WO2022191552A1

WO2022191552A1 - Wind speed attenuator

Info

Publication number: WO2022191552A1
Application number: PCT/KR2022/003213
Authority: WO
Inventors: 정형일
Original assignee: 정형일
Priority date: 2021-03-10
Filing date: 2022-03-07
Publication date: 2022-09-15
Also published as: KR102295071B1

Abstract

The present invention relates to a wind speed attenuator mounted to a discharge port of an air conditioning device to reduce the wind speed of air discharged through the discharge port, and comprises: a frame having an open inner portion while having a size and a shape corresponding to the discharge port and mountable to the outer circumferential portion or the inner circumferential surface of the discharge port; and a fine net fixed while blocking the open portion of the frame, so that, when the frame has been installed while being in close contact with the outer circumferential portion or the inner circumferential surface of the discharge port, air discharged through the discharge port passes through the fine net and the wind speed is thus reduced. By simply mounting the wind speed attenuator of the present invention to a discharge port of an existing air conditioning device, the existing air conditioning device can be used as a so-called windless air conditioning device.

Description

wind speed damper

The present invention relates to a wind speed attenuator for reducing wind speed, and more particularly, to a wind speed attenuator for reducing the wind speed of air discharged through an outlet of an air conditioner.

Air conditioners such as air conditioners, air purifiers, dehumidifiers, humidifiers, and ventilators perform desired treatment (heat exchange, filtering, dehumidification/humidification, etc.) will do At this time, the air conditioner includes a blower fan, so that the air discharged through the outlet has a predetermined wind speed, and causes a convection phenomenon in the space where the air conditioner is used, typically an indoor space, to achieve the desired purpose of air conditioning. do.

However, there are users who feel uncomfortable when the cold or hot air coming out of the outlet directly touches the skin. In addition, when an infectious agent spreads through wind or air in the form of droplets or aerosols, such as the recently prevalent Corona 19 virus, this convection type air conditioner is installed in an enclosed space, especially in schools, restaurants, and subways. Using it in a crowded space such as a public transportation facility such as a public transportation facility may result in accelerating the spread of infectious diseases. However, the reality is that it is impossible not to use the air conditioner in hot summer or cold winter.

Meanwhile, in recent years, an air conditioner called a so-called 'windless air conditioner' has been released and used. Here, the windless air conditioner is also a convection type air conditioner using a blower, and the wind speed is not zero. That is, 'no wind' refers to a case in which the wind speed is significantly reduced compared to a typical air conditioner, for example, having a wind speed of 0.15 m/sec or less. As described in Patent Document 1 (Korean Patent Registration No. 10-1698842), the windless air conditioner remarkably lowers the wind speed by forming a number of fine holes in the discharge part.

If such a windless air conditioner is used in classrooms at schools or in guest rooms in public transportation, it will be possible to prevent user discomfort or the spread of infectious agents such as viruses. However, replacing all existing general air conditioners with windless air conditioners requires enormous cost and time.

Accordingly, it is an object of the present invention to provide a wind speed attenuator that can be made into a so-called windless air conditioner by reducing the wind speed of discharged air by simply installing it in a general convection type air conditioner.

A wind speed attenuator according to an aspect of the present invention is a wind speed attenuator mounted on an outlet of an air conditioner to reduce the wind speed of air discharged through the outlet, and has a size and shape corresponding to the outlet and has an open interior, a frame mountable on an outer or inner circumferential surface of the outlet; and a fine net fixed while blocking the open portion of the frame, and when the frame is mounted in close contact with the outer or inner circumferential surface of the outlet, the outlet is completely sealed, and the air discharged through the outlet is the fine net It is configured so that the wind speed is attenuated by being discharged to the outside only through the In this case, the wind speed attenuator may be configured to be fixedly mounted only to the air conditioner.

According to an embodiment, the wind speed attenuator may be configured to be detachably mounted on the outlet.

In addition, the wind speed attenuator may be configured to be mounted by being fitted so that the frame is in contact with the inner circumferential surface of the outlet.

In addition, the wind speed attenuator may be configured to be mounted while covering the outlet in the housing of the air conditioner.

In addition, the wind speed attenuator may be configured to be mounted on the outside of the housing of the air conditioner while covering the outlet.

At this time, when the discharge guide has an openable and openable discharge guide in the discharge port, it is preferable that the frame has a height that does not contact the fine net when the discharge guide is fully opened.

On the other hand, the wind speed attenuator may be manufactured by insert injection molding of the frame together with the fine net.

In addition, the fine net, when the pressure of the internal space formed by the frame and the fine net is equal to or greater than a predetermined pressure, at least a portion may be separated from the frame to be visible to the user.

In this case, the fine net may be configured such that the other side opposite to the one side is separated from the frame by rotating about one side when the pressure in the inner space is greater than or equal to a predetermined pressure.

In addition, according to an embodiment, the air conditioner includes a plurality of outlets, the frame is formed of an integrated frame connected through a connection part to cover all of the plurality of outlets, and the fine net corresponds to each of the plurality of outlets. Thus, it may be made of a plurality of fine nets fixed to the integrated frame.

A wind speed attenuator according to another embodiment of the present invention is a wind speed attenuator for reducing the wind speed of air discharged through the outlet by wrapping the outlet of the tower type air conditioner, and includes the outlet to cover a part of the air conditioner. a cover body in the form of a pocket that can be removed, and having an opening formed in a portion corresponding to the outlet when a part of the air conditioner is covered; a fine net coupled while blocking the opening of the cover body; and tightening means for tightening the lower end of the cover body to closely contact the housing of the air conditioner when a part of the air conditioner is covered with the cover body, so that the fine net faces the discharge port. When a part of the air conditioner is covered with a furnace and tightened by the tightening means, the air discharged through the discharge port passes through the fine net so that the wind speed is attenuated.

In this case, the cover body preferably has a lower air permeability than the fine net.

In the present invention, the fine net may be made by overlapping one or two or more synthetic resin woven fabrics.

In this case, the number of meshes of the synthetic resin woven fabric is 50 to 300, or the air permeability of the synthetic resin woven fabric is 3000 to 30000 mm / s when measured in an area of 20 cm ² in accordance with KS K ISO 9237 and a pressure condition of 200 Pa can

In addition, the fine net may contain an antibacterial material.

The wind speed attenuator of the present invention has a simple structure such as a fine net and a frame, and by simply mounting it on the outlet of the existing air conditioner, the existing convection type air conditioner can be made into a so-called windless air conditioner.

Accordingly, when the wind speed attenuator of the present invention is used, the discomfort caused by the strong wind of the air conditioner can be reduced and the spread of infectious diseases can be prevented.

In addition, according to the embodiment, by making the wind speed attenuator detachable, it is possible to provide maintainability and ease of use of the wind speed attenuator and the air conditioner.

In addition, the present invention may have various other effects, and these other effects of the present invention can be understood by the following description, and can be seen more clearly by the examples of the present invention.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention to be described later. should not be construed as being limited only to

1 is a partially exploded, downward perspective view of a case in which a wind speed attenuator according to a first embodiment of the present invention is applied to a conventional ceiling-type air conditioner.

2 is an upper perspective view showing a wind speed attenuator according to the first embodiment and a modified example thereof.

3 is a partially exploded, downward perspective view of the case where the wind speed attenuator according to the second embodiment of the present invention is applied to the ceiling air conditioner of FIG. 1 .

4 is a front exploded perspective view when the wind speed attenuator according to the third embodiment of the present invention is applied to a conventional tower-type air conditioner.

5 is a bottom perspective view showing a wind speed attenuator according to a fourth embodiment of the present invention.

6 is a front perspective view showing a wind speed attenuator according to a fifth embodiment of the present invention applicable to a conventional tower-type air conditioner.

Hereinafter, with reference to the accompanying drawings, it will be described in detail according to a preferred embodiment of the present invention. The terms or words used in the present specification and claims are not to be construed as being limited to their ordinary or dictionary meanings, and the inventor may properly define the concept of the term in order to best describe his invention. Based on the principle that there is, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical spirit of the present invention. It should be understood that there may be equivalents and variations.

In the drawings, the size of each component or a specific part constituting the component is exaggerated, omitted, or schematically illustrated for convenience and clarity of description. Accordingly, the size of each component does not fully reflect the actual size. If it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, such description will be omitted.

As used herein, the terms 'coupled', 'mounted', 'fixed' or 'connected' refer to the case where one member and another member are directly coupled, mounted, fixed or connected, as well as when one member engages an intermediate member. It also includes cases where it is indirectly coupled, mounted, fixed, or connected to another member through the intervening.

1 is a partially exploded, downward perspective view of a case in which a wind speed attenuator according to a first embodiment of the present invention is applied to a conventional ceiling-type air conditioner, and FIG. 2 is a wind speed attenuator according to the first embodiment and its modifications. It is an upper perspective view.

As shown in FIG. 1 , the wind speed attenuator according to the first embodiment is mounted on the ceiling type air conditioner 1 . In particular, the wind speed attenuator of this embodiment is mounted on the outside of the housing 2 of the air conditioner, that is, the cover exposed to the ceiling while covering the outlet 3 of the air conditioner 1 .

1 and 2 (a), the wind speed attenuator of this embodiment has a size and shape corresponding to the outlet 3 and has an open inside, and the outside of the housing 2 of the air conditioner, the outlet 3 ) A frame 10 that can be mounted on the outer periphery and a fine net 20 fixed while blocking the open portion of the frame 10 are provided.

The frame 10 may be made of a synthetic resin such as polyethylene or polypropylene. A portion of the frame 10 in contact with the outer surface of the air conditioner housing 2 may be flexible so that it can be in good contact even when the outer surface of the housing 2 has a curved surface. Alternatively, the frame 10 may be made of a relatively light metal plate such as aluminum. Even in this case, the portion of the frame 10 in contact with the outer surface of the air conditioner housing 2 may be formed to have a sufficiently thin thickness to easily follow and bend the outer surface shape of the housing 2 .

In addition, in this embodiment, the frame 10 may be attached to the outside (outer surface) of the housing 2 along the outer periphery of the discharge port 3 by a double-sided adhesive tape 30 or an adhesive. Accordingly, the frame 10 may be mounted in close contact with the outside (outer surface) of the housing 2 at the outer periphery of the discharge port 3 .

Meanwhile, as shown in FIG. 1 , the discharge guide 4 for controlling the wind direction by opening or closing or rotating the discharge port 3 may be provided. In this case, when the discharge guide 4 is maximally opened, it collides with the fine net 20 to be described later and the fine net 20 is torn or the rotation of the discharge guide 4 is suppressed by the fine net 20 and the discharge guide 4 ), side effects such as overloading the motor (not shown) for driving may occur. Therefore, in order to prevent this, it is preferable that the frame 10 has a height h or a thickness at which the discharge guide 4 does not directly contact the fine net when the discharge guide 4 is fully opened.

The fine net 20 blocks the opening of the frame 10, and as in this embodiment, when the frame 10 has the above-described height h, the side of the frame 10 that is not adhered to the housing 2 is fixed Therefore, as described above, when the discharge guide 4 is provided in the discharge port 3 , the discharge guide 4 does not come into contact with the fine net 20 even when the discharge guide 4 is fully opened.

The fine net 20 is a member serving as a wind speed attenuation in the present invention, and may be made of synthetic resin woven fabric such as Teflon (registered trademark), polyester such as PET, or nylon. That is, it can be manufactured by weaving synthetic fibers (filaments) made of polyester, nylon, etc. with weft and warp yarns. However, the present invention is not limited by the material or manufacturing method of the fine net 20, and may be used by purchasing a commercially available product such as a dustproof net having the following physical properties. That is, in order for the fine net 20 to pass the air discharged through the discharge port 3 of the general air conditioner and reduce the wind speed to the extent that the user does not feel it as wind, the mesh number is, for example, 50 to 300. It is preferable to be Alternatively, the fine net 20 has an air permeability, for example, in accordance with KS K ISO 9237, an area of 20 cm ² , preferably 3000 to 30000 mm/s when measured under a pressure condition of 200 Pa. On the other hand, the fine net 20 may be used with only one sheet of synthetic resin woven fabric or by overlapping two or more sheets to satisfy these physical properties.

On the other hand, the method of fixing the fine net 20 to the frame 10 is, depending on the material of the fine net 20 and the frame 10, bonding the fine net 20 to one side of the frame 10, fusion, A method of fixing by sewing, etc., or a method of inserting a fine net between two frame plates and fixing the two frame plates by bonding, fusion, sewing, riveting, bolting, etc. can be used.

Alternatively, when the fine net 20 and the frame 10 are made of a synthetic resin, and the melting point of the fine net 20 is higher than the temperature during injection molding of the frame 10, for example, the fine net 20 is made of PET. When the frame 10 is made of polyester or nylon and the frame 10 is made of polyethylene or polypropylene, the wind speed by insert injection molding in which the fine net 20 is placed in the injection molding mold of the frame 10 and the frame 10 is injection molded. Attenuators can be manufactured.

On the other hand, the fine net 20 may contain an antibacterial material such as silver nanoparticles or a material containing copper ions. As a method of containing such an antibacterial material in the fine net 20, a method of adding the antibacterial material by dispersing particles to a synthetic resin raw material solution for spinning the synthetic fibers constituting the fine net 20 may be mentioned.

When the frame 10 of the wind speed attenuator of this embodiment configured in this way is attached (adhesive in this embodiment) to the outer periphery of the outlet 3, the outlet of the air discharged to the outlet 3 is a fine net 20 ), and the wind speed is reduced to such an extent that it is not felt as wind to the user.

Next, a wind speed attenuator according to a modified example of this embodiment will be described with reference to FIG. 2 .

Referring to FIG. 2 ( b ), the wind speed attenuator is mounted on the outer periphery of the outlet ( 3 ) from the outside of the housing ( 2 ) by screws ( 31 ). To this end, a flange portion 11a extending in the transverse direction is formed on the upper edge of the frame 11 . In this case, it is preferable that a plurality of screws 31 are fastened at appropriate intervals along the outer periphery of the discharge port 3 . Furthermore, adhesiveness between the frame 11 and the outer surface of the housing 2 may be improved by interposing a gasket (not shown) made of a material such as rubber or silicone.

In addition, the wind speed attenuator of the modified example shown in Fig. 2 (b) can be detachably mounted to the outlet. Therefore, it is possible to easily perform maintenance such as cleaning the wind speed attenuator by removing it if necessary.

On the other hand, the wind speed attenuator of this embodiment and the modified example shown in Figs. 2 (a) and (b) is mounted to correspond to each outlet 3 one by one, whereas the wind speed attenuator shown in Fig. 2 (c) is A plurality of (four in the example shown in FIG. 1 ) may be mounted to cover all of the discharge ports 3 at once. That is, the wind speed attenuator shown in (c) of FIG. 2 is integrated by connecting the frames 10 and 11 of the individual wind speed attenuators shown in FIGS. 1 or 2 (a) and (b) through the connection part 12a. It is made of a frame (12), and a fine net (20) is arranged in a portion corresponding to each outlet (3).

The wind speed attenuator shown in Fig. 2 (c) is similar to the wind speed attenuator shown in Figs. It can be mounted on the outer periphery of the discharge port (3) from the outside.

A wind speed attenuator according to the second embodiment will be described with reference to FIG. 3 . However, the same and similar reference numerals are assigned to the same and similar components as those of the above-described first embodiment, and overlapping descriptions are omitted.

The difference between the wind speed attenuator of this embodiment and the wind speed attenuator of the first embodiment is that the outlet 3 is formed in the interior of the housing 2 of the ceiling type air conditioner, that is, the air conditioner frame 5 exposed after removing the cover. ') The point is that it is mounted on the inside or the outer periphery.

First, when mounted inside the discharge port 3' formed in the air conditioner frame 5, the frame 13 of the wind speed attenuator has the shape of the inner circumferential surface of the discharge port 3', as shown in FIG. is formed along In addition, a flange portion 13a extending in the transverse direction is formed on the lower edge of the frame 13, so that when the wind speed attenuator is inserted into the outlet 3' from the bottom to the upper side, it is caught around the outlet 3' and is suitable It can be inserted to the depth.

On the other hand, the wind speed attenuator according to the present embodiment does not necessarily need to be fixed so as not to fall down by a method such as adhesion, as in the first embodiment described above. This is when the wind speed attenuator is inserted in contact with the inner circumferential surface of the discharge port 3' and then the housing 2, that is, the flange portion 13a of the frame 13 is pressed with the cover to fix the cover to the conditioner frame 5. because it becomes

Of course, even in this case, after inserting the wind speed attenuator into the inner circumferential surface of the discharge port 3', the wind speed attenuator falls before assembling the housing 2, or the housing 3 is separated for maintenance of the air conditioner 1 Adhesives or screws may be used to prevent the instantaneous wind speed damper from falling. Alternatively, the side of the frame 13 is coated with a soft material such as silicone, rubber, or foamed synthetic resin so that the outer diameter of the frame 13 is slightly larger than the inner diameter of the discharge port 3', so that it does not fall easily by inserting it in an interference fit method. You may.

On the other hand, although the wind speed attenuator is mounted inside the housing 2, it is not fitted on the inner circumferential surface of the outlet 3' as shown in FIG. may be In this case, the wind speed attenuator is fitted between the conditioner frame 5 (specifically, the outer periphery of the discharge port 3') and the housing 2 . Therefore, the frame 14 of the wind speed attenuator is preferably formed much thinner than the frame 13 of FIG. 3 (a). Also, in this case, after attaching the frame 14 to the position corresponding to the outlet 3' on the outer periphery of the outlet 3' or the inner surface of the housing 2 with double-sided adhesive tape 30 or an adhesive, attach the housing 2 It is preferable to couple to the conditioner frame (5).

According to this embodiment, compared to the first embodiment in which the wind speed attenuator is attached to the outside of the housing 2 , the wind speed attenuator is mounted inside the housing 2 , so that it is not visible because it is obscured by the housing 2 , so it is aesthetically pleasing.

4 is a front exploded perspective view when the wind speed attenuator according to the third embodiment of the present invention is applied to a conventional tower-type (or stand-type) air conditioner 1'.

A wind speed attenuator according to a third embodiment will be described with reference to FIG. 4 . However, the same and similar reference numerals are given to the same and similar components as those of the above-described first and second embodiments, and overlapping descriptions are omitted.

The wind speed attenuator of this embodiment is different from the wind speed attenuator of the first and second embodiments described above in that it is applied to the tower type (or stand type) air conditioner 1'. To this end, as shown in FIG. 4 , the frame 10 of the wind speed attenuator is formed along the outer circumferential shape of the outlet 3 . In addition, the fine net 20 is fixed to the side of the frame 10 that is not attached to the housing 2 while blocking the opening of the frame 10 . The wind speed attenuator of this embodiment configured in this way may be mounted on the outer periphery of the outlet 3 from the outside of the housing 2 by the double-sided adhesive tape 30 .

Consequently, the wind speed attenuator of this embodiment is substantially the same as the wind speed attenuator of the above-described first embodiment except for the size, shape, and mounting direction. Therefore, as in the first embodiment described above, when the discharge guide 4 for controlling the wind direction by opening/closing or rotating the discharge port 3 is provided, interference between the discharge guide 4 and the fine net 20 is avoided. for the thickness (corresponding to the height h of the frame 10 in the first embodiment described above). In addition, the wind speed attenuator of this embodiment may be mounted on the outside of the housing 2 by an adhesive or screws 31 .

On the other hand, although a separate illustration and detailed description are omitted, for the tower type air conditioner 1 ′, a wind speed attenuator may be mounted inside the housing 2 as in the second embodiment described with reference to FIG. 3 .

On the other hand, when the air conditioners 1 and 1' are used for a long period of time, fine dust is attached to the fine net 20 of the wind speed attenuator according to the above-described embodiments to drive a fan (not shown) of the air conditioner. A motor (not shown) may be overloaded. Accordingly, in the fourth embodiment, when the pressure of the internal space formed by the frame 10 and the fine net 20 is above a predetermined pressure, at least a part of the fine net 20 is configured to be separated from the frame 10, and the fan is driven Avoid overloading the motor.

Hereinafter, the wind speed attenuator according to the fourth embodiment will be described in detail with reference to FIG. 5 . However, the same and similar reference numerals are assigned to the same and similar components as those of the above-described embodiments, and overlapping descriptions are omitted. 5 is a bottom perspective view showing the wind speed attenuator according to the fourth embodiment mounted on the outlet 3 of the ceiling type air conditioner 1 shown in FIG. 1 , (a) is the wind speed attenuator of the fourth embodiment The mounted and used state, (b) shows a state in which a part (one side) of the fine net 20 ′ is separated from the frame 15 .

Unlike the fine net 20 of the above-described embodiments was directly fixed to the

frames

10, 11, 12, in the wind speed attenuator of this embodiment, as shown in FIG. 5, the mesh portion ( 22) is fixed to form a fine net 20', and the mesh frame 21 is coupled to the frame 15 of the wind speed attenuator by a fixing means such as a hinge 25. The mesh portion 22 of this embodiment performs the same function as the fine net 20 of the above-described embodiments, that is, a wind speed attenuation function.

In addition, on the outer peripheral surface of the mesh frame 21 opposite to the fixing means 25, a ball plunger 21a protrudes with elasticity by a built-in spring (not shown) having a predetermined elastic modulus, and the ball plunger 21a A groove 15a into which the ball plunger 21a is inserted is formed on the inner circumferential surface of the frame 15 at a position corresponding to .

Therefore, when the wind speed attenuator of this embodiment is mounted on the air conditioner 1 and used normally, the fine net 20 ′ maintains a state coupled to the frame 15 as shown in FIG. As the air conditioner 1 is used for a long period of time, if dust or the like is attached to the mesh portion 22 of the fine net 20', the pressure in the internal space formed by the frame 15 and the fine net 20' rises. The fixing force by the ball plunger 21a and the groove 15a is exceeded, and the fine net 20' is framed by the ball plunger 21a being separated from the groove 15a as shown in FIG. 5(b). (15), it can prevent overload of the fan drive motor. Here, the predetermined pressure at which the fine net 20 ′ is separated from the frame 15 , that is, the fixing force can be set by appropriately selecting the elastic modulus of the built-in spring of the ball plunger 21a according to a prior experiment.

When the fine net 20' is separated from the frame 15 as shown in FIG. 5 (b), the user removes the fine net 20' or the entire wind speed attenuator by washing and removing the dust of the mesh part 22. Next, as shown in Fig. 5 (a), it can be re-installed and used.

On the other hand, in the present embodiment, the separation of the fine net 20' due to the increase in the pressure of the inner space is implemented with the ball plunger 21a and the groove 15a, but for example, the mesh frame 21 is framed with an appropriate elastic force. It may be implemented by means such as a hook fixed to (15).

In addition, this embodiment described with reference to FIG. 5 has been illustrated and described as another embodiment of the wind speed attenuator shown in FIG. It can also be applied to the wind speed attenuator, and further can be applied to the tower type air conditioner 1 ′ shown in FIG. 4 .

6 is a front perspective view showing a wind speed attenuator according to a fifth embodiment.

The wind speed attenuator according to the present embodiment is applicable to the tower type air conditioner 1' shown in FIG. 4, and has the same shape as a cover surrounding the upper part including the outlet 3 of the air conditioner 1'. is done Specifically, the wind speed attenuator according to the present embodiment includes a cover body 16 , a fine net 20 and a tightening means 16a.

The cover body 16 is formed in the form of a pocket sized to cover at least a portion (typically an upper portion) of the tower type air conditioner 1 ′ including the outlet 3 (see FIG. 4 ). When the cover body 16 covers a part of the air conditioner, an opening is formed in a portion corresponding to the discharge port 3 , and the fine net 20 is coupled while blocking the opening. The cover body 16 has a lower air permeability than the fine net 20 so that the air discharged from the outlet 3 is concentrated into the fine net 20 rather than the cover body 16 when the air conditioner 1 ′ is covered. it is preferable For example, the cover body 16 may be made of a tarpaulin through which air does not permeate.

On the other hand, the fine net 20 may be coupled to the open portion of the cover body 16 in a manner such as adhesion, fusion, sewing, or the like.

The tightening means 16a is provided at the lower end of the cover body 16, and when the upper portion of the air conditioner 1' is covered with the cover body 16, the lower end of the cover body 16 is attached to the air conditioner 1'. ) and tighten it so that it adheres to the housing. Accordingly, the air discharged through the discharge port 3 is prevented from leaking between the lower end of the cover body 16 and the housing of the air conditioner 1 ′, and the air discharged from the discharge port 3 is transferred to the fine net 20 . to be focused on Specific examples of the tightening means 16a include a string, a rubber band, a snap button, and the like, as shown in FIG. 6 .

Meanwhile, in the above description, only the ceiling type and the tower type have been described as examples of the air conditioner, but the present invention is applicable even when only the air outlet is formed on the ceiling, such as a wall-mounted air conditioner or a central air conditioning system. .

In the above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto and will be described below with the technical idea of the present invention by those of ordinary skill in the art to which the present invention pertains. It goes without saying that various modifications and variations are possible within the scope of equivalents of the claims.

INDUSTRIAL APPLICABILITY The present invention can be applied to an accessory device mounted on a discharge port of an air conditioner, such as a wind speed attenuator, and an air conditioner including the same.

[Explanation of code]

1, 1': air conditioner

2: Air conditioner housing

3, 3': outlet

4: dispensing guide

5: Harmonizer frame

10, 11, 12, 13, 14, 15: Wind speed damper frame

16: cover body

20, 20': fine net

21: mesh frame

21a: ball plunger

22: mesh part

25: hinge

30: double-sided adhesive tape

31: screw

Claims

A wind speed attenuator mounted on a discharge port exposed to the outside of an air conditioner to reduce the wind speed of air discharged through the discharge port,

a frame having a size and a shape corresponding to the discharge port and having an open interior, and mountable on an outer circumference or an inner circumference of the discharge port; and

Having a fixed fine net while blocking the open portion of the frame,

When the frame is mounted in close contact with the outer or inner circumferential surface of the outlet, the outlet is completely sealed, and the air discharged through the outlet is discharged to the outside only through the fine net, so that the wind speed is attenuated.

A wind speed attenuator configured to be fixedly mounted only on the air conditioner.
According to claim 1,

The wind speed attenuator, characterized in that configured to be detachably mounted.
According to claim 1,

Wind speed attenuator, characterized in that the frame is configured to be mounted by being fitted in contact with the inner peripheral surface of the outlet.
According to claim 1,

The wind speed attenuator according to claim 1, wherein the wind speed attenuator is configured to be mountable while covering the outlet in the housing of the air conditioner.
According to claim 1,

The wind speed attenuator according to claim 1, wherein the wind speed attenuator is configured to be mounted on the outside of the housing of the air conditioner while covering the outlet.
6. The method of claim 5,

When there is a discharge guide that can be opened and closed at the discharge port, the frame has a height that does not come into contact with the fine net when the discharge guide is fully opened.
According to claim 1,

The wind speed attenuator is a wind speed attenuator, characterized in that manufactured by insert injection molding of the frame together with the fine net.
According to claim 1,

The fine net, wind speed attenuator, characterized in that when the pressure of the internal space formed by the frame and the fine net is greater than a predetermined pressure, at least a part is separated from the frame and configured to be visible to the user.
9. The method of claim 8,

The fine net, the wind speed attenuator, characterized in that configured such that the other side opposite to the one side is separated from the frame by rotating about one side when the pressure in the inner space is greater than or equal to a predetermined pressure.
According to claim 1,

The air conditioner is provided with a plurality of outlets,

The frame is made of an integrated frame connected through a connection part so as to cover all of the plurality of outlets,

The fine net is a wind speed attenuator, characterized in that consisting of a plurality of fine nets fixed to the integrated frame corresponding to each of the plurality of outlets.
11. The method according to any one of claims 1 to 10,

The fine net is a wind speed attenuator, characterized in that made by overlapping one or two or more synthetic resin woven fabrics.
12. The method of claim 11,

Wind speed attenuator, characterized in that the number of meshes of the synthetic resin woven fabric is 50 to 300.
12. The method of claim 11,

Wind speed attenuator, characterized in that the air permeability of the synthetic resin woven fabric is 3000 to 30000 mm/s when measured in an area of 20 cm 2 and a pressure condition of 200 Pa in accordance with KS K ISO 9237.
11. The method according to any one of claims 1 to 10,

Wind speed attenuator, characterized in that the fine net contains an antibacterial material.