JP2004084996A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To harmonize appearance design of an indoor unit with furniture and furnishings and increase heat exchange efficiency of a heat exchanger arranged on a rear face of a front panel. <P>SOLUTION: A lower part air suction port 5 is provided in a lower part of the front panel 4, and an air passage receiver 17 rising from the lower part air suction port 5 toward the heat exchanger 9a arranged in a lower part of the indoor unit from the lower part air suction port 5 and forming an S shape is provided. A tip of a tip part 17b of the air passage receiver 17 is directed toward a lower part of the heat exchanger 9a, and indoor air sucked through the lower part air suction port 5 flows along a lower part suction air passage 6 by the air passage receiver 17 and is fed into the lower part of the heat exchanger 9a. The heat exchanger 9a is inclined so that its surface crosses a stream of this air substantially orthogonally. An air passage innermost wall 6a having the same color as the front panel 4 or color different from its color is attached to the air passage receiver 17 so that this air passage innermost wall 6a is visible from the lower part air suction port 5. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an indoor unit of an air conditioner, and more particularly to an air conditioner in which a heat exchanger is divided into a plurality of units in an indoor unit.
[0002]
[Prior art]
The indoor unit of the air conditioner includes a box body formed of a resin forming a rear part of the indoor unit, a decorative cover body forming a front part of the indoor unit, and a blowout forming a lower part of the indoor unit. And a unit. The box body incorporates heat exchangers, blowers, and other equipment that are the functional components of the air conditioner. The decorative cover body includes a front grill that draws indoor air from the front side of the indoor unit, and an indoor grill. An upper air suction grill is provided for sucking room air from the upper surface of the unit, and an air filter is housed inside the grill to face the grills. Further, the blowing unit is provided with a blowing air passage through which air whose temperature and humidity are adjusted by the heat exchanger is circulated, and near the air outlet at the end of the blowing air passage, the air blowing outlet is provided. A wind direction deflecting plate for deflecting the flow of the blowing wind is provided. The indoor air sucked into the indoor unit from the front grill at the front of the indoor unit and the upper air intake grill at the top is removed by an air filter to remove dust and dirt, and the temperature and humidity are adjusted by a heat exchanger. And the air is deflected by the wind direction deflecting plate and blown back into the room from the air outlet.
[0003]
Generally, indoor units of air conditioners are installed in high places near the ceiling of the indoor wall, and the air that matches the temperature and humidity that blows out from the high places harmonizes the indoor space where people live in a comfortable living environment. It is something to do.
[0004]
However, recently, it has not been satisfied just to harmonize the interior space with a comfortable living environment, and while maintaining harmony with other furniture and furnishings placed in the interior space, the interior including the air conditioner has been maintained. The whole is being decorated aesthetically. Therefore, the front grill, which was provided at the front of the indoor unit that can be seen from the living space, has been abolished in order to impair the aesthetic sensation.The front of the indoor unit has a flat plate shape with no indoor air intake. , The indoor air suction port is limited to the upper surface of the indoor unit which is not visible from the living space, and the indoor air is sucked only from the upper air suction grill provided on the upper surface.
[0005]
Then, in order to improve the heat exchange efficiency with the indoor air sucked only from the upper surface of the indoor unit, the heat exchanger incorporated in the indoor unit is divided into a plurality of heat exchangers, and the air sucked from the indoor is divided. The arrangement of these heat exchangers is devised so as not to flow unevenly to either of the above.
[0006]
However, since there is no air suction port on the front panel on the front of the indoor unit, sufficient indoor air does not flow to the heat exchanger disposed on the rear of the front panel, and thus the heat exchanger is used effectively. I couldn't do that.
[0007]
Therefore, in order to improve these problems, for example, in Japanese Utility Model Publication No. Hei 7-52486 (prior art 1), as shown in FIG. 6A, the front panel 21 on the front surface of the indoor unit has no irregularities. It has a flat structure, and indoor air is sucked from the upper air suction panel 22 on the upper surface of the indoor unit. Then, as shown in FIG. 6 (b), the heat exchangers 23 a and 23 b positioned at the upper part of the plurality of divided heat exchangers 23 a to 23 c are arranged in an inverted V-shape, and the rear part of the front panel 21 is arranged. Is arranged substantially upright (that is, substantially parallel to the indoor wall surface, the same applies hereinafter), and in the internal space formed by the heat exchangers such as the heat exchangers 23a to 23c. The blower 24 is arranged so that the indoor air flows evenly from the upper air suction panel 22 through the respective heat exchangers 23a to 23c, thereby effectively utilizing the respective heat exchangers 23a to 23c. Trying to.
[0008]
In addition, Japanese Patent Application Laid-Open No. 2001-41489 (prior art 2) proposes an indoor unit having a configuration as shown in FIG. This is because, in the indoor unit, a flat front panel provided on the front part of the main body is divided into two front panels 31a and 31b arranged in a vertical direction, and a living room is provided between the front panels 31a and 31b. Even when looking up from the space, the front panel 31a, 31b overlaps, so that a space 32 that cannot be seen is provided. As shown in FIG. 7B, the room air is not required to be sucked in from the space 32, and the space 32 is used as an air suction port.
[0009]
In the indoor unit, as shown in FIG. 7B, the heat exchanger is divided into four heat exchangers 33a to 33d, and two of the heat exchangers 33a and 33b are connected to the above-described prior art 1 Similarly to the above, an inverted V-shape is arranged at the upper part in the indoor unit, and the remaining two heat exchangers 33c and 33d are arranged on the back side of the front panel 31b. The heat exchanger 33c is arranged almost upright, but the lowermost heat exchanger 33d is inclined such that the lower side approaches the blower 34 so as to further surround the internal space in which the blower 34 is arranged. It is arranged in the form.
[0010]
With the above-described configuration, in Conventional Example 2, indoor air can be sucked not only from the upper air inlet on the upper surface of the indoor unit but also from the air inlet 32 between the front panels 31a and 31b. Thereby, room air can be circulated also to the heat exchangers 33c and 33d installed on the back side of the front panels 31a and 31b, and the heat exchangers are effectively used.
[0011]
[Problems to be solved by the invention]
By the way, in the prior art 1, as described with reference to FIG. 6, the indoor unit front panel 21 is not provided with the air inlet for the indoor air, and the surface thereof has a flat appearance design with no unevenness, thereby improving the aesthetic appearance of the indoor unit. Let me. Therefore, since the air suction port of the indoor unit is only one place on the upper surface, the heat exchanger to be incorporated in the indoor unit is divided into three, and two of the heat exchangers 23a and 23b are used as the indoor unit. An inverted V-shaped arrangement is provided on the upper surface side, and the remaining heat exchanger 23c is arranged substantially upright on the back surface of the front panel 21, and an internal space formed by being surrounded by these three heat exchangers 23a to 23c. The air blower 24 is arranged in each of the heat exchangers 23a to 23c so that the indoor air flows evenly through the heat exchangers 23a to 23c.
[0012]
However, the heat exchanger 23c disposed almost upright on the rear surface of the front panel 21 has a sufficient flow of indoor air, since it is far from the air suction panel 22 on the upper surface of the indoor unit. Could not.
[0013]
Further, in the prior art 2, as described with reference to FIG. 7, a flat front panel is divided into two front panels 31a and 31b arranged in a vertical direction, and even when looking up from a living space, these front panels 31a and 31b can be seen. 31b overlaps to form a space 32 that is visually invisible, so that room air can be sucked from this space 32. Thereby, indoor air can be sucked in from the front part of the indoor unit, that is, from the front panel side, without impairing the aesthetic appearance of the indoor unit.
[0014]
However, the fact that the air inlet 32 on the front panel side is not visible even when looking up from the living space means that the air inlet 32 is provided above the front panel. As a result, the front panel Again, room air could not sufficiently flow through the heat exchangers 33c and 33d, especially the heat exchanger 33d, disposed on the back side of the air conditioner.
[0015]
An object of the present invention is to solve such a problem, to enable indoor air to be sucked in from the front side of the indoor unit, to increase the heat exchange efficiency of the heat exchanger disposed on the back of the front panel, and to improve the indoor unit. It is an object of the present invention to provide an air conditioner capable of maintaining the appearance of an external design at a front portion.
[0016]
[Means for Solving the Problems]
In order to achieve the object of the present invention, the present invention provides a heat exchanger and a blower, etc., which are divided into a plurality of parts and housed therein. An air conditioner having an indoor unit that sucks indoor air from a panel and blows the room air from a blowing unit on a lower surface of an outer box body in harmony with a heat exchanger, wherein lower air sucks room air into a lower part of a front panel. A suction port is provided, and an air passage receiver is provided for sending room air sucked from the air suction port to a first heat exchanger disposed at a lower portion of the outer box body. The first heat exchanger includes: The upper portion of the first heat exchanger is disposed closer to the front panel side than the lower portion and is inclined with respect to the vertical direction.
[0017]
Further, the air passage receiver has a shape that forms a suction air passage that substantially matches the streamline of the room air sucked from the lower air suction port, and the turbulence of the flow of the indoor air flowing through the suction air passage is reduced. The occurrence can be prevented.
[0018]
Here, the air passage receiver has a rising portion from the lower air inlet and a tip portion, and the tip portion forms a curved surface from the rising portion and switches its direction to the lower side of the first heat exchanger. is there.
[0019]
Alternatively, the air passage receiver comprises a rising portion from the lower air inlet and a tip portion, and the tip portion forms a flat portion bent from the rising portion and switches its direction to the lower side of the first heat exchanger. It is.
[0020]
Further, at the rising portion of the above-mentioned air passage receiver from the lower air inlet, an air passage inner wall which is visually and coloured integrally with the lower air inlet is provided to make it difficult to identify the lower air inlet. is there.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a cross-sectional view showing an indoor unit portion of a first embodiment of an air conditioner according to the present invention, wherein 1 is a box body, 2 is a decorative cover body, 3 is a blowout unit, 4 is a front panel, 5 Is a lower air inlet, 6 is a lower air inlet, 7 is an upper air inlet panel, 8 is an air filter, 9a to 9c are heat exchangers, 10 is a blower, 11 is a dew tray, 12 is an air outlet, 13 is Left and right wind direction deflecting plates, 14 is a vertical wind direction deflecting plate, 15 is a hinge, and 16 is a rotating mechanism.
[0022]
In the figure, a box body of an indoor unit is constituted by a box body 1, a decorative cover body 2 and a blow-out unit 3.
[0023]
The box body 1 incorporates a plurality of divided heat exchangers 9a to 9c and a blower 10, other refrigeration cycle components and electric components (not shown), and the blower 10. Two of the heat exchangers 9a to 9c are arranged in an inverted V-shape on the upper side (upper side in the drawing) of the indoor unit, and the remaining heat exchangers 9a are arranged in the indoor unit. Is positioned slightly below the upright (ie, parallel to the indoor wall surface to which the indoor unit is attached).
[0024]
Further, the decorative cover main body 2 is attached from the upper surface of the box body 1 to the front portion (left side in the drawing), and has a substantially frame shape with the upper surface and the front portion as openings. In addition, a front panel 4 having a flat surface with no unevenness is provided on the front part of the decorative cover main body 2 at the lower end thereof in order to improve the aesthetic appearance of the indoor unit. It is rotatably mounted via a moving mechanism 16. Thus, by pulling the upper side (upper side in the drawing) of the front panel 4 to release the lock to the decorative cover main body 2, the front panel 4 can be rotated downward around the support shaft of the rotation mechanism 16. Thus, the front panel 4 can be opened. With the front panel 4 opened in this manner, the front panel 4 can be removed from the decorative cover main body 2, and the lower end of the air filter 8 can be grasped with a finger and pulled down to remove the air filter 8. It can be easily removed. An upper air suction panel 7 for sucking room air is incorporated in the decorative cover main body 2 so as to face the opening on the upper surface thereof, and the inside of the front panel 4 and the upper air suction panel 7 is incorporated. In order to cover the heat exchangers 9 a to 9 c, the air filter 8 slides on the decorative cover main body 2 through a slide groove (not shown) provided in the decorative cover main body 2 so as to be removable. Installed.
[0025]
The blow-off unit 3 has a blow-out air path 12 in which a left-right wind direction deflecting plate 13 and a vertical wind direction deflecting plate 14 are incorporated, and is rotatably attached to the box body 1 via a hinge 15. The vertical wind direction deflecting plate 14 is located at the position a when the air conditioner is stopped and functions as an external design part, and is located at the position b when the air conditioner is operating and is located at the position b. This is for deflecting and adjusting the up-down flow of the conditioned room air blown out from the room 12. In addition, the solid line and the broken line arrow in the figure respectively indicate the flow of air in the indoor unit when the air conditioner is operating. Here, although not shown, the interior of the indoor unit can be opened from the air outlet side, which is the outlet of the outlet air passage 12, by rotating the outlet unit 3 downward with the hinge 15 as a support shaft. Therefore, it is possible to clean the blow air path 12 and the left and right wind direction deflecting plates 13 incorporated in the blow unit 3 and the like, and since the interior of the indoor unit is opened from the air outlet side, the blower 10 is also exposed. This can be easily cleaned.
[0026]
Here, in the first embodiment, a lower air suction port 5 is further provided at a lower portion of the front panel 4 so that room air can be sucked from the lower air suction port 5. The room air sucked from the lower air suction port 5 is efficiently sent to the heat exchanger 9a disposed on the lower side through the lower suction air passage 6 as shown by a broken line arrow.
[0027]
FIG. 2 is a view showing the lower suction air passage 6 following the lower air suction port 5 in FIG. 1 and the flow of the suction air due to the lower suction air passage 6; FIG. Is a tip portion, and portions corresponding to FIG. 1 are denoted by the same reference numerals, and redundant description is omitted.
[0028]
In the figure, a lower air inlet 5 is provided with a predetermined distance c from an upper end of the blow-out air passage 12 in order to prevent air blown out from a blow-out air passage 12 provided on a lower surface portion of the indoor unit. It is provided only at a distance.
[0029]
An air passage receiver 17 is provided from the vicinity of the lower end of the lower air suction port 5 on the rear surface of the front panel 4 to the lower heat exchanger 9a. Although not shown, the air path receiver 17 is attached to the decorative cover main body 2. A groove 17a is provided on the surface of the air passage receiver 17 on the side of the lower suction air passage 6, and an air passage inner wall 6a formed by rising the wall surface of the front panel 4 is fitted into the groove 17a.
[0030]
The surface of the air path inner wall 6a attached to the groove 17a of the air path receiver 17 rises smoothly with a curved surface corresponding to the streamline of the room air sucked from the lower air suction port 5 side, and the vicinity of the air filter 8 The tip 17b of the air passage receiver 17 changes its direction from the tip of the air passage receiver 17 by drawing a similar curved surface in the opposite direction, and the tip 17b projects in the direction of the heat exchanger 9a. As shown, the cross-sectional shape of the surface of the receiver 17 including the air path inner wall 6a is substantially S-shaped as a whole. When looking up from the living space (for example, the indoor space to which the indoor unit is attached) into the lower air inlet 5, at least the surface of the air passage receiver 17 is visible. It is fitted into a groove 17 a provided in the air passage receiver 17 so as to cover the range where the air flow is lost. Therefore, even if the user looks up from the living space and looks into the inside of the lower air suction port 5, only the surface of the air path inner wall 6a is visible. The surface of the air path inner wall 6a and the surface of the air path receiver 17 other than the groove 19a form a smooth curved surface having a smooth S-shaped cross section as described above.
[0031]
As described above, the surface shape of the air passage receiver 17 having the air passage inner wall 6a is a shape conforming to the streamline of the indoor air sucked from the lower air suction port 5, and the lower suction air passage 6 is Along this streamline. The air flowing along the lower suction air passage 6 is not disturbed by the flow of the lower end of the heat exchanger 9a because the front end 17b of the air passage receiver 17 is directed toward the lower heat exchanger 9a. Sent to Thus, the room air sucked from the lower air suction port 5 is efficiently sent to the heat exchanger 9a so that the flow is not disturbed.
[0032]
That is, the wall surface of the lower intake air passage 6 is composed of an air passage inner wall 6 a and a leading end portion 17 b of an air passage receiver 17 ahead of the lower air inlet wall 6 a. 5 rises smoothly in accordance with the streamline of the indoor air sucked in, and is switched from the end of the air passage inner wall 6a to the end portion 17b of the air passage receiver 17, and the upwardly directed indoor air is substantially 90% at the end portion 17b. ° and turns to the heat exchanger 9a. For this reason, the tip portion 17b is smoothly curved by approximately 90 ° in an arc in accordance with the streamline of air, and has a tip end protruding toward the heat exchanger 9a. The tip of the tip portion 17b is formed so as to face slightly outside the streamline with respect to the streamline, so that air flowing along the air passage receiver 17 can be guided below the heat exchanger 9a.
[0033]
Further, since the front end portion 17b of the air passage receiver 17 is provided from the front end of the air passage back wall 6a, when the indoor unit is looked up from the living space, the interior of the indoor unit passes through the lower air inlet 5. It can be made invisible, and the lower air inlet 5 can be visually and color integrally integrated with the front panel 4 by the wind path inner wall 6a, making it difficult to recognize.
[0034]
Then, the tip of the tip portion 17b is directed slightly toward the outside of the streamline of the room air flowing in the horizontal direction toward the heat exchanger 9a (the portion below the center in the height direction of the heat exchanger 9a). Thereby, the flow of the indoor air is widened, and the generation of the vortex in the flow of the indoor air leaving the distal end portion 17b is prevented. However, as described above, the flow of the indoor air is guided downward with the distal end portion 17b being slightly outside of the streamline, but the indoor air sucked from the lower air suction port 5 is high in the heat exchanger 9a. The streamline is also extended above the center in the vertical direction.
[0035]
Therefore, in the first embodiment, the heat exchanger 9a disposed on the back of the front panel 4 has a durable posture closer to the front panel 4 side than the lower portion, with respect to the virtual vertical plane P (vertical direction). It is installed at an angle of about 10 °. Thereby, the spread flow of the indoor air from the lower suction air passage 6 and the front surface of the heat exchanger 9a intersect at substantially right angles, and the edge effect performed on the end surface of the fin material of the heat exchanger 9a is effective. And the heat exchange efficiency in the heat exchanger 9a can be improved. In general, the heat exchange efficiency of the heat exchanger is such that the heat exchange performed on the end face of the fin material disturbs the flow of wind at the end face of the fin material than the heat exchange performed on the surface of the fins constituting the heat exchanger. It is said that the heat exchange rate is several times as effective because of the edge effect. Also, the edge effect is maximized when the flow of air exchanging heat into the surface of the heat exchanger flows at right angles.
[0036]
As described above, in the first embodiment, the streamline of the room air sucked from the lower air suction port 5 is drawn and spread by the large amount of room air sucked from the upper air suction panel 7 (FIG. 1), Since the heat exchanger 9a flows slightly upward, the heat exchanger 9a is inclined by about 10 ° as described above, so that the room air flowing from the lower air inlet 5 is directed to the heat exchanger 9a at an angle of about 90 °. To be able to flow. As described above, by inclining the heat exchanger 9a so that the front surface of the heat exchanger 9a is in contact with the flow of the indoor air at substantially right angles, the edge effect at the end face of the fin material of the heat exchanger 9a is effective. It is possible to perform more effective heat exchange by using the small amount of indoor air sucked from the small area lower air intake port 5 provided in the lower part of the front panel 4. The required heat exchange capacity can be obtained. .
[0037]
The inclination angle of the heat exchanger 9a includes the amount of room air sucked from the lower air suction port 5, the amount of room air sucked from the upper air suction panel 7 (FIG. 1), the position of the lower air suction port 5, Although it differs depending on the relative relationship such as the position of the exchanger 9a and the position of the blower 10, in the case of the indoor unit of the air conditioner having the configuration and the positional relationship as shown in FIG. Within the range of °, a desired effect can be obtained. In the first embodiment, the inclination angle of the heat exchanger 9a is set to about 10 °, so that effective heat exchange is performed.
[0038]
Further, the air path inner wall 6 a rises upward from the lower end of the lower air suction port 5 on the rear side of the front panel 4 so as to draw an arc, and forms the lower suction air path 6. The wind path inner wall 6a is a wall in which the wall surface of the front panel 4 stands up, and is visually or color identical to or almost identical to the front surface of the front panel 4. For this reason, when the indoor unit is looked up from the living space, the air path inner wall 6 a can be seen behind the lower air intake port 5, and the lower air intake port 5 has a wind behind the lower intake air path 6. Since the lower air intake port 5 is visually and colorically fused with the road inner wall 6a so as to be integrally visible, the lower air suction port 5 is less noticeable in appearance and design. Further, depending on the manner of processing on the design, the back wall 6a of the air passage is made to stand out visually and color differently with respect to the front panel 4, and the lower air inlet 5 is actively produced to blow out. Along with the vertical deflecting plate 14 of the unit 3, the design effect of the external design can be improved as a part of the design part of the indoor unit.
[0039]
FIG. 3 is an external perspective view showing an attached state of the first embodiment shown in FIGS. 1 and 2 in an indoor space, wherein FIG. 3 (a) shows an operation stopped state, and FIG. The operation states are respectively shown, and portions corresponding to FIG. 1 are denoted by the same reference numerals.
[0040]
When the operation of the air conditioner is stopped, as shown in FIG. 3A, when the indoor unit installed above the wall surface (not shown) is looked up from the living space, the front of the indoor unit has a front surface. The front panel 4 has a flat surface with no irregularities. The lower air inlet 5 is formed on the lower surface of the front panel 4. As described above, the lower air inlet 5 is located at the back of the air passage forming the lower suction air passage 6 (FIG. 1). The lower air intake port 5 is integrally formed with the wall 6a in color (that is, the wind path inner wall 6a looks almost the same color as the front panel 4 or stands out with respect to the front panel 4), and the lower air inlet 5 is an exterior of the indoor unit. As a design, it fits comfortably, and only the lower air inlet 5 does not become particularly noticeable. Further, the lower surface portion of the indoor unit is provided with the vertical wind direction deflecting plate 14 which is also formed of a flat surface having no irregularities, which shields the blowing air passage 12 (FIG. 1). The unit has a flat design with no unevenness on the entire appearance, so that the appearance can be improved, and the unit can be harmonized with other furniture and furniture arranged in the room without discomfort.
[0041]
When the power supply of the indoor unit is turned on to put the air conditioner into an operating state, in FIG. 3B, the blower 10 (FIG. 1) rotates to move the room air from the lower air suction port 5 and the upper air suction panel 7 to the room. The air is sucked into the unit, dust and dirt in the air are removed by the air filter 8, and the temperature and humidity of the sucked room air are adjusted by the heat exchangers 9a to 9c (FIG. 1). Then, the conditioned indoor air flows through the blower 10 and is sent out to the blowing air passage 12 (FIG. 1), and the air flow is deflected by the left and right wind direction deflecting plates 13 (FIG. 1) and the vertical wind direction deflecting plate 14. It is blown back into the room as conditioned air with the temperature and humidity removed from the dust. By repeating the flow of the indoor air, the indoor space is adjusted to a comfortable state for human life.
[0042]
In the prior art 1 shown in FIG. 6, as shown in FIG. 6A, the front panel 21 on the front surface of the indoor unit is formed of a flat surface without unevenness, and the front panel 21 is provided with indoor air. No air inlet is provided. Therefore, as shown in FIG. 6B, the indoor air is sucked only from the upper air suction panel 22 on the ceiling of the indoor unit. Then, as shown in FIG. 6 (b), heat exchangers 23a and 23b are arranged in an inverted V-shape on the upper part of the indoor unit, and a heat exchanger 23c is arranged on the back of the front panel 21 so as to be almost upright. Have been. A blower 24 is provided in an internal space surrounded by the heat exchangers 23a to 23c. Thus, by arranging the blower 24 in the internal space surrounded by the heat exchangers 23a to 23c, the room air sucked into the indoor unit from the upper air suction panel 22 uniformly distributes the heat from the respective heat exchangers 23a to 23c. And the heat exchangers 23a to 23c are effectively used.
[0043]
However, the heat exchanger 23c disposed on the back of the front panel 21 is located far from the upper air suction panel 22, and the indoor air is supplied to the heat exchanger 23c between the front panel 21 and the heat exchanger 23c. Due to the narrow ventilation path through which the air flows, and the increased ventilation resistance, it was not possible to sufficiently flow the indoor air through the heat exchanger 23c.
[0044]
In the prior art 2 shown in FIG. 7, as shown in FIG. 7A, the front panel on the front surface of the indoor unit is made up of two vertically arranged front panels 31a and 31b having a flat surface without unevenness. It becomes. An air inlet 32 for sucking indoor air is provided between the front panels 31a and 31b. However, when the indoor unit is looked up from a living space, the front panels 31a and 31b are overlapped and visually recognized. The air intake port 32 is not visible because the air inlet 32 is visible in color and color, so that the aesthetic appearance of the indoor unit is not impaired. On the other hand, the heat exchanger 33 and the blower 34 are arranged as shown in FIG.
[0045]
In the prior art 2, the indoor air sucked from the upper air suction panel is caused to flow through the heat exchangers 33a and 33b arranged at the upper part of the indoor unit to exchange heat, and the heat exchangers 33c and 33d arranged at the back of the front panel 31 are used. Indoor air sucked from an air inlet 32 provided in an intermediate portion of the front panel 31 flows to exchange heat.
[0046]
However, since the air suction port 32 is provided between the front panels 31a and 31b (that is, the intermediate portion of the front panel), the position of the air suction port 32 is located above the indoor unit, and the air suction port is located. Although the room air flowing in from the room 32 was sucked into the blower 34 through the heat exchanger 32c, the room air did not sufficiently flow into the heat exchanger 33d arranged at the lower rear portion of the front panel 31. Therefore, the heat exchanger 33d disposed at the lower rear portion of the front panel 31 has not been fully utilized yet.
[0047]
On the other hand, in the first embodiment, as described with reference to FIGS. 1 to 3, the lower air inlet 5 is provided at the lower portion of the front panel 4, and the lower air inlet 5 is disposed on the back of the front panel 4 from the lower air inlet 5. By forming the lower suction air passage 6 for sending air to the heat exchanger 9a, the room air sucked from the lower air suction port 5 is circulated to the heat exchanger 9a arranged on the back of the front panel 4. This heat exchanger 9a is effectively utilized. By providing the air passage inner wall 6a in the suction air passage 6 at the rear of the lower air inlet 5 provided in the front panel 4, even when the indoor unit is looked up from the living space, the lower air inlet 5 is flat. Harmony with the front panel 4 composed of
[0048]
Next, with reference to FIG. 4, a description will be given of the flow of room air in the case where the front panel 4 is not provided with the lower air suction port 5 in the first embodiment shown in FIG.
[0049]
In this figure, this indoor unit can be switched between a closed state with the front panel 4 at the position d and an open state at the position e instead of the lower air inlet 5 provided in FIG. In this state, the air suction port is formed in the closed state. In other words, the front panel 4 can be stopped at the intermediate position e where the upper part of the front panel 4 is opened with the support shaft of the rotation mechanism 16 as a fulcrum by the rotating mechanism 16 provided below the front panel 4. It has become. Otherwise, the configuration is the same as that of the first embodiment shown in FIG.
[0050]
In such a configuration, when the front panel 4 is at the position d, the room air flowing into the indoor unit is sucked from the upper air suction port 7 and flows as indicated by the solid line. Therefore, the air flowing through the heat exchanger 9c disposed on the rear surface of the front panel 4 almost only passes through the upper part, and does not flow to the lower part including the intermediate part. For this reason, the heat exchanger 9c cannot be used effectively.
[0051]
When the indoor unit is operated in a state where the front panel 4 is rotated to the position e and opened, the amount of air sucked into the indoor unit is determined by the amount of room air sucked from the opening which flows as indicated by a broken arrow. However, the room air flows through the upper half of the heat exchanger 9a disposed on the back of the front panel 4, and therefore, it is necessary to effectively use the heat exchanger 9a. Can not.
[0052]
On the other hand, in the first embodiment shown in FIGS. 1 and 2, the lower air inlet 5 is provided in the lower part of the front panel 4, so that the lower part of the heat exchanger 9 a arranged on the The air can flow effectively, and the heat exchanger 9a is arranged at an angle so that the flow of the room air and the surface of the heat exchanger 9a intersect at a substantially right angle to reduce the edge effect of the fin material. It can be used effectively and the heat exchange efficiency of the heat exchanger 9a can be improved.
[0053]
FIG. 5 is a cross-sectional view showing a main part of an indoor unit of an air conditioner according to a second embodiment of the present invention, and portions corresponding to FIG.
[0054]
In the first embodiment, as described with reference to FIG. 2, the cross section of the air passage receiver 17 has a gently curved shape having a substantially S-shaped cross section. However, in the second embodiment, FIG. As shown in FIG. 5, the air passage receiver 17 has a flat portion 17c that changes the direction of the heat exchanger 9a by approximately 90 ° at a tip portion 17b ahead of the air passage inner wall 6a. Thereby, as shown in FIG. 5, the front-end | tip part 17b will face the lower direction rather than the center of the height direction (vertical direction) of the heat exchanger 9a. Further, the tip of the flat portion 17c may be directed downward, and the tip of the flat portion 17c may be directed further downward of the heat exchanger 9a.
[0055]
According to the configuration of the air passage receiver 17, a slight turbulence occurs in the air flow at the flat portion 17 c, but the air passage inner wall 6 a rises gently along the streamline of the indoor air sucked from the lower air suction port. The indoor air flowing through the lower suction air passage 6 is drawn to the surface of the flat portion 17c, smoothly bends in a substantially horizontal direction, and is sent toward the lower part of the heat exchanger 9a. In the embodiment shown in FIG. 5, a curved surface portion is provided between the upper end of the air passage inner wall 6a and the flat portion 17c so that the flow is bent more smoothly as in the first embodiment. However, even if the curved surface portion is not provided with priority on the manufacturability, the smooth bending of the flow does not have a significant adverse effect.
[0056]
Other configurations such as the inclination of the heat exchanger 9a are the same as those of the first embodiment, and therefore, the second embodiment can also obtain the same effects as those of the first embodiment.
[0057]
As described above, in each of the first and second embodiments, the air flow is provided by having the portion extending in the direction of the heat exchanger 9a so as to be substantially continuous with the upper end of the air passage inner wall 6a. Turns smoothly and flows more in the lower direction of the heat exchanger 9a.
[0058]
In the embodiment shown in FIGS. 1 and 5, similarly to the indoor unit shown in FIG. 4, the front panel 4 can be set to the position e so as to be openable. According to this, as the amount of indoor air sucked from above increases, the indoor air sucked from the lower air suction port 5 of the front panel 4 is pushed down below the heat exchanger 9c, and is drawn below the heat exchanger 9c. More indoor air flows through the portion, and the heat exchange efficiency of the heat exchanger 9c is further improved.
[0059]
Further, in the first and second embodiments, the air path inner wall 6a may rise from the lower end of the lower air inlet 5 in a planar shape.
[0060]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
[0061]
1. By inclining the installation angle of the heat exchanger located on the back of the front panel so as to be perpendicular to the air flowing in from the lower air inlet, more effective use of the edge effect of the fin material Heat exchange can be realized.
[0062]
2. The lower suction air passage at the back of the lower air suction inlet is formed substantially in line with the streamline of the indoor air sucked from the lower air suction inlet, and the tip of the air passage receiver forming the lower suction airflow passage is connected to this streamline. Since it is spread outward, the indoor air flowing through this lower suction air passage has no disturbance in its flow, and is guided to the lower part of the heat exchanger arranged on the back of the front panel, The heat exchange efficiency of the heat exchanger arranged on the rear side is greatly improved.
[0063]
3. A deep air path wall is provided in the back of the lower air intake port provided in the lower part of the front panel, close to the lower air intake port. The lower air suction port can be visually and colorimetrically integrated together without a sense of incongruity, so that the aesthetic appearance of the indoor unit is not spoiled.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an indoor unit in a first embodiment of an air conditioner according to the present invention.
FIG. 2 is a diagram showing a lower suction air passage in FIG. 1 and a flow of air therein.
FIG. 3 is an external perspective view showing an attached state of the indoor unit shown in FIG. 1;
FIG. 4 is a sectional view showing an indoor unit having a configuration shown in FIG. 1 without a lower suction port.
FIG. 5 is a sectional view showing a main part of an indoor unit in an air conditioner according to a second embodiment of the present invention.
FIG. 6 is a diagram illustrating an example of an indoor unit of a conventional air conditioner.
FIG. 7 is a diagram showing another example of the indoor unit of the conventional air conditioner.
[Explanation of symbols]
1 Box body
2 Makeup cover body
3 blowout unit
4 Front panel
5 Lower air inlet
6 Lower suction air passage
7 Upper air suction panel
8 Air filter
9a-9c heat exchanger
10 blower
11 Dew saucer
12 Air outlet
13 Left and right wind direction deflection plate
14 Vertical wind direction deflection plate
15 Hinge
16 Rotation mechanism
17 Airway catch
17a Groove
17b Tip
17c flat part

Claims (5)

Functional components such as a heat exchanger and a blower, which are divided and arranged in a plurality of parts inside the box, are housed, and indoor air is sucked from an upper air suction panel on an upper surface portion of an outer box body, and harmony is performed by the heat exchanger. In an air conditioner having an indoor unit that blows indoors from a blow unit on the lower surface of the outer box body,
A lower air suction port for sucking room air is provided at a lower portion of the front panel, and an air passage receiver for sending room air sucked from the lower air suction port to a first heat exchanger disposed at a lower portion of the outer box body. Provided,
The air is characterized in that the first heat exchanger is arranged so that an upper portion of the first heat exchanger is closer to the front panel side than a lower portion thereof and is inclined with respect to a vertical direction. Harmony machine. In claim 1,
The air passage receiver has a shape that forms a suction air passage substantially matching a streamline of room air sucked from the lower air suction port, and prevents generation of turbulence in the flow of room air flowing through the suction air passage. An air conditioner characterized in that it can be prevented. In claim 1 or 2,
The air passage receiver includes a rising portion from the lower air suction port and a tip portion, and the tip portion forms a curved surface from the rising portion and switches its direction to a lower side of the first heat exchanger. A characteristic air conditioner. In claim 1 or 2,
The air passage receiver includes a rising portion from the lower air inlet and a tip portion, and the tip portion forms a flat portion bent from the rising portion and cuts in a direction toward a lower side of the first heat exchanger. An air conditioner characterized by being replaced. In any one of claims 1 to 4,
At the rising portion of the air passage receiver from the lower air suction port, an air path inner wall that is visually and coloured integrally with the lower air suction port is provided to make it difficult to identify the lower air suction port. A characteristic air conditioner.

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