KR101482128B1 - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which a wind direction adjusting member for adjusting a wind direction of air discharged from an upper portion of a main body is interposed so as to interfere with a stopper portion integrally formed with a diffuser body, It is possible to prevent malfunction and deterioration of durability and provide an advantage that the design of the product can be simplified.

A discharge port unit, a wind direction adjusting member, a stopper portion, a rib,

Description

Air conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner and, more particularly, to an air conditioner having a discharge port unit that is vertically movable on an upper portion of a main body, The present invention relates to an air conditioner capable of preventing a malfunction of a product and enhancing durability by integrally forming a stopper portion for preventing the overflow of the wind direction adjustment member on a diffuser body provided with the wind direction adjustment member .

In general, an air conditioner is divided into a separable type and an integral type in which a room is cooled or cleaned by using a refrigerating cycle of a refrigerant composed of a compressor, a condenser, an expansion device, and an evaporator to create a more comfortable indoor environment for the user .

The separated type and the integral type are functionally the same, but the separated type includes an indoor unit having a cooling / heat-dissipating function on the indoor side, an outdoor unit having heat dissipation / cooling and compression function on the outdoor side, and a refrigerant pipe And the integrated type integrates the function of cooling heat dissipation and compression, and it is directly installed by drilling a hole in a house wall or hanging a device on a window.

In the conventional air conditioner, an air suction part for sucking indoor air is formed in a lower part of a front part of a cabinet, and an air outlet is formed in an upper part of a front part of the cabinet to suck air in the room through a lower part of the front part, And then discharged through the upper part of the front surface.

In recent years, there has been a tendency to form air outlets on the upper left and right sides of the cabinet and on the upper surface of the cabinet, instead of forming the air discharging portion on the front upper portion of the cabinet.

However, the air conditioner according to the related art has a problem in that it is difficult to concentrate and discharge the air to the occupant located in front of the air conditioner, because the air circulated to the upper left and right sides of the cabinet is discharged .

In addition, since the air conditioner is operated uniformly regardless of the behavior of the occupant in the room, it is pointed out that the performance of the indoor unit is deteriorated by discharging the conditioned air to the unnecessary portion.

In addition, the air conditioner further includes a plurality of wind direction adjusting members for adjusting the wind direction of the discharged air in discharging the heat-exchanged air in the cabinet, wherein abnormal noise is generated due to interference or friction between the wind direction adjusting member and the surrounding structures Or a malfunction of the wind direction adjusting member occurs.

The air conditioner according to the present invention further includes a wind direction adjusting member for arranging a discharge port unit on an upper portion of the main body and adjusting a wind direction of air discharged through a front air discharge port formed in the discharge port unit by a rotating operation, And it is an object of the present invention to provide an air conditioner capable of preventing malfunction of a product and improving durability by integrally forming a stopper portion for preventing over rotation of the member on a diffuser body provided with the airflow control member.

The air conditioner according to the present invention includes a main body having left and right air inlets and left and right air outlets, a front air outlet formed to discharge heat-exchanged air from the upper portion of the main body, And a diffuser coupled to the discharge port unit and dispersing air discharged through the front air discharge port, wherein the diffuser comprises: a diffuser body; a rotatably disposed at the diffuser body, And a stopper unit formed integrally with the diffuser body and preventing the overflow of the wind direction adjusting member.

The wind direction adjusting member may include a vertical wind direction adjusting unit connected to the diffuser body so as to rotate in the vertical direction of the air discharged through the front air outlet, And a first stopper portion contacting the upper and lower airflow direction adjusting portions to restrict rotation of the upper and lower airflow direction adjusting portions.

The upper and lower wind direction adjusters may include a horizontal discharge vane arranged to be rotated about a horizontal axis at the front air discharge port and a pair of vertical discharge vanes protruding rearward at either one of the left and right ends of the horizontal discharge vane, And a rear protruding end interfering with the first stopper portion.

The first stopper portion may be integrally formed with one of a left plate and a right plate of the diffuser body so that the rearward projecting end is disposed between the left and right plates so that the horizontal discharge vane rotates about the horizontal axis by a predetermined angle. It may be a pair of rotation restricting ribs.

The wind direction adjusting member may further include a left and right wind direction adjusting unit connected to the diffuser body so as to rotate in the left and right direction of the air discharged through the front air outlet, And a second stopper portion contacting the one end to limit the rotation of the left and right airflow direction adjusting portions.

In addition, the left and right airflow direction control unit may include a plurality of vertical discharge vanes which are arranged at predetermined intervals in the left and right direction on the front air discharge port and are rotated about a vertical axis, and a plurality of vertical discharge vanes formed integrally with the vertical discharge vanes, And a lower protruding end for restricting the rotation of the vertical discharge vane by an operation interfering with the stopper portion.

In addition, the diffuser may further include a lattice portion integrally formed at a lower portion of the diffuser body so as to allow heat-exchanged air to pass therethrough, and the second stopper portion may be formed integrally with the lattice portion.

In addition, the lower protruding end may protrude to a position lower than the upper surface of the grid portion, and the second stopper portion may interlock with the lower protruding end to prevent the over- .

The latching portion may be formed at a rear end of the grid portion, and may be formed in a path of movement of the lower protruding end when the vertical outlet vane is rotated about a rotation axis.

The air conditioner according to the present invention is characterized in that the discharge port unit is disposed on the upper portion of the main body and the front air outlet port is formed in the discharge port unit so that the diffuser portion is lifted and lowered together with the discharge port unit, By including the wind direction adjusting unit for adjusting the wind direction of the air, the user has an advantage of discharging air in a desired direction.

Further, according to the present invention, it is possible to prevent the malfunction of the product, improve the durability, and realize the simple design of the product by integrally forming the stopper unit in the diffuser unit so as to prevent the over- .

Hereinafter, a preferred embodiment of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an air conditioner according to an embodiment of the present invention.

1, the air conditioner according to the present embodiment includes an air inlet port 4 and an air inlet port 6 through which indoor air is sucked into the main body 2 for air-conditioning the inside of the main body 2, (8) (10) through which the air circulated in the air outlet (8) is discharged.

More specifically, the main body 2 is formed with the above-described air inlet ports 4 and 6 on the lower left and right sides respectively, and the air outlet ports 8 and 10 described above And includes a base 12, a cabinet 20, a suction panel assembly 30 (40), and a discharge panel assembly 50 (60).

The suction panel assemblies 30 and 40 are mechanically connected to both the left and right sides of the main body 2 to open and close the left and right air inlets 4 and 6, The panel assemblies 50 and 60 are also mechanically connected to both the left and right sides of the main body 2 to open and close the left and right air outlets 8 and 10.

That is, when the user operates the operation unit and inputs an operation command to the air conditioner, the suction panel assemblies 30 and 40 and the discharge panel assemblies 50 and 60 cause the indoor air to flow into the main body 2 The left and right air inlets 4 and 6 and the left and right air outlets 8 and 10 are opened at the same time to discharge the air to the room after sucking and exchanging heat.

The base 12 forms the outer surface of the bottom portion of the main body 2 and supports the cabinet 20 and the suction panel assemblies 30 and 40. The cabinet 20, And the above-described suction panel assemblies 30 and 40 are mounted on the front portion thereof.

A front panel (90) forming an outer surface of the front side of the air conditioner is disposed in front of the main body (2). The front panel 90 is connected to one side of the left and right sides so as to open and close the entire front surface of the main body 2. [

FIGS. 2 and 3 are sectional views showing the operation of the discharge port unit in the construction of the present invention, and FIG. 4 is an exploded perspective view showing the discharge port unit in the structure of FIG.

2 and 3, the air conditioner according to the present invention is mounted on the upper part of the main body 2 in an oblique direction, And a discharge port unit 97 formed to be inclined downward relative to the discharge port unit 97.

The discharge port unit 97 has a structure in which the discharge port unit 97 is lifted above the main body 2 from the upper inside of the main body 2 and descends from the upper side of the main body 2 to the inside upper side of the main body 2.

The air discharge port 96 formed in the discharge port unit 97 is formed in the main body 2 in such a manner that unlike the left air discharge port 8 and the right air discharge port 10 for discharging air to the side surface of the main body 2, 2, the air that has been air-conditioned frontally is discharged. Therefore, for convenience of explanation, it will be referred to as "front air discharge port 96 ".

The discharge port unit 97 is provided at the upper portion of the main body 2 so as to facilitate centralized discharge of the air ventilated to the occupant located at the lower front of the main body 2, Is moved in the upward or downward slanting direction with respect to the front of the main body (2).

The air conditioner further includes an elevation guide 99 disposed on the upper portion of the main body 2 and guiding the discharge port unit 97 in an oblique direction and having an upper surface opening 98.

The discharge port unit 97 is lifted up to the upper position of the elevation guide 99 while being guided by the elevation guide 99 so that the front air discharge port 96 is opened / So that the front surface air outlet port 96 is hermetically sealed while covering the upper surface opening 98 of the elevation guide 99, that is, the upper surface of the main body 2. [

That is, the discharge port unit 97 is inclined at the upper portion of the main body 2. The discharge port unit 97 is inclined upward in the upward direction when the discharge port unit 97 is lifted, When the discharge port unit 97 is lowered, the discharge port unit 97 guides the discharge port unit 97 so that the discharge port unit 97 is inclined downward.

The air conditioner according to the preferred embodiment of the present invention includes a discharge port unit moving mechanism 200 for moving the discharge port unit 97 along the elevation guide 99 so as to be inclined upward or downward from the main body 2, And guiding means 210 for assisting the movement of the discharge port unit 97 so that the discharge port unit 97 is smoothly moved on the elevation guide 99 by the discharge port unit moving mechanism 200.

2, when an operation command of the air conditioner is inputted by a user or the like using an operation unit, the air conditioner according to the preferred embodiment of the present invention, as shown in FIG. 2, Thereby driving the discharge port unit moving mechanism 200 in the ascending mode.

At this time, the discharge port unit 97 protrudes and moves upward from the elevation guide 99 and is inclined forward, and the front air discharge port 96 is exposed to the outside as the discharge port unit 97 rises.

At the same time, the control unit operates the left inlet panel and the right inlet panel, and the suction panel assemblies 30 and 40 and the discharge panel assemblies 50 and 60 to open the right air inlet 4 ) And the left air inlet port (6), and the indoor air is sucked into the left air outlet port (8), the right air outlet port (10) and the outlet port unit (97) Through the formed front air discharge port (96).

Next, as shown in FIG. 3, when the user or the like inputs an operation stop command of the air conditioner using the operation unit, the control unit controls the discharge port unit moving mechanism 200 to drive in the fall mode .

At this time, the discharge port unit 97 is moved to the inside of the main body 2 along the elevation guide 99, and the front air discharge port 96 is moved to the main body 2 simultaneously with the lowering of the discharge port unit 97, So that the upper surface of the main body 2 is formed.

4, the discharge port unit 97 includes a discharge port body 150 which is guided by the lifting and lowering guide 99 and which is installed in the discharge port body 150, An infrared sensor module 170 for sensing the behavior of the occupant and a discharge port unit controller 190 for controlling various electric components such as motors and sensors installed in the discharge port unit 97 .

A discharge passage 151 extending from the bottom surface to the front surface of the discharge port body 150 (hereinafter, the discharge passage 151 and the front air discharge port 96 are hereinafter referred to as a passage through which the air after heat exchange is discharged, The electric field chamber 152 in which various electric parts such as the infrared sensor module 170 and the discharge port unit controller 190 are installed and the discharge passage 151 are formed in the partition 153 ).

The infrared sensor module mounting portion 155 having a part of the partition 153 protruding toward the discharge passage 151 is integrally formed with the partition 153 in the discharge port body 150. The infrared sensor module installation part 155 is a space between the diffuser 160 and the partition 153 and serves as a part where the infrared sensor module 170 is installed.

The infrared sensor module installation part 155 is formed with an opening 155a for transmitting light such as infrared rays.

The discharge port body 150 further includes a top cover 157 covering the electric field chamber 152 from top to bottom.

The diffuser 160 includes a diffuser body 161 installed in the discharge passage 151 and a wind direction adjusting member 160 'arranged to rotate inside the diffuser body 161.

The wind direction adjusting member 160 'includes a vertical wind direction adjusting unit 160A connected to the diffuser body 16 to rotate the air directed in the vertical direction of the air discharged through the discharge passage 151, And a left and right airflow direction adjusting unit 160B connected to the diffuser body 16 so as to rotate in the left and right direction of the air discharged through the discharge passage 151. [

The vertical wind direction adjuster 160A includes a horizontal discharge vane 162 parallel to the discharge passage 151 and disposed to rotate about a horizontal axis and a vertical discharge vane 162 coupled to one of the left and right rotary shafts of the horizontal discharge vane 162 And a horizontal discharge vane motor 167 for rotating the horizontal discharge vane 162.

The left and right airflow direction control unit 160B includes a plurality of vertical discharge vanes 163 spaced apart from the discharge passage 151 by a predetermined distance and arranged to rotate around a vertical axis, A vertical discharge vane motor 168 connected to at least one of the vertical discharge vanes 163 to rotate at least one vertical discharge vane 163 and a vertical discharge vane motor 163 connected to at least one vertical discharge vane 163 of the plurality of vertical discharge vanes 163. [ And an interlocking member 166 for connecting the vertical discharge vanes 163 connected to the vertical discharge vanes 163 and the remaining vertical discharge vanes 163 to simultaneously rotate the plurality of vertical discharge vanes 163 by a predetermined angle.

The horizontal discharge vane 162 serves to regulate the upward and downward directions of the discharge air discharged through the discharge passage 151 while rotating vertically about the horizontal axis by a predetermined angle. The vertical discharge vanes 162 Serves to regulate the wind direction in the left and right direction of the discharged air passing through the discharge passage 151 while rotating left and right by a predetermined angle around the vertical axis.

The diffuser body 161 is provided with a grating portion 164 through which air passes.

In more detail, the lattice portion 164 is formed as a plurality of lattice-shaped openings so that the heat-exchanged air in the main body 2 can be discharged from the lower portion to the upper portion through the discharge passage 151. The grid portion 164 serves to provide a coupling portion to which the lower central axes of the plurality of vertical discharge vanes 163 are coupled, and is formed like a lattice to reinforce the strength. However, since the lattice portion 164 is also disposed in the discharge passage 151, it is preferable that a portion of the lattice portion 164 that is pointed is minimized.

The horizontal discharge vane motor 167 may be horizontally disposed on one of the left and right plates 161 'and 161 " of the diffuser body 161 so as to be horizontally disposed in the discharge passage 151. [ And is connected to at least one side of the rotation axis of the discharge vane 162.

The vertical discharge vane motor 168 is connected to the infrared sensor module installation part 157 of the discharge port body 150 among the rotation shafts of the vertical discharge vanes 163 arranged vertically in the discharge passage 151, And is connected to the rotation axis of the vertical discharge vane 163 provided in the vertical discharge vane 163.

The diffuser body 161 includes a horizontal axis support hole 161a for rotatably supporting a horizontal axis 162a on one side of the horizontal discharge vane 162 to either the left side plate 161 'or the right side plate 161 " And a horizontal axis support hole 161b for rotatably supporting the other horizontal axis 162b of the horizontal extrusion vane 162 is formed on the other of the left and right side plates 161 'and 161 ".

A vertical support hole 161c for supporting the upper vertical axis 163a of the plurality of vertical discharge vanes 163 is formed on the upper part of the diffuser body 161. The vertical discharge vanes 163a, And a vertical axis support hole 161d for supporting the lower vertical axis 163b of the lower plate 163 is formed.

The vertical wind direction adjuster 160A is configured such that the horizontal discharge vane 162 is supported by the horizontal axis support holes 161a and 161b such that the horizontal axes 162a and 162b thereof are rotatably supported, The vertical wind direction adjuster 160B adjusts the vertical wind direction of the air discharged through the discharge passage 151 by operating the vertical discharge vanes 163 in the vertical axis support holes 161c and 161d, And the vertical axes 163a and 163b are rotatably supported and rotated in the left and right directions, respectively, to control the airflow direction of the air discharged through the discharge passage 151 in the left and right directions.

The vertical wind direction adjuster 160A and the left and right wind direction adjuster 160B are disposed on the discharge passage 151 so as not to interfere with each other. When the vertical discharge vanes 163 of the left and right airflow direction adjusting portions 160B rotate with respect to each other, there is a fear of causing abnormal noise or malfunctions.

In one preferred embodiment of the air conditioner according to the present invention, the wind direction adjusting member 160 'is provided to prevent mutual interference between the upper and lower wind direction adjusting portions 160A and the left and right wind direction adjusting portions 160B due to over- And a stopper portion 300 for restricting rotation of the stopper portion 300.

5 and 6 are operation diagrams showing the operation of the stopper part in the configuration of FIG. 5 and 6, the stopper portion 300 includes a first stopper portion 310 which contacts one end of the upper and lower airflow direction adjusting portions 160A and restricts the rotation of the upper and lower airflow direction adjusting portions 160A, And a second stopper part 320 contacting the one end of the left and right airflow direction adjusting part 160B and restricting the rotation of the left and right airflow adjusting part 160B.

The vertical wind direction adjuster 160A extends rearward from one end of the horizontal discharge vane 162 to the other end of the horizontal discharge vane 162 so that the first and second stoppers 310 and 323 are rotated when the horizontal discharge vane 162 rotates. And further includes an interfering rear protruding end 162c.

The first stopper part 310 is disposed on the left side of the left side plate 161 of the diffuser body 161 so that the rearward projecting end 162c is disposed therebetween so that the horizontal discharge vane 162 rotates about the horizontal axis by a predetermined angle. Quot;) and the right side plate 161 ", respectively.

That is, when the horizontal discharge vane 162 rotates about the vertical axis in a state where the rear protruding end 162c is positioned between the pair of rotation restricting ribs, The rear protruding end 162c is rotated around the vertical axis while drawing a circular trajectory. Since the pair of rotation restricting ribs are in the movement path of the rear protruding end 162c, the rotation of the horizontal discharging vane 162 The angle is limited.

The vertical wind direction adjuster 160B is integrally formed with the vertical outlet vane 163 and interferes with the second stopper 320 to limit the rotation of the vertical outlet vane 163 And a lower protruding end 163d.

The diffuser portion 160 further includes a grating portion 164 integrally formed at a lower portion thereof to allow the heat exchanged air to pass therethrough. The second stopper portion 320 is integrally formed with the grating portion 164 .

That is, the second stopper part 320 interferes with the lower protruding end 163d, which protrudes to a position lower than the upper surface of the grid part 164, so that the overrunning of the vertical discharge vane 163 is prevented And may be an engaging portion formed on the grating portion 164.

When the vertical discharge vane 163 is rotated about the rotation axis, the latching part is formed on the movement path of the lower projecting end 163d, and the lower projecting end 163d interferes with the vertical discharge vane 163 to prevent over-rotation.

The operation of the air conditioner according to an embodiment of the present invention will now be described with reference to the accompanying drawings.

First, when a user operates the operation unit and inputs an operation command to the air conditioner, a control unit (not shown) controls the discharge port unit 97, the suction panel assemblies 30 and 40, and the discharge panel assembly 50 And controls to operate.

That is, when the user inputs an operation command to the air conditioner, the control unit controls the suction panel assemblies 30 and 40 and the discharge panel assembly 50 to operate so that the left and right air inlets 4 6 and the left and right air ejection openings 8 and 10 and applies a predetermined electrical signal to the ejection opening unit control unit 190 so that the ejection opening unit control unit 190 controls the ejection opening unit control unit 190, Unit 97 to the up mode.

In the rising mode of the discharge port unit 97, the discharge port unit 97 protrudes upward from the upper part of the inside of the main body to open the front air discharge port formed in the discharge port unit 97.

The discharge port unit control unit 190 controls the infrared sensor module 170 installed in the discharge port unit 97 to operate. At this time, the infrared sensor module 170 senses the position of the occupant or the movement of the occupant, and transmits the sensed result to the outlet unit controller 190 or the controller in the form of an electric signal.

The discharge port unit controller 190 or the control unit controls the suction panel assembly 30 according to the position or behavior of the occupant so that the discharge port unit controller 190 or the control unit can be concentratedly discharged to the occupant based on the result detected by the infrared sensor module 170. [ The discharge panel assembly 50 and the wind direction adjusting member 160 'installed in the discharge port unit 97 can be controlled.

The upper and lower wind direction adjuster 160A adjusts the upward and downward wind direction of the discharged air while rotating the horizontal discharge vane 162 up and down about the horizontal axis. The rear protruding end 162c of the vane 162 interferes with the first stopper part 310 formed integrally with the diffuser body 161 to prevent over rotation.

In addition, the left and right wind direction adjuster 160B of the wind direction adjusting member 160 'adjusts left and right wind directions of the air discharged while rotating the vertical outlet vane 163 from side to side around the vertical axis. The lower protruding end 163d integrally formed at the lower part of the plurality of vertical discharge vanes 163 is integrally formed with the second stopper part 320 integrally formed at the rear end of the grid part 164 of the diffuser body 161, So that over rotation is prevented.

The preferred embodiments of the air conditioner according to the present invention have been described in detail with reference to the accompanying drawings. However, it is to be understood that the embodiments of the present invention are not necessarily limited thereto, and that various modifications and other embodiments falling within the scope of the present invention can be realized by those skilled in the art . Accordingly, the true scope of the invention should be determined by the following claims.

1 is a perspective view of an air conditioner according to an embodiment of the present invention,

2 and 3 are sectional views showing the operation of the discharge port unit in the construction of the present invention,

Fig. 4 is an exploded perspective view showing the discharge port unit in the configuration of Fig. 1,

5 and 6 are operation diagrams showing the operation of the stopper part in the configuration of FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

2: Main body 4, 6: Left and right air inlet

8, 10: Left and right air outlet 12: Base

20: cabinet 30, 40: left and right suction panel assembly

50: Discharge panel assembly 90: Front panel

96: front air discharge port 97: discharge port unit

98: opening 99: elevation guide

200: discharge port unit moving mechanism 300: stopper portion

310: first stopper part 320: second stopper part

Claims (9)

(2) formed with left and right air inlets and left and right air outlets, a front air outlet formed in such a manner that the heat-exchanged air is discharged from the upper portion of the main body, 97), and a diffuser (160) coupled to the discharge port unit and dispersing air discharged through the front air discharge port, The diffuser, A diffuser body (161); A lattice portion integrally formed at a lower portion of the diffuser body to allow heat-exchanged air to pass therethrough, A wind direction adjusting member 160 'which is rotatably disposed on the diffuser body and adjusts the wind direction of air discharged by a predetermined angle of rotation; And a stopper part (300) formed integrally with the diffuser body and preventing overrunning of the wind direction adjusting member, The wind direction control unit may further include a left and right wind direction adjusting unit connected to the diffuser body so as to rotate to adjust a wind direction of left and right air discharged through the front air outlet, Wherein the stopper portion includes a second stopper portion (320) which is in contact with one end of the left and right airflow direction adjusting portion to restrict rotation of the left and right airflow direction adjusting portions, Wherein the left and right air- A plurality of vertical discharge vanes which are spaced apart from each other by a predetermined distance in the left and right direction of the front air discharge port and are rotated around a vertical axis; And a lower protruding end (163B) formed integrally with the vertical discharge vane and restricting rotation of the vertical discharge vane by interfering with the second stopper portion, And the second stopper portion is formed integrally with the lattice portion. The method according to claim 1, The wind direction adjusting member may further include a vertical wind direction adjusting unit connected to the diffuser body so as to be rotated to adjust a vertical wind direction of the air discharged through the front air outlet, Wherein the stopper portion further comprises a first stopper portion which is in contact with one end of the upper and lower airflow direction adjusting portions to limit rotation of the upper and lower airflow direction adjusting portions. The method of claim 2, The vertical wind direction adjuster includes a horizontal discharge vane arranged to be rotated about a horizontal axis at the front air discharge port and a vertical discharge vane protruding rearward at either one of the left and right ends of the horizontal discharge vane, And a rear protruding end that interferes with the stopper portion. The method of claim 3, The first stopper portion And a pair of rotation restricting ribs formed on the left and right sides of the diffuser body so as to be spaced apart from each other integrally with each other so that the rearward projecting ends are disposed between the left and right projecting ends, Harmonics. delete delete delete The method according to claim 1, Wherein the lower protruding end is protrudingly extended to a position lower than an upper surface of the grid portion, Wherein the second stopper portion is an engaging portion formed in the lattice portion to prevent the vertical discharge vane from over rotating due to interference with the lower projecting end. The method of claim 8, [0027] The air conditioner according to any one of claims 1 to 3, wherein the air outlet is formed at a rear end portion of the lattice portion and is formed in a path of movement of the lower protruding end when the vertical outlet vane is rotated about a rotation axis.

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