JP2010085021A - Outdoor unit for air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent damage to an electrical component electrically connected to an air blower even if an against wind is received from the outside of a casing (2), in an outdoor unit (1) for an air conditioner in which a blowout port (3) for blowing out the air of the air blower is formed. <P>SOLUTION: A rotating shutter type blowout grille includes a front face grille (11) with a plurality of frames (17) and a rotating shutter (12) having closing plates (20) with the same shapes as that of the frame (17) of the front face grille (11) viewed from the blowout port (3) and arranged rotatably between a closed position in which the plurality of closing plates (20) are positioned in openings of a plurality of ventilation ports (18) of the front face grille (11) viewed from the blowout port (3) and an opened position in which the plurality of closing plates (20) are superposed on the frames (17) of the front grille (11) viewed from the blowout port (3). The rotating shutter type blowout grille (10) is mounted to the blowout port (3). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an outdoor unit of an air conditioner, and more particularly to a countermeasure for suppressing a back wind flowing into a casing of the outdoor unit.

  2. Description of the Related Art Conventionally, an outdoor unit that constitutes a separate type air conditioner together with an indoor unit is known (see, for example, Patent Document 1).

The casing of the outdoor unit has an air outlet on the front side and an air inlet on the back side. Further, inside the casing, a blower is disposed in the vicinity of the air outlet, and an outdoor heat exchanger is disposed in the vicinity of the suction port. When the blower is driven, air outside the casing is sucked into the casing through the suction port. The sucked air flows into the outdoor heat exchanger and is blown out from the outlet of the casing after exchanging heat with the refrigerant flowing in the heat transfer pipe of the outdoor heat exchanger.
JP 2008-096018 A

  By the way, a DC fan motor may be used as the drive mechanism of the blower. With this DC fan motor, the power consumption of the blower can be reduced. However, in some cases, the DC fan motor may damage the electrical components of the outdoor unit.

  That is, the propeller fan of the blower may reversely rotate due to the wind blown from the outside to the inside of the casing through the blowout opening (hereinafter referred to as reverse wind). When the propeller fan rotates in the reverse direction, the DC fan motor becomes a generator, and the induced voltage generated by the reverse rotation acts on the DC fan motor and electric parts such as a control board electrically connected to the blower. . And if this reverse wind is strong, the rotation speed of the propeller fan rotating in reverse will increase, and the induced voltage generated will also increase. If this induced voltage exceeds the allowable voltage of the electrical component, the electrical component or the motor itself may be damaged.

  A normal DC fan motor has a structure capable of lowering the induced voltage, and is configured such that the propeller fan may be rotated in a slightly reverse direction. However, in the DC fan motor, assuming that the back wind is strong, and making the induced voltage too low, the motor efficiency of the DC fan motor during normal operation is reduced.

  The present invention has been made in view of such a point, and the object of the present invention is to provide an outdoor unit of an air conditioner in which an air outlet for blowing out the air of a blower is formed, even when the outdoor air is received from the outside of the casing. It is to avoid damaging the electrical components in the unit.

  1st invention presupposes the outdoor unit of the air conditioner provided with the casing (2) in which the blower outlet (3) which blows off the wind from the air blower accommodated in the inside was formed.

  And a grill-like fixing member (11) having a plurality of crosspieces (17) fixed to the air outlet (3) in the outdoor unit of the air conditioner and arranged at intervals, and the air outlet (3) The plurality of closing members (20) having substantially the same shape as the crosspieces (17) of the fixing member (11) when viewed from the top and the plurality of closing members (20) when viewed from the air outlet (3) are the fixing members A plurality of closure members (11) viewed from the air outlet (3) and a closed position located within the openings of the plurality of ventilation openings (18) formed between the crosspiece (17) and the crosspiece (17); 20) is provided with a shutter member (12) arranged so as to be movable between an open position overlapping the crosspiece (17) of the fixing member (11).

  In the first invention, the ventilation port (18) of the fixing member (11) can be opened or closed by the closing member (20) of the shutter member (12). When opening the ventilation opening (18), the shutter member (12) is moved to the open position side. Then, the part where the said closure member (20) overlaps with the crosspiece (17) of the said fixing member (11) increases, and the ventilation port (18) of the said fixing member (11) is opened. When the shutter member (12) is moved to the open position, the closing member (20) and the crosspiece (17) overlap each other, and the ventilation port (18) is fully opened.

  On the other hand, when closing the vent hole (18), the shutter member (12) is moved from the open position to the closed position side. Then, among the closing member (20) and the crosspiece (17) overlapped when viewed from the outlet (3), a portion where the closing member (20) is exposed from the side of the crosspiece (17) gradually Become more. The more this exposed portion, the larger the area that blocks the wind that tries to pass through the vent (18). When the closing member (20) is moved to the closed position, the entire closing member (20) is exposed, and the entire closing member (20) is allowed to pass through the ventilation port (18). Can be blocked.

  Thus, by moving the shutter member (12) between the open position and the closed position, the area that blocks the wind passing through the ventilation port (18) is changed, and the air outlet (3) The amount of air flowing toward the blower can be adjusted.

  According to a second invention, in the first invention, a plurality of the shutter members (12) are provided, and the closing members (20) of the shutter members (12) in the closed position as viewed from the outlet (3) It is characterized by being arranged at different positions.

  In the second invention, the air passing through the ventilation port (18) of the fixing member (11) is blocked by the closing members (20) of the plurality of shutter members (12), whereby the ventilation port of the fixing member (11). The area that blocks the wind passing through (18) can be increased.

  Here, each shutter member (12) in the said closing position is arrange | positioned in the position where the closing members (20) mutually differ. That is, it can arrange | position so that the said closure members (20) may not mutually overlap seeing from the said blower outlet (3). Thus, the closing member (20) of each shutter member (12) passes through the ventilation port (18) of the fixing member (11) without being obstructed by the closing member (20) of the other shutter member (12). Can block the wind.

  According to a third aspect of the present invention, in the first or second aspect, the shutter member (12) is provided at a central portion of the fixing member (11) between the closed position and the open position around the central portion. A shaft portion (22) that rotatably supports the shaft is provided.

  In the third aspect of the invention, the shutter member (12) is rotated between the closed position and the open position around the shaft portion (22), thereby blocking the wind passing through the ventilation port (18). The air volume of the air passing through the outlet (3) can be adjusted by changing the area.

  According to a fourth invention, in any one of the first to third inventions, the closing member (20) of the shutter member (12) is provided with the closing member (20) as viewed from the outlet (3). A blade-like protrusion (23) extending from the surface to the side of the closing member (20) is attached.

  Here, since the protrusion (23) extends from the surface of the closing member (20) to the side of the closing member (20), even when the shutter member (12) is in the open position, The protrusion (23) is exposed from the side of the crosspiece (17) of the fixing member (11) to the ventilation port (18).

  According to a fourth aspect of the invention, the shutter member (12) is opened and closed by the wind force of the wind by applying the wind passing through the ventilation port (18) of the fixing member (11) to the blade-like protrusion (23). Can be made. The blade-like projection (23) closes the shutter member (12) when the reverse wind hits the front surface of the projection (23), and the wind of the blower from the inside of the casing (2) The shutter member (12) is attached in an opening direction when it hits the back surface of (23).

  In a fifth aspect based on the fourth aspect, the movement of the shutter member (12) is restricted so that the moving surface of the shutter member (12) is parallel to the opening surface of the outlet (3). When the protrusion (23) is viewed from the outside of the casing (2), the angle θ1 formed by the front surface of the protrusion (23) and the opening surface of the outlet (3) and the protrusion (23 ) And the opening θ of the blower outlet (3) form the protrusion (23) so that the angle θ2 satisfies sin (2 × θ1) <sin (2 × θ2) (Equation 1). It is characterized by being.

  In 5th invention, even if it is a case where the same wind as the wind of the said air blower or stronger than it is blowing by making the shape of the above-mentioned projection part (23) into the shape which satisfies Formula 1, The shutter member (12) can be opened within a range satisfying Equation 1.

  That is, the force Fa (FIG. 5) acting in the direction of closing the shutter member (12) when the above-described head wind hits the front surface of the protrusion (23) is sin (2 × θ1) on the head wind F1 of the head wind. The value multiplied by. On the other hand, the force Fb (FIG. 5) acting in the direction of opening the shutter member (12) when the wind of the blower hits the back surface of the protrusion (23) is applied to the wind force F2 of the blower by sin (2 Xθ2). From this, according to Equation 1, when the back wind and the blower have the same air volume, the force Fb acting in the opening direction of the shutter member (12) becomes stronger than the force Fa acting in the closing direction, and the shutter The member (12) opens.

  Further, even when a strong reverse wind blows from the wind of the blower, if the ratio of the wind force (F1 / F2) is smaller than sin (2 × θ2) / sin (2 × θ1), the shutter member The force Fb acting in the direction to open (12) becomes stronger than the force Fa acting in the closing direction, and the shutter member (12) opens.

  According to the present invention, by opening and closing the shutter member (12) between the open position and the closed position, the closing member (20) of the shutter member (12) opens the ventilation port of the fixing member (11). The area that blocks the wind passing through (18) can be changed. Thereby, the air volume of the air which passes the said blower outlet (3) can be adjusted.

  For this reason, when the counter air is going to blow from the outlet (3) through the vent (18), the shutter member (12) is moved to the closed position side. If it does so, the air volume of the reverse wind which penetrate | invades in a casing (2) will reduce, and the reverse rotation of the fan motor of the said air blower can be suppressed.

  As a result, in the blower, even when a reverse wind is received from the outside of the casing (2), the shutter member (12) blocks the reverse wind flowing toward the blower, thereby preventing the electrical components in the outdoor unit from being damaged. Can be prevented.

  Further, according to the second invention, the closing member (20) of the shutter member (12) with respect to the opening area of the ventilation port (18) of the fixing member (11) when viewed from the air outlet (3). When the area is too small, by providing a plurality of the shutter members (12), it is possible to increase the area that blocks the wind passing through the ventilation port (18) of the fixing member (11). Thereby, the wind which passes the ventilation opening (18) of the said fixing member (11) can be made easy to be interrupted | blocked.

  According to the third aspect of the present invention, when a reverse wind is about to blow from the outlet (3) through the vent (18), the shutter member (12) is centered on the shaft (22). Rotate to the closed position. Then, since the amount of the reverse wind is reduced, the reverse rotation of the fan of the blower can be suppressed, and the breakage of the electrical components in the outdoor unit can be prevented.

  According to the fourth aspect of the present invention, the shutter member (23) is struck by the wind force that passes through the ventilation port (18) of the fixing member (11). 12) can be opened and closed. Thus, the shutter member (12) can be opened and closed simply by forming the protrusion (23) on the closing member (20).

  According to the fifth aspect of the invention, in the protrusion (23), the angle θ1 formed by the front surface of the protrusion (23) and the opening surface of the outlet (3), and the upper protrusion (23) Even when a head wind that is the same as or stronger than the wind of the blower is blowing, by making the angle θ2 formed by the back surface of the air outlet and the opening surface of the air outlet (3) different, The shutter member (12) can be opened within a range satisfying the formula 1.

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

  The outdoor unit (1) in the present embodiment constitutes a part of the air conditioner and is installed outdoors. The outdoor unit (1) has a casing (2) shown in FIG. Two air outlets (3) are formed on the front side of the casing (2) in the vertical direction. Although not shown, a suction port is formed on the back side of the casing (2). In the casing (2), a blower (not shown) is arranged on the front side of the casing (2), and an outdoor heat exchanger (not shown) is arranged on the back side of the casing (2). Each of the air outlets (3) is provided with a rotary shutter type air outlet grill (10) which is a feature of the present invention so as to cover the air outlet (3) with respect to the opening direction of the air outlet (3). It is mounted almost vertically. 2 and 3 show a front view of the rotary shutter type blowing grill (10), and FIG. 4 shows a longitudinal sectional view. Here, FIG. 2 is a front view of a state where a propeller-shaped rotary shutter (12) described later is opened, and FIG. 3 is a front view of a state where the rotary shutter (12) is closed.

  As shown in FIGS. 2 to 4, the rotary shutter blowout grill (10) includes a front grille (fixing member) (11) and a plurality of propeller-shaped rotary shutters (shutter members) (12). .

  As shown in FIG. 2, the front grill (11) includes a main body (13) formed in a substantially square shape. A circular opening (14) is formed in the main body (13), and the grill (15) is fitted into the opening (14) so that the main body (13) and the grill (15) is integrally formed. The grill portion (15) is formed by integrally forming a disc (16) and a plurality of bars (17) extending linearly radially outward from the periphery of the disc (16). It is. The crosspieces (17) are arranged at equal intervals in the circumferential direction of the opening (14). And the opening part between each crosspiece (17) and each crosspiece (17) comprises the ventilation opening (18) of the said front grille (11).

  Further, on the back side of the disc (16) of the grill portion (15), as shown in FIG. 4, a fixed shaft (shaft portion) (22) for rotatably supporting the plurality of rotary shutters (12). Is mounted substantially perpendicular to the disc (16). The plurality of rotary shutters (12) are supported substantially parallel to the front grille (11), and each rotary shutter (12) rotates perpendicularly to the fixed shaft (22). That is, the rotating surface (moving surface) of each rotating shutter (12) is parallel to the opening surface of the outlet (3).

  A cylindrical projection (27) is integrally formed on the back surface of the disk (16) so as to surround the fixed shaft (22). On the inner surface of the cylindrical projection (27), there are provided two regulation plates (25) projecting radially inward of the projection (27). The restriction plate (25) is for restricting the rotation of the rotary shutter (12) on the back side of the front grille (11) from the open position to the closed position. ) Regulates the rotary shutter (12) in the open position, and the other regulating plate (25) regulates the rotary shutter (12) in the closed position.

  Here, the open position is a position where the closing plate (closing member) (20) provided on the rotary shutter (12) overlaps with the crosspiece (17) of the front grill (11) in a plan view shown in FIG. The closed position is a position where the closing plate (20) of the rotary shutter (12) is in the opening of the ventilation opening (18) of the front grill (11) in a plan view shown in FIG.

  As shown in FIG. 6, the rotary shutter (12) includes a boss portion (19) and the plurality of closing plates (20) described above. The boss portion (19) is formed in a cylindrical shape, and a bearing (21) is fitted in the hollow portion. The bearing (21) is inserted into the fixed shaft (22) of the front grill (11), and the fixed shaft (22) rotatably supports the rotary shutters (12).

  The boss portion (19) of the rotary shutter (12) is provided with two restricting plates (24) on the front side and two restricting plates (26) on the rear side. Here, in the rotary shutter (12) adjacent to the back side of the front grill (11), the front side regulation plate (24) contacts the rear side regulation plate (25) of the front grill (11). As a result, the rotation of the rotary shutter (12) is restricted.

  In addition, the rear restricting plate (24) of the rotary shutter (12) is in contact with the restricting plate (24) on the front side of another rotary shutter (12) on the rear side of the rotary shutter (12). The contact of the rotary shutter (12) is restricted by contact. At this time, the closed positions of the two rotary shutters (12) are different from each other.

  Each of the closing plates (20) is formed in a rectangular thin plate, and the shape of the closing plate (20) in the plan view shown in FIG. 3 is the same as that of the front grille (except for the wind receiving plate (23) described later). It is the same as the shape of the crosspiece (17) in 11). Moreover, each said closure plate (20) is attached to the outer peripheral surface of this boss | hub part (19) so that it may mutually become equal intervals in the circumferential direction of the said boss | hub part (19).

  Each closing plate (20) is provided with a blade-shaped wind receiving plate (projection) (23). The wind receiving plate (23) receives wind passing through the ventilation port (18) of the front grill (11) and rotates the rotary shutter (12) with the force of the received wind.

  The wind receiving plate (23) is formed to extend from the surface of the closing plate (20) to the side of the closing plate (20) in a plan view shown in FIG. In addition, as shown in FIG. 5, when the wind receiving plate (23) is viewed from the outside of the casing (2), the front surface of the wind receiving plate (23) and the opening surface of the outlet (3) The relationship between the angle θ1 formed by and the angle θ2 formed by the rear surface of the wind receiving plate (23) and the opening surface of the air outlet (3) is defined as in the following Equation 1.

sin (2 × θ1) <sin (2 × θ2) ... Formula 1
-Driving action-
The opening / closing operation | movement of the said rotary shutter type | mold blowing grill (10) is demonstrated.

  As shown in FIG. 5, when the blower in the casing (2) is driven, the wind from the blower strikes the back side of the wind receiving plate (23) of each rotary shutter (12). Then, with the wind of the wind, each rotary shutter (12) rotates to the said open position centering on the fixed axis | shaft (22) of the said front grill | grill (11) (FIG. 2). In this open position, when viewed from the outside of the casing (2), the closing plate (20) of the rotary shutter (12) is hidden behind the crosspiece (17) of the front grill (11). Thereby, the ventilation opening (18) of the said front grille (11) can be opened.

  On the other hand, when the above-described reverse wind blows due to a typhoon or the like, the reverse wind hits the front side of the wind receiving plate (23) of each rotary shutter (12). Then, the rotating shutter (12) is rotated to the closed position about the fixed shaft (22) of the front grille (11) by the wind of the reverse wind (FIG. 3). In this open position, when viewed from the outside of the casing (2), the closing plate (20) of the rotary shutter (12) is exposed to the outside of the crosspiece (17) of the front grill (11). Thereby, the ventilation opening (18) of the said front grill | grill (11) can be closed, and the wind which tries to pass through this ventilation opening (18) can be interrupted | blocked by the said closing plate (20).

  The force Fa acting in the direction of closing the rotary shutter (12) when the reverse wind blown from the outside of the casing (2) hits the front surface of the wind receiving plate (23) is sin ( 2 × θ1). On the other hand, when the wind of the blower hits the back surface of the wind receiving plate (23), the force Fb acting in the direction of opening the rotary shutter (12) is sin (2 × θ2) on the wind wind F2 of the blower. The value multiplied by. From this, according to the above formula, when the back wind and the blower have the same air volume, the force Fb acting in the direction of opening the rotary shutter (12) is stronger than the force Fa acting in the closing direction, and the rotation The shutter (12) opens.

  Further, even when a strong wind against the wind of the blower blows, if the ratio (F1 / F2) of the wind force is smaller than sin (2 × θ2) / sin (2 × θ1), the rotary shutter The force Fb acting in the direction of opening (12) becomes stronger than the force Fa acting in the closing direction, and the rotary shutter (12) is opened.

-Effect of the embodiment-
According to this embodiment, by opening and closing the rotary shutter (12) between the open position and the closed position, the front grill (11) is ventilated by the closing plate (20) of the rotary shutter (12). The area that blocks the wind passing through the mouth (18) can be varied. Thereby, the air volume of the air which passes the said blower outlet (3) can be adjusted.

  For this reason, when the counter air is going to blow from the outlet (3) through the vent (18), the rotary shutter (12) is closed to the closed position. If it does so, the air volume of the reverse wind which penetrate | invades in a casing (2) will reduce, and the reverse rotation of the fan motor of the said air blower can be suppressed.

  As a result, in the blower, even when a reverse wind is received from the outside of the casing (2), the rotary shutter (12) blocks the reverse wind that flows toward the blower, so that the electrical components in the outdoor unit (1) Can prevent damage.

  When the rotary shutter (12) is in the open position, the rotary shutter (12) is hidden behind the front grille (11) when viewed from the outside of the casing (2). It can be made inconspicuous.

  Further, according to the present embodiment, by providing a plurality of the rotary shutters (12), it is possible to increase the area that blocks the wind passing through the ventilation port (18) of the front grill (11).

  Further, according to the present embodiment, the wind that passes through the ventilation port (18) of the front grill (11) is applied to the wind receiving plate (23), and the rotary shutter (12) is moved by the wind force. Can be opened and closed. Thus, the rotary shutter (12) can be opened and closed with a simple configuration in which the wind receiving plate (23) is simply attached to the closing plate (20).

  Further, according to the present embodiment, in the wind receiving plate (23), the angle θ1 formed by the front surface of the wind receiving plate (23) and the opening surface of the air outlet (3), and the upper wind receiving plate ( 23) By making the angle θ2 formed by the back surface of the air outlet (3) and the opening surface of the air outlet (3) different from each other, the same or stronger back wind as that of the air blower is blowing. In addition, the rotary shutter (12) can be opened within a range satisfying the above-described expression 1.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

  In the present embodiment, the rotary shutter (12) is rotated using the wind passing through the ventilation port (18) of the front grill (11), but the present invention is not limited to this, and the rotation is performed by an electric motor or the like. The shutter (12) may be rotated. In this case, it is preferable to provide a wind speed sensor in the outdoor unit (1) so that the rotary shutter (12) is closed when a reverse wind of a predetermined value or more blows.

  In the present embodiment, two rotary shutters (12) are provided, but the number is not limited, and may be one, or three or more.

  In the present embodiment, the shape of the crosspiece (17) of the front grill (11) extends linearly radially outward from the peripheral edge of the disc (16) in the grill portion (15). Although it was a shape, it is not limited to this, The shape which extends radially while curving may be sufficient.

  In this case, the closing plate (20) of the rotary shutter (12) also has the same shape as the crosspiece (17) in plan view except for the wind receiving plate (23).

  Moreover, the shape of the crosspieces (17) of the front grill (11) may be a lattice shape. In this case, the closing plate (20) of the shutter (12) is also made the same as the shape of the crosspiece (17) in plan view, and the shutter (12) is arranged in the vertical direction in which the lattice-like crosspiece (17) extends. It is good to comprise so that it may slide along a horizontal direction. By doing so, the air vent (18) of the front grill (11) can be opened and closed by the closing plate of the shutter (12).

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for an outdoor unit of an air conditioner.

It is an external view of the outdoor unit which concerns on embodiment. It is a front view of the rotation shutter type blowing grill in the state where the rotation shutter was opened. It is a front view of the rotary shutter type blowing grille in a state where the rotary shutter is closed. It is a longitudinal cross-sectional view of a rotary shutter type blowing grill. It is a figure which shows a state when a wind collides with the wind-receiving plate of a rotary shutter. It is a longitudinal cross-sectional view of a rotary shutter.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Outdoor unit 2 Casing 3 Air outlet 10 Rotating shutter type blowing grill 11 Front grill 12 Rotating shutter (shutter member)
15 Grill part 17 Cross 18 Ventilation hole 19 Boss part 20 Closing plate (closing member)
21 Bearing 22 Fixed shaft (shaft)
23 Wind receiving plate (projection)

Claims (5)

An outdoor unit of an air conditioner including a casing (2) in which a blowout port (3) for blowing wind from a blower housed therein is formed,
A grill-like fixing member (11) having a plurality of crosspieces (17) fixed to the outlet (3) and arranged at intervals;
The plurality of closing members (20) having substantially the same shape as the crosspieces (17) of the fixing member (11) as viewed from the air outlet (3) and the plurality of closing members (as viewed from the air outlet (3)) 20) as viewed from the closed position and the air outlet (3) located in the openings of the plurality of vents (18) formed between the crosspieces (17) and (17) of the fixing member (11) An air conditioner characterized in that the plurality of closing members (20) includes a shutter member (12) disposed so as to be movable between an open position where the plurality of closing members (20) overlap the crosspieces (17) of the fixing member (11). The outdoor unit of the machine. In claim 1,
A plurality of the shutter members (12) are provided,
The outdoor unit of an air conditioner, wherein the closing members (20) of the shutter members (12) in the closed position as viewed from the air outlet (3) are arranged at different positions. In claim 1 or 2,
The central portion of the fixing member (11) is provided with a shaft portion (22) that rotatably supports the shutter member (12) between the closed position and the open position around the central portion. An outdoor unit of an air conditioner characterized by having In any one of Claims 1-3,
The closing member (20) of the shutter member (12) has a blade-like protrusion (see FIG. 4) extending from the surface of the closing member (20) to the side of the closing member (20) when viewed from the outlet (3). 23) An outdoor unit of an air conditioner, characterized by being attached. In claim 4,
While the movement of the shutter member (12) is regulated so that the moving surface of the shutter member (12) and the opening surface of the outlet (3) are parallel,
When the projection (23) is viewed from the outside of the casing (2), the angle θ1 formed by the front surface of the projection (23) and the opening surface of the outlet (3), and the projection (23 ) And the angle θ2 formed by the opening of the air outlet (3),
sin (2 × θ1) <sin (2 × θ2)
The outdoor unit of an air conditioner, wherein the protrusion (23) is formed so as to satisfy.

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