KR20220009307A - Wingless fan capable of multi-directional discharge - Google Patents

Abstract

The present invention relates to a bladeless fan capable of discharging in multiple directions. More particularly, through a structure that generates each wind inside the fan and allows each wind to be discharged, the bladeless fan maintains the original purpose of the fan as it is, and at the same time can increase the suction power when generating wind, so that the discharged wind is amplified to become stronger, and the wind finally discharged to the outside is discharged over 360° in the horizontal direction, but discharged evenly, thereby not having an unnecessary rotation structure, providing economic efficiency and coolness to the user, and providing convenience in use by selectively adjusting the height through a pedestal.

Description

Wingless fan capable of multi-directional discharge

The present invention relates to a bladeless fan capable of discharging in multiple directions, and more particularly, the air generated from the inside and finally discharged is discharged in the horizontal direction so that all of the air can be uniformly discharged in the 360° direction, and It is about technology that can amplify the output.

In general, a fan is a mechanical device that generates wind by rotating blades by receiving power from an external power or battery, etc., and is mostly used in summer.

However, the conventional fan often separates during use due to various variables such as wire mesh that wraps and protects the blades, poor assembly after washing, and long-term use, resulting in frequent large and small safety accidents. And since it is formed so that children's fingers can be easily drawn in, there are problems such as injuries to the fingers.

Accordingly, the application was filed by the same applicant as the applicant of the present invention. Registration No. 10-1237548 (Special) A pedestal is provided, and a main body is configured on the upper portion of the pedestal, and a suction port through which air is sucked is formed on one lower side of the main body. An impeller rotating by driving of a motor is configured inside the suction port, and a blower pipe for transporting the wind generated by the impeller is formed at the upper portion of the impeller, and the wind transferred through the blower pipe is on the upper portion of the main body In the fan configured to discharge wind to the outside through an outlet formed by being bent to one side, one or more air pipes are configured in the blower pipe to induce and discharge the wind generated by the impeller, the end of the air pipe is A wingless fan configured to be curved to the outside of the outlet, and a direction adjusting member capable of controlling the direction of the discharged wind is configured in the outlet, and the air pipe is extended and connected to the direction adjusting member. has been

However, the above-mentioned prior art bladeless fan does not have blades, so it is possible to overcome problems such as large and small safety accidents due to poor assembly and injuries when fingers are drawn in, but when the generated wind is discharged to the outside, It is configured to be discharged in only one direction, so if there are several people who need the fan, the main body must be rotated to use it.

That is, the above-mentioned prior art is a fan suitable for single use, and while being able to prevent various safety accidents, at the time of final discharge, the fan can increase the exhaust power and uniformly discharge the wind in multiple directions at the same time. is in need.

The present invention has been devised to solve the problems of the prior art described above, and each of the blowpipes of the main body are configured, and an air pipe, an inlet, an outlet, and an impeller are respectively configured therein to generate and discharge wind through the impeller. The exhaust member is configured on the upper part of the main body, but the air discharged from each outlet is uniformly discharged when finally discharged to the outside, and the unnecessary rotation structure of the fan is made so that all can be discharged in the 360° direction. It is possible to provide a simplification of the device so as not to have it, and to maintain the straightness of the wind discharged to the outside so that the protrusion protrudes to the outside of the discharge member to prevent the wind from spreading, and to configure the impeller to be arranged on different lines To provide a bladeless fan capable of discharging in multiple directions so as to amplify the suction force and to provide convenience in use by selectively adjusting the height of the main body by configuring a pedestal that is rotationally coupled to the lower outer side of the main body. It was completed by focusing on the technical task.

Accordingly, the present invention, the pedestal 100; Doedoe configured on the upper portion of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a body portion 200 composed of 250; In the bladeless fan consisting of A flow path 310 that is discharged to the outside, one side is extended with the outlet 230, and the other side is discharged from the outlet 230 and discharged to the outside, so that it can be discharged in multiple directions, and the flow path The partition plate 320 is configured in the central portion of the 310 and configured so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310 , and extends to the upper portion of the partition plate 320 . It is configured, and it is technically characterized to include a discharge member 300 composed of a horizontal guide unit 330 for inducing and discharging the air flowing from the flow path 310 to be moved in a horizontal direction.

pedestal 100; Doedoe configured on the upper portion of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a body portion 200 composed of 250; In the bladeless fan consisting of Formed in pairs, the impeller 240 is configured to be spaced apart from each other in the lower part of the blower pipe 210, respectively, are arranged on different lines, and the wind discharged from the upper part of the main body 200 is uniformly distributed. It is discharged to the outside, and it is technically characterized in that it is configured to include the discharge member 300 for discharging in all horizontal directions.

The discharge member 300 includes a flow path 310 formed so that one side extends from the discharge port 230 and the other side is discharged from the discharge port 230 and discharged to the outside, and discharged in multiple directions; The partition plate 320 is configured in the central part of the flow path 310 so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310 , and an upper portion of the partition plate 320 . It is configured to extend to, and it is technically characterized in that it is composed of a horizontal induction part 330 for inducing and discharging the air flowing from the flow path 310 to be moved in a horizontal direction.

It has a technical feature that protrusions 340 are formed on both sides of the discharge member 300 to extend outwardly so that the wind discharged to the outside does not spread and maintains straightness.

A plurality of air pipes 211 are formed inside the blower pipe 210, and the ends of the air pipes 211 disposed on the outlet 230 side protrude toward the discharge member 300 and are formed in different lengths. It is characterized in that it is formed to be bent outward.

The impeller 240 is composed of two or more between the suction port 220, and is characterized in that it amplifies the suction power.

The pedestal 100 is coupled to the outside of the main body 200 , and the pedestal 100 is configured to be mutually separated and rotationally coupled, and the height of the body 200 through the rotation of the pedestal 100 . It is characterized in that it is configured to be adjustable.

The outer lower portion is formed with a smaller diameter than the outer upper portion based on the outer central portion of the main body portion 200, and the inner side of the pedestal 100 is coupled to the outer lower portion of the main body portion 200, and the outer side is the main body. It has a technical feature that it is formed on the same line as the outer upper part of the part 200, or that the outer side of the pedestal 100 is gradually widened toward the lower part.

The impeller 240 has a technical feature that a partition wall 243 is formed so that the central portion is introduced from both sides of the impeller 240 so that air does not collide with each other.

According to the bladeless fan capable of discharging in multiple directions of the present invention, while maintaining the original purpose of the fan as it is, it is possible to increase the suction power when generating wind, so that the discharged wind is amplified to produce stronger wind and finally discharged to the outside. The wind is discharged over 360° in the horizontal direction, but it is discharged uniformly, so it does not have an unnecessary rotation structure, providing economic efficiency and coolness to the user. It is a useful invention that can be

1 is a front view showing a preferred embodiment of the present invention;
2 is a front cross-sectional view showing a preferred embodiment of the present invention;
3 is a side cross-sectional view showing a preferred embodiment of the present invention;
Figure 4 is a view showing a preferred embodiment of the blower pipe, the outlet, the air pipe of the present invention
5 is a state diagram showing a preferred embodiment of the present invention;
6 is a view showing a preferred embodiment of the discharge member of the present invention;
7 is a view showing another embodiment of the present invention;
8 is a view showing a preferred embodiment of the pedestal of the present invention;
9 is a view showing a preferred embodiment of the pedestal of the present invention;
10 is a state diagram showing a preferred embodiment of the pedestal of the present invention;
11 is a view showing a preferred embodiment of the present invention;

The present invention provides a bladeless fan that is capable of discharging the air generated from the inside and finally discharged in the horizontal direction so that all of the air can be discharged uniformly in the 360° direction and can amplify the discharge power of the discharged air. do.

Hereinafter, the preferred configuration and operation of the present invention for achieving the above object will be described with reference to FIGS. 1 to 11 with reference to the accompanying drawings.

First, looking at the configuration prior to explaining the present invention, as shown in Figures 1 to 3, the pedestal 100; Doedoe configured on the upper portion of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a body portion 200 composed of 250; In the bladeless fan consisting of Formed in pairs, the impeller 240 is configured to be spaced apart from each other in the lower part of the blower pipe 210, respectively, are arranged on different lines, and the wind discharged from the upper part of the main body 200 is uniformly distributed. It is discharged to the outside, and is configured to include a discharge member 300 for discharging in all horizontal directions.

That is, the present invention configures two blower pipes 210 , four intake ports 220 , two discharge ports 230 and two impellers 240 in the main body 200 , and discharges through the outlet port 230 . When the wind is discharged to the outside, the wind can be smoothly, quickly and strongly discharged over 360° in the horizontal direction by the discharge member 300, and if necessary, the user can use one impeller ( 240) has the effect of allowing the wind to be discharged only in one direction (180° on the plane).

When the present invention as described above is described in more detail,

As shown in FIGS. 2, 3 and 4, the main body 200 is provided with a space therein, and a blower pipe 210 through which the generated wind can move is configured, and the blower pipe 210 has one or more A plurality of air pipes 211 are configured so that the generated wind can move into the space between the air pipe 211 and the air pipe 211 .

That is, the air pipe 211 is preferably arranged in a form in which several common straws are bundled, and most of the wind moves through the air pipe 211 , and cannot pass through the air pipe 211 . Other winds are moved to the gap between the air pipe 211 and the air pipe 211 to be discharged.

On the other hand, as shown in Figs. 1 to 3, the outer side of the main body 200 extends with the inner space of the main body 200, and the external air can be sucked by the rotation of the impeller 240 to be described below. The inlet 220 is formed, and serves to allow external air to be sucked in.

Here, the suction port 220 is simply formed on both sides of the main body 200, and is formed to be long in the horizontal direction, so that even if the position of the impeller 240 to be described below is located in any part, air can be sucked from the outside. There is an effect that there is no restriction on the installation position of the impeller 240 at all.

In other words, as shown in FIG. 1, the suction ports 220 are formed in pairs at regular intervals on both sides of the main body 200, respectively, and the formed form is formed to be long in the horizontal direction as a whole, and if necessary Therefore, the suction port 220 is formed in one shape on both sides of the main body 200, and the upper and lower heights thereof are determined according to the position of the impeller 240 configured in the interior of the main body 200. It can also be configured.

In addition, a separate cover 250 can be configured on the outside of the main body 200 to prevent foreign substances from entering into the suction port 220 to prevent damage and damage to the impeller 240 . have.

The cover 250 may be formed of a mesh-like mesh as shown in FIG. 1 , and the holes may be formed in various sizes as needed.

In addition, although the cover 250 is illustrated as being configured to protrude slightly than the outside of the main body 200 as a whole in the present invention, the outside of the cover 250 is on the same line as the outside of the body 200 as necessary. It may be configured to be fitted in the suction port 220 so as to be disposed in the .

The outlet 230 is a configuration substantially formed at the uppermost end of the blower pipe 210 , and is not a separate configuration, but is formed in the blower pipe 210 .

That is, air is sucked in through the suction port 220 , and the wind generated through the impeller 240 is moved and discharged through the air pipe 211 of the blower pipe 210 , but is not moved to the air pipe 211 . An outlet 230 is formed so that the unsatisfactory winds are discharged.

At this time, as shown in FIG. 2 or FIG. 3 , the outlet 230 or the air pipe 231 is configured such that a part is disposed inside the discharge member 300 so that the wind blows through the outlet 230 or air. When discharged from the pipe 211, it is possible to discharge smoothly without resistance such as bumping.

As an example, as shown in FIG. 2 , the end of the air pipe 211 protrudes toward the discharge member 300 and is formed to have different lengths to be bent outwardly, so that the wind is rapidly and strongly discharged to the outside. can be

In other words, the end of the air pipe 211 is bent in the lateral direction from which the wind is finally discharged and positioned close to it.

The impeller 240 is configured in the interior of the main body 200, is configured in the lower portion of each blower pipe 210, and the arrangement is arranged on the same line as the suction port 220 on a horizontal line, the suction port ( 220) to generate wind through rotation, and is configured to be discharged through the outlet 230 and the air pipe 211 when the air is moved between the air pipe 211 and the air pipe 211.

Here, the impeller 240 is configured with a motor 241 operating through external power or a battery to rotate the impeller 240, and in the case of the battery, although not shown separately, the shape of the body 200 It can also be arranged in the lower inner part through deformation.

In addition, as shown in FIG. 1 or FIG. 2 , the impeller 240 has a pair of suction ports 220 on both outer side surfaces of the main body 200 , and is spaced apart from each other at regular intervals or in a horizontal direction in a form on both sides. As it is formed as a whole, it should be arranged at the same position on a vertical line, but it can be arranged at any position on a horizontal line, so there is no restriction on the installation position at all.

At this time, the impeller 240 generates wind by sucking air from the suction ports 220 on both sides of the main body 200 through rotation substantially as shown in FIG. 3 , and at this time, suction in different directions. In order to prevent the generated air from rubbing against each other, a partition wall 243 is formed in the central portion of the impeller 240 to prevent the sucked air and the generated wind from collide with each other.

On the other hand, the power supply unit 260 is a configuration for controlling the operation of the motor 241, it is possible to apply a button method, a slide method, and the like.

In this case, the power supply unit 260 may be selectively controlled by configuring a remote control capable of operating the power supply unit 260 at a short distance.

As described above, the blower pipe 210, the outlet 230, and the impeller 240 are each individually configured as a pair, and the inlet 220 is a pair of final four on both sides of the main body 200. Only one impeller 240 can be operated under the control of the power supply unit 260, each of the impellers 240 can be operated simultaneously, and the discharge member 300 is finally removed according to the operated impeller 240 The exhaust wind can be discharged from any direction at 180° or 360° above the horizon.

In addition, two or more impellers 240 are configured between the air pipe 211 and the suction port 220 , and may be arranged on different lines (zigzags) to amplify the suction power.

That is, a plurality of impellers 240 are constituted, but the impeller 240 except for the impeller 240 disposed closest to the blower pipe 210 is not connected to a separate blower pipe 210, and only wind can be generated. , it is preferable that the corresponding suction ports 220 are formed according to the number of the impellers 240 .

In addition, when the plurality of impellers 240 are configured, they may be rotated in the same direction or in different directions.

The discharge member 300 is a core component of the present invention, and as shown in FIGS. 1, 2, 3 and 5, may be coupled or fitted to the upper portion of the main body 200. As shown in FIGS.

More specifically, as shown in FIGS. 2, 3 and 6, one side is extended with the outlet 230, and the other side is discharged from the outlet 230 and discharged to the outside, so that it can be discharged in multiple directions. A flow path 310 and a partition plate 320 configured in the central portion of the flow path 310 so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310 , It is configured to extend to the upper portion of the partition plate 320, and is composed of a horizontal induction part 330 for guiding the air flowing from the flow path 310 to move in a horizontal direction to discharge it.

2 or 3, the lower portion of the flow path 310 is a portion in which the wind discharged from the outlet 230 and the air pipe 211 is introduced, and the central portion serves as a passage through which the wind moves. And the other side direction of the outlet 230 and the air pipe 211 is a portion from which the wind is finally discharged to the outside.

At this time, the flow path 310 is formed such that one side is naturally curved through the shape of the horizontal induction part 330 as shown in FIG. 6 , and the discharge member 300 of the present invention is 180° in the horizontal direction or Since 360° should be able to be discharged in all directions, it can be formed of two or four, and in the present invention, it is shown that it is formed of four, and it is not limited as an embodiment of the present invention.

The partition plate 320 has a central portion protruding downward as shown in FIGS. 2, 3 and 6, so that the wind generated from each of the outlet 230 and the air pipe 211 does not collide with each other, It is configured such that the wind discharged to each flow path 310 can be uniformly distributed.

In other words, when the wind generated from one impeller 240 is discharged through the connected blower pipe 210, the air pipe 211, and the outlet 230, the discharged wind is different from the blower pipe 210, the air pipe ( 211) and the wind discharged through the outlet 230 so as not to collide with the wind to generate friction, so as not to affect the strength of the wind at all.

In addition, the wind discharged through the partition plate 320 is uniformly distributed to each flow path 310, so that the strength of the wind can also be maintained uniformly in either direction of 180° or 360°.

The horizontal guide part 330 is formed to extend outwardly from the upper part of the partition plate 320, and as the flow path 310 is formed in four, it is preferable that the horizontal guide part 330 is also formed in four correspondingly. And, the shape is formed to be curved, that is, it is formed to be curved so that the wind flowing through the flow path 310 can be discharged in the horizontal direction.

In other words, as shown in FIG. 5 , the direction of the wind moving in the vertical direction is naturally transformed by the horizontal induction unit 330 and finally becomes a horizontal direction so that it can be discharged to the outside, so that it can be discharged to the outside by 180° in the horizontal direction. Alternatively, the wind can be uniformly discharged in all directions over a 360° direction.

Here, as shown in FIG. 5 , protrusions 340 are formed on both sides of the discharge member 300 to extend outwardly so that the wind discharged to the outside does not spread and maintains straightness.

With the configuration of the protrusion 340, the wind discharged to the outside does not spread immediately as it is discharged, but rather maintains a straightness, so that the discharged wind can be maintained a little more.

In addition, the lower portion of the discharging member 300 is formed with a protruding frame 350 protruding from the lower portion and can be fixed to the upper outer side of the main body 200 through fitting or rotational coupling, and for rotational coupling, the It is preferable that a screw thread is formed on the upper outer side of the main body 200 and a screw thread is formed on the inner side of the protrusion frame 350, and in the case of the fitting structure, a general structure such as a sliding method can be applied.

The pedestal 100 is configured for the purpose of stably mounting or moving the main body 200 of the present invention, and will be described with reference to FIG. 8 ,

The pedestal 100 is coupled to the outside of the main body 200 , and the pedestal 100 is configured to be mutually separated and rotationally coupled, and the height of the body 200 through the rotation of the pedestal 100 . is configured to be adjustable.

Looking at the coupling structure of the pedestal 100 and the main body 200, as shown in FIG. 8, slide holes 201 are formed on both outer sides of the main body 200 in a vertical direction, and the pedestal 100 ), a slide portion 101 sliding on the slide hole 201 is formed inside the slide hole 201, and is coupled to each other.

At this time, in the case of adjusting the height of the main body 200, the pedestal 100 is divided into upper and lower parts in a divided form as shown in FIG. It is formed so that the rotational coupling can constitute one pedestal 100, and when the upper or lower divided pedestal 100 is rotated, the elevation and lowering of the main body 200 can be naturally made.

In addition, although not shown, the outer lower portion is formed with a smaller diameter than the outer upper portion based on the outer central portion of the main body portion 200 , and the inner side of the pedestal 100 is coupled to the outer lower portion of the main body portion 200 . However, the outer side is configured to be on the same line as the outer upper portion of the main body portion 200, so that it is aesthetically pleasing and easy to install in a narrow installation place, and as shown in FIG. It may be formed to gradually widen as it goes down, so that stable support is possible.

In addition, the pedestal 100 can be adjusted in height by a screw method or a slide method. At this time, a driving means such as a motor is applied to one side of the pedestal 100 to operate the motor using the remote control to automatically operate the pedestal. (100) may be configured to be able to adjust the height.

In addition, since a plurality of wheels 110 of the pedestal 100 are formed, the fan of the present invention can be freely moved, thereby maximizing the convenience of use.

On the other hand, including the discharge member 300 as described above, one blower pipe 210 , two suction ports 220 , one discharge port 230 , and one impeller 240 may be configured.

That is, the pedestal 100 as shown in FIG. 11; Doedoe configured on the upper portion of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a body portion 200 composed of 250; In the bladeless fan consisting of A flow path 310 that is discharged to the outside, one side is extended with the outlet 230, and the other side is discharged from the outlet 230 and discharged to the outside, so that it can be discharged in multiple directions, and the flow path The partition plate 320 is configured in the central portion of the 310 and configured so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310 , and extends to the upper portion of the partition plate 320 . It is configured to include a discharge member 300 composed of a horizontal guide unit 330 for inducing and discharging the air flowing from the flow path 310 to be moved in the horizontal direction.

According to the bladeless fan capable of discharging in multiple directions of the present invention, while maintaining the original purpose of the fan as it is, it is possible to increase the suction power when generating wind, so that the discharged wind is amplified to produce stronger wind and finally discharged to the outside. The wind is discharged over 360° in the horizontal direction, but it is discharged uniformly, so it does not have an unnecessary rotation structure, providing economic efficiency and coolness to the user. It is a useful invention that can be

100: pedestal 101: slide part 103: screw thread
110: wheel
200: body part 201: sliding hole
210: blow pipe 211: air pipe
220: inlet 230: outlet
240: impeller 241: motor 243: bulkhead
250: cover 260: power unit
300: discharge member
310: flow path 320: partition plate 330: horizontal induction part
340: protrusion

Claims (8)

pedestal 100; Doedoe configured on the upper part of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a main body 200 consisting of 250; In the bladeless fan consisting of,
The suction port 220 is formed in a pair to be spaced apart from each other on both outer sides of the main body 200,
On the upper portion of the main body 200, the discharged wind is uniformly distributed and discharged to the outside, and one side is extended with the outlet 230, and the other side is discharged from the outlet 230 and discharged to the outside, in multiple directions. The flow path 310 formed so as to be discharged, and a partition configured in the central part of the flow path 310 so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310 . Discharge member ( 300), characterized in that it comprises a bladeless fan capable of discharging in multiple directions.
pedestal 100; Doedoe configured on the upper part of the pedestal 100, the blower pipe 210 configured inside, the suction port 220 formed on the outside, the outlet 230 formed on the upper part of the blower pipe 210, and the blower pipe ( An impeller 240 configured between 210 and the suction port 220 to rotate by the motor 241 and suck air, and a power supply unit on the outside of the suction port 220 to turn on/off the operation of the motor 241 a main body 200 consisting of 250; In the bladeless fan consisting of,
The blower pipe 210 is individually formed in the inside of the main body 200,
The suction port 220 is formed in a pair to be spaced apart from each other on both outer sides of the main body 200,
The impeller 240 is configured to be spaced apart from each other in the lower portion of the blower pipe 210, and are respectively arranged on different lines,
A fan without blades capable of discharging in multiple directions, characterized in that it includes a discharge member 300 for discharging the wind to be uniformly distributed and discharged to the outside at the upper portion of the main body 200 and discharging it in all horizontal directions. .
3. The method of claim 2,
The discharge member 300,
A flow path 310 having one side extending from the outlet 230, and the other end being discharged from the outlet 230 and discharged to the outside, so that it can be discharged in multiple directions;
A partition plate 320 configured in the central portion of the flow path 310 so that the wind discharged from the outlet 230 can be uniformly distributed to the flow path 310;
Multi-directional discharge is possible, characterized in that it is configured to extend to the upper part of the partition plate 320, and is composed of a horizontal guide part 330 for inducing and discharging the air flowing from the flow path 310 to move in the horizontal direction. bladeless fan.
4. The method of claim 3,
A bladeless fan capable of discharging in multiple directions, characterized in that protrusions 340 are formed on both sides of the discharge member 300 to extend outwardly and to maintain a straightness without spreading the wind discharged to the outside.
3. The method of claim 1 or 2,
The impeller 240 is composed of two or more between the suction port 220, a bladeless fan capable of multi-directional discharge, characterized in that it amplifies the suction power.
3. The method of claim 1 or 2,
The pedestal 100 is coupled to the outside of the main body 200,
The pedestal 100 is configured to be mutually separated and rotationally coupled, and a bladeless fan capable of discharging in multiple directions, characterized in that it is configured to adjust the height of the main body 200 through the rotation of the pedestal 100 .
7. The method of claim 6,
Based on the outer central portion of the main body 200, the outer lower portion is formed with a smaller diameter than the outer upper portion,
The inner side of the pedestal 100 is coupled to the outer lower portion of the main body portion 200, and the outer side is configured in the same line as the outer upper portion of the main body portion 200, or
A bladeless fan capable of discharging in multiple directions, characterized in that the outside of the pedestal 100 is gradually widened toward the bottom.
3. The method of claim 1 or 2,
In the impeller 240,
A bladeless fan capable of discharging in multiple directions, characterized in that the central portion is introduced from both sides of the impeller 240 and a partition wall 243 is formed so that the air does not collide with each other.

Images