JP4063716B2 - Outdoor-installed power conditioner device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an outdoor-installed power conditioner device that converts DC power generated by an independent DC power source into AC power and supplies power to a general AC load for home use or office use, or an existing commercial power system, More specifically, the present invention relates to a waterproof structure for an outdoor power conditioner device.
[0002]
[Prior art]
Solar cells and fuel cells are known as simple and clean energy sources that do not emit harmful substances because they operate as a DC power source and output DC power without any other energy source such as a secondary battery. ing. And the outdoor installation power conditioner apparatus is used as an apparatus which converts the direct-current power generated from such an independent direct-current power supply into alternating current power, and supplies electric power to a general alternating current load or the existing commercial power system.
[0003]
As such a power conditioner device, there is one as described in Patent Document 1. The power conditioner device described in Patent Document 1 includes a housing, and an exhaust port is provided on the back surface of the housing. Cooling air that has cooled the power supply device inside the housing is discharged from the exhaust port. This housing is attached via a wall hanging plate attached to the outer wall surface. At this time, a spacing piece is provided between the wall-hanging plate and the back surface of the housing. Thus, a gap is formed between the exhaust port and the outer wall surface to prevent the exhaust port from being blocked by the outer wall.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-122949
[Problems to be solved by the invention]
In the power conditioner device, the cooling air is discharged from an exhaust port provided on the back surface of the casing. Since the periphery of the exhaust port is open to the outside, there is a problem that rainwater tends to enter the housing from the exhaust port. In addition, when dust such as fallen leaves accumulates between the back surface of the housing and the outer wall surface, the exhaust port may be blocked by dust.
[0006]
Accordingly, the present invention has been made in order to solve the above-described problem, and can be provided with an outdoor power conditioner that can reliably secure an exhaust passage and prevent rainwater from entering the interior thereof. An object is to provide an apparatus.
[0007]
[Means for Solving the Problems]
According to the outdoor-installed power conditioner device based on the present invention, a housing having an intake port and a first exhaust port, a power converter provided in the housing, and provided in the housing, A fan that cools the power conversion unit by blowing the gas taken in from the intake port so as to flow to the first exhaust port via the power conversion unit, and an exhaust path connected to the housing And a member. The exhaust path forming member has a second exhaust port that communicates with the first exhaust port to form an exhaust path therein and exhausts gas in the exhaust path to the outside. The upper surface of the exhaust path forming member is inclined so as to become lower as the distance from the casing increases.
[0008]
According to this configuration, the exhaust path forming member can reliably secure the exhaust path from the first exhaust port provided in the housing. Further, this exhaust path forming member can prevent rainwater and the like from entering the first exhaust port. Furthermore, the upper surface of the exhaust path forming member is inclined so as to become lower as the distance from the casing increases. Thereby, it is possible to cause rainwater to quickly flow down to the opposite side of the casing without accumulating on the upper surface of the exhaust path forming member. Even when a joint exists between the exhaust path forming member and the housing, the intrusion of rainwater from the joint can be suppressed. Accordingly, the electronic device in the housing can be protected from rain water while securing the exhaust path.
[0009]
In the outdoor-installed power conditioner device, preferably, the second exhaust port is located below the first exhaust port and protrudes into the exhaust path along a lower end portion of the first exhaust port. A first water stop member is provided. According to this configuration, in the case of a storm or the like, even when rainwater covered with wind enters the exhaust path from the second exhaust port, the first water stop member prevents the rainwater from entering the housing. be able to.
[0010]
In the outdoor installation power conditioner device, more preferably, a second water stop member is provided so as to protrude downward from the first water stop member of the exhaust path, and the second water stop member is It is provided on the surface facing the surface on which the first water stop member is provided. According to this configuration, rainwater is less likely to enter the housing by the second water stop member.
[0011]
In the outdoor-installed power conditioner device, more preferably, the second water stop member is inclined so as to be substantially perpendicular to the upper surface of the exhaust passage forming member. According to this configuration, the warmed air discharged from the first exhaust port can be smoothly guided into the exhaust path.
[0012]
More preferably, in the outdoor power conditioner device, the second exhaust port is provided on each of a right side surface and a left side surface of the exhaust path forming member, and the second exhaust port on the right side surface and the second exhaust port are provided on the right side surface. and shortest exhaust path formed between the right edge of the exhaust port, and a shortest exhaust path formed between the left end of the second exhaust port of the left side and the first outlet In comparison, the protrusion length of the second water stop member positioned in the exhaust path with one longer than the other and the longer distance is the protrusion length of the second water stop member positioned in the exhaust path with the shorter distance. It is configured to be longer than the length. According to this configuration, it is possible to suppress intrusion of rainwater into the housing while minimizing an adverse effect on the exhaust efficiency of the second water stop member.
[0013]
The Te is installed outdoors power conditioner device odor, by locking the housing relative to the exhaust path forming member fixed to an adherend surface, the housing is attached to the adherend surface. According to this configuration, the casing can be attached to the adherend surface by the exhaust path forming member, and the securing of the exhaust path and the mounting of the casing can be performed at the same time.
[0014]
More preferably, in the outdoor-installed power conditioner device, the gas discharged from the first exhaust port is guided to a lower surface of an inclined top plate that constitutes an upper surface of the exhaust passage forming member, and is placed below the exhaust passage. be introduced. According to this structure, exhaust can be smoothly introduced into the lower part of the exhaust path by the inclined top plate. Further, the number of members can be reduced as compared with the case where such a guide member is provided separately.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the outdoor installation power conditioner apparatus in this Embodiment is demonstrated, referring a figure. FIG. 1 is a perspective view showing the structure of an outdoor-installed power conditioner device according to the present embodiment as viewed from the front side.
[0016]
Referring to FIG. 1, an outdoor-installed power conditioner device 1 includes an outer box 2 as a housing, a lid 4 that covers an opening provided on the front side of the outer box 2, and an exhaust path forming member 3. Is provided. The exhaust path forming member 3 is attached to the building outer wall, and the outdoor-installed power conditioner device 1 is installed outdoors. An intake port 5 is provided on the bottom surface 2 a of the outer box 2, and a first exhaust port 6 is provided on the back surface 2 b of the outer box 2. The intake port 5 is formed by a plurality of rows of rectangular holes. The exhaust passage forming member 3 is provided on the back surface 2b side of the outer box 2 so as to communicate with the inside of the first exhaust port 6, and a long hole-like second exhaust gas extending vertically in both side surfaces. A mouth 7 is provided.
[0017]
FIG. 2 is a cross-sectional view taken along the line II-II in FIG. Referring to FIG. 2, a waterproof cover 11 is provided on the inner side of the bottom surface 2 a of the outer box 2 so as to cover the air inlet 5. An opening 12 is provided on the upper surface of the waterproof cover 11. A heat sink 13 is provided on the back surface 2 b of the outer box 2 so as to be positioned above the waterproof cover 11. The heat sink 13 is divided into a plurality of parts by a plurality of blade portions 21 extending vertically. On the front surface of the heat sink 13, a power conversion unit 14 that converts DC power output from a solar cell or the like into AC power is provided.
[0018]
A fan support portion 18 is provided along the upper surface 2c of the outer box 2, and a plurality of holes 19 are formed on the bottom surface thereof. The bottom surface of the fan support portion 18 is inclined so as to become lower toward the back surface 2b of the outer box 2. The inside of the fan support portion 18 communicates with the first exhaust port 6 provided on the back surface 2 b of the outer box 2. A pair of fans 15 a and 15 b are provided on the inclined bottom surface of the fan support 18 facing the heat sink 13, and each face a hole 19 formed in the fan support 18. A hole 17 is formed in the bottom surface of the fan 15. A rotary blade 16 is provided inside the fan 15, and the rotary blade 16 is connected to a motor (not shown) in the fan 15. In addition, the 1st exhaust port 6 is provided from the center part to the right side edge part in FIG. 2, and is not provided in the left side edge part vicinity.
[0019]
3 is a cross-sectional view taken along line III-III in FIG. With reference to FIG. 3, an air intake guide 33 extending downward from the heat sink 13 is formed on the upper surface of the waterproof cover 11. A power element 34 that generates the most heat in the power conversion unit 14 is provided in contact with the surface of the heat sink 13.
[0020]
The bottom surface of the fan support portion 18 is inclined, and the bottom surface and the fan connection portion 35 of the fan 15 come into contact with each other. The fan 15 is configured such that the convex portion 20 located in front of the bottom surface of the fan support portion 18 is inserted into a slit portion (not shown) in the fan connection portion 35 and the lower ends on both sides of the fan connection portion 35 are attached to the back surface 2b of the outer box 2 by screws 36a. It is fixed by fastening. The screw 36 a is provided so that the screw head faces the opening 31 of the outer box 2.
[0021]
The rotating blades 16 in the fan 15 are provided so that the rotation axis of the rotating blades 16 intersects the bottom surface of the fan support 18 at a right angle. When the rotary blade 16 in the fan 15 is driven, air is blown in the direction indicated by the arrow 46. The direction of the arrow 46 coincides with the direction of the rotation axis of the rotating blade 16 of the fan 15. The air introduced into the fan support 18 by the fan 15 flows in the direction indicated by the arrow 47 and is discharged from the first exhaust port 6 to the outside of the outer box 2. In this case, the inclination of the bottom surface of the fan support portion 18 is formed so that the angle α formed by the direction indicated by the arrow 46 and the direction indicated by the arrow 47 is 70 °. Thereby, the air inside the outer box 2 can be efficiently sent to the exhaust port 6.
[0022]
On the back surface 2b of the outer box 2, an upper hook portion 37, a central hook portion 40, and a lower screwing portion 38 are provided. An upper locked portion 52, a central locked portion 53, and a lower locked portion 54 are provided at positions corresponding to these in the exhaust path forming member 3, respectively. These are locked and screwed to fix the outer box 2 to the exhaust path forming member 3. Thereby, the exhaust path 51 surrounded by the back surface 2b of the outer box 2 and the inner surface of the exhaust path forming member 3 is formed. Further, by fixing the outer box 2 to the exhaust path forming member 3 in this way, it is possible to prevent the outdoor installation power conditioner device 1 from falling off the exhaust path forming member 3 due to a storm or the like.
[0023]
A first water stop member 8 is provided along the lower end portion of the first exhaust port 6 provided in the upper portion of the back surface 2b of the outer box 2. The first water stop member 8 is continuous from one end of the first exhaust port 6 to the other end. The first water stop member 8 is provided so as to be perpendicular to the opening surface of the first exhaust port 6, in other words, to be perpendicular to the back surface 2 b of the outer box 2 and to protrude into the exhaust passage 51. .
[0024]
4A and 4B show the structure of the exhaust passage forming member, where FIG. 4A is a front view, FIG. 4B is a side view, FIG. 4C is a bottom view, and FIG. The inclined top plate 10 constituting the upper surface of the exhaust passage forming member 3 is configured by raising the upper end of the back plate 3a so as to incline at an obtuse angle with respect to the back plate 3a of the exhaust passage forming member 3. Has been. Thereby, when the exhaust path forming member 3 is attached to the outer box 2, the surface of the inclined top plate 10 that forms the upper surface of the exhaust path forming member 3 is inclined so as to become lower as the distance from the outer box 2 increases. Further, an upper engaged portion 52 is provided continuously to the upper end portion of the inclined top plate 10.
[0025]
The side plate 3b and the bottom plate 3c of the exhaust path forming member 3 are configured by raising the end of the back plate 3a of the exhaust path forming member 3 at a right angle. A second exhaust port 7 is provided in each of the side plates 3 b of the exhaust path forming member 3. A second water stop member 9 is provided on the back plate 3 a of the exhaust path forming member 3 so as to be positioned above the second exhaust port 7. The second water stop member 9 protrudes obliquely downward in the exhaust passage 51 and is provided in a direction orthogonal to the inclined top plate 10. Further, the protruding length of the second water stop member 9 varies depending on the position. In FIG. 4 (a), which corresponds to a position where the first exhaust port 6 is not provided, a part of the protrusion on the left side is configured to be longer than the other part. A central engaged portion 53 is provided on the back plate 3a of the exhaust path forming member 3, and a lower engaged portion 54 is provided on the bottom plate 3c.
[0026]
FIG. 5 is a circuit diagram of a system using the outdoor-installed power conditioner device in the present embodiment. A system using the outdoor-installed power conditioner device will be briefly described with reference to FIG.
[0027]
Referring to FIG. 5, a power conversion unit 14 is provided inside the outer box 2. The power conversion unit 14 includes a main circuit component such as a switching element and a control circuit component such as a microcomputer. The power conversion unit 14 is connected to wiring from the external DC power supply 55, the commercial power system 57, and the household electrical load 56.
[0028]
In the system using the outdoor-installed power conditioner device configured as described above, the DC power output from the DC power supply 55 can be converted into AC power having a frequency of 50/60 Hz via the power conversion unit 14. Then, the AC power can be supplied to the commercial power system 57 or the household electrical load 56.
[0029]
6 is a cross-sectional view taken along the line VI-VI in FIG. The cooling structure of the outdoor-installed power conditioner device 1 will be described with reference to FIG.
[0030]
The waterproof cover 11 has a box shape with a rectangular cross section, and an opening 12 is formed so as to be positioned near the lower portion of the heat sink 13. In addition, an inclined plate 5a is formed at the intake port 5 toward the inner side of the outer box 2, thereby preventing rainwater from entering the outer box 2 from the intake port 5 during a storm. Can do.
[0031]
By driving the rotary blade 16 in the fan 15, external cold air is taken into the outer box 2 from the air inlet 5. The taken-in air passes through the space formed inside the waterproof cover 11 and is discharged from the opening 12. At this time, the air is guided to the air intake guide 33 formed in the waterproof cover 11 and proceeds to the space 63 formed in the heat sink 13.
[0032]
The space 63 is divided into a plurality of blade portions 21 (see FIG. 2) formed in the heat sink 13 and extending vertically, and air passes through the spaces 63. Heat generated in the power element 34 is conducted to the blade portion 21 of the heat sink 13. When cold air passes while contacting the blade portion 21 in the heat sink 13, the heat of the blade portion 21 is taken away. As a result, the power conversion unit 14 is cooled.
[0033]
The air heated by the heat exchange with the blades 21 when passing through the space 63 in the heat sink 13 is discharged above the heat sink 13. This air is sucked into the fan 15 and passes through the hole 17 of the fan 15 and the hole 19 of the fan support 18. Then, after being guided to the space 64 in the fan support portion 18, the air is discharged from the first exhaust port 6. At this time, the air that has passed through the fan 15 travels along the axial direction of the rotary blade 16. Since the fan 15 is inclined as described above, when the angle α is 70 °, about 60% of the air hitting the upper surface of the fan support portion 18 is the arrow 67 on the first exhaust port 6 side. The remaining approximately 40% flows in the direction indicated by the arrow 66 on the opposite side of the first exhaust port 6 and circulates in the fan support portion 18. Thereby, the air inside the outer box 2 can be efficiently sent to the first exhaust port 6.
[0034]
The air discharged from the first exhaust port 6 travels along the lower surface of the inclined top plate 10 as indicated by an arrow, and is guided below the exhaust path 51. Then, after the first water stop member 8 and the second water stop member 9 project, the exhaust passage 51 is bent, and then discharged from the second exhaust port 7 to the outside of the outdoor power conditioner device 1. The Since the 2nd water stop member 9 is provided in the direction orthogonal to the lower surface of the inclination top plate 10, the air guided to the inclination top plate 10 can be circulated smoothly. Thus, the inclined top plate 10, the first water stop member 8, and the second water stop member 9 serve as an exhaust guide that guides air in the exhaust passage 51.
[0035]
Since the exhaust path 51 is formed by being surrounded by the exhaust path forming member 3 and the back surface 2b of the outer box 2, external work such as construction failure during the installation of the outdoor-installed power conditioner device 1 and accumulation of dust after installation. The exhaust passage 51 is reliably ensured without being influenced by factors. Thus, the temperature rise of the power converter 14 can be suppressed by efficiently circulating the cooling air in the outdoor-installed power conditioner device 1 to perform forced air cooling of the power converter 14.
[0036]
FIG. 7 is a perspective view showing the structure of the outdoor-installed power conditioner device as seen from the back side. With reference to FIG. 7, outdoor installation power conditioner apparatus 1 is installed outdoors by attaching exhaust passage forming member 3 to the outer wall of the building. Thus, the exhaust path forming member 3 serves as a mounting plate. The first exhaust port 6 provided in the outer box 2 is covered with the exhaust path forming member 3. This prevents rainwater from entering the inside of the outer box 2 from the first exhaust port 6.
[0037]
In addition, the upper surface of the exhaust path forming member 3 is inclined so as to become lower as the distance from the outer box 2 increases, in other words, as it approaches the outer wall to which the outdoor power conditioner device is attached. Even during heavy rain, rainwater does not collect on the upper surface of the inclined top plate 10 and flows down to the outer wall side. Thereby, it is possible to prevent rainwater from entering the outdoor installed power conditioner device 1 through the gap between the upper hooking portion 37 and the upper engaged portion 52 shown in FIGS. 2 and 6.
[0038]
Referring to FIG. 7, the shortest exhaust path between the second exhaust port 7 a and the first exhaust port 6 located on the left side is the second exhaust port 7 a and the first exhaust port 6. Between the left end and the left end. Similarly, the shortest exhaust path formed between the second exhaust port 7b and the first exhaust port 6 located on the right side is the right side of the second exhaust port 7b and the first exhaust port 6. It is formed between the ends. Here, the second exhaust port 7 is located below the first exhaust port 6.
[0039]
Assuming a stormy wind like a storm, rainwater that has entered the exhaust path 51 from the second exhaust port 7 located below enters the inside of the outer box 2 from the first exhaust port 6. There can be. At this time, in FIG. 7, the exhaust path from the second exhaust port 7b on the right side to the first exhaust port 6 is longer than the exhaust path from the second exhaust port 7a on the left side. It becomes shallower. Moreover, the 1st water stop member 8 is not provided in the right part in FIG. 7 in which the 1st exhaust port 6 is not formed. Due to these factors, the possibility of intrusion of rainwater from the second exhaust port 7b on the right side surface is increased.
[0040]
In the present embodiment, in order to maintain waterproofness even in such a situation, a linear rainwater intrusion path formed between the second exhaust port 7b and the first exhaust port 6 located on the right side surface. The projecting length of the second water stop member 9 located here is made long so as to close the cover. As a result, the first exhaust port 6 cannot be seen through any of the second exhaust ports 7.
[0041]
With this configuration, for example, even if rainwater hits the ground and bounces upward and enters the inside from the second exhaust port 7, the first water stop member 8 and the second water stop member 9 can Rain water can be prevented from entering the exhaust port 6. At the same time, since the length of the second water stop member 9 is set as necessary, adverse effects on the exhaust efficiency of the second water stop member 9 in the exhaust passage 51 can be minimized.
[0042]
Next, in order to further clarify the effect of the outdoor installation power conditioner device of the above embodiment, a comparative example of the outdoor installation power conditioner device will be described. FIG. 8 is a perspective view showing the structure of the outdoor-installed power conditioner device of the comparative example as seen from the front side, and FIG. 9 is a cross-sectional view along the line IX-IX in FIG. In these drawings, members corresponding to those in the above embodiment are given the same reference numerals.
[0043]
In this comparative example, the upper surface of the exhaust path forming member 3 is configured horizontally. Further, an exhaust guide 39 a is attached to the back surface 2 b of the outer box 2 in order to smoothly guide the air discharged from the first exhaust port 6 to the lower part of the exhaust path 51.
[0044]
In such a configuration, since the upper surface of the exhaust passage forming member 3 is horizontal, rain may accumulate on the upper surface in the case of heavy rain. In that case, there is a risk that rainwater may enter the exhaust passage 51 from between the upper hook portion 37 and the upper engaged portion 52. This infiltrated rainwater is further blown by the wind from the second exhaust port 7 and may enter the inside of the outer box 2 via the first exhaust port 6.
[0045]
On the other hand, in the said embodiment, the upper surface of the exhaust path formation member 3 is inclined so that it may become low as it leaves | separates from the outer case 2. As shown in FIG. Thereby, rainwater does not collect on the inclined top plate 10 constituting the upper surface of the exhaust path forming member 3, and flows down to the opposite side to the outer box 2. Thereby, it is possible to prevent rainwater from entering the inside between the upper hook portion 37 and the upper engaged portion 52, that is, from the gap between the connection portions of the outer box 2 and the exhaust path forming member 3.
[0046]
In the comparative example, an exhaust guide 39 a is provided in front of the first exhaust port 6. On the other hand, in the present embodiment, since the inclined top plate 10 constituting the upper surface of the exhaust path forming member 3 is inclined as described above, the lower surface of the inclined top plate 10 causes the first exhaust port 6 to The discharged air is guided to the lower part of the exhaust passage 51. Thereby, the number of members can be reduced as compared with the comparative example.
[0047]
In addition, the said embodiment disclosed this time is an illustration in all the points, Comprising: It does not become the basis of limited interpretation. Therefore, the technical scope of the present invention is not interpreted only by the above-described embodiments, but is defined based on the description of the claims. Further, all modifications within the meaning and scope equivalent to the scope of the claims are included.
[0048]
【The invention's effect】
As described above, according to the present invention, it is possible to efficiently exhaust the air taken in the outdoor-installed power conditioner device, and rainwater enters the interior from the exhaust port even during a storm. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a structure of an outdoor-installed power conditioner device according to an embodiment based on the present invention, as viewed from the front side.
2 is a cross-sectional view taken along the line II-II in FIG. 1, showing the structure of the outdoor-installed power conditioner device according to the embodiment based on the present invention.
FIG. 3 is a cross-sectional view taken along line III-III in FIG. 1, showing the structure of the outdoor-installed power conditioner device according to the embodiment based on the present invention.
4A and 4B show the structure of an exhaust passage forming member according to an embodiment of the present invention, where FIG. 4A is a front view, FIG. 4B is a side view, FIG. 4C is a bottom view, and FIG. is there.
FIG. 5 is a circuit diagram of a system using an outdoor-installed power conditioner device in an embodiment based on the present invention.
6 is a cross-sectional view taken along the line VI-VI in FIG. 1, showing the structure of the outdoor-installed power conditioner device according to the embodiment based on the present invention.
FIG. 7 is a perspective view showing the structure of the outdoor-installed power conditioner device according to the embodiment based on the present invention as seen from the back side.
FIG. 8 is a perspective view showing the structure of an outdoor-installed power conditioner device of a comparative example as seen from the front side.
FIG. 9 is a cross-sectional view taken along the line IX-IX in FIG. 8, showing the structure of the outdoor-installed power conditioner device of the comparative example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outdoor installation power conditioner device, 2 Outer box (casing), 3 Exhaust path formation member, 5 Intake port, 6 Exhaust port, 7 Second exhaust port, 8 First water stop member, 9 Second stop Water member, 10 inclined top plate, 14 power conversion unit, 15 fan, 51 exhaust path.

Claims (6)

A housing having an air inlet and a first air outlet;
A power converter provided in the housing;
A fan that is provided in the housing and blows the gas taken in from the intake port so as to flow to the first exhaust port via the power conversion unit, and cools the power conversion unit;
An exhaust passage forming member connected to the housing,
The exhaust path forming member has a second exhaust port that communicates with the first exhaust port to form an exhaust path therein and exhausts the gas in the exhaust path to the outside,
The exhaust path forming member further includes a pair of side plates each provided with a top plate, a bottom plate, a back plate, and the second exhaust port provided so as to surround the exhaust path,
The top surface of the top plate of the exhaust path forming member is inclined so as to become lower as the distance from the housing increases.
The exhaust path forming member has a first hook portion provided at an upper end of the top plate and protruding upward, and a second hook portion provided below the first hook portion,
The housing includes a first locked portion that is engaged from above so as to cover the outside of the first hook portion , and a second locked portion that is engaged from above with the second hook portion. And
Wherein the housing, by the rear plate locking the housing relative to the exhaust path forming member fixed to the adherend surface, outdoor installation power conditioner device attached to the adherend surface. The second exhaust port is located below the first exhaust port;
The outdoor installation power conditioner apparatus of Claim 1 with which the 1st water stop member which protrudes in the said exhaust path is provided along the lower end part of the said 1st exhaust port. A second water stop member is provided so as to protrude downward from the first water stop member of the exhaust passage;
The outdoor-installed power conditioner device according to claim 2, wherein the second water stop member is provided on a surface opposite to a surface on which the first water stop member is provided.   The outdoor-installed power conditioner device according to claim 3, wherein the second water stop member is inclined so as to form a substantially right angle with respect to an upper surface of the exhaust passage forming member. The second exhaust ports are respectively provided on the right side surface and the left side surface of the exhaust path forming member,
A shortest exhaust path formed between the second exhaust port on the right side surface and the right end of the first exhaust port; the second exhaust port on the left side surface; and the left end of the first exhaust port. Compared to the shortest exhaust path formed between the two, the length of the projection of the second water stop member positioned in the exhaust path of which one is longer than the other and the longer distance is shorter The outdoor installation power conditioner apparatus of Claim 3 or 4 comprised so that it might become longer than the protrusion length of the 2nd water stop member located in an exhaust path.   6. The gas exhausted from the first exhaust port is guided to a lower surface of an inclined top plate constituting an upper surface of the exhaust path forming member and introduced into a lower portion of the exhaust path. The outdoor-installed power conditioner device described in 1.

Images