JP3680148B2 - Air conditioner outdoor unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an outdoor unit of an air conditioner.
[0002]
[Prior art]
  2. Description of the Related Art Conventionally, as an air conditioner, a so-called separate type apparatus that is configured by connecting an outdoor unit and an indoor unit by piping is known. Further, as the outdoor unit, a horizontal blowing type is known in which outside air is sucked from the front and side surfaces and exhausted to the back side.
[0003]
  This type of outdoor unit blows out air in the horizontal direction, so it has a great restriction on installation, for example, it must be installed away from the wall. In addition, when an outdoor unit is installed facing a sidewalk or the like, the air after heat exchange is blown out toward the pedestrian, which may cause discomfort.
[0004]
  In consideration of such points, an up-blowing outdoor unit as disclosed in, for example, Japanese Patent Laid-Open No. 2000-18649 has been proposed. This type of outdoor unit sucks air from the front and blows the air after heat exchange upward. Specifically, in this top blow type outdoor unit, two mixed flow fans arranged vertically are provided, and two passages are formed inside the casing. In this outdoor unit, the blown air from the upper mixed flow fan flows through one passage, and the blown air from the lower mixed flow fan flows through the other passage.
[0005]
[Problems to be solved by the invention]
  However, in the above-described outdoor type outdoor unit, since the outlet is provided only on the upper surface of the casing, it is impossible to ensure a sufficient opening area of the outlet when the outdoor unit is kept small. Therefore, in this type of outdoor unit, the ventilation resistance in the air passage in the casing is increased, and the blowing ability of the fan cannot be sufficiently exhibited. In particular, for the fan arranged below, the distance to the air outlet opening on the upper surface of the casing becomes longer, and the pressure loss until the air blown from the fan reaches the air outlet becomes large. I couldn't make it work. For this reason, in said outdoor unit, there existed a problem that sufficient air-conditioning capability was not acquired because the ventilation volume of a fan was insufficient.
[0006]
  In addition, the conventional top blow type outdoor unit has a problem that the ventilation resistance in the casing is large, and the turbulence of the air flow in the air passage increases to increase the blowing sound. In particular, the air blown downward from the fan fan disposed below is unlikely to flow toward the upper air outlet. For this reason, the pressure distribution in the circumferential direction of the lower fan is increased, and this also increases the blowing sound.
[0007]
  The present invention has been made in view of such points, and the object of the present invention is to reduce the ventilation resistance in the casing of the outdoor unit that can blow out the air after heat exchange upward, and the amount of air blown To ensure sufficient air-conditioning capability and to reduce blowing noise.
[0008]
[Means for Solving the Problems]
  The present invention has takenFirstThe solution means is that the box-shaped casing (10) houses the heat exchanger (30), the first blower (51), and the second blower (55) disposed above the first blower (51). Targeted outdoor unit of air conditioner. The first blower (51) and the second blower (55) are configured to blow out the air sucked from the rotation axis direction in an oblique direction or a direction orthogonal to the rotation axis, and the casing (10 ) Air is blown downward from the second blower (55) of the left and right side surfaces of the suction opening (26) opening on the front surface, the upper surface outlet (21) opening on the upper surface thereof At least a side air outlet (23) opening on a side surface located on the side, and a passage (61, 61) through which the air blown from the first fan (51) and the air blown from the second fan (55) flow individually 62) includes a passage forming member (70) for forming the casing (10) in the casing (10), while the passage forming member (70) includes the first blower (51) and the second blower (55). A partition part (72) located between them is provided, and the partition part (72) 1 end (73) is the side outlet (23)Middle part of the vertical directionIs extended to, The passage forming member ( 70 ) Partition ( 72 ) Includes a first end ( 73 ) Sloped upwards () 76 ) Is formed,  The above slope ( 76 ) Is the partition ( 72 ) First end ( 73 ) Towards the second blower ( 55 ) Fan rotor ( 52 )Is.
[0009]
  The present invention has takenSecondThe solution ofFirstIn the above solution, the partition portion (72) of the passage forming member (70) is inclined so as to incline upward toward the second end portion (74) opposite to the first end portion (73). (79) is formed.
[0010]
  The present invention has takenThirdThe solution of1st or 2ndIn this solution, a separator plate (46) for forming a passage (64) for guiding the air blown downward from the first blower (51) to the back surface portion (11) of the casing (10) Is provided on the back side of the first blower (51).
[0011]
  The present invention has taken4thThe solution of1st, 2nd or 3rdIn this solution, a mixed flow fan is used as the first blower (51) and the second blower (55).
[0012]
      -Action-
  the aboveFirstIn this solution, the outdoor unit of the air conditioner is configured by housing the heat exchanger (30) and the blowers (51, 55) in the casing (10). When the blower (51, 55) is operated, outdoor air is taken into the casing (10) through the suction port (26). The outdoor air exchanges heat with the refrigerant in the heat exchanger (30), and then is discharged from the casing (10) through the upper surface outlet (21) and the side surface outlet (23).
[0013]
  the aboveFirstIn the above solution, the first and second blowers (51, 55) blow out air in a direction orthogonal to the axial direction (for example, a centrifugal fan), or blow out air in an oblique direction with respect to the axial direction (for example, (Cross flow fan). That is, in these solution means, the air sucked into the blower (51, 55) is blown out after the flow direction is bent with respect to the axial direction of the blower (51, 55).
[0014]
  Also, aboveFirstIn this solution, the passage forming member (70) is installed in the casing (10). This passage forming member (70) is for partitioning the inside of the casing (10) to form two passages (61, 62). Especially the partition part (72) of the channel | path formation member (70) has divided between the 1st air blower (51) and the 2nd air blower (55). Of the passages (61, 62) formed in the casing (10), only the air blown from the first blower (51) flows in one passage (61), and the other passage (62) Only air blown out from the 2 blower (55) flows.
[0015]
  the aboveFirstIn this solution, the partition part (72) of the passage forming member (70) is formed in a predetermined shape such that the first end (73) extends to the side outlet (23). Yes. That is, in the present solution, the first end portion (73) of the partition portion (72) is extended to the intermediate portion in the vertical direction of the side surface outlet (23). For this reason, the air blown downward from the second blower (55) is guided to the side blower outlet (23) by the partition part (72) and affects the flow of the air blown from the first blower (51). It is discharged from the casing (10) without affecting.
[0016]
  Furthermore, in this solution, the 1st end part (73) of a partition part (72) is located in a side surface outlet (23). Accordingly, in the side air outlet (23), the air blown from the second blower (55) passes above the partition (72), while the air blown from the first blower (51) below the partition (72). Pass through. That is, the air blown from the first blower (51) is guided to the side blower outlet (23) without being affected by the flow of air blown downward from the second blower (55), and the casing (10 ).
[0017]
  This firstIn this solution, the inclined portion (76) is formed in the partition portion (72) of the passage forming member (70). The inclined portion (76) extends from the lower side of the second blower (55) toward the first end (73) and is inclined upward toward the first end (73). Yes. The inclined portion (76) may be a plane that forms a certain inclination angle with respect to the horizontal plane, and the inclined angle is a curved surface that continuously increases toward the first end portion (73). It may be configured. In addition, the inclined portion (76) may be formed so that the inclination angle gradually increases toward the first end portion (73), and the cross section of the inclined portion (76) may draw a broken line.
[0018]
  The direction of the flow of the air blown downward from the second blower (55) is changed obliquely upward by the inclined portion (76). The air guided obliquely upward by the inclined part (76) passes through the upper part of the partition part (72) at the side outlet (23) and is exhausted out of the casing (10). Furthermore, the flow of air blown out from the first blower (51) and directed to the side air outlet (23) is also guided obliquely upward by the inclined portion (76). The blown air of the first blower (51) flowing obliquely upward passes through the lower part of the partition part (72) in the side face outlet (23) and is exhausted out of the casing (10).
[0019]
  the aboveSecondIn this solution, the inclined portion (79) is formed in the partition portion (72) of the passage forming member (70). The inclined portion (79) extends from the lower side of the second blower (55) toward the second end portion (74) and is inclined upward toward the second end portion (74). Yes. The inclined portion (79) may be configured by a plane having a fixed inclination angle with respect to the horizontal plane, and the inclined angle is a curved surface that continuously increases toward the second end portion (74). It may be configured. Further, the inclined portion (79) may be formed so that the inclination angle gradually increases toward the second end portion (74), and the cross section of the inclined portion (79) may draw a broken line.
[0020]
  On the first end (73) side of the partition (72), air is blown downward from the second blower (55), whereas on the second end (74) side of the partition (72) Then, air is blown upward from the second blower (55). Then, the air blown upward from the second blower (55) is guided by the inclined portion (79) inclined toward the second end portion (74), and smoothly flows obliquely upward. . Further, the air blown from the first blower (51) and flowing upward is also guided by the inclined portion (79) of the partition portion (72), and smoothly flows obliquely upward.
[0021]
  the aboveThirdIn this solution, the separator plate (46) is provided on the back side of the first blower (51) located below. An air passage (64) is formed between the back surface portion (11) of the casing (10) and the separator plate (46). That is, the passage (64) and the first blower (51) are partitioned by the separator plate (46). The air blown downward from the first blower (51) is guided upward through a passage (64) sandwiched between the back surface portion (11) of the casing (10) and the separator plate (46). At this time, the passage (64) is partitioned from the first blower (51) by the separator plate (46). Therefore, in this passage (64), air flows without being affected by the blown air flow of the first blower (51).
[0022]
  the above4thIn the solution, the first blower (51) and the second blower (55) are both constituted by mixed flow fans. Accordingly, air is blown out from the first and second blowers (51, 55) in an oblique direction with respect to the rotation axis.
[0023]
【The invention's effect】
  In the present invention, unlike the conventional top-blow type outdoor unit, not only the top surface outlet (21) but also the side surface outlet (23) is opened in the casing (10). For this reason, the opening area of the blower outlets (21, 23) in the casing (10) can be sufficiently secured, and the ventilation resistance inside the casing (10) can be reduced. Therefore, according to the present invention, the air blowing capacity of the first and second blowers (51, 55) can be sufficiently exhibited, and the air conditioning capacity of the outdoor unit can be maximized by securing the air blowing amount. .
[0024]
  Also,The present inventionThen, the partition part (72) of the passage forming member (70), the first end part (73) of which is the side outlet (23) of the casing (10)Middle part of the vertical directionIt is formed to be extended to. Therefore,The present inventionAccording to the above, the air blown out from the first blower (51) without being affected by the flow of air blown out from the second blower (55) even at the location where the air is blown downward from the second blower (55) Can be smoothly guided to the side air outlet (23). For this reason, the first blower (51), which has conventionally been difficult to exert a sufficient blowing capacity, can also be sufficiently exerted, and in this respect as well, the amount of blowing is secured and the outdoor The air conditioning capacity of the machine can be improved.
[0025]
  In addition, the present inventionAccording to the above, it is possible to smoothly guide the blown air from the first blower (51) to the side blower outlet (23), and the pressure distribution in the circumferential direction of the first blower (51) can be reduced. For this reason, the pressure in the circumferential direction of the first blower (51) can be made uniform, and the blowing sound resulting from the pressure distribution around the first blower (51) can be reduced.
[0026]
  In addition, the present inventionThen, an inclined part (76) is formed in the partition part (72) of the passage forming member (70), and the air blown from the first and second blowers (51, 55) is guided obliquely upward by the inclined part (76). doing. For this reason, coupled with the fact that the first end (73) of the partition (72) is extended to the side air outlet (23), the first and second blowers that pass through the side air outlet (23) ( The flow direction of the blown air 51, 55) can be made obliquely upward. That is, air is blown obliquely upward from the side air outlet (23) in both the upper and lower portions of the partition (72). Therefore, according to the present solution, it is possible to prevent the airflows blown from the side air outlet (23) from interfering with each other, and to reduce the turbulence caused by the mutual interference between the flows and to reduce the blowing sound. It becomes possible.
[0027]
  the aboveSecondIn the solution, the inclined portion (79) is formed in the partition portion (72) of the passage forming member (70), and the air blown from the first and second blowers (51, 55) is inclined by the inclined portion (79). Guides upward. Therefore, according to this solution, the air blown from the first and second blowers (51, 55) is guided obliquely upward at a location opposite to the first end (73) of the partition (72). And the ventilation resistance in the inside of a casing (10) can be reduced.
[0028]
  the aboveThirdAccording to the solution, the air blown from the first blower (51) disposed below is caused to pass through the passage (64) formed by the back surface portion (11) of the casing (10) and the separator plate (46). It can be smoothly guided upward. Therefore, according to this solution, it is possible to further increase the amount of air blown from the first blower (51), and to sufficiently secure the amount of air blown from the outdoor unit.
[0029]
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1
  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0030]
  As shown in FIG. 1, the outdoor unit of the air conditioning apparatus according to the first embodiment houses a heat exchanger (30), a first blower (51), a second blower (55), and the like in a casing (10). As a whole, it is formed in a rectangular parallelepiped shape. In addition, FIG. 1 has shown the state which looked at the outdoor unit from diagonally upward on the back side.
[0031]
  The outdoor unit includes a casing (10) that is a rectangular parallelepiped box. The casing (10) is formed in a flat and vertically long rectangular parallelepiped shape with a short depth. Although not shown in the drawing, a number of reinforcing concave grooves extending in the vertical direction are formed in the back surface portion (11) of the casing (10). In addition, a pair of installation legs (13) are provided at the bottom of the casing (10).
[0032]
  An upper surface outlet (21) is opened in the upper surface part (14) of the casing (10). Further, as shown in FIG. 3, the casing (10) has a first side air outlet (23) opened on one side surface (15) and a second side surface on the other side surface (15). The air outlet (25) is open.
[0033]
  The upper air outlet (21) has a rectangular shape whose long side is slightly shorter than the lateral width of the casing (10) and whose short side is slightly shorter than the depth of the casing (10). Moreover, the upper surface blower outlet (21) is provided with the lattice-shaped blower grill (22) which covers the whole surface.
[0034]
  The first side air outlet (23) opens toward the upper end of the left side surface part (15) when viewed from the back side of the casing (10). The first side air outlet (23) is formed in a rectangular shape whose long side is about 1/3 of the height of the casing (10) and whose short side is slightly shorter than the depth of the casing (10). Yes. Moreover, the 1st side surface outlet (23) is provided with the blowing louver (24) which covers the whole surface.
[0035]
  The second side air outlet (25) opens toward the upper end of the right side surface part (15) when viewed from the back side of the casing (10). The second side air outlet (25) is formed in a rectangular shape whose long side is about 1/4 of the height of the casing (10) and whose short side is slightly shorter than the depth of the casing (10). Yes. The second side air outlet (25) is provided with an air outlet louver (24) that covers the entire surface in the same manner as the first side air outlet (23).
[0036]
  As shown in FIG. 2, a suction port (26) is opened in the front portion (16) of the casing (10). The suction port (26) is formed in a vertically long rectangular shape that is slightly smaller than the front portion (16) of the casing (10).
[0037]
  A partition plate (41) is provided inside the casing (10). The partition plate (41) is erected at a position slightly closer to the front portion (16) than the center of the casing (10) in the depth direction. By this partition plate (41), the internal space of the casing (10) is partitioned into a front side and a back side.
[0038]
  The space on the front side partitioned by the partition plate (41) constitutes the upstream chamber (42). The upstream chamber (42) communicates with the outside of the casing (10) through the suction port (26). On the other hand, the space on the back side defined by the partition plate (41) constitutes a downstream chamber (43). The downstream chamber (43) communicates with the outside of the casing (10) through an upper surface outlet (21), a first side surface outlet (23), and a second side surface outlet (25).
[0039]
  The partition plate (41) has a generally lower half bulged to the back side of the casing (10). A bell mouth (44) for the first blower (51) is attached to the lower part of the partition plate (41), and a bell mouth (44) for the second blower (55) is attached to the upper part of the partition plate (41). . Each of these two bell mouths (44) forms a circular opening (45). The upstream chamber (42) and the downstream chamber (43) partitioned by the partition plate (41) are communicated with each other through the opening (45).
[0040]
  A heat exchanger (30) is provided in the upstream chamber (42) in the casing (10). The heat exchanger (30) includes a large number of fins (31) arranged at a predetermined pitch and a heat transfer tube (32) passing through the fins (31), so-called cross fin type fin-and-tube heat exchange. Make up the vessel. The heat exchanger (30) is formed in a vertically long flat plate shape as a whole. The heat exchanger (30) is erected along the inner surface of the front portion (16) in the casing (10). Moreover, the heat exchanger (30) is provided over the whole surface of the suction inlet (26) opened to a front part (16).
[0041]
  The first blower (51) and the second blower (55) constitute a mixed flow fan. Each blower (51, 55) includes one fan rotor (52) and one fan motor (53) that drives the fan rotor (52). The fan motor (53) of each blower (51, 55) is fixed by an attachment stay (54). In this state, the rotation shafts of the blowers (51, 55) are in a substantially horizontal posture. In this embodiment, a mixed flow fan is used as the blower (51, 55), but a centrifugal fan such as a turbo fan or a radial fan may be used instead.
[0042]
  As shown also in FIG. 3, in the casing (10), the 1st air blower (51) and the 2nd air blower (55) are arrange | positioned along with the upper and lower sides. In that case, each blower (51, 55) in which the second blower (55) is installed above the first blower (51) has a posture in which the respective rotation axes are arranged on the same vertical line. Moreover, the 1st air blower (51) is installed closer to the back surface part (11) of the casing (10) than the 2nd air blower (55).
[0043]
  The first blower (51) is installed coaxially with the bell mouth (44) attached to the lower part of the partition plate (41), while the second blower (55) is attached to the upper part of the partition plate (41). It is installed coaxially with the bellmouth (44). The first and second blowers (51, 55) blow out the air sucked from the upstream chamber (42) to the downstream chamber (43). That is, the upstream chamber (42) is the suction side of the first and second blowers (51, 55), and the downstream chamber (43) is the blow-out side of the first and second blowers (51, 55).
[0044]
  A separator plate (46) is provided in the downstream chamber (43) in the casing (10) (see FIGS. 1 and 2). The separator plate (46) is a square thin plate that is slightly larger than the fan rotor (52), and is disposed on the back side of the first blower (51). The separator plate (46) is attached to the back surface portion (11) along the back surface portion (11) of the casing (10). With the separator plate (46) attached to the back surface (11) of the casing (10), the distance between them is about 40 mm. A semicircular arc portion (47) is provided at the lower end of the separator plate (46). The semicircular arc portion (47) bulges in a semicircular arc shape toward the partition plate (41) and is formed over the entire width of the separator plate (46).
[0045]
  In the downstream chamber (43), a main air passage (63) and a sub air passage (64) are partitioned by a separator plate (46). The main air passage (63) is formed between the partition plate (41) and the separator plate (46). The sub air passage (64) is formed between the back surface portion (11) of the casing (10) and the separator plate (46).
[0046]
  A passage forming plate (70) is further provided in the downstream chamber (43). The passage forming plate (70) includes a rear partition (71) and an air guide (72). And the channel | path formation board (70) is attached to the partition plate (41), and has enclosed the back side and the downward side of the 2nd air blower (55).
[0047]
  The said back surface division part (71) is a square-shaped thin plate one size larger than a fan rotor (52), Comprising: It arrange | positions at the back side of a 2nd air blower (55). However, the lower end part of the back surface partition part (71) is slightly inclined toward the partition plate (41). This back surface partition part (71) is installed substantially in parallel with the back surface part (11) and the partition plate (41) of the casing (10). With the back partition (71) attached to the partition plate (41), the distance between the back surface (11) and the back partition (71) of the casing (10) is about 100 mm.
[0048]
  The air guide portion (72) is formed by bending a thin plate along the fan rotor (52) of the second blower (55), and is disposed below the second blower (55). As for this air guide part (72), one side part is following the lower end of a back surface division part (71), and the other side part is contact | abutted to the partition plate (41). That is, the air guide part (72) comprises the partition part provided between a 1st air blower (51) and a 2nd air blower (55).
[0049]
  The air guide portion (72) has a first end portion (73) at the left end in FIG. 3, and a second end portion (74) at the right end in FIG. And the 1st edge part (73) of the air guide part (72) is extended to the 1st side surface outlet (23). That is, the first end portion (73) of the air guide portion (72) is located at the intermediate portion in the vertical direction of the first side surface outlet (23).
[0050]
  The air guide part (72) is formed with a flat part (75), a first inclined part (76), and a second inclined part (79). In the cross section shown in FIG. 3, the first inclined portion (76) is inclined upward from the left end of the flat portion (75) toward the first end portion (73), and the second inclined portion (79) is flat ( 75) is inclined upward from the right end toward the second end (74). Furthermore, a steeply inclined part (77) and a gently inclined part (78) are formed in the first inclined part (76). In the cross section shown in FIG. 3, the approximately right half of the first inclined portion (76) constitutes the gently inclined portion (78), and the approximately left half of the first inclined portion (76) constitutes the steeply inclined portion (77). ing. The left end of the steeply inclined portion (77) is the first end (73) of the air guide portion (72).
[0051]
  The shape of the air guide part (72) will be specifically described with reference to FIG. FIG. 4 shows only a part of FIG. If it demonstrates on the basis of the perpendicular line which passes along the rotating shaft of the fan rotor (52) of a 2nd air blower (55), as for the flat part (75), the left end will be the distance L rather than the said perpendicular line.₁= 70mm on the left side, the right end is a distance L from the vertical line₂= 140mm on the right. Further, the left end of the gently inclined portion (78), that is, the right end of the steeply inclined portion (77) is a distance L from the above vertical line._Three= 200mm on the left side. Furthermore, the angle θ between the steeply inclined part (77) and the gently inclined part (78)₁Is 150 °, and the angle θ between the gently inclined part (78) and the flat part (75)₂Is 160 °, and the angle θ formed by the flat portion (75) and the second inclined portion (79)_ThreeIs 160 °.
[0052]
  In the present embodiment, the rotational axis of the fan rotor (52) in the second blower (55) is a distance L from the left side surface portion (15) of the casing (10) in FIGS._Four= 335mm away. The fan rotor (52) has an outer diameter of 500 mm.
[0053]
  The passage forming plate (70) defines a first air passage (61) and a second air passage (62) in the upper half of the downstream chamber (43) (see FIG. 2). The first air passage (61) is formed between the back surface portion (11) and the back surface partition portion (71) of the casing (10). The second air passage (62) is formed between the rear partition (71) and the partition plate (41) surrounded by the rear partition (71), the air guide (72), and the partition plate (41). Has been. Thus, the passage formation plate (70) constitutes a passage formation member for forming the first air passage (61) and the second air passage (62).
[0054]
  Devices such as a compressor (33) and a receiver (34) are accommodated in the downstream chamber (43) in the casing (10) (see FIG. 3). These devices such as the compressor (33) are arranged along the right side surface portion (15) as viewed from the back side of the casing (10). For example, the compressor (33) and the receiver (34) are placed on the bottom of the casing (10). An electrical board (35) including a control microcomputer and a power circuit is arranged above the compressor (33). Furthermore, a refrigerant pipe is also installed in the downstream chamber (43) in the vicinity of the compressor (33) and the like.
[0055]
      -Driving action-
  The operation of the outdoor unit will be described with reference to FIG. FIG. 5 schematically illustrates the configuration of the outdoor unit, and a side view thereof corresponds to FIG. 2 and a rear view thereof corresponds to FIG.
[0056]
  When the fan motor (53) of the first and second blowers (51, 55) is energized, the fan rotor (52) of each blower (51, 55) is counterclockwise as viewed from the back side of the casing (10). Rotate. When the first and second blowers (51, 55) are operated in this manner, outdoor air flows into the upstream chamber (42) in the casing (10) through the suction port (26). The air passes between the fins (31) of the heat exchanger (30) and exchanges heat with the refrigerant in the heat transfer tube (32) during that time. The heat exchanger (30) serves as a condenser during the cooling operation, and serves as an evaporator during the heating operation.
[0057]
  The air that has passed through the upper part of the heat exchanger (30) is sucked into the second blower (55) and blown out to the downstream chamber (43). The air blown out from the second blower (55) mainly flows through the second air passage (62), and passes through the upper air outlet (21) and the first and second side air outlets (23, 25) to the casing ( 10) blown out.
[0058]
  At that time, air is blown downward from the portion of the second blower (55) near the first side outlet (23) (see the rear view of FIG. 5). This downward air flow is mainly guided by the steeply inclined portion (77) of the air guide portion (72), and the flow direction is changed upward. And the air guided by the steep inclination part (77) is sent out diagonally upward through the upper side of the air guide part (72) in a 1st side surface outlet (23).
[0059]
  Air is blown out from the lower part of the second blower (55) toward the right side in the rear view of FIG. This rightward air flow is guided mainly by the second inclined portion (79) of the air guide portion (72), and the flow direction is changed upward. And the air guided by the 2nd inclination part (79) flows to the upper right direction in the figure, and is discharged | emitted out of a casing (10) through a 2nd side surface outlet (25) and an upper surface outlet (21). Is done.
[0060]
  On the other hand, the air that has passed through the lower part of the heat exchanger (30) is sucked into the first blower (51) and blown out to the downstream chamber (43). The air blown out from the first blower (51) flows through the main air passage (63), the sub air passage (64), and further through the first air passage (61), and passes through the upper air outlet (21) and the first and first air passages. It blows out of the casing (10) through the two side outlets (23, 25).
[0061]
  At that time, the air blown upward from the first blower (51) flows into the first air passage (61) from the main air passage (63) as shown in the side view of FIG. It blows out of the casing (10) through the outlet (21). On the other hand, the air blown downward from the first blower (51) changes the flow direction and flows from the main air passage (63) into the sub air passage (64) as shown in FIG. In the auxiliary air passage (64), air flows upward. The air that has exited from the auxiliary air passage (64) merges with the air that flows through the first air passage (61), and is mainly blown out of the casing (10) from the upper surface outlet (21).
[0062]
  Further, air is blown downward from the left portion of the first blower (51) in the side view of FIG. Due to this downward air flow, a high pressure part (90) having a higher pressure than other places is formed in the lower left corner of the downstream chamber (43) in the figure. In the left side of the downstream chamber (43) in the figure, the air flow (91) from the high pressure part (90) toward the upper first side outlet (23) is in the vicinity of the partition plate (41). It is formed.
[0063]
  The upward air flow (91) from the high-pressure part (90) is guided by the first inclined part (76) of the air guide part (72), particularly the steeply inclined part (77), and the flow direction is oblique. It can be changed upward. The air guided by the first inclined portion (76) is sent obliquely upward through the lower side of the air guide portion (72) at the first side air outlet (23).
[0064]
  As described above, air is blown downward from the left portion of the second blower (55) in the side view of FIG. And the downward airflow from a 2nd air blower (55) is interrupted | blocked by the 1st inclination part (76) of an air guide part (72). Accordingly, the air flow (91) directed upward from the high pressure section (90) is guided to the first side air outlet (23) without being affected by the air flow from the second blower (55).
[0065]
  Thus, the air blown out from the first blower (51) mainly flows through the first air passage (61), and the air blown out from the second blower (55) mainly passes through the second air passage (62). Flowing. In other words, the air blown out from each blower (51, 55) flows through the passages partitioned by the air guide part (72) and the back partition part (71), so that the flow does not interfere with each other, It is led smoothly toward the exit (21, 23, 25).
[0066]
      -Effect of Embodiment 1-
  In the outdoor unit of Embodiment 1, unlike the conventional top-blowing outdoor unit, not only the top surface outlet (21) but also the side surface outlets (23, 25) are opened in the casing (10). For this reason, the opening area of the blower outlets (21, 23, 25) in the casing (10) can be sufficiently secured, and the ventilation resistance inside the casing (10) can be reduced. Therefore, according to this Embodiment 1, the ventilation capability of a 1st and 2nd air blower (51,55) can fully be exhibited, air volume can be ensured and the air conditioning capability of an outdoor unit can be exhibited reliably. Can do.
[0067]
  Moreover, in this Embodiment 1, the 1st edge part (73) of the air guide part (72) in the channel | path formation board (70) is extended to the up-and-down intermediate part of the 1st side surface outlet (23). . Therefore, even in the vicinity of the first side air outlet (23) where the air is blown downward from the second blower (55), the first blower (51) is not affected by the downward air flow. The air which goes to a side blower outlet (23) can be flowed smoothly. As a result, the blown air from the first blower (51) can be smoothly guided to the first side air outlet (23). Therefore, according to the first embodiment, the first blower (51), which has conventionally been difficult to exert a sufficient blowing capacity, can be sufficiently exerted, and in this respect as well. The air flow capacity of the outdoor unit can be improved by securing the air flow.
[0068]
  Furthermore, according to this Embodiment 1, since the blowing air from a 1st air blower (51) can be smoothly guide | induced to a 1st side surface blower outlet (23), the pressure in the circumferential direction of a 1st air blower (51) Distribution can be reduced. That is, although the high pressure part (90) is formed in the lower left corner part of the downstream chamber (43) in the side view of FIG. 5, the pressure of this high pressure part (90) can be suppressed lower than before. Therefore, according to this Embodiment 1, the pressure in the circumferential direction of a 1st air blower (51) can be equalized, and the ventilation sound resulting from the pressure distribution in the 1st air blower (51) periphery can be reduced.
[0069]
  In the first embodiment, the first inclined portion (76) is formed in the air guide portion (72) of the passage forming plate (70), and the first and second blowers (51) are formed by the first inclined portion (76). , 55) is guided obliquely upward. For this reason, the 1st end part (73) of an air guide part (72) is extended to the 1st side surface outlet (23), and the 1st which passes the 1st side surface outlet (23) is combined. The flow direction of the blown air from the second blower (51, 55) can be obliquely upward. That is, from the first side air outlet (23), air is blown obliquely upward in both the upper and lower portions of the air guide portion (72). Therefore, according to the first embodiment, it is possible to prevent the airflows blown from the first side air outlet (23) from interfering with each other, reducing the turbulence caused by the mutual interference of the flows and reducing the blowing sound. It becomes possible to plan.
[0070]
  Moreover, in this Embodiment 1, a 2nd inclination part (79) is formed in the air guide part (72) of a channel | path formation board (70), This 1st and 2nd air blower (51) is formed by this 2nd inclination part (79). , 55) is guided obliquely upward. Therefore, according to the first embodiment, in the vicinity of the second end portion (74) of the air guide portion (72), the air blown from the first and second blowers (51, 55) is guided obliquely upward, Ventilation resistance inside the casing (10) can be reduced.
[0071]
  Moreover, according to this Embodiment 1, the subair passage formed with the back surface part (11) of the casing (10) and the separator plate (46) from the blowing air of the 1st air blower (51) arrange | positioned below (64), it is possible to smoothly guide upward. Therefore, according to the first embodiment, the amount of air blown from the first blower (51) can be further increased, and the amount of air blown from the outdoor unit can be sufficiently secured.
[0072]
Second Embodiment of the Invention
  Embodiment 2 of the present invention is obtained by changing a part of the configuration of the outdoor unit of Embodiment 1 described above. Here, the second embodiment will be described while referring to FIGS. 6 to 8 and different from the first embodiment.
[0073]
  As shown in FIG. 6, in the casing (10) of the second embodiment, no air outlet is formed on the right side surface portion (15) when viewed from the back side. That is, in the second embodiment, the second side air outlet (25) in the first embodiment is not formed, and the first side air outlet is only provided on the left side surface portion (15) when viewed from the back side of the casing (10). An outlet (23) is formed.
[0074]
  As shown also in FIG. 7, the opening area of the first side air outlet (23) of the second embodiment is larger than that of the first embodiment. Specifically, the long side of the first side air outlet (23) is about 2/3 of the height of the casing (10).
[0075]
  The whole partition plate (41) of Embodiment 2 is formed in a flat plate shape. That is, the partition plate (41) is different from that of the first embodiment, and the whole from the upper part to the lower part forms one plane. And in this Embodiment 2, the 1st air blower (51) and the 2nd air blower (55) are installed on the same plane (refer FIG. 7). That is, the first blower (51) of the second embodiment is not offset to the back surface (11) side of the casing (10) from the second blower (55) as in the first embodiment. 51, 55) and the back surface portion (11) are equal.
[0076]
  As shown in FIG. 8, the air guide portion (72) of the second embodiment has a second inclined portion (79) extending obliquely upward to the right in FIG. ) Is located near the top outlet (21). Moreover, the 2nd inclination part (79) of this air guide part (72) is comprised by three inclined surfaces from which inclination differs.
[0077]
  In the second embodiment, the rear partition portion (71) is formed larger than the first embodiment (see FIG. 6) in accordance with the change in the shape of the air guide portion (72). That is, the back surface partition (71) of the second embodiment is expanded to the right as viewed from the back side of the casing (10) as compared to that of the first embodiment, and the extended second inclined portion (79). It is made into the shape which continues over the full length.
[0078]
  A shielding plate (81) surrounding the compressor (33), the receiver (34) and the like is provided in the casing (10) of the second embodiment. In other words, in the second embodiment, the machine room (82) in the closed space is partitioned in the casing (10) by the shielding plate (81), and the compressor (33), the receiver (34), and the like are provided in the machine room (82). Is stored. The shielding plate (81) blocks the air flow blown from the blower (51, 55) and prevents the blown air from being blown directly onto the compressor (33) or the like.
[0079]
  In the second embodiment, the electrical board (35) is installed on the upper side of the casing (10) along the side surface (15). That is, this electrical board (35) is arranged along the portion of the side surface portion (15) where the second side air outlet (25) is open in the first embodiment.
[0080]
  In the outdoor unit of Embodiment 2, the blown air from the first blower (51) and the blown air from the second blower (55) flow toward the blowout ports (21, 23) separately with little mixing. That is, the air blown out from the second blower (55) flows through the second air passage (62) surrounded by the passage forming plate (70) and the partition plate (41), and the upper air outlet (21) and the first air The air is blown out from the side air outlet (23) to the outside of the casing (10). On the other hand, the air blown out from the first blower (51) flows through the first air passage (61) and is blown out of the casing (10) from the upper face outlet (21) and the first side face outlet (23). The In Embodiment 2, since the first side air outlet (23) is enlarged in the vertical direction, a relatively large portion of the air blown from the first blower (51) is the first side air outlet (23 ) Is discharged to the outside of the casing (10).
[0081]
      -Modification of Embodiment 2-
  In the second embodiment, the fan rotor (52) of the second blower (55) is rotated in the same direction as the first embodiment (counterclockwise in FIG. 8), but instead, as follows. Also good.
[0082]
  That is, the shape of the fan rotor (52) of the second blower (55) may be changed, and the fan rotor (52) may be rotated clockwise in FIG. In this case, air is blown downward from the second blower (55) on the right side in FIG. The air flowing downward is guided by the second inclined portion (79) of the air guide portion (72), and the flow direction is changed upward. Further, below the second inclined portion (79) of the air guide portion (72), the air blown from the first blower (51) is not affected by the air blown from the second blower (55). Circulate.
[0083]
  In this modification, air is blown upward from the second blower (55) in the vicinity of the first end (73) of the air guide (72). Therefore, in this modification, it is not necessary to extend the first end (73) of the air guide part (72) to the first side surface outlet (23). Even if the first end (73) does not reach the first side blower outlet (23), the air flow from the first blower (51) to the first side blower outlet (23) is the second. This is because the air flow from the blower (55) is not hindered.
[0084]
Other Embodiments of the Invention
  In the above embodiment, the thin plate is bent to form the air guide part (72), and the flat part (75), the first inclined part (76), and the second inclined part (79) are formed on the air guide part (72). However, instead of this, the air guide part (72) may be configured as follows. Here, a case where the present modification is applied to the first embodiment will be described.
[0085]
  That isAs shown in FIG. 9, the air guide portion (72) may be formed by curving a thin plate. In this case, the air guide part (72) is formed so as to draw an arcuate curve with the cross section appearing in FIG. 9 protruding downward. Specifically, in the air guide portion (72), a portion on the left side of the bottom portion in FIG. 9 forms a first inclined portion (76), and a portion on the right side of the bottom portion in FIG. 9 is a second inclined portion (79). Is configured. In the first inclined portion (76), the inclination angle α becomes closer to the first end portion (73) of the air guide portion (72).₁Will grow continuously. On the other hand, in the second inclined portion (79), the inclination angle α becomes closer to the second end portion (74) of the air guide portion (72).₂Will grow continuously. In addition, this inclination angle means the angle which the tangent of the cross section of the air guide part (72) in FIG. 9 makes with a horizontal direction.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an external appearance and an internal configuration of an outdoor unit according to a first embodiment.
FIG. 2 is a schematic cross-sectional view of the outdoor unit showing the AA cross section in FIG. 1 or FIG.
FIG. 3 is a schematic cross-sectional view of the outdoor unit showing a BB cross section in FIG. 1 or FIG.
4 is a schematic cross-sectional view of an outdoor unit showing the main part of FIG.
FIG. 5 is a schematic configuration diagram schematically illustrating a configuration of an outdoor unit according to the first embodiment.
6 is a schematic perspective view showing an external appearance and an internal configuration of an outdoor unit according to Embodiment 2. FIG.
FIG. 7 is a schematic cross-sectional view of the outdoor unit showing a CC cross section in FIG. 6 or FIG.
FIG. 8 is a schematic cross-sectional view of the outdoor unit showing a DD cross section in FIG. 6 or FIG.
FIG. 9 is a view corresponding to FIG. 4 in another embodiment.
[Explanation of symbols]
  (10) Casing
  (11) Rear part
  (23) First side outlet
  (25) Second side outlet
  (26) Suction port
  (30) Heat exchanger
  (46) Separator plate
  (51) First blower
  (55) Second blower
  (61) First air passage
  (62) Second air passage
  (63) Main air passage
  (64) Secondary air passage
  (70) Passage forming plate (passage forming member)
  (72) Air guide (partition)
  (73) First end
  (74) Second end
  (76) First inclined part
  (79) Second inclined part

Claims (4)

An air conditioner in which a heat exchanger (30), a first blower (51), and a second blower (55) disposed above the first blower (51) are housed in a box-shaped casing (10). Outdoor unit,
The first blower (51) and the second blower (55) are configured to blow out air sucked from the direction of the rotation axis in an oblique direction or a direction orthogonal to the rotation axis,
The casing (10) has a suction port (26) that opens to the front surface, an upper surface outlet (21) that opens to the top surface, and air from the second blower (55) of the left and right side faces downward. And at least a side air outlet (23) opening on a side surface located on the side to be blown out to the side,
A passage forming member (70) for forming in the casing (10) passages (61, 62) for individually flowing the blown air of the first blower (51) and the blown air of the second blower (55). While comprising
The passage forming member (70) is provided with a partition (72) positioned between the first blower (51) and the second blower (55),
The first end (73) of the partition (72) extends to the middle part in the vertical direction of the side outlet (23) ,
The partition portion ( 72 ) of the passage forming member ( 70 ) is formed with an inclined portion ( 76 ) inclined upward toward the first end portion ( 73 ) ,
The inclined portion ( 76 ) is an outdoor unit of an air conditioner that moves away from the fan rotor ( 52 ) of the second blower ( 55 ) toward the first end ( 73 ) of the partition portion ( 72 ) . In the outdoor unit of the air conditioning apparatus according to claim 1 ,
The partition portion (72) of the passage forming member (70) is formed with an inclined portion (79) that is inclined upward toward the second end portion (74) opposite to the first end portion (73). Air conditioner outdoor unit. In the outdoor unit of the air conditioning apparatus according to claim 1 or 2 ,
A separator plate (46) for forming a passage (64) for guiding the air blown downward from the first blower (51) to the back surface portion (11) of the casing (10) is the first plate. The outdoor unit of the air conditioning apparatus provided in the back side of the air blower (51). In the outdoor unit of the air conditioning apparatus according to claim 1, 2, or 3 ,
An outdoor unit of an air conditioner in which a mixed flow fan is used as the first blower (51) and the second blower (55).

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