JP2004170034A - Indoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the dimension of an indoor unit of an air conditioner in a height direction, and sufficiently secure the amount of air passing a heat exchanger covering the rear side of a blower. <P>SOLUTION: The indoor unit 2 of the air conditioner sucking air from the front and top faces thereof comprises an upper casing 6, a cross flow fan 71 (blower), and an indoor heat exchanger 50. The upper casing 6 comprises a front face suction port 601 provided in the front face and a top face suction port 611 provided in the top face and having a suction area larger than that of the front face suction port 601. The cross flow fan 71 generates the flow of the air sucked from the front face suction port 601 and the top face suction port 611. The indoor heat exchanger 50 is formed to have a generally inverse V-shaped cross sectional shape so as to cover the cross flow fan 71, and comprises a third indoor heat exchanger 50c covering the front side of the cross flow fan 71 and a fourth indoor heat exchanger 50d covering the rear side of the cross flow fan 71. Then the bottom ends of the third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d are positioned at the height of the top portion of the cross flow fan 71 or under. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an indoor unit of an air conditioner.
[0002]
[Prior art]
Some indoor units of air conditioners include a heat exchanger, a blower fan, and a casing having a suction port, and air sucked from the suction port by the blower fan passes through the heat exchanger. As the heat exchanger, a heat exchanger having an inverted V-shaped cross section has been often used in recent years, and is arranged so as to cover the front, upper and rear sides of the blower fan. The heat exchanger having such an inverted V-shaped cross-sectional shape is sometimes arranged such that the lower end thereof is positioned below the height of the top portion of the blower fan (see Patent Document 1). Thereby, the arrangement of the heat exchanger can be reduced, and the size of the indoor unit in the height direction can be reduced.
[0003]
[Patent Document 1]
JP-A-2002-195595 (FIG. 2)
[0004]
[Problems to be solved by the invention]
However, when the lower end of the heat exchanger is positioned below the height of the top of the blower fan, the amount of air passing through the portion of the heat exchanger that covers the rear of the blower fan may be reduced. That is, the rear surface of the indoor unit of the air conditioner often faces the indoor wall surface, and it is difficult to sufficiently suck air even if the suction port is provided on the rear surface of the indoor unit. For this reason, it becomes difficult to secure a sufficient amount of air passing through the heat exchanger that covers the rear of the blower fan. If it is not possible to ensure a sufficient amount of air passing through the heat exchanger that covers the rear of the blower fan, the efficiency of the heat exchanger may be reduced.
[0005]
An object of the present invention is to reduce the height dimension of an indoor unit of an air conditioner and to ensure a sufficient amount of air passing through a heat exchanger that covers the rear of a blower fan.
[0006]
[Means for Solving the Problems]
The indoor unit of the air conditioner according to claim 1 is an indoor unit of an air conditioner that sucks air from a front surface and a top surface, and includes a casing, a blower fan, and a heat exchanger. The casing has a front surface suction port provided on the front surface, and a top surface suction port provided on the top surface and having a larger suction area than the front surface suction port. The blower fan generates a flow of air sucked from the front suction port and the top suction port. The heat exchanger is formed to have a substantially inverted V-shaped cross-sectional shape so as to cover the blower fan, and has a front portion covering the front of the blower fan and a rear portion covering the rear of the blower fan. The lower ends of the front part and the rear part are located below the height of the top part of the blower fan.
[0007]
In this indoor unit of the air conditioner, the heat exchanger is formed to have a substantially inverted V-shaped cross-sectional shape so as to cover the blower fan, and the front part and the rear part of the heat exchanger are formed at the top part of the blower fan. Is located below the height. For this reason, the height position of the heat exchanger can be lowered, and the height dimension of the indoor unit of the air conditioner can be reduced. Further, between the front suction port and the top suction port, the suction area of the top suction port is larger. For this reason, air can be sufficiently suctioned from the top surface suction port. Then, the sufficiently sucked air reaches the rear part of the heat exchanger, and the amount of air passing through the rear part can be sufficiently secured. As described above, the size of the indoor unit of the air conditioner in the height direction can be reduced, and the amount of air passing through the heat exchanger that covers the rear of the blower fan can be sufficiently ensured.
[0008]
The indoor unit of the air conditioner according to claim 2 is the indoor unit of the air conditioner according to claim 1, wherein the lower ends of the front part and the rear part are positioned below the height of the rotation center of the blower fan. are doing.
In this indoor unit of the air conditioner, the lower ends of the front part and the rear part are located below the height of the rotation center of the blower fan. For this reason, the height position of the heat exchanger can be further lowered, and the size of the indoor unit of the air conditioner in the height direction can be further reduced.
[0009]
The indoor unit of the air conditioner according to claim 3 is the indoor unit of the air conditioner according to claim 1 or 2, wherein lower ends of the front part and the rear part are located at substantially the same height. .
In this indoor unit of the air conditioner, the lower ends of the front part and the rear part are located at substantially the same height. If the total length of the heat exchanger is the same in side view, it is better for the entire heat exchanger to be at the same height than when the heights of the front lower end and the rear lower end are different from each other. The dimension in the height direction becomes smaller. For this reason, the size of the indoor unit of the air conditioner in the height direction can be further reduced.
[0010]
An indoor unit of an air conditioner according to a fourth aspect is the indoor unit of the air conditioner according to the third aspect, wherein the heat exchanger has a shape that is symmetrical back and forth.
In this indoor unit of the air conditioner, since the heat exchanger has a symmetrical shape in front and rear, the height of the front lower end and the rear lower end of the heat exchanger are the same. For this reason, the height dimension of the heat exchanger as a whole can be made smaller than when the height of the front lower end and the rear lower end of the heat exchanger are different, and the height of the indoor unit of the air conditioner can be reduced. Can be further reduced.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
[Overall configuration of air conditioner]
FIG. 1 shows an appearance of an air conditioner 1 to which an embodiment of the present invention is applied.
The air conditioner 1 includes an indoor unit 2 attached to an indoor wall or the like, and an outdoor unit 3 installed outdoors.
[0012]
An indoor heat exchanger 50 is housed in the indoor unit 2, and an outdoor heat exchanger 30 is housed in the outdoor unit 3. The refrigerant is connected by connecting the heat exchangers 30 and 50 by the refrigerant pipe 4. Make up the circuit.
[Schematic configuration of refrigerant circuit of air conditioner]
FIG. 2 shows the configuration of the refrigerant circuit of the air conditioner 1. This refrigerant circuit mainly includes an indoor heat exchanger 50, an accumulator 31, a compressor 32, a four-way switching valve 33, an outdoor heat exchanger 30, and an electric expansion valve 34.
[0013]
The indoor heat exchanger 50 provided in the indoor unit 2 exchanges heat with the contacting air. Further, the indoor unit 2 is provided with a cross flow fan 71 for sucking indoor air, passing the indoor air through the indoor heat exchanger 50, and discharging the air after the heat exchange to the indoor. The cross flow fan 71 is formed in a long and thin cylindrical shape, and is arranged so that the central axis is parallel to the horizontal direction. The cross flow fan 71 is driven to rotate by an indoor fan motor 72 provided in the indoor unit 2. The detailed configuration of the indoor unit 2 will be described later.
[0014]
The outdoor unit 3 is connected to the compressor 32, a four-way switching valve 33 connected to the discharge side of the compressor 32, the accumulator 31 connected to the suction side of the compressor 32, and connected to the four-way switching valve 33. An outdoor heat exchanger 30 and an electric expansion valve 34 connected to the outdoor heat exchanger 30 are provided. The electric expansion valve 34 is connected to a pipe 41 via a filter 35 and a liquid shutoff valve 36, and is connected to one end of the indoor heat exchanger 50 via the pipe 41. The four-way switching valve 33 is connected to a pipe 42 via a gas closing valve 37, and is connected to the other end of the indoor heat exchanger 50 via the pipe 42. The pipes 41 and 42 correspond to the refrigerant pipe 4 in FIG. Further, the outdoor unit 3 is provided with a propeller fan 38 for discharging the air after the heat exchange in the outdoor heat exchanger 30 to the outside. The propeller fan 38 is driven to rotate by an outdoor fan motor 39.
[0015]
[Configuration of indoor unit]
FIG. 3A is a front view of the indoor unit 2, and FIG. 3B is a side view of the indoor unit 2. The indoor unit 2 has a shape that is long in the horizontal direction when viewed from the front, and has a two-tone color in which colors are vertically divided in a front view and a side view.
The indoor unit 2 mainly includes an upper casing 6, a lower unit 7, and an indoor heat exchanger unit 5 housed inside the indoor unit 2. The upper casing 6 covers the upper part of the indoor unit 2. The lower unit 7 constitutes a lower part of the indoor unit 2. The upper casing 6 and the lower unit 7 are formed separately, and a boundary between the upper casing 6 and a part of the lower unit 7 appears as a horizontal line in the appearance of the indoor unit 2. Further, the upper casing 6 and a part of the lower unit 7 have different colors, and have two-tone colors of different colors vertically above and below a horizontal line which is a boundary between the upper casing 6 and the lower unit 7.
[0016]
Hereinafter, each configuration of the indoor unit 2 will be described.
<Indoor heat exchanger unit>
As shown in FIG. 4, the indoor heat exchanger unit 5 includes an indoor heat exchanger 50, an auxiliary pipe 51, an auxiliary support member 52, and the like. FIG. 4 is a right side view of the indoor unit 2 with the upper casing 6 removed.
[0017]
FIG. 5 shows a side sectional view of the indoor unit 2.
The indoor heat exchanger 50 is attached so as to surround the front, upper and rear sides of the cross flow fan 71, and rotates the cross flow fan 71 so that the air sucked from the suction ports 601 and 611 is passed through the cross flow fan 71. And heat exchange with the refrigerant passing through the inside of the heat transfer tube. The indoor heat exchanger 50 is divided into four parts: a first indoor heat exchanger 50a, a second indoor heat exchanger 50b, a third indoor heat exchanger 50c, and a fourth indoor heat exchanger 50d. The indoor heat exchanger 50 has a generally inverted V-shaped cross-sectional shape in which both ends are bent downward in a side view by joining the indoor heat exchangers 50a, 50b, 50c, and 50d, respectively. Is formed.
[0018]
Each of the indoor heat exchangers 50a, 50b, 50c, 50d has a plate shape that is long in the horizontal direction. Each of the indoor heat exchangers 50a, 50b, 50c, and 50d includes a heat transfer tube that is bent a plurality of times at both ends and a plurality of strip-shaped fins through which the heat transfer tube is inserted. The heat transfer tubes are folded at both ends of each of the indoor heat exchangers 50a, 50b, 50c, 50d by U-shaped heat transfer tubes.
[0019]
The first indoor heat exchanger 50a has an upper end inclined toward the front of the indoor unit 2, and is disposed so as to cover the upper part of the cross flow fan 71 from the upper center to the rear.
The upper end of the second indoor heat exchanger 50b is inclined rearward of the indoor unit 2, and is disposed in front of the first indoor heat exchanger 50a. The upper end of the second indoor heat exchanger 50b is joined to the upper end of the first indoor heat exchanger 50a, and the first indoor heat exchanger 50a and the second indoor heat exchanger 50b are inverted V-shaped in side view. Combined to become a type. The second indoor heat exchanger 50b is arranged so as to cover the front upper part from the center upper part of the cross flow fan 71.
[0020]
The third indoor heat exchanger 50c is disposed below the second indoor heat exchanger 50b so as to cover the front of the cross flow fan 71. The upper end of the third indoor heat exchanger 50c is joined at an angle to the lower end of the second indoor heat exchanger 50b, and an obtuse angle is formed by the third indoor heat exchanger 50c and the second indoor heat exchanger 50b. ing. The third indoor heat exchanger 50c is parallel to the height direction, that is, the vertical direction, and is perpendicular to the lower unit 7 that covers a horizontal plane below the indoor heat exchanger 50. The lower end of the third indoor heat exchanger 50c is the lower end of the indoor heat exchanger 50, and the lower end of the third indoor heat exchanger 50c, that is, the lower end on the front side of the indoor heat exchanger 50 is a cross flow fan 71. Are located at substantially the same height as the central axis of the.
[0021]
The fourth indoor heat exchanger 50d is disposed below the first indoor heat exchanger 50a so as to cover the rear of the cross flow fan 71. The upper end of the fourth indoor heat exchanger 50d is joined at an angle to the lower end of the first indoor heat exchanger 50a, and an obtuse angle is formed by the fourth indoor heat exchanger 50d and the first indoor heat exchanger 50a. Have been. The fourth indoor heat exchanger 50d is parallel to the height direction, and is perpendicular to the lower unit 7 that covers a horizontal plane below the indoor heat exchanger 50. The lower end of the fourth indoor heat exchanger 50d is the lower end of the rear side of the indoor heat exchanger 50, and the lower end of the fourth indoor heat exchanger 50d, that is, the lower end of the rear side of the indoor heat exchanger 50 is , Are located at substantially the same height as the central axis of the cross flow fan 71.
[0022]
The third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d have the same length in the height direction, and the upper and lower ends of the third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d. Are located at the same height. Therefore, the lower end on the front side and the lower end on the rear side of the indoor heat exchanger 50 are at the same height, and are located at substantially the same height as the central axis of the cross flow fan 71. The front lower end and the rear lower end of the indoor heat exchanger 50 extend vertically downward from the lower front and rear ends of the inverted V-shaped portion to substantially the same height as the center axis of the cross flow fan 71.
[0023]
The first indoor heat exchanger 50a, the second indoor heat exchanger 50b, the third indoor heat exchanger 50c, and the fourth indoor heat exchanger 50d are fixed to both ends (left and right ends in a front view), respectively. By being mutually fixed by the plate, they are integrally joined to form the indoor heat exchanger 50. The indoor heat exchanger 50 includes an inverted V-shaped portion formed by the first indoor heat exchanger 50a and the second indoor heat exchanger 50b, the first indoor heat exchanger 50a, and the second indoor heat exchanger 50b. And has a cross-sectional shape in which a straight portion extending downward in the vertical direction from the lower end of each is combined. The indoor heat exchanger 50 has a cross-sectional shape that is symmetrical about the straight line passing through the apex of the inverted V-shape and parallel to the vertical direction. The first indoor heat exchanger 50a and the second indoor heat exchanger 50b Also, the third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d are symmetrical in the front-rear direction. The indoor heat exchanger 50 is formed in a cross-sectional shape including the inverted V-shape that is symmetrical in the front-back direction as described above in a side view, but has a shape that is long in a lateral direction in a front view.
[0024]
The auxiliary pipe 51 connects the indoor heat exchanger 50 and the refrigerant pipe 4 outside the indoor unit 2, and the refrigerant flowing between the indoor heat exchanger 50 and the outdoor heat exchanger 30 flows. The auxiliary pipe 51 is connected to a heat transfer pipe of the indoor heat exchanger 50, as shown in FIGS. FIG. 6 is a top view of the right side portion of the indoor unit 2 from which the upper casing 6 has been removed. The auxiliary pipe 51 protrudes from the right side surface of the indoor heat exchanger 50 and is routed in a space on the right side of the indoor heat exchanger 50. The auxiliary pipe 51 is bent toward the rear side of the indoor unit 2 after projecting from the right side surface of the indoor heat exchanger 50, and a plurality of auxiliary pipes 51 are collectively covered by a protection tube 53. The assembled auxiliary pipe 51 extends downward in the space on the right side of the indoor heat exchanger 50 along the back side of the indoor unit 2 and faces the left side surface of the indoor unit 2 in the lower rear space of the indoor unit 2. And is connected to the refrigerant pipe 4.
[0025]
The auxiliary support members 52 are provided near both side surfaces of the indoor heat exchanger 50, and support the indoor heat exchanger 50 from inside as shown in FIG. Since the indoor heat exchanger unit 5 has an inverted V-shape and is open at the lower side, the indoor heat exchanger unit 5 is covered from above on the lower unit 7 to which the cross flow fan 71 and the indoor fan motor 72 are attached. , And is supported by the lower unit 7 via the auxiliary support member 52.
[0026]
<Upper casing>
As shown in FIGS. 3 and 5, the upper casing 6 constitutes an upper portion of the indoor unit 2, and includes an upper front portion 60, a top surface portion 61, and upper side portions 62 and 63.
The upper front part 60 covers the upper front part of the indoor unit 2 and covers the front of the indoor heat exchanger 50. The upper front surface part 60 is formed substantially flat, and a step is provided in a part thereof. On the upper surface of this step, there is provided a front suction port 601 formed of a slit-like opening long in the longitudinal direction of the indoor unit 2. The front suction port 601 is provided upward of the indoor unit 2.
[0027]
The top surface portion 61 covers the top surface of the indoor unit 2 and covers the upper part of the indoor heat exchanger 50. The top surface portion 61 is provided with a top surface suction port 611 composed of a plurality of slit-shaped openings. The top surface suction port 611 is provided from the front side to the rear side of the top surface portion 61, and has a larger suction area than the front surface suction port 601. For this reason, air is sufficiently sucked in from the rear side of the top surface of the indoor unit 2.
[0028]
The upper side surfaces 62 and 63 cover the upper side surface of the indoor unit 2 and cover the side of the indoor heat exchanger 50. The upper side surfaces 62 and 63 include an upper right side surface portion 62 and a left upper side surface portion 63. The upper right side surface portion 62 is disposed on the right side of the indoor heat exchanger 50 in a front view, and the upper left side surface portion 63 is a room heat exchanger. It is arranged on the left side of the container 50.
Further, the lower end of the upper casing 6 is formed horizontally, and the upper casing 6 is covered by the lower unit 7, so that the boundary between the upper casing 6 and the lower unit 7 becomes a horizontal line, and Appears in the appearance in side view.
[0029]
<Lower unit>
The lower unit 7 constitutes a lower portion of the indoor unit 2, and as shown in FIGS. 7 and 8, a lower casing 70, a cross flow fan 71, an indoor fan motor 72, an electrical component box 73, and the like are modularized. It is configured.
(Lower casing)
The lower casing 70 includes a lower front portion 74, a bottom portion 75, lower side portions 76 and 77, a support portion 78, and the like, and has a color different from that of the upper casing 6.
[0030]
The lower front part 74 is a part that appears in the field of view as the lower front part of the indoor unit 2 when viewed from the front, and is arranged such that the upper end is inclined toward the front side of the indoor unit 2. As shown in FIG. 3A, the upper end of the lower front part 74 is formed horizontally, and forms a horizontal boundary with the lower end of the upper casing 6. The lower front part 74 is provided with an outlet 741 formed of an opening along the longitudinal direction of the indoor unit 2. As shown in FIG. 5, the outlet 741 communicates with the space inside the support portion 78 in which the cross flow fan 71 is housed, and the air flow generated by the cross flow fan 71 passes through the outlet 741. Pass through and blow into the room. Further, the outlet 741 is provided with a horizontal flap 742 for guiding the air blown into the room. The horizontal flap 742 is rotatably provided around an axis parallel to the longitudinal direction of the indoor unit 2, and opens and closes the outlet 741 by being rotationally driven by a flap motor (not shown). be able to.
[0031]
The bottom surface portion 75 covers the bottom surface of the indoor unit 2 and is formed flat. The bottom part 75 is horizontally arranged, and the support part 78 is arranged thereon.
The lower side surfaces 76 and 77 are portions that appear in the field of view as lower side surfaces of the indoor unit 2 in side view, and cover the lower side surfaces of the indoor unit 2. The lower side portions 76 and 77 include a lower right side portion 76 and a lower left side portion 77. The lower right side portion 76 is disposed on the right side of the indoor unit 2 in a front view, and the lower left side portion 77 is an indoor heat exchanger. It is located to the left of 50. The upper ends of the lower side surfaces 76 and 77 are formed horizontally like the lower front surface 74. In a state where the upper casing 6 is covered with the lower unit 7, the lower end of the upper casing 6 and the upper ends of the lower front surface 74 and the lower side surfaces 76 and 77 of the lower unit 7 coincide with each other to form a horizontal boundary line. You.
[0032]
The support part 78 is surrounded by a lower front part 74, a bottom part 75, and lower side parts 76, 77, and the upper surface of the support part 78 is located above the upper ends of the lower front part 74 and the lower side parts 76, 77. are doing. The cross flow fan 71, the indoor fan motor 72, the electrical component box 73, the indoor heat exchanger unit 5 and the like are attached to the support portion 78 from above, and the cross flow fan 71, the indoor fan motor 72, the electrical component box 73, and the indoor The heat exchanger unit 5 and the like are supported from below.
[0033]
The support portion 78 supports the indoor heat exchanger 50 via the auxiliary support member 52 of the indoor heat exchanger unit 5. The upper surface of the support portion 78 is approximately the same height as the center axis of the cross flow fan. As shown in FIG. 7, drain pans 781 and 782 and a fan accommodating section 787 are provided on the upper surface of the support section 78.
The drain pans 781 and 782 are portions that receive water droplets generated on the surface of the indoor heat exchanger 50 during heat exchange, and are formed by concave members that are recessed downward from the upper surface of the support portion 78. The drain pans 781 and 782 include a front drain pan 781 and a rear drain pan 782. As shown in FIG. 5, the front drain pan 781 is located below the third indoor heat exchanger 50c, that is, the front lower end of the indoor heat exchanger 50. It is arranged below. The rear drain pan 782 is disposed below the fourth indoor heat exchanger 50d, that is, below the lower rear end of the indoor heat exchanger 50. The front drain pan 781 and the rear drain pan 782 are arranged before and after the cross flow fan 71. The front drain pan 781 and the rear drain pan 782 are located at substantially the same height, and the bottom surfaces of the front drain pan 781 and the rear drain pan 782 are lower than the height of the center axis of the cross flow fan 71, but the indoor heat It is arranged close to the lower end of the exchanger 50. The front drain pan 781 and the rear drain pan 782 each have a bottom surface for receiving drain water slightly inclined to the right side of the indoor unit 2. As shown in FIG. 8, a communication portion 783 that connects the front drain pan 781 and the rear drain pan 782 is provided on the right portion of the support portion 78, and penetrates downward through the communication portion 783. A drain hole 784 is provided. As shown in FIG. 9, the drain hole 784 communicates with the inside of a drain hose 785 for discharging drain water from drain pans 781 and 782 to the outside. Drain water dropped from the indoor heat exchanger 50 is received by the front drain pan 781 and the rear drain pan 782, collected at the communication portion 783, and discharged from the drain hole 784 through the drain hose 785 to the outside of the machine.
[0034]
The fan accommodating portion 787 is a portion for accommodating the cross flow fan 71 and the indoor fan motor 72, and is provided near the center of the upper surface of the support portion 78. The fan accommodating portion 787 is formed of a member that is recessed in a semi-cylindrical shape downward from the upper surface of the support portion 78, and accommodates the lower half of the cross flow fan 71 and the indoor fan motor 72. Further, inside the support portion 78, an air path for communicating the accommodated cross flow fan 71 and the outlet 741 is provided.
[0035]
The support portion 78 has a tongue portion 786 projecting upward from the upper surface of the support portion 78 between the rear drain pan 782 and the cross flow fan 71. The tongue 786 covers the rear of the cross flow fan 71, and the upper end of the tongue 786 is located at a height slightly lower than the top of the cross flow fan 71.
As described above, the front drain pan 781, the rear drain pan 782, and the fan accommodating portion 787 are provided on the upper surface of the support portion 78, and the tongue portion 786 projects upward, but the other portion of the upper surface of the support portion 78 is substantially flat. In addition, it is formed horizontally, and is located at substantially the same height as the center line of the cross flow fan 71.
[0036]
As described above, the highest portion of the support portion 78 is the tongue portion 786, but the tongue portion 786 is located below the height of the top portion of the cross flow fan 71. The upper surface of the support portion 78 is located above the upper ends of the lower front surface portion 74 and the lower side surface portions 76 and 77. Therefore, each portion of the lower casing 70 including the support portion 78 is lower than the height of the top portion of the cross flow fan 71.
[0037]
Note that the rear side of the upper surface of the support portion 78 is also equal to or less than the height of the cross flow fan 71, but the portion between the top surface portion 61 of the upper casing 6 and the rear side of the upper surface of the support portion 78 is indoors. It is closed by the mounting plate 8 attached to the wall surface (see FIG. 5). The installation plate 8 has substantially the same length as the indoor heat exchanger 50 in the longitudinal direction of the indoor unit 2 and covers the rear side of the indoor heat exchanger 50. The installation plate 8 covers the rear side of the indoor unit 2 to form an air flow passage through which air exchanged by the indoor heat exchanger 50 passes, together with the upper casing 6, and particularly forms a rear air flow passage. are doing.
[0038]
(Cross flow fan)
The cross flow fan 71 is formed in a long and thin cylindrical shape, and is arranged so that the central axis is horizontal. Blades are provided on the peripheral surface of the cross flow fan 71, and the cross flow fan 71 rotates around a central axis to generate an air flow. This air flow is a flow of air that is taken in from the front suction port 601 and the top suction port 611, passes through the indoor heat exchanger 50, and blows out from the outlet 741 into the room. The cross flow fan 71 is located substantially at the center of the indoor unit 2 in a side view. The cross flow fan 71 is supported by the support portion 78, and the upper half of the supported cross flow fan 71 protrudes upward from the upper surface of the support portion 78.
[0039]
(Indoor fan motor)
The indoor fan motor 72 drives the cross flow fan 71 to rotate about a central axis. The indoor fan motor 72 has a thin cylindrical shape having substantially the same diameter as the cross flow fan 71. As shown in FIG. 8, the indoor fan motor 72 is disposed coaxially with the cross flow fan 71 on the right side of the cross flow fan 71, and when the indoor fan motor 72 is attached to the support 78, The heights of the motor 72 and the top of the cross flow fan 71 are substantially the same (see FIG. 7).
[0040]
(Electric component box)
The electrical component box 73 contains a control board 731 for controlling the operation of the indoor unit 2 as shown in FIGS. The electrical component box 73 has a rectangular parallelepiped box shape, is disposed between the lower right side surface portion 76 of the lower casing 70 and the support portion 78, and is located on the right side of the indoor heat exchanger unit 5. . The electrical component box 73 is mounted and supported on the right side of the support unit 78 on the right side of the indoor fan motor 72, and is mounted on the support unit 78 before the indoor heat exchanger unit 5 is mounted on the lower unit 7. Can be. Further, the electrical component box 73 is disposed closer to the front side, and the space behind the electrical component box 73 is a space through which the auxiliary piping 51 of the indoor heat exchanger unit 5 described above passes. In the electrical component box 73, among the control components attached to the control board 731, the high-power components 732 such as a capacitor and a power transistor having a large capacity are arranged so as to be arranged in the axial direction with the indoor fan motor 72, and the indoor view in the side view. The fan motor 72 and the electrical component box 73 are arranged so as to overlap. Further, the upper surface of the electrical component box 73 is located at substantially the same height as the top of the indoor fan motor 72, that is, the top of the cross flow fan 71 when supported by the lower casing 70.
[0041]
As described above, all parts of the indoor fan motor 72, the electrical component box 73, and the lower casing 70 are positioned below the height of the top of the crossflow fan 71 supported by the lower casing 70, The unit 7 has a shape whose dimensions are relatively small in the height direction as a whole.
〔Characteristic〕
(1)
In the indoor unit 2 of the air conditioner 1, the indoor heat exchanger 50 is formed to have a substantially inverted V-shaped cross-sectional shape so as to cover the cross flow fan 71. The lower end and the lower end on the rear side are located at substantially the same height as the central axis of the cross flow fan 71. For this reason, the height position of the indoor heat exchanger 50 is relatively low. Therefore, the height dimension of the indoor unit 2 of the air conditioner 1 including the indoor heat exchanger 50 is also reduced.
[0042]
(2)
In the indoor unit 2 of the air conditioner 1, the indoor heat exchanger 50 is arranged so as to cover the front, upper and rear sides of the cross flow fan 71, and is arranged so as to surround the cross flow fan 71. Therefore, the air generated by the cross flow fan 71 sufficiently passes through the indoor heat exchanger 50. Further, between the front suction port 601 and the top suction port 611, the top suction port 611 has a larger suction area, and the top suction port 611 extends from the front to the rear of the top 61 of the upper casing 6. Is provided. Therefore, the air sucked from the top surface suction port 611 sufficiently reaches the rear side inside the indoor unit 2. Therefore, in the indoor unit 2 of the air conditioner 1, a sufficient amount of air passes through the fourth indoor heat exchanger 50d that covers the rear of the cross flow fan 71. As described above, in the indoor unit 2 of the air conditioner 1, a sufficient amount of air passes through the fourth indoor heat exchanger 50d that covers the rear of the cross flow fan 71.
[0043]
(3)
In the indoor unit 2 of the air conditioner 1, the lower end on the front side and the lower end on the rear side of the indoor heat exchanger 50 are located at substantially the same height. For this reason, the dimension of the entire indoor heat exchanger 50 in the height direction is relatively small. As an example, FIG. 10A shows the indoor heat exchanger 50 in which the front lower end and the rear lower end are at the same height, and FIG. 10B shows the front lower end and the rear lower end. 5 shows the virtual indoor heat exchanger 500 having different heights. The virtual indoor heat exchanger 500 has the same total length as the indoor heat exchanger 50 in side view, and the lower end on the front side is lower than the lower end on the rear side. The first indoor heat exchanger 500a and the second indoor heat exchanger 500b of the virtual indoor heat exchanger 500 have the same shape as the first indoor heat exchanger 50a and the second indoor heat exchanger 50b of the indoor heat exchanger 50. And have the same length. The third indoor heat exchanger 500c of the virtual indoor heat exchanger 500 is arranged horizontally in the height direction like the third indoor heat exchanger 50c of the indoor heat exchanger 50. Has a length in the height direction about 1.5 times that of the third indoor heat exchanger 50c. The fourth indoor heat exchanger 500d of the virtual indoor heat exchanger 500 is arranged horizontally in the height direction similarly to the fourth indoor heat exchanger 50d of the indoor heat exchanger 50. Of the fourth indoor heat exchanger 50d. Therefore, the total length of the indoor heat exchanger 50 obtained by summing the lengths of the first indoor heat exchanger 50a, the second indoor heat exchanger 50b, the third indoor heat exchanger 50c, and the fourth indoor heat exchanger 50d in a side view is shown. , The total length of the virtual indoor heat exchanger 500 obtained by summing the lengths of the first indoor heat exchanger 500a, the second indoor heat exchanger 500b, the third indoor heat exchanger 500c, and the fourth indoor heat exchanger 500d in a side view. Are almost the same.
[0044]
As can be seen by comparing FIGS. 10A and 10B, if the total length of the indoor heat exchanger 50 and the total length of the virtual indoor heat exchanger 500 are the same in a side view, the indoor heat exchanger A height dimension H1 of the entire virtual indoor heat exchanger 500 is smaller than a height dimension H2 of the entire virtual indoor heat exchanger 500. For this reason, the height dimension of the indoor unit 2 of the air conditioner 1 including the indoor heat exchanger 50 is also relatively small.
[0045]
(4)
In the indoor unit 2 of the air conditioner 1, the indoor heat exchanger 50 is formed in a symmetrical shape in front and rear. Therefore, the indoor heat exchanger 50 can be configured by combining heat exchangers having a common shape before and after. Thereby, the manufacturing cost of the indoor heat exchanger 50 can be reduced. Specifically, the first indoor heat exchanger 50a and the second indoor heat exchanger 50b, or the third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d are manufactured using fins and fixed plates having a common shape, respectively. Cost can be reduced by sharing parts.
[0046]
Further, the first indoor heat exchanger 50a and the second indoor heat exchanger 50b, and the third indoor heat exchanger 50c and the fourth indoor heat exchanger 50d can be manufactured using a common manufacturing apparatus. The manufacturing apparatus referred to herein includes a press, a fin type, a pipe insertion machine, a pipe expander, a brazing machine, a precision testing machine, a dryer, a transporter, and the like.
As described above, according to the method for manufacturing the air conditioner group, the manufacturing cost of the indoor heat exchanger 50 can be reduced.
[0047]
In addition, even if the indoor heat exchanger 50 does not have completely the same shape before and after, as long as the indoor heat exchanger 50 has substantially the same shape, the manufacturing apparatus and the manufacturing process can be shared.
[Other embodiments]
In the above embodiment, the lower end of the indoor heat exchanger 50 is located at substantially the same height as the center axis of the cross flow fan 71, but the lower end of the indoor heat exchanger 50 is not limited to this. Alternatively, as long as the height is equal to or less than the height of the top of the cross flow fan 71, the position may be different from the center axis of the cross flow fan 71.
[0048]
【The invention's effect】
In the indoor unit of the air conditioner according to claim 1, the heat exchanger is formed to have a substantially inverted V-shaped cross-sectional shape so as to cover the blower fan, and a front part and a rear part of the heat exchanger are: It is located below the height of the top of the blower fan. For this reason, the height position of the heat exchanger can be lowered, and the height dimension of the indoor unit of the air conditioner can be reduced. Further, between the front suction port and the top suction port, the suction area of the top suction port is larger. For this reason, air can be sufficiently suctioned from the top surface suction port. Then, the sufficiently sucked air reaches the rear part of the heat exchanger, and the amount of air passing through the rear part can be sufficiently secured. As described above, the size of the indoor unit of the air conditioner in the height direction can be reduced, and the amount of air passing through the heat exchanger that covers the rear of the blower fan can be sufficiently ensured.
[0049]
In the indoor unit of the air conditioner according to the second aspect, the lower ends of the front part and the rear part are located below the height of the rotation center of the blower fan. For this reason, the height position of the heat exchanger can be further lowered, and the size of the indoor unit of the air conditioner in the height direction can be further reduced.
In the indoor unit of the air conditioner according to the third aspect, the lower ends of the front part and the rear part are located at substantially the same height. If the total length of the heat exchanger is the same in side view, it is better for the entire heat exchanger to be at the same height than when the heights of the front lower end and the rear lower end are different from each other. The dimension in the height direction becomes smaller. For this reason, the size of the indoor unit of the air conditioner in the height direction can be further reduced.
[0050]
In the indoor unit of the air conditioner according to the fourth aspect, since the heat exchanger has a symmetrical shape in front and rear, the height of the front lower end and the rear lower end of the heat exchanger are the same. For this reason, the height dimension of the heat exchanger as a whole can be made smaller than when the height of the front lower end and the rear lower end of the heat exchanger are different, and the height of the indoor unit of the air conditioner can be reduced. Can be further reduced.
[Brief description of the drawings]
FIG. 1 is an external view of an air conditioner.
FIG. 2 is a configuration diagram of a refrigerant circuit.
FIG. 3A is a front view of an indoor unit.
(B) A right side view of the indoor unit.
FIG. 4 is a right side view of the indoor unit with an upper casing removed.
FIG. 5 is a right side sectional view of the indoor unit.
FIG. 6 is a top view of the right side portion of the indoor unit from which the upper casing has been removed.
FIG. 7 is a right side view of the lower unit.
FIG. 8 is a top view of the right part of the lower unit.
FIG. 9 is a right side sectional view of the lower unit.
FIG. 10 is a diagram illustrating a comparison between a height dimension of an indoor heat exchanger having a lower end located at the same height and a height dimension of an indoor heat exchanger having a lower end located at a different height.
[Explanation of symbols]
1 air conditioner 2 indoor unit 6 upper casing (casing)
50 Indoor heat exchanger (heat exchanger)
50c 3rd indoor heat exchanger (front)
50d 4th indoor heat exchanger (rear)
71 Cross flow fan (blowing fan)
601 Front suction port 611 Top suction port

Claims (4)

An indoor unit (2) of an air conditioner (1) that sucks air from a front surface and a top surface, wherein a front suction port (601) provided on a front surface and a front suction port (601) provided on a top surface are provided. A casing (6) having a top surface suction port (611) having a large suction area;
A blower fan (71) for generating a flow of air sucked from the front suction port (601) and the top suction port (611);
A front portion (50c) is formed to have a substantially inverted V-shaped cross-sectional shape so as to cover the blower fan (71), and covers a front portion of the blower fan (71), and a rear portion of the blower fan (71). A heat exchanger (50) having a rear (50d) covering
With
The lower ends of the front part (50c) and the rear part (50d) are positioned below the height of the top part of the blower fan (71).
The indoor unit (2) of the air conditioner (1). The lower ends of the front part (50c) and the rear part (50d) are positioned below the height of the rotation center of the blower fan (71).
The indoor unit (2) of the air conditioner (1) according to claim 1. The lower ends of the front part (50c) and the rear part (50d) are located at substantially the same height.
The indoor unit (2) of the air conditioner (1) according to claim 1 or 2. The heat exchanger (50) has a symmetrical shape back and forth;
The indoor unit (2) of the air conditioner (1) according to claim 3.

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