JP2007218511A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform the uniform air conditioning of a whole room while preventing the problem of draft feeling in an air conditioner having a corner outlet port (32) of a curved shape by adjusting the blowing direction of air from the corner outlet port (32). <P>SOLUTION: This air conditioner comprises a corner horizontal blade (34) curved in conformation to the corner outlet port (32), the corner horizontal blade (34) comprises an inside frame (35) located on the inner edge, an outside frame (36) located on the outer edge, and a sheet-like flap (37) deformable to a planar shape and a conical surface shape between the inside frame (35) and the outside frame (36). The sheet-like flap (37) is formed of a flexible material such as a stretchable cloth material. The sheet-like flap (37) can be set to the planar shape and the conical surface shape by a driving mechanism (40) including a drive motor (41) and a link mechanism (44). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an air conditioner, and more particularly to an air blowing structure of a casing.

  2. Description of the Related Art Conventionally, in ceiling-suspended and ceiling-embedded air conditioners, air outlets are generally provided on four sides of a rectangular casing. On the other hand, in the air conditioner described in Patent Document 1, when the air outlets on the four sides of the casing are the main outlets, a corner outlet is provided at the corner portion of the casing in addition to the main outlet. The corner air outlet is formed in a curved shape between adjacent main air outlets, and is used to blow out air from a portion between the adjacent main air outlets that normally does not perform air blowing. And by providing this corner blower outlet, in this air conditioner, the blowout of air in all directions of 360 ° (omnidirectional blowout) is achieved.

  In the above air conditioner, the main air outlet is provided with a horizontal blade that can swing around its longitudinal axis so that the air blowing direction can be adjusted. On the other hand, horizontal vanes are not provided at the corner outlet, and air is blown out along the shape of the air passage in the casing connected to the corner outlet. That is, air is blown out in a certain direction at the corner outlet.

The reason that the horizontal blade is not provided at the corner outlet is that the corner outlet has a curved shape, and the support shaft is also curved to provide the horizontal blade (corner horizontal blade) in the curved corner outlet. It is necessary to make the shape, and it is considered that the plate-shaped corner horizontal blade curved simply along the corner outlet does not rotate around the support shaft (the angle cannot be adjusted).
JP 2005-207733 A

  In the above air conditioner, since the air blowing direction from the corner outlet is constant, there is a problem of draft feeling in which air directly hits a person in the corner outlet. Moreover, in the said air conditioning apparatus, although there existed a part with a fixed blowing direction, although the omnidirectional blowing was intended, it was difficult to air-condition the whole room uniformly.

  The present invention has been made in view of such points, and an object of the present invention is to enable adjustment of the air blowing direction from the corner outlet in an air conditioner having a corner outlet, thereby preventing the problem of draft feeling. In addition, it is possible to uniformly air-condition the entire room.

  In the first invention, an air outlet (30) for blowing out conditioned air is formed in a casing (10), and the air outlet (30) has a curved or bent corner outlet (32). It assumes a harmony device.

  In the air conditioner, a corner horizontal blade (34) that is curved or bent corresponding to the corner outlet (32) is provided at the corner outlet (32), and the corner horizontal blade (34) The first edge (35) located at the inner edge of the corner horizontal blade (34), the second edge (36) located at the outer edge, the first edge (35) and the second edge ( 36), and has a horizontal blade body (37) that can be deformed into a planar shape and a conical surface shape. Here, the “conical surface” is used to indicate a part of the outer peripheral surface of a cone such as a cone or a pyramid.

  In the first aspect of the invention, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is displaced up and down with the other as the support shaft, the horizontal blade body (37) is Deforms into a planar shape or a cone shape. Therefore, even if the curved or bent support shaft is fixed, the angle of the corner horizontal blade (34) can be adjusted in the corner outlet (32).

  According to a second invention, in the first invention, the first edge portion (35) and the second edge portion (36) are displaced in a state where one of the first edge portion (35) and the second edge portion (36) is held by the casing (10). The horizontal blade body (37) is provided with a drive mechanism (40) capable of setting the planar shape and the conical surface shape.

  In the second aspect of the invention, since the drive mechanism (40) is provided, the horizontal blade body (37) can be easily set to a planar shape and a conical surface shape using the drive mechanism (40).

  According to a third invention, in the second invention, the drive mechanism (40) is configured to hold a holding portion (one) of the first edge (35) or the second edge (36) on the casing (10). 14), a drive motor (41) provided in the casing (10), and an output of the drive motor (41) is transmitted to the other of the first edge (35) and the second edge (36). And a link mechanism (44).

  In the third aspect of the invention, for example, if the first edge (35) is held by the casing (10) via the holding part (14), the drive motor (41) is started to activate the motor. The output is transmitted to the second edge (36) via the link mechanism (44). For this reason, the second edge (36) can be displaced while the position of the first edge (35) is fixed as a support shaft. Thus, the horizontal blade body (37) can be easily set to a planar shape and a conical surface shape.

  According to a fourth invention, in any one of the first to third inventions, the horizontal blade body (37) is formed of a sheet-like flexible material having elasticity. An example of the flexible material is a sheet-like rubber material.

  In the fourth aspect of the invention, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is displaced up and down and the other is displaced up and down, the sheet is formed of a flexible material. The horizontal blade main body (37) expands and contracts to change the horizontal blade main body (37) into a planar shape and a conical surface shape.

  According to a fifth invention, in the fourth invention, the horizontal blade body (37) is formed of a stretchable cloth material.

  In the fifth aspect of the invention, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is displaced up and down and the other is displaced up and down, the sheet is formed of a cloth material. The horizontal blade main body (37) expands and contracts to change the horizontal blade main body (37) into a planar shape and a conical surface shape.

  According to a sixth invention, in any one of the first to fifth inventions, the casing (10) is constituted by a ceiling-suspended casing (10) formed in a quadrilateral solid shape in plan view, and the casing (10) has a main outlet (31) provided along the four sides and a corner outlet (32) provided at the four corners, and adjusts the air blowing direction from the main outlet (31). The main horizontal blades (33) are provided, and each corner outlet (32) is provided with the corner horizontal blades (34).

  In the sixth invention, the air outlets (31, 32) can be formed on the bottom surface of the casing (10). However, in the sixth invention, in the sixth invention, the casing (10) is a flat surface. The four corners of the quadrilateral as viewed from the side are formed in a curved shape, and the main outlet (31) and the corner outlet (32) are formed on the side surface (11) of the casing (10). .

  In these sixth and seventh inventions, in addition to the blowout of conditioned air in the outer four directions by the main blowout port (31), the blowout of conditioned air in the diagonally outer direction by the corner blowout port (32) is also possible. Therefore, omnidirectional speech can be performed. Further, in the configuration in which the corner air outlet (32) is provided in the ceiling-suspended type air conditioner, not only the direction of the air conditioned air blown out at the main air outlet (31) but also the air conditioned air blow out at the corner air outlet (32) The direction can also be adjusted.

  According to an eighth invention, in any one of the first to fifth inventions, the casing (10) is constituted by a ceiling-embedded casing (10) formed in a three-dimensional quadrangle in a plan view. 10) equipped with a quadrilateral decorative panel (15) attached to the lower surface of the main panel (31) provided along the four sides, and the corner outlet provided at the four corners. (32) and a main horizontal blade (33) that adjusts the blowing direction of air from the main air outlet (31), and each corner air outlet (32) has the corner horizontal blade (34). It is characterized by being provided.

  In the eighth aspect of the invention, in addition to the blowout of conditioned air in the four outer directions through the main blowout port (31), the blowout of conditioned air in the obliquely outward direction through the corner blowout port (32) is also possible. Directional speech can be made. Further, in the configuration in which the corner outlet (32) is provided in the ceiling-embedded air conditioner, not only the conditioned air blowing direction at the main outlet (31) but also the conditioned air blowing direction at the corner outlet (32) Can also be adjusted.

  According to a ninth invention, in any one of the first to fifth inventions, the casing (10) is constituted by a ceiling-embedded casing (10) formed in a three-dimensional quadrangle in a plan view. 10) equipped with a quadrilateral decorative panel (15) mounted on the lower surface of the annular panel by combining a plurality of the corner outlets (32) with the decorative panel (15). Each corner outlet (32) is provided with the corner horizontal blade (34).

  In the ninth aspect of the invention, since the annular air outlet (30) is formed by the corner outlet (32), omnidirectional blowing can be performed. Further, when the air blower outlet (30) is configured by combining only the corner blower outlet (32) in the ceiling-embedded air conditioner, the blowing direction of the conditioned air at the corner blower outlet (32) can be adjusted.

  According to this invention, the corner horizontal blade | wing (34) which has the horizontal blade | wing main body (37) which can deform | transform into a planar shape and a cone surface shape is provided in the corner blower outlet (32). Therefore, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is used as a support shaft and the other is displaced, for example, vertically, the first edge (35) serving as a support shaft. Alternatively, although the second edge (36) is curved or bent, the horizontal blade main body (37) is deformed into a planar shape or a conical surface shape, and the angle of the corner horizontal blade (34) can be adjusted. For this reason, the problem of the draft feeling in which air directly hits the person in the blowing direction of the corner outlet (32) can be solved. Moreover, since the blowing direction of the conditioned air can be adjusted over the entire circumference of the air outlet (30), the entire room can be air-conditioned more uniformly than in the past.

  According to the second aspect, since the drive mechanism (40) is provided, the horizontal blade body (37) can be easily set to a planar shape and a conical surface shape using the drive mechanism (40). That is, it is possible to easily change the blowing direction of the conditioned air at the corner outlet (32).

  According to the third aspect of the invention, for example, when the drive motor (41) is started in a state where the first edge (35) is held by the casing (10) via the holding portion (14), the drive motor Since the output of (41) is transmitted to the second edge (36) via the link mechanism (44), the first edge (35) remains fixed as a support shaft, and the second edge (36) Can be displaced. This makes it possible to easily set the horizontal blade body (37) to have a planar shape and a conical surface shape, and thus it is possible to easily change the blowing direction of the conditioned air at the corner outlet (32).

  According to the fourth aspect of the invention, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is displaced up and down with the other as the support shaft, a sheet-like rubber or the like When the horizontal blade body (37) formed of the flexible material expands and contracts, the horizontal blade body (37) changes into a planar shape and a conical surface shape. In this invention, since a sheet-like flexible material can be used as the horizontal blade body (37), the structure of the corner outlet (32) for adjusting the blowing direction of the conditioned air can be simplified.

  According to the fifth aspect, when one of the first edge (35) and the second edge (36) of the corner horizontal blade (34) is displaced up and down with the other as the support shaft, the corner horizontal blade (34) is formed of the cloth material. When the horizontal blade body (37) expands and contracts, the horizontal blade body (37) changes into a planar shape and a conical surface shape. In this invention, since a sheet-like cloth material can be used as the horizontal blade body (37), the structure of the corner outlet (32) for adjusting the blowing direction of the conditioned air can be simplified. Moreover, when the horizontal blade body (37) is formed of a cloth material, it is possible to eliminate dew on the horizontal blade during cooling.

  According to the sixth and seventh inventions described above, in the configuration in which the corner air outlet (32) is provided in the ceiling-suspended air conditioner and the air can be omnidirectionally discharged, the conditioned air at the main air outlet (31) Not only the blowing direction but also the conditioned air blowing direction at the corner outlet (32) can be adjusted. Therefore, the entire room can be uniformly air-conditioned.

  According to the eighth aspect of the invention, in the configuration in which the corner outlet (32) is provided in the ceiling-embedded air conditioner and the omnidirectional blowing is possible, only the blowing direction of the conditioned air at the main outlet (31). In addition, the blowing direction of the conditioned air at the corner outlet (32) can be adjusted. Therefore, the entire room can be uniformly air-conditioned.

  According to the ninth aspect of the present invention, in the configuration in which the annular air outlet (30) is configured by the corner air outlet (32) in the ceiling-embedded air conditioner, and the omnidirectional air outlet is enabled, the corner air outlet Since the air blowing direction in (32) can be adjusted, the entire room can be uniformly air-conditioned. When the air outlet (30) is composed of a main outlet (31) and a corner outlet (32), the distance from the centrifugal fan provided in the casing (10) to the main outlet (31) is relative. When the annular air outlet (30) is configured only by the corner outlet (32), while the distance from the centrifugal fan to the corner outlet (32) is relatively long The distance from the centrifugal fan to each part of the air outlet (30) is uniform, and the amount of blown air becomes constant. Therefore, the effect of uniformly air-conditioning the room can be enhanced.

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

Embodiment 1 of the Invention
A first embodiment of the present invention will be described.

  FIG. 1 is a perspective view of the air conditioner (1) according to Embodiment 1 as viewed from below. This air conditioner (1) is an air conditioner in which an air inlet (20) for sucking room air and an air outlet (30) for blowing conditioned air are formed in a ceiling-suspended casing (10) (1). The casing (10) is formed into a quadrilateral (box) shape in plan view, and the four corners of the quadrangle as viewed from the plane are curved in an arc shape. The air suction port (20) is formed on the bottom surface of the casing (10). In addition, a centrifugal fan and an indoor heat exchanger (not shown) are provided in the casing (10), and the indoor air sucked into the casing (10) by the centrifugal fan is blown out to the outer periphery of the centrifugal fan. It is cooled or heated by an indoor heat exchanger and blown out from the air outlet (30).

  The casing (10) has, as an air outlet (30), a main outlet (31) provided along the four sides of the casing (10) and corner outlets (32) provided at four corners. Is provided. The main air outlet (31) and the corner air outlet (32) are formed on the side surface (11) of the casing (10). The main air outlet (31) has a straight shape because it is formed along the four sides of the casing (10), and the corner air outlet (32) has a curved shape because it is formed in the curved portion of the casing (10). It is. The main outlet (31) is provided with main horizontal blades (33) for adjusting the blowing direction of air from the main outlet (31), although details of the structure are omitted. The main horizontal blade (33) is a horizontal blade having a general structure.

  Each corner outlet (32) is provided with a corner horizontal blade (34). As shown in FIG. 2, the corner horizontal blade (34) is curved corresponding to the corner outlet (32), has a circular shape with a central angle of 90 °, and has a predetermined radial width. It is formed as. The corner horizontal blade (34) includes an inner frame (35) (first edge) located at the inner edge of the corner horizontal blade (34) and an outer frame (36) (second edge) located at the outer edge. And a sheet-like flap (37) (horizontal blade main body) stretched between the inner frame (35) and the outer frame (36).

  The inner frame (35) and the outer frame (36) are formed so as not to be substantially deformed by a material having a predetermined strength such as a hard resin material. On the other hand, the sheet-like flap (37) is formed so as to be easily deformed by a flexible material such as a stretchable cloth material. The sheet-like flap (37) can be deformed as shown in FIGS. 3 (A) and 3 (B) which are cross-sectional structural views of the corner outlet (32). In particular, the sheet-like flap (37) can be deformed into a planar shape as shown in FIG. 3 (A) and a conical shape as shown in FIG. 3 (B). Here, the “conical surface” is used to mean a part of the outer peripheral surface of a cone such as a cone or a pyramid.

  As shown in FIG. 3, the casing (10) includes an upper casing (12) and a lower casing (13), and the inner frame (35) is provided between the upper casing (12) and the lower casing (13). The holding portion (14) is fixed in position.

  The air conditioner (1) is provided with a drive mechanism (40) for adjusting the angle of the corner horizontal blade (34). The lower casing (13) is provided with a pulse motor as a drive motor (41) for adjusting the angle of the corner horizontal blades (34). The output shaft (41a) of the drive motor (41) is connected to the outer frame (36) via a link mechanism (44) composed of a swing lever (42) and an arm (43). When the swing lever (42) is in the upper end position as shown in FIG. 3 (A), the corner horizontal blade (34) is in a horizontal blowing state, and the swing lever (42) is moved as shown in FIG. 3 (B). When in the lower end position, the corner horizontal blade (34) is in a downward blowing state. In this way, the drive mechanism (40) is configured so that the sheet-like flap (37) has a planar shape by displacing the outer frame (36) in the vertical direction while the inner frame (35) is held by the casing (10). And can be set to a conical shape. Further, when the stop position of the pulse motor is controlled to an intermediate position, the sheet-like flap (37) can be set to an intermediate position between FIGS. 3 (A) and 3 (B).

  In order to limit the movable range of the swing lever (42), the lower casing (13) is provided with a stopper and a limit switch (not shown).

  As shown in FIG. 2, the swing lever (42) of the drive mechanism (40) has positions at both ends of the corner horizontal blade (34) (positions of 0 ° and 90 ° in the figure) and an intermediate position ( 45 positions) at a total of three locations. Each swing lever (42) has a swing center side connected by a rod (45) and a universal joint (46), and the three swing levers (42) operate in synchronization. Since the center position of the rod (45) is constant, the outer frame (36) is displaced up and down while maintaining the horizontal state.

  Although not shown, the main horizontal blade (33) of the main outlet (31) is similarly configured to be driven using the swing lever (42) and the arm (43). In particular, a plurality of swing levers (42) that drive the main horizontal blade (33) and corner horizontal blade (34) of this air conditioner (1) are connected to the universal joint (46) only at the corner horizontal blade (34). Are connected using a rod (45) corresponding to the corner horizontal blade (34) and a rod (not shown) corresponding to the main horizontal blade (33). The blades (33, 34) can be driven.

-Driving action-
During the operation of the air conditioner (1), a centrifugal fan (not shown) provided in the casing (10) is started to activate an air suction port (20 provided on the bottom surface of the casing (10)). ) Room air is sucked into the casing (10). The room air is blown out toward the outer periphery of the centrifugal fan, and is cooled or heated through an indoor heat exchanger (not shown). Then, the conditioned air that has passed through the indoor heat exchanger passes through the air outlet (30) and is blown into the room.

  At that time, the direction of blowing out the conditioned air can be adjusted by controlling the drive motor (41). For example, when all the horizontal blades (33, 34) are connected by the link mechanism (44), the operations of all the horizontal blades (33, 34) are synchronized, and the main horizontal blade (33) is in a horizontal blowing state. As shown in FIG. 3 (A), the corner horizontal blade (34) is also in the horizontal blowing state, and when the main horizontal blade (33) is in the downward blowing state, the corner horizontal blade (34) is also shown in FIG. 3 (B). It becomes a lower balloon state. The horizontal blowing state is set, for example, during cooling operation, and the lower blowing state is set, for example, during heating operation. In addition, it is possible to blow out the conditioned air while swinging the horizontal blades (33, 34) up and down regardless of whether it is cooling or heating.

-Effect of Embodiment 1-
According to this Embodiment 1, the corner horizontal blade | wing (34) which has a sheet-like flap (37) which can deform | transform into a planar shape and a cone-shaped shape is provided in the corner blower outlet (32). Therefore, when the outer frame (36) is displaced up and down with the inner frame (35) of the corner horizontal blades (34) as the support shaft, the seat is in spite of the curvature of the inner frame (35) as the support shaft. The shape flap (37) is deformed into a planar shape or a conical surface shape, and the angle of the corner horizontal blade (34) can be adjusted. For this reason, the problem of the draft feeling in which air directly hits the person in the blowing direction of the corner outlet (32) can be solved. Moreover, since the blowing direction of the conditioned air can be adjusted over the entire circumference of the air outlet (30), the entire room can be air-conditioned more uniformly than in the past.

  The drive mechanism (40) is configured to transmit the output of the drive motor (41) to the outer frame (36) using a link mechanism (44) consisting of a swing lever (42) and an arm (43). The corner horizontal blades (34) can be driven with a simple configuration. In particular, when a plurality of rods (45) corresponding to all of the main horizontal blades (33) and the corner horizontal blades (34) are connected via the universal joint (46), all by using only one drive motor (41). The orientation of the horizontal blades (33, 34) can be adjusted.

  Furthermore, in this embodiment, since the sheet-like flap (37) is used as the horizontal blade body of the corner horizontal blade (34), the configuration itself of the corner horizontal blade (34) can be simplified, and the sheet-shaped flap (37 ) Is made of a stretchable cloth material, so that the dew on the corner horizontal blades (34) during cooling can be eliminated.

<< Embodiment 2 of the Invention >>
A second embodiment of the present invention will be described with reference to FIG.

  The second embodiment relates to a ceiling-embedded air conditioner (1). This air conditioner (1) includes a ceiling-embedded casing (10) formed into a quadrilateral solid (box shape) in plan view, and a quadrilateral decorative panel attached to the lower surface of the casing (10). (15).

  In this air conditioner (1), the air outlet (30) is formed in the decorative panel (15). This air blower outlet (30) is comprised from the main blower outlet (31) provided along the four sides of the decorative panel (15), and the corner blower outlet (32) provided in four corners. The main air outlet (31) is provided with main horizontal blades (33) for adjusting the air blowing direction from the main air outlet (31), and each corner air outlet (32) has the corner air outlet (31). Corner horizontal blades (34) for adjusting the direction of air blowing from the outlet (32) are provided.

  Although not shown, the corner horizontal blade (34) is configured in the same manner as in the first embodiment. That is, as shown in FIGS. 2 and 3, the corner horizontal blade (34) includes an inner frame (35), an outer frame (36), and a sheet-like flap (37). It can be set to a planar shape and a conical surface shape.

  The drive mechanism (40) is substantially the same as that shown in FIGS. However, in this embodiment, since the air conditioner (1) is a ceiling-embedded type, although not shown, the drive motor (41) is in the casing (10) above the horizontal blades (33, 34). Is provided. Then, by displacing the swing lever (42), the outer frame (36) is lowered from the position shown in FIG. 4, and the blowing direction of the conditioned air is adjusted.

  Also in the second embodiment, it is possible to achieve substantially the same effect as in the first embodiment.

-Modification of Embodiment 2-
A modification of the second embodiment will be described with reference to FIG.

  This modification relates to the ceiling-embedded air conditioner (1) as in FIG. 4, but the structure of the air outlet (30) is different. Specifically, in the example of FIG. 4, the air outlet (30) is configured by combining the main outlet (31) and the corner outlet (32), whereas in the example of FIG. An annular air outlet is formed by combining four corner air outlets (32). Each corner outlet (32) is formed in a range where the central angle is 90 °.

  Also in this example, the corner horizontal blade (34) and the drive mechanism (40) are configured in the same manner as in the example of FIG. Therefore, by displacing the swing lever (42), the outer frame (36) can be lowered from the position of FIG. 5, and the blowing direction of the conditioned air can be adjusted.

  In the example of FIG. 4, since the distance from the centrifugal fan to the main outlet (31) is short and the distance from the centrifugal fan to the corner outlet (32) is long, the amount of air blown from the main outlet (31) Although the amount of air blown from the corner outlet (32) is slightly different, in this modification shown in FIG. 5, since the air outlet (30) is annular, all the air outlets (30) The distance from the centrifugal fan is the same for the part. Therefore, there is an advantage that the blast air volume of the conditioned air is the same regardless of which part of the air outlet (30) is taken.

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

  For example, in Embodiment 1 described above, the casing (10) has a three-dimensional shape with a quadrilateral shape in plan view and a curved corner. However, the casing (10) has a three-dimensional shape with a circular shape in plan view, and the outlet (30 has a plurality of corners). A combination of the air outlets (32) may also be used, and in this way, as in the modification of the second embodiment, it is possible to obtain an effect that the amount of air conditioned air blown in all directions is the same.

  Moreover, in each said embodiment, although the corner blower outlet (32) is made into the curved shape, you may make it into the bent shape. In that case, the corner horizontal blade (34) may be similarly bent.

  Moreover, in each said embodiment, although the sheet-like flap (37) which is a horizontal blade | wing main body is formed with the elastic cloth material, you may form using a sheet-like rubber material.

  Further, the horizontal blade body (37) does not necessarily have to be formed of a stretchable sheet material, and may be appropriately selected as long as it can be deformed into a planar shape and a conical surface shape, such as a fine bellows-like member. It may be changed.

  The drive mechanism (40) is merely an example, and the configuration may be changed as appropriate. For example, in the above embodiment, all the horizontal blades (33, 34) are driven by one drive motor (41), but a plurality of drive motors (41) may be used. For example, two drive motors (41) may be provided, and half of all horizontal blades (33, 34) may be driven by each drive motor (41).

  Further, in each of the above embodiments, only the ceiling-suspended type and ceiling-embedded air conditioner (1) has been described. However, the present invention describes an air conditioner (1) having a corner outlet (32) in the casing (10). ), The present invention may be applied to, for example, a floor-standing type air conditioner.

  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 the air blowing structure of the casing in the air conditioner.

It is the perspective view which looked at the air harmony device concerning Embodiment 1 of the present invention from the lower part. It is a top view of the corner horizontal blade | wing and drive mechanism of the air conditioning apparatus of Embodiment 1. It is a cross-section figure of the corner blower outlet of the air harmony device of Embodiment 1. It is the perspective view which looked at the air conditioning apparatus which concerns on Embodiment 2 of this invention from the downward direction. It is the perspective view which looked at the air harmony device concerning the modification of Embodiment 2 from the lower part.

Explanation of symbols

1 Air conditioner
10 Casing
11 side
14 Holding part
15 Decorative panel
30 Air outlet
31 Main outlet
32 Corner outlet
33 Main horizontal blade
34 Corner horizontal blade
35 Inner frame (first edge)
36 Outer frame (second edge)
37 Sheet flap (horizontal blade body)
40 Drive mechanism
41 Drive motor
44 Link mechanism

Claims (9)

An air conditioner having an air outlet (30) for blowing out conditioned air is formed in the casing (10), and the air outlet (30) has a curved or bent corner outlet (32),
The corner outlet (32) is provided with a curved horizontal corner (34) corresponding to the corner outlet (32).
The corner horizontal blade (34) includes a first edge (35) located at an inner edge of the corner horizontal blade (34), a second edge (36) located at an outer edge, and a first edge ( 35) An air conditioner having a horizontal blade body (37) provided between the second edge portion (36) and the second edge portion (36) and deformable into a planar shape and a conical surface shape. In claim 1,
The horizontal blade body (37) is flattened and conically shaped by displacing the other one of the first edge (35) and the second edge (36) while being held by the casing (10). An air conditioner comprising a drive mechanism (40) that can be set in shape. In claim 2,
The drive mechanism (40) is provided on the casing (10), a holding portion (14) for holding one of the first edge (35) and the second edge (36) in the casing (10). A drive motor (41), and a link mechanism (44) for transmitting the output of the drive motor (41) to the other of the first edge (35) and the second edge (36). An air conditioner characterized. In any one of Claims 1-3,
The air conditioner characterized in that the horizontal blade body (37) is formed of a sheet-like flexible material having elasticity. In claim 4,
The air conditioner characterized in that the horizontal blade body (37) is formed of a stretchable cloth material. In any one of claims 1 to 5,
The casing (10) is composed of a ceiling-suspended casing (10) formed into a quadrilateral solid in plan view,
The casing (10) includes a main outlet (31) provided along the four sides, and a corner outlet (32) provided at the four corners.
The main horizontal blades (33) for adjusting the air blowing direction from the main air outlet (31) are provided, and each corner air outlet (32) is provided with the corner horizontal blade (34). An air conditioner characterized. In claim 6,
The casing (10) is formed in a shape in which the four corners of the quadrilateral viewed from the plane are curved,
The main air outlet (31) and the corner air outlet (32) are formed in the side surface (11) of the casing (10), and the air conditioner. In any one of claims 1 to 5,
The casing (10) includes a ceiling-embedded casing (10) formed in a quadrilateral solid shape in plan view, and includes a quadrilateral decorative panel (15) attached to the lower surface of the casing (10). ,
The decorative panel (15) includes a main outlet (31) provided along four sides, and a corner outlet (32) provided at four corners,
The main horizontal blades (33) for adjusting the air blowing direction from the main air outlet (31) are provided, and each corner air outlet (32) is provided with the corner horizontal blade (34). An air conditioner characterized. In any one of claims 1 to 5,
The casing (10) includes a ceiling-embedded casing (10) formed in a quadrilateral solid shape in plan view, and includes a quadrilateral decorative panel (15) attached to the lower surface of the casing (10). ,
The decorative panel (15) is formed with an annular air outlet (30) by combining a plurality of the corner outlets (32).
Each of the corner outlets (32) is provided with the corner horizontal blades (34).

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