends forward.

The flow guide 730 is disposed in the suction hole 61, and forms the swirler 710 in an outer rearward direction to guide the air flowing in the rotation process of the swirler 710 to the front. The flow guide 730 may include a cover surface 731 and a guide surface 732.

The cover surface 731 is a portion that forms the rear surface of the flow guide 730 and is disposed behind the swirler 710. In this embodiment, the cover surface 731 is exemplified as being formed into a disc shape having a diameter slightly larger than the swirler 710.

The guide surface 732 is provided in the form which wraps the outer side of the swirler 710 in the side part of the swirler 710. The guide surface 732 is formed to be inclined to extend outwardly from the outer edge of the cover surface 731 formed in a disk shape.

That is, the flow guide 730 has a cover surface 731 disposed behind the swirler 710 and a guide surface 732 disposed outside the side portion of the swirler 710 to the rear and side of the swirler 710. It is provided in a wrapping form.

When the swirler 710 rotates in one direction, the wing portion 715 of the swirler 710 pushes some of the intake air flowing toward the wing portion 715 in the radially outward direction of the rotating plate 711. Serve

At this time, the air pushed in the radial direction flows forward, the vortex may be formed in front of the flow guide 730 to flow in a direction away from the center of the swirler 710. In order to induce such a flow of air, in the present embodiment, the guide surface 732 is formed to be inclined to extend forward outward.

The cover surface 731 of the flow guide 730 is provided with most or all of the region corresponding to the region where the wing portion 715 of the swirler 710 is located, and the second driving portion 720. It is open except for the area in which the support connecting portion 734 is provided.

According to this, the cover surface 731 is located at the rear of the wing portion 715 so that the vortex formation can be made larger, and the air flowing inwardly from the wing portion 715 is smoothly through the open portion of the cover surface. Can be introduced.

It is difficult to suck air in a space far from the suction hole 61 only by the main fan 30. As a method for improving the suction performance of the air in the space located far from the suction hole 61 of the air purifier under the condition that the suction flow rate of the main fan 30 is not increased, it is formed in front of the suction hole 61. There is a way to increase the size of the vortex.

In view of this, in the present embodiment, the cover surface of the flow guide located behind the wing portion 715 of the swirler 710 is blocked, so that the inner region is opened as much as possible, so that the vortex by the vortex forming apparatus 70 The formation is made larger but the suction force by the main fan 30 is maintained as it is.

On the outer edge of the guide surface 732 of the flow guide 730, a fixed flange 733 extending outward in the radial direction is provided. The fixed flange 733 may be fixed to the front end edge of the guide member 62 defining the suction hole 61.

On the other hand, in front of the vortex forming apparatus 70 of the present embodiment, the user may further include a suction grill 740 to prevent the user's hand or foreign matter is inserted into the inside hit the swirler 710. The suction grill 740 may be coupled to the guide member 62 or fixed to the flow guide 730.

The suction grill 740 may be further provided with a front filter (mesh filter or pre-filter, etc.) to prevent the inflow of large dust. This can be a filter that filters out large dust while minimizing air flow resistance.

According to the invention the filter 50 is arranged further downstream than the main fan 30. Therefore, the mesh filter or the pre-filter installed in the suction grill 740 prevents a large dust flowing into the swirler or the main fan.

The suction grill 740 may be fixed to the fixing flange 733 or to the front end edge of the guide member 62. The suction grill 740 may be detachably installed so that a user may remove the internal cleaning of the vortex forming apparatus or replace or replace the front filter.

[Operation of Air Purifier]

Hereinafter, the operation of the air purifier of the present invention will be described.

The air purifier may be provided with a sensor that can detect the pollution of the air. The sensor may be installed on the one or more main bodies 20 and / or on the concentrated suction unit 60. The sensor is separated from the air purifier and may be installed at another position in the space requiring purification.

The sensors are installed not only to detect the pollution of the air but also to detect which space is more polluted. The sensor itself can only measure the degree of contamination, but by combining the degree of contamination measured by a plurality of sensors through the direction viewed by the sensor, it is possible to derive spatial information with high degree of contamination. This algorithm can be made by the control unit.

Then, the control unit compares the direction currently viewed by the concentrated suction unit 60 with the air pollution position, and tilts the concentrated suction unit 60 so that the concentrated suction unit 60 faces the detected air pollution position. Let's do it.

Next, the control unit checks the distance between the concentrated suction unit 60 and the air pollution position. As a result of the check, when the distance between the concentrated suction unit 60 and the air pollution position is less than the reference distance, the main fan 30 is operated and the concentrated suction unit 60 is not operated. The air purifier then sucks air in the space at a close distance as shown in FIG.

On the other hand, as a result of the check, when the distance between the concentrated suction unit 60 and the air pollution position is more than a reference distance, both the main fan 30 and the concentrated suction unit 60 are operated. Then, as shown in Figure 9, it is possible to inhale even the air at a greater distance.

Although the present invention has been described with reference to the drawings exemplified as above, the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that modifications can be made. In addition, even if the above described embodiments of the present invention while not explicitly described and described the operation and effect according to the configuration of the present invention, it is obvious that the effect predictable by the configuration is also to be recognized.

20: main body
21: case
211: upper case
212: lower case
22: upper suction part
23: guide surface
24: Upper Room
26: filter coupling portion
27: discharge port
30: main fan
40: first driving part
50: filter
60: concentrated suction unit
61: suction hole
62: guide member
63: communication hole
70: vortex forming device
710: swirler
711: rotating plate
712: coupling
713: connection
715: wing
720: second drive unit
730: flow guide
731: cover surface
732: guide surface
733: fixed flange
734: support connection
740: suction grill

Claims (10)

A cylindrical case 21 having an upper suction part 22 having an open upper part, a main fan 30 installed inside the case 21 to suck air from the upper suction part 22, and A filter 50 installed inside the case 21 to purify the air flowing in the case by the main fan 30 and a discharge port for discharging the air purified by the filter 50 to the outside of the case. A main body 20 including 27; And
It is installed above the case 21 so as to be swivelable with respect to the rotation axis perpendicular to the case 21 and to be able to tilt with respect to the rotation axis horizontal with respect to the case 21. And a concentrated suction unit 60 extending a suction influence distance to the air sucked into the suction unit 22.
The concentrated suction unit 60 is:
A guide member 62 for guiding a flow of external air sucked into the case 21;
It is provided in the guide member 62, and is opened toward the outside to be an inlet for sucking the outside air, the intensive suction portion 60 is swivel and tilt the case 21 toward the outside Suction holes 61 in which the directions are swiveled and tilted together; And
The guide member 62 is provided to face the upper suction part 22 so that the space inside the guide member 62 communicates directly with the space inside the case 21 without passing through the outside space. Although connected, the concentrated suction part 60 faces the upper suction part 22 and maintains an open state even when the swivel and tilt the case 21, so that the space inside the guide member 62 is external. And a communication hole (63) for maintaining a state connected to directly communicate with the space inside the case (21) without passing through the space of the air purifier.
The method according to claim 1,
The concentrated suction unit 60 is:
And the guide member (62) is installed to be tiltable with respect to the upper suction part (22).
The method according to claim 1,
The case 21 includes an upper case 211 provided with the upper suction part 22 and a lower case 212 installed below the upper case.
The upper case 211 is swivelable with respect to the rotational axis perpendicular to the lower case 212, so that the concentrated suction unit 60 is swivelable with respect to the rotational axis perpendicular to the case 21. Air purifier made.
The method according to claim 3,
The main fan 30 is installed in the upper case 211,
The upper case 211 is swivel operation by the power of the first drive unit 40 for driving the main fan (30).
The method according to claim 3,
The filter 50 and the discharge port 27 is provided in the lower case (212).
The method according to claim 2,
Around the upper suction part 22 of the case 21 is provided with a guide surface 23 for contacting the guide member 62 to guide the tilting of the guide member 62,
The guide member 62 and the guide surface 23 are air having a surface profile that is sealed so that a gap does not occur between the guide surface 23 and the guide member 62 even when the guide member 62 is tilted. Purifier.
The method according to claim 1,
The concentrated suction unit (60) further comprises a vortex forming device (70) installed in the suction hole (61).
The method according to claim 7,
The vortex forming device 70 is:
A swirler 710 disposed in the suction hole 61 and rotating to form a vortex;
A second driving unit 720 rotating the swirler; And
And a flow guide 730 disposed in the suction hole 61 to guide the air flowing by the rotation of the swirler 710 to the front of the suction hole 61.
The flow guide 730 is fixed to the guide member 62,
Air purifier having a larger suction area of the main fan (30) than the open area of the flow guide (730).
As a control method of the air purifier of any one of Claims 1-8,
Detecting a location of a higher pollution degree of air in a space where an air purifier is installed; And
Tilting and swiveling the concentrated suction unit (60) so that the concentrated suction unit (60) faces the sensed air pollution position.
The method according to claim 9,
When the distance between the concentrated suction unit 60 and the air pollution position is less than the reference distance the main fan 30 is operated and the concentrated suction unit 60 is not operated,
And controlling the main fan (30) and the concentrated suction unit (60) when the distance between the concentrated suction unit (60) and the air pollution position is greater than or equal to a reference distance.

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