JP2003130393A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner comprising an outdoor machine having U-bent heat exchanger and a vertical compressor for securing an installation site for the compressor and at the same time securing a blowing path between a shield and the heat exchanger. SOLUTION: In the air conditioner provided with an outdoor unit comprising a heat exchanger 2 with a near U shape, a vertical compressor 5 arranged on the location near a shorter end of right and left ends of the heat exchanger 2, a shield 9 arranged on between the heat exchanger 2 and the compressor 5, a mouse ring 4, a propeller fan 5 provided on between the mouse ring 4 and the heat exchanger 2, the shield 9 is shaped so as to have a side arranged on the line connecting the suction side ends of the mouse ring with the shorter end of the heat exchanger 2, thereby securing a passage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a room air conditioner and a package air conditioner, and more particularly to an outdoor unit.

[0002]

2. Description of the Related Art In an outdoor unit of an air conditioner,
There is an increasing need for power saving, and one of the means is to increase the air volume and efficiency of the outdoor unit. However, since the noise increases as the air volume increases, a fan with high air volume and high efficiency and low noise is required.

Generally, a propeller fan is widely used as an outdoor fan for an air conditioner. The propeller fan is configured by arranging blades on the outer peripheral portion of the boss, and blows air by utilizing the lift of the blades caused by rotation. At that time, in the flow path between the heat exchanger and the fan corresponding to the upstream side of the propeller fan, the local change of the flow path area results in non-uniform velocity distribution around the heat exchanger and the aerodynamic performance of the fan. There was a problem of lowering.

Further, since the above-mentioned rapid change of the flow passage area causes the separation of the boundary layer and the shear flow develops, when such a flow enters the fan, the fluid loss increases and the noise increases. There was a problem.

In the outdoor unit, as a means for improving the air blowing performance by ensuring the distance between the heat exchanger and the air passage shielding plate and making the air velocity distribution uniform, Japanese Patent Laid-Open No. 2000-179.
There is a technique described in Japanese Patent No. 893.

The outdoor unit for an air conditioner described in this publication is a horizontal cross-sectional view showing a substantially rectangular outer box, and a substantially rectangular outer box arranged along two short sides and one long side inside the outer box. A heat exchanger that is U-shaped and has a length on one short side that is shorter than the length on the other short side (in the present specification, the longer side is referred to as a long end and the shorter side is referred to as a short end). ) And a fan driving electric motor arranged in a position displaced from the center in the width direction of the outdoor unit to the long end side of the U-shaped heat exchanger in the substantially U-shaped heat exchanger, and the heat exchanger. A fan that is directly connected to the shaft of the fan driving electric motor on the long side of the outer box where it is not placed and exhausts air from the heat exchanger from the opening on the long side of the outer box where the heat exchanger is not placed, It is provided on the short end side of the exchanger and has a shield plate for shielding the internal components and the air passage.

In order to secure an air passage between the heat exchanger and the shield plate along the long side of the outer box, the thickness of the component storage space surrounded by the shield plate and the outer box in the depth direction of the outdoor unit is reduced. ing.

[0008]

Although the above publication does not specify the parts to be housed in the space surrounded by the shielding plate and the outer box, the compressor is a vertical compressor because of various requirements. When placed in the parts storage space, the outer diameter of the compressor is determined based on the performance required as an air conditioner, so the thickness of the storage space in the outdoor unit depth direction must be increased by the amount of the compressor stored. I have to. For this reason,
There is a problem in that the ventilation passage provided between the heat exchanger along the long side of the outer box and the shield plate facing the heat exchanger must be narrowed, and eventually the air blowing performance of this portion deteriorates.

Further, in order to secure the air blowing performance of this portion, it is conceivable to widen the depth of the outdoor unit to secure a storage space for the compressor and to secure the air blowing performance, but the outdoor unit has a large shape. There is a problem that it will turn into.

An object of the present invention is to provide an air conditioner having a U-shaped heat exchanger and a vertical compressor in an outdoor unit, while ensuring a place for installing the compressor and an air passage between the shield plate and the heat exchanger. It is to provide an air conditioner that secures.

[0011]

The above object is to arrange the outdoor unit whose horizontal cross-sectional shape is substantially rectangular along two short sides and one long side, and the length of one short side is the other. U-shaped heat exchanger having a length shorter than the short side of the heat exchanger, a vertical compressor disposed near the end of the heat exchanger having a shorter short side, and the heat exchange A shield plate disposed between the compressor and the compressor, a mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed,
In an air conditioner provided with an outdoor unit including a propeller fan provided between the mouth ring and the heat exchanger, a part of a long side where the heat exchanger is not arranged is forward of the mouth ring. This can be achieved by projecting inward and arranging the compressor in the projecting space.

[0012] Further, the above object is to arrange the outdoor unit whose horizontal cross-sectional shape is substantially rectangular along two short sides and one long side, and the length of one short side is the other short side. U-shaped heat exchanger shorter than the length of the heat exchanger, a vertical compressor disposed near the end of the heat exchanger whose short side length is short, and the heat exchanger and the compression unit. A shield plate disposed between the heat exchanger and the machine, a mouth ring provided on the long side of the outdoor unit where the heat exchanger is not disposed, and a propeller provided between the mouth ring and the heat exchanger. In an air conditioner equipped with an outdoor unit having a fan, a part of the long side where the heat exchanger is not arranged is projected forward of the mouth ring, and the compressor is arranged in the projected space. The shielding plate is a heat exchanger end having a short length on the short side of the heat exchanger. It is achieved by a shape such that the distance spread of the heat exchanger disposed in the long side toward the mouth ring from.

[0013] Further, the above object is to arrange the outdoor unit whose horizontal cross-sectional shape is substantially rectangular along two short sides and one long side, and the length of one short side is the other short side. U-shaped heat exchanger shorter than the length of the heat exchanger, a vertical compressor disposed near the end of the heat exchanger whose short side length is short, and the heat exchanger and the compression unit. A shield plate disposed between the heat exchanger and the machine, a mouth ring provided on the long side of the outdoor unit where the heat exchanger is not disposed, and a propeller provided between the mouth ring and the heat exchanger. In an air conditioner including a fan in an outdoor unit, a distance between the shielding plate on the upper side of the compressor and the heat exchanger along the long side of the shielding plate is the heat exchange along the long side of the compressor. Longer than the distance between the shielding plate placed between the heat exchanger and the heat exchanger along the long side It is achieved by become such a shape.

Further, the above-mentioned object is arranged so that the horizontal cross section is arranged along two short sides and one long side of the outdoor unit having a substantially rectangular shape, and the length of one short side is the other short side. U-shaped heat exchanger shorter than the length of the heat exchanger, a vertical compressor disposed near the end of the heat exchanger whose short side length is short, and the heat exchanger and the compression unit. A shield plate disposed between the heat exchanger and the machine, a mouth ring provided on the long side of the outdoor unit where the heat exchanger is not disposed, and a propeller provided between the mouth ring and the heat exchanger. In an air conditioner provided with a fan in an outdoor unit, a shielding plate disposed on the upper part of the compressor is provided with a heat exchanger end portion having a short length on the short side of the heat exchanger and a suction side of the mouth ring. Achieved by using a shape that has a surface almost parallel to the line connecting the end faces. That.

Further, the above object is to arrange the outdoor unit having a substantially rectangular horizontal cross section along two short sides and one long side, and the length of one short side is the other short side. U-shaped heat exchanger shorter than the length of the heat exchanger, a vertical compressor disposed near the end of the heat exchanger whose short side length is short, and the heat exchanger and the compression unit. A shield plate disposed between the heat exchanger and the machine, a mouth ring provided on the long side of the outdoor unit where the heat exchanger is not disposed, and a propeller provided between the mouth ring and the heat exchanger. In an air conditioner provided with a fan in an outdoor unit, a shielding plate disposed on the upper part of the compressor is provided with a heat exchanger end portion having a short length on the short side of the heat exchanger and a suction side of the mouth ring. It has a surface almost parallel to the line connecting the end faces and covers this surface and the upper part of the compressor. Angle between the surface is achieved by a shape such that an obtuse angle.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a horizontal sectional view of an outdoor unit of an air conditioner according to the present invention, and FIG. 2 is an A-unit of the outdoor unit of FIG.
A sectional view is shown. 3 is a horizontal sectional view of the outdoor unit of the air conditioner to be improved, and FIG. 4 is a sectional view of the outdoor unit of FIG. 3 taken along the line BB.

First, the outdoor unit of the air conditioner to be improved will be described with reference to FIG. The outdoor unit has a substantially rectangular unit frame 1, and a substantially U-shaped heat exchange having a short end and a long end arranged along two short sides and one long side of the unit frame 1. The heat exchanger 2 and the motor 2, which is disposed in the substantially U-shaped heat exchanger, is disposed at a position displaced from the center in the width direction of the outdoor unit to the long end side of the U-shaped heat exchanger. The long side of the unit frame 1 not arranged is directly connected to the shaft of the motor 3 and the air from the heat exchanger 2 is discharged from the long side opening of the unit frame 1 in which the heat exchanger 2 is not arranged. It is provided with a propeller fan 6 that blows, a vertical compressor 5 arranged on the short end side of the heat exchanger 2, and a shield plate 9 that forms a space in which the compressor 5 is installed together with the unit frame 1.

Inside the outdoor unit 1, there is housed a heat exchanger 2 for exchanging heat between the heat medium flowing inside the heat transfer tube and the air flowing outside the heat transfer tube. The heat exchanger 2 is
The outdoor unit is U-shaped to increase the mounting area. The motor stay 7 has a shape in which the pressure loss is as small as possible, and the motor 3 is attached to the central portion thereof.

The mouth ring 4 is located on the trailing edge side of the propeller fan 6 and serves to guide the air flow blown out. From the downstream end of the mouth ring 4 to the further downstream, a sudden expansion structure is adopted so that the area of the mouth ring 4 becomes large. The mouth ring 4 may be integrally molded metal or separately molded plastic. Reference numeral 8 is a safety protection grill for preventing an accident due to a foreign substance or a human finger entering the unit.

In the space surrounded by the shield plate 9 and the unit frame 1, a pipe and the like are arranged together with the compressor 5 although not shown. The space surrounded by the shield plate 9 and the heat exchanger 2 serves as an air flow path.

In FIG. 4, reference numeral 10 denotes an electric component, which accommodates, for example, an electric circuit for controlling the number of revolutions of the motor 3 and the compressor 5.

By driving the motor 3, the propeller fan 6
When is rotated clockwise, air flows through the heat exchanger 2 toward the fan as shown by the solid arrow Q, and is exhausted through the safety protection grill 8.

As shown in FIG. 3, the space surrounded by the shield plate 9 and the short side (short end portion) and the long side of the heat exchanger 2 facing the shield plate 9 is surrounded by the heat exchanger 2. Propeller fan 6
It is a flow path of air toward. Since the flow path (QII in the figure) through which the air flowing in through the heat exchanger 2 flows toward the propeller fan 6, the shielding plate 9 expands toward the heat exchanger 2 due to the presence of the vertical compressor 5. , The area of the flow path is locally reduced at this portion and then expanded.
For this reason, the flow velocity becomes slower on the side wall surface of the shield plate near the propeller fan 6, so that separation occurs and the propeller fan 6
The air-blowing performance was reduced (area E in the figure). Furthermore, since the separated flow (wake) flows into the propeller fan 6,
It was a cause of the generation of discrete frequency sound (blade sound).

An embodiment for solving the problem of the outdoor unit of the air conditioner to be improved will be described with reference to FIGS. 1 and 2. The same reference numerals as those shown in FIGS. 3 and 4 denote the same components.

In this embodiment, the vertical compressor 5 is installed on the front side of the unit main body (the exhaust side of the propeller fan 6) while traveling. That is, in the outdoor unit to be improved shown in FIG. 3, this portion is substantially flush with the mounting surface of the mouth ring 4, but the unit main body frame 1 of this portion is inflated to the front side and compressed. 5 was installed so as to straddle the inflated space and the frame of the book.

By doing so, the shield plate 9 facing the heat exchanger 2 is provided so that the end (short side end) of the U-shaped heat exchanger 2 and the suction side end face of the mouth ring 4 are connected. The connecting line can be placed on the front side. The end of the short end of the heat exchanger 2 is a limit position where air is sucked into the unit. Further, the suction side end face of the mouth ring 4 closest to the end of the short end of the heat exchanger 2 is a limit position for exhausting air from the inside of the unit. During this period, there are no causes of turbulence or flow path resistance, so that problems such as noise due to the PI flow path are reduced, as will be described later.

The line connecting the end of the short end of the heat exchanger 2 (the end of the short side) and the end face of the mouth ring 4 on the suction side is defined as one side of the shield plate 9 as shown in FIG. Since the flow passage width t can be made wider than the flow passage width t of the outdoor unit shown in FIG. 4 to reduce the flow passage resistance, the air blowing characteristics of the propeller fan 6 can be improved.

Here, the shield plate 9 is a straight line connecting the end of the short side of the U-shaped heat exchanger 2 and the suction side end surface of the mouth ring 4.
Although one side is configured, by configuring the shielding plate 9 with a curve having a gentle curvature, it is possible to eliminate a local change in the flow passage area, and thus the same effect can be obtained. .

The effect of this embodiment is shown in FIGS. The horizontal axis of FIG. 5 represents each position on the streamline. That is, FIG.
In FIG. 3, points A to D on the streamline of PI and points A to D on the streamline of QII are shown in FIG. The vertical axis represents the speed normalized by the speed at each point A. In the figure, ◯ is the velocity distribution on the streamline of QII in FIG. 3, and ● is the velocity distribution on the streamline of PI in FIG. 1, which is the present embodiment.

In the outdoor unit shown in FIG. 3, the shielding plate 9 forming the flow path between the short end of the U-shaped heat exchanger 2 and the propeller fan 6 has a flow path area as it goes to the propeller fan 6. Has decreased locally and then expanded. Therefore, on the streamline of QII, the velocity rapidly increases in the region B to C and then rapidly decreases in the region C to D. In the shaded area from C to D shown in the graph,
This speed loss increases the thickness of the boundary layer on the wall surface of the shielding plate 9 and causes peeling (region of FIG. 1E). Furthermore, the turbulence (wake) generated by this separation causes a discrete frequency sound (blade sound) when being guided to the propeller fan 6.

On the other hand, in this embodiment, as shown in FIG.
Since the shield plate 9 is constituted by the line connecting the end of the short end of the character heat exchanger 2 and the suction side end face of the mouth ring 4, the flow passage area between the heat exchanger 2 and the propeller fan 6 is gradually increased. Can be large. That is, since it is possible to suppress a local change in velocity on the streamline of PI, the change is almost linear as indicated by ●.

Since this effect can suppress an increase in air passage loss due to separation or the like, the air blowing performance of the propeller fan 6 can be improved. Further, since disturbance such as separation that flows into the propeller fan 6 can be suppressed, it is possible to reduce the discrete frequency sound (blade sound).

FIG. 6 shows the characteristics of the outdoor unit in this embodiment. The horizontal axis represents the air volume ratio (Q / Q ₀ ) standardized by the air volume Q _0, which is the operating point of this embodiment. The vertical axis represents the input ratio (Lm / Lm ₀ ) and the noise ratio standardized by the motor input Lm ₀ and the noise level SL ₀ at the air volume Q ₀ at the above operating point.
(SL-SL ₀ ) is represented.

In the graph, ◯ represents the outdoor unit shown in FIG. 3, and ● represents the present embodiment. When the air volume ratio Q / Q ₀ = 1 is the same as the air volume, the input ratio (Lm / Lm ₀ ) is about 14% less than in the conventional configuration. In addition, the noise ratio (S
L-SL ₀ ) is reduced by about 2.5 (dB).

In the embodiment shown in FIG. 1, one side of the shielding plate 9 connects the end of the short side of the U-shaped heat exchanger 2 (the end of the short end) and the end surface of the mouth ring 4 on the suction side. I matched the line,
Since the compressor 5 cannot be accommodated within the outdoor unit depth dimension, it was necessary to project the unit frame at the position of the compressor 5. This means that the cost for manufacturing the mold increases and the depth dimension of the outdoor unit expands as compared with the conventional one.

An embodiment for solving this problem will be described with reference to FIG. FIG. 7 is a horizontal cross-sectional view of the outdoor unit of the air conditioner. The same reference numerals as those of the outdoor unit shown in FIGS. 1 and 3 indicate the same configurations. In this figure, the outdoor unit depth dimension is almost the same as the outdoor unit shape shown in FIG. However, this causes the same problem as the outdoor unit shown in FIG. 3, so the following measures have been taken.

That is, focusing on the fact that the height dimension of the vertical compressor 5 is smaller than the height dimension of the heat exchanger 2, the space above the compressor 5 is used as an air passage.

In order to use the upper space of the vertical compressor 5 as a flow path, the shield plate 9 is divided into an upper shield plate and a lower shield plate, and one side of the upper shield plate 9 is a short side of the U-shaped heat exchanger 2. The upper shielding plate 9 is configured to be substantially parallel to the line connecting the end of the side (the end of the short end) and the suction side end surface of the mouth ring 4, and the lower shielding plate 9 compresses the height dimension. The compressor 5 was made slightly higher than the compressor 5 to cover the compressor 5.

FIG. 8 shows the outdoor unit CC shown in FIG.
A sectional view is shown. As described above, the upper part (t1) of the shielding plate 9
And the lower part (t2) have different flow passage areas. As compared with the outdoor unit shown in FIG. 3, the flow path formed by the upper shielding plate 9 and the heat exchanger 2 is expanded, and the air distribution performance is improved. On the contrary, when compared with the outdoor unit shown in FIG. 1 and FIG. 2, the flow channel area locally changes in the lower part of the shielding plate 9, so the effect is slightly reduced, but the frame 1 of the outdoor unit discharges. It is excellent in design because it never happens.

The shielding plate 9 may be integrally molded or the upper and lower parts of the shielding plate 9 may be separately molded.

By the way, in the shielding plate 9 shown in FIG. 8, since the upper and lower joints 11 of the shielding plate 9 are substantially perpendicular to each other, a secondary flow occurs at the joint 11 and the flow path loss increases. There is a problem. Further, since the corners are angular, there is a problem that it is difficult to perform integral processing by drawing.

An embodiment for solving this problem will be described with reference to FIG. FIG. 9 shows another embodiment of the outdoor unit of FIG. 7 taken along the line CC. Similar to the above, the upper part (t
The channel areas of 1) and the lower portion (t2) are different, and the channel areas of the upper portion and the lower portion are changed smoothly.

That is, a portion of the upper shield plate 9 which is substantially parallel to the line connecting the short side end (end of the short end) of the U-shaped heat exchanger 2 and the suction side end face of the mouth ring 4. , In order to smoothly connect the lower shield plate 9 to the arcuate portion along the shape of the compressor 9,
It has the following structure. The structure of the shield plate 9 shown in FIG. 8 is the end of the short side (end of the short end) of the U-shaped heat exchanger 2 of the upper shield plate 9.
Then, a surface (referred to as an upper shield plate surface) that is substantially parallel to a line connecting the suction-side end faces of the mouth ring 4 intersects the upper surface of the lower shield plate 9 at a right angle. In the outdoor unit shown in FIG. 9, the upper surface of the lower shield plate is formed obliquely so that the angle between the upper shield plate surface and the lower shield plate upper surface is an obtuse angle.

As a result, since the upper and lower shield plates 9 can be integrally formed by drawing, not only the number of manufacturing steps is reduced, but also the strength is increased. Further, since the flow passage area changes smoothly between the upper part (t1) and the lower part (t2) of the shield plate 9, it is possible to reduce the flow path loss due to the secondary flow. Further, since the shielding plate 9 can be integrally formed, it can be manufactured at a relatively low cost.

The above embodiment (FIGS. 2, 8 and 9)
In the above, one side of the shielding plate 9 is set to be substantially parallel or coincident with a line connecting the end of the short side of the U-shaped heat exchanger 2 (end of the short end) and the suction side end face of the mouth ring 4. If the cross-sectional area of the ventilation passage from the heat exchanger 2 to the propeller fan 6 is gradually widened or the flow velocity of the air passing therethrough is gradually increased, it is not necessary to stick to the relationship with this line.

As described above, according to this embodiment, since the air volume can be increased while suppressing the noise generated from the fan, there is an effect of high air volume and power saving. Further, when the air volume is the same, it is possible to downsize the propeller fan,
It is possible to realize a low cost and small unit.

[0048]

According to the present invention, in an air conditioner equipped with a U-shaped heat exchanger and a vertical compressor in an outdoor unit, a space between the shielding plate and the heat exchanger can be secured while securing the installation location of the compressor. An air conditioner that secures an air passage can be provided.

[Brief description of drawings]

FIG. 1 is a horizontal sectional view showing an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line AA of the above embodiment.

FIG. 3 is a horizontal sectional view of an outdoor unit to be improved.

4 is a cross-sectional view taken along line BB of the outdoor unit shown in FIG.

5 is a diagram showing an effect of the outdoor unit shown in FIGS. 1 and 2. FIG.

FIG. 6 is a diagram showing an effect of the outdoor unit shown in FIGS. 1 and 2.

FIG. 7 is a horizontal sectional view of an outdoor unit showing another embodiment of the present invention.

8 is a cross-sectional view taken along line CC of the outdoor unit shown in FIG.

9 is a cross-sectional view of the outdoor unit shown in FIG. 7 taken along the line CC in an example different from that of FIG.

[Explanation of symbols]

1 ... Unit frame, 2 ... Heat exchanger, 3 ... Motor, 4 ... Mouth ring, 5 ... Compressor, 6 ... Propeller fan, 7 ... Motor stay, 8 ... Safety protection grill, 9 ... Shield plate, 10 ... Electric Parts, 11 ... Joint between upper shield plate and lower shield plate, A, B, C ... Each cross-sectional position, A, B, C, D ... Velocity measurement position, E ... Peeling area, P, Q ... Heat exchanger-propeller Flow between fans, t ... width between heat exchanger-compressor cover, t1 ... width between upper heat exchanger-compressor cover, t2 ... width between lower heat exchanger-compressor cover,

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Atsushi Otsuka             800 Tomita, Ohira-cho, Shimotsuga-gun, Tochigi             Hitachi Tochigi Technology Co., Ltd. (72) Inventor Masayuki Nonaka             800 Tomita, Ohira-cho, Shimotsuga-gun, Tochigi             Hitachi Tochigi Technology Co., Ltd. (72) Inventor Takashi Fukuda             800 Tomita, Ohira-cho, Shimotsuga-gun, Tochigi             Hitachi Tochigi Technology Co., Ltd. F-term (reference) 3L054 BA03 BA06 BB01

Claims (7)

[Claims] 1. An outdoor unit whose horizontal cross-section is roughly rectangular is arranged along two short sides and one long side, and the length of one short side is shorter than the length of the other short side. Between the heat exchanger having a substantially U shape, a vertical compressor arranged at a position close to the end of the heat exchanger whose short side length is short, and between the heat exchanger and the compressor. The shielding plate disposed in the outdoor unit, the mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed, and the propeller fan provided between the mouth ring and the heat exchanger. An air conditioner provided in a unit, wherein a part of a long side where the heat exchanger is not arranged is projected forward of the mouth ring, and the compressor is arranged in the projected space. 2. An outdoor unit whose horizontal cross-section is roughly rectangular is arranged along two short sides and one long side, and the length of one short side is shorter than the length of the other short side. Between the heat exchanger having a substantially U shape, a vertical compressor arranged at a position close to the end of the heat exchanger whose short side length is short, and between the heat exchanger and the compressor. The shielding plate disposed in the outdoor unit, the mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed, and the propeller fan provided between the mouth ring and the heat exchanger. In the air conditioner provided in the unit, a part of the long side where the heat exchanger is not arranged is projected forward from the mouth ring, the compressor is arranged in the projected space, and the shielding plate is provided. The length of the heat exchanger on the short side is short from the end of the heat exchanger to the mouthpiece. An air conditioner has a shape such that the distance between the arranged heat exchanger to spread the long side portion to grayed. 3. The shape of the shielding plate according to claim 2,
An air conditioner in which one side of the shielding plate is formed on a straight line connecting the end of the heat exchanger whose short side is short and the end on the suction side of the mouth ring. 4. The shape of the shielding plate according to claim 2,
A part of the shielding plate is formed by a curve with a gentle curvature that connects the end of the heat exchanger whose short side is short to the end of the heat exchanger on the suction side. Harmony machine. 5. An outdoor unit whose horizontal cross-section is roughly rectangular is arranged along two short sides and one long side, and the length of one short side is shorter than the length of the other short side. Between the heat exchanger having a substantially U shape, a vertical compressor arranged at a position close to the end of the heat exchanger whose short side length is short, and between the heat exchanger and the compressor. The shielding plate disposed in the outdoor unit, the mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed, and the propeller fan provided between the mouth ring and the heat exchanger. In the air conditioner provided in the unit, the distance between the shielding plate above the compressor and the heat exchanger along the long side of the shielding plate is between the compressor and the heat exchanger along the long side. And a shape that is longer than the distance between the shield plate and the heat exchanger along the long side. Air conditioner. 6. An outdoor unit whose horizontal cross-section is roughly rectangular is arranged along two short sides and one long side, and the length of one short side is shorter than the length of the other short side. Between the heat exchanger having a substantially U shape, a vertical compressor arranged at a position close to the end of the heat exchanger whose short side length is short, and between the heat exchanger and the compressor. The shielding plate disposed in the outdoor unit, the mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed, and the propeller fan provided between the mouth ring and the heat exchanger. In the air conditioner provided in the unit, a shield plate arranged on the upper part of the compressor is a line connecting the end of the heat exchanger whose short side length is short and the end face of the suction side of the mouth ring. An air conditioner that has a shape that is substantially parallel to. 7. An outdoor unit whose horizontal cross-section is roughly rectangular is arranged along two short sides and one long side, and the length of one short side is shorter than the length of the other short side. Between the heat exchanger having a substantially U shape, a vertical compressor arranged at a position close to the end of the heat exchanger whose short side length is short, and between the heat exchanger and the compressor. The shielding plate disposed in the outdoor unit, the mouth ring provided on the long side where the heat exchanger of the outdoor unit is not disposed, and the propeller fan provided between the mouth ring and the heat exchanger. In the air conditioner provided in the unit, a shield plate arranged on the upper part of the compressor is a line connecting the end of the heat exchanger whose short side length is short and the end face of the suction side of the mouth ring. Has a surface substantially parallel to the surface, and the angle between this surface and the surface covering the top of the compressor is obtuse. It becomes such a shape and air conditioner.