JPH06300302A - Water discharging structure of air conditioner under projected window - Google Patents

Abstract

PURPOSE:To provide a water discharging structure of an air conditioner under a projected window wherein a treatment of water blowing in from the outside of a room even in a period of wind and rain in an air conditioner under a projected window which uses an air conditioner body having an indoor machine and an outdoor machine that are integrated in a body. CONSTITUTION:An air conditioner unit 50 having an indoor machine and an outdoor machine integrated in one body is accommodated in an air conditioner accommodating space having an air passage part at the outside of a room, the space being formed under a projected window sash 40 and under this air conditioner accommodating space, an indoor water discharging space 38A leading drain water generated during operation of the air conditioner unit 50 from the air conditioner unit to the outside. A rain water discharging space 39A discharging rain water which passed through an air passage section is arranged at the outside of the room of this indoor water discharging space 38A independently of the indoor water discharging space 38A.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bayonet air conditioner drainage structure, and more specifically to a drainage structure when an air conditioner unit in which an indoor unit and an outdoor unit are integrated is housed in an air conditioner storage space provided below a bay window sash. It is about.

[0002]

2. Description of the Related Art An air conditioner (air conditioner) for controlling indoor temperature is formed of an indoor unit and an outdoor unit, but in recent years, effective use of the indoor space and reduction of operating noise of the air conditioner have been achieved. For this reason, there have been attempts to hide the indoor unit. On the other hand, bay window sashes have been conventionally used for both lighting the interior space of a building and accenting the interior and exterior.

Therefore, a technique of providing an air conditioner main body in a space below or above the bay window sash, for example, Japanese Utility Model Laid-Open No. 57-125921 has been provided. The technique disclosed in Japanese Utility Model Application Laid-Open No. 57-125921 will be described with reference to FIG. 4. A bay window sash 2 is attached to a bay window sash storage space 1 that projects outward from the structure of the building. An indoor unit 3 of an air conditioner is fixed to the upper part of the bay window sash 2 on the indoor side, and an outdoor unit 4 of the air conditioner is housed and fixed in a space below the bay window sash 2.

According to this technique, it is possible to solve the problem of noise caused by the installation location and management of the air conditioner body and the air conditioner.
There is an effect. After that, the technique of housing the air conditioner main body in the space below or above the bay window sash 2 has come to be called "bay window air conditioner" as a common noun, and has come to be provided in large numbers. The air conditioner main body of a general bay window air conditioner has an indoor unit and an outdoor unit independently provided in different places like a bay window with an air conditioner shown in Japanese Utility Model Publication No. 62-100422. Water taken out from the air conditioned in the indoor unit is collected in one place as drain water, guided to a drain pipe, discharged, and treated in all air conditioners.

[0005]

By the way, in recent years,
An air conditioner body in which an indoor unit and an outdoor unit are integrated has also been provided. It has been difficult to use such an air conditioner body as a bay window air conditioner for the following reasons. That is, when the weather is rain with wind, the wind pressure near the outdoor suction port or the outdoor air outlet becomes higher than that at the portion corresponding to the indoor unit. Therefore, it is expected that rainwater will blow out into the room through the indoor outlet and the indoor suction port. It is only necessary to provide a cover around the outdoor intake and outdoor outlets to prevent wind and rain from blowing in, but it was not possible to provide such a cover on the outside of the bay window sash because it would damage the appearance of the building. .

The problem to be solved by the present invention is, in a bay window air conditioner using an air conditioner main body in which an indoor unit and an outdoor unit are integrated, the drainage of the bay window air conditioner capable of completely treating the water blown from outside even in the case of wind and rain. To provide the structure.

[0007]

The present invention is to achieve the above-mentioned object. In the bayonet air conditioner drainage structure according to claim 1, an air conditioner unit (50) in which an indoor unit and an outdoor unit are integrated is provided, and a ventilation part (55A, 55B) is provided below the bay window sash (40) to the outside of the room. It is stored in the air conditioner storage space that it has, and at the bottom of this air conditioner storage space is provided an indoor water drainage space (38A) that guides drain water generated during operation of the air conditioner unit (50) from the air conditioner unit to the outside. The vent (55) is provided outside the space (38A).
Rainwater drainage space (3
9A) is provided independently of the indoor water drainage space (38A).

The bay window air conditioner drainage structure according to claim 2 is
The bay window air conditioner drainage structure according to claim 1 is technically limited. That is, an air conditioner support portion for mounting and fixing the air conditioner unit (50) is provided at the bottom of the air conditioner storage space, and the air conditioner support portion is made of a material that can be easily processed (31A, 34, 35, 36) And its core material (31A, 34, 35, 3
Formed from a waterproof thin plate (31B) that covers 6)
(38A) and the rainwater drainage space (39A) are characterized in that they are formed in the air conditioner support portion.

[0009]

[Operation] According to the bay window air conditioner drainage structure of the first aspect, the following operation is achieved. Air Conditioner Unit (50)
Drain water generated during operation is guided to the indoor water drainage space (38A) and discharged. When rainwater blows into the bay window sash (40) or the air conditioning unit (50), the rainwater is guided to the rainwater drainage space (39A) and discharged. Even with rainwater accompanied by wind, the rainwater drainage space (39A) is provided separately from the indoor water drainage space (38A),
Do not blow into the room through the indoor water drainage space (38A).

According to the bayonet air conditioner drainage structure of the second aspect, in addition to the above actions, the following actions are exhibited. That is, the air conditioner support portion must have a shape that matches the shape of the bay window sash (40) and the air conditioner unit (50).
In the production, first, the shape required for the air conditioner support portion is produced from the core material (31A, 34, 35, 36) formed of a material that can be easily processed. Therefore, it is cheaper and easier to fabricate than molding. Then, by covering the manufactured core material (31A, 34, 35, 36) with the waterproof thin plate (31B), the air conditioner supporting portion can be manufactured.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail below with reference to embodiments and drawings. The drawings used here are FIGS. 1 to 5. FIG. 1 is a front view of the bay window sash viewed from the indoor side. FIG. 2 is a vertical sectional view of this embodiment. Figure 3
[Fig. 4] is a front view showing an air conditioner unit. FIG. 4 is a side view showing the air conditioner unit. FIG. 5 is a bottom view showing the air conditioner unit.

First, the structure of this embodiment will be described with reference to FIG. Structural material 10 for buildings with bay windows
Is a wall panel 1 formed by covering a core material with a non-combustible panel
1, an inner wall material 12 that covers the indoor side of the wall panel 11, and an outer wall material 13 that covers the outdoor side of the wall panel 11. An opening is provided in the structural material 10, a bay window sash mounting structure 20 is provided above the opening, and an air conditioner unit mounting structure 30 is provided below the opening.
The bay window sash 4 is attached to the outside of the bay window sash mounting structure 20.
0 is provided inside the air conditioner unit mounting structure 30, and an air conditioner unit 50 in which an indoor unit and an outdoor unit are integrated is provided.

The bay window sash mounting structure 20 projects and is fixed to the outside of the room from directly below the opening of the structural member 10, and supports the bay window roof material 21 that supports the upper portion of the bay window sash 40 and the lower portion of the bay window sash 40. In addition, the bay window sash mounting structure 20 and the air conditioner unit mounting structure 30 are formed to have a bay window lower member 24 serving as a boundary. The bay window roofing material 21 is composed of a roof core material 21A made of a wooden plate, and a waterproof thin plate 21B that covers the outdoor surface of the roof core material 21A and the contact surface with the bay window sash 40. Although the roof core material 21A is a wooden plate in this embodiment, the roof core material 21A is not limited to wooden as long as the material can be manufactured and processed more easily than molding. In addition, waterproof thin plate 2
In this embodiment, a vinyl chloride steel plate is used for 1B, but an aluminum plate may be used as long as it is waterproof and durable.

An angle member 26 is pressed against the outdoor side of the corner where the wall panel 11 and the bay window roof member 21 intersect, and the indoor end of the waterproof thin plate 21B is located outside the wall panel 11 of the angle member 26. The embedded fixing member 27 that covers up to the surface
The waterproof thin plate 21B and the angle member 26 are fixed to the roof core member 21A. The outside of the wall panel 11 including the vicinity of the angle member 26 and the embedded fixing member 27 is covered with the outer wall member 13, and the outer wall member 13 and the waterproof thin plate 2 are covered.
The space between 1B and 1B is filled with the filling material 14. Roof core material 21A
The inner surface of the inner wall member 22 is covered with the inner wall member 22, and the inner wall member 22 is mounted between the outdoor end and the bay window sash 40 so as to be flush with the lower surface of the inner wall member 22. An auxiliary material 23 is provided.

The bay window base material 24 is also made of a vinyl chloride steel sheet that covers the bay window bottom core material 24A made of a wooden plate and the outer surface of the bay window bottom core material 24A and the contact surface with the bay window sash 40. It consists of a thin plate 24B. The decorative plate 25 is fixed to the upper portion of the bay window lower member 24. Similarly to the roof core material 21A, the bay window base material 24 is not limited to wood. Also,
Similar to the waterproof thin plate 21B, the waterproof thin plate 24B may be, for example, an aluminum plate as long as it is waterproof and durable.

Although the bay window sash 40 is attached to the bay window sash mounting structure 20 formed as described above, a detailed description of the bay window sash 40 will be omitted. Although there is a bay window sash provided with a portion corresponding to the bay window roof material 21, the bay window sash mounting structure for mounting such bay window sash does not require the bay window roof material 21.

Next, the air conditioner unit 50 will be described with reference to FIGS. Air conditioner unit 50
Has an indoor unit 51 on the indoor side and an outdoor unit 55 on the outdoor side. A drainer plate 54 is provided on the side of the air conditioner unit 50. Further, the bottom plate lower surface 50A of the air conditioner unit 50 is inclined downward from the indoor side to the outdoor side.

On the indoor side of the indoor unit 51, an indoor air outlet 51B is provided in the upper part thereof, an indoor suction port 51A is provided below the indoor air outlet 51B, and an indoor louver 52 is provided on the indoor side thereof. In addition, the indoor unit 51
A drain hole 53 for discharging drain water generated in the air conditioner unit 50 to the outside of the air conditioner unit 50 is provided on the lower side of the outdoor unit 55 side.

On the outdoor side of the outdoor unit 55, an outdoor suction port 55A is provided at an upper portion thereof, and the outdoor suction port 55 is provided.
An outdoor air outlet 55B is provided below A, and an outdoor louver 56 is provided on the outdoor side thereof. Further, a rainwater drain hole 57 for discharging the rainwater that blows into the air conditioner unit 50 over the outdoor louver 56 to the outside of the air conditioner unit 50 is provided in the lower portion of the outdoor unit 55.

Next, the air conditioner unit mounting structure 30 will be described. The air conditioner unit mounting structure 30 is provided in an air conditioner storage space that is a space below the bay window lower member 24 of the bay window sash mounting structure 20, and an air conditioner support portion is provided in a lower portion of the air conditioner storage space. The air conditioner supporting portion forms the lower surface portion of the air conditioner unit mounting structure 30.
1. An outdoor side support member 34 provided outside the upper air conditioner of the air conditioner unit support plate 31 to support the lower outdoor side of the air conditioner unit 50, and a room of the air conditioner unit 50 provided inside the upper air room of the air conditioner unit support plate 31. The indoor support member 36 that supports the lower inner portion, and the intermediate support member 3 that is provided between the outdoor support member 34 and the indoor support member 36 to support the lower central portion of the air conditioner unit 50.
5 is formed. Air conditioning unit support plate 3
1, the indoor side support member 36, the outdoor side support member 34, and the intermediate support member 35 are also formed of a wooden plate material that is a material that can be manufactured and processed more easily than by molding.

In the air conditioner support portion, the upper surface of the indoor side support member 36 is formed to be higher than the outdoor side support member 34. In addition, the indoor support member 36
Is provided with a roller 37 that rotates in contact with the bottom plate lower surface 50A of the air conditioner unit 50. The roller 37 facilitates placing and fixing the air conditioner unit 50.

An outdoor drainage structure 39 is provided above the air conditioner unit support plate 31 between the outdoor side support member 34 and the intermediate support member 35, and an intermediate support member 35 and an indoor side support member 36 above the air conditioner unit support plate 31. And an indoor drainage structure 38 are independently provided between the and.
Therefore, the outer surfaces of the outdoor side support member 34, the indoor side support member 36, and the intermediate support member 35, and the upper surfaces of the outdoor drainage structure 39 and the indoor drainage structure 38 in the air conditioner unit support plate 31 form a space below the air conditioner unit 50. It becomes the surface.

The surface of the lower space of the air conditioner unit 50, the lower surface of the air conditioner unit support plate 31, and the outdoor side surface are covered with a waterproof thin plate 31B made of a vinyl chloride steel plate. The treatment of the end portion of the waterproof thin plate 31B is the same as in the case of the bay window roof material 21. That is, the angle member 32 is pressed against the corner where the wall panel 11 and the air conditioner unit support plate 31 intersect, and the indoor end of the waterproof thin plate 31B covers the surface of the angle member 32 on the outside of the wall panel 11. The waterproof thin plate 31B and the angle member 32 are fixed to the support plate core member 31A by the embedded fixing member 33. Including the angle member 32 and the vicinity of the embedded fixing member 33,
The outdoor side of the wall panel 11 is covered with the outer wall material 13, and the space between the outer wall material 13 and the waterproof thin plate 31B is filled with the filler 14.

The indoor drainage structure 38 includes the air conditioner unit 5
Room water drainage space 38A for treating drain water discharged from 0, surrounded by an intermediate support member 35, an indoor support member 36, and a waterproof thin plate 31B covering the surfaces of the air conditioner unit support plate 31, and its Indoor water drainage space 3
The drain water drain pipe 38B is connected to the lower portion of 8A and discharges drain water.

The outdoor drainage structure 39 is for treating rainwater blown into the air conditioner unit 50 from the outdoor louver 56, and has an intermediate support member 35 and an outdoor support member 34.
And a rainwater drainage space 39A surrounded by a waterproof thin plate 31B that covers the surface of the air conditioner unit support plate 31, and a rainwater drainage pipe 39B that is connected to a lower portion of the rainwater drainage space 39A and drains drain water.

Next, the operation of the above embodiment will be described. First, an opening is formed in the wall panel 11 of the building, and a bay window sash fixing opening is formed in the opening. The bay window sash fixing opening is formed by processing the roof core material 21A and the bay window lower core material 24A, and the surfaces on the outdoor side of these core materials 21A, 24A and the contact surface with the bay window sash 40 are waterproof thin plates 21B,
It is formed by covering with 24B.

An angle member 26 is pressed against the outdoor side of the corner where the wall panel 11 and the bay window roof member 21 intersect. The indoor end of the waterproof thin plate 21B that covers the outdoor surface of the roof core member 21A covers the outdoor surface of the angle member 26, and the embedded fixing member 27 separates the waterproof thin plate 21B and the angle member 26 from each other. To fix the bay window sash mounting structure to the roof core material 21A.

The bay window sash 40 is attached to the bay window roof material 21 and bay window lower material 24 of the bay window sash mounting structure thus formed. The outdoor surfaces of the core members 21A and 24A are covered with the waterproof thin plates 21B and 24B, and the corner portions are also fixed by the angle members 26, so that the waterproof property against rain and snow is secured. There is. Bay window sash 40
Since the contact surface with is also covered with the waterproof thin plates 21B and 24B, the waterproof property of the gap between the bay window sash 40 and the bay window roof material 21 or the bay window lower material 24 is secured.

Angle member 26 and embedded fixing member 27
The outer side of the wall panel 11 including the vicinity is covered with the outer wall material 13, and the space between the outer wall material 13 and the waterproof thin plate 21B is the filler 1.
Since it is filled with 4, the waterproof property between the outer wall material 13 and the waterproof thin plate 21B is secured. Therefore, the wall panel 11
The waterproof property is also guaranteed. Next, the operation of the fixing structure of the air conditioner unit 50 will be described.

In order to fix the air conditioner unit 50 to the air conditioner storage space, first, the outside of the bottom plate lower surface 50A of the air conditioner unit 50 is brought into contact with the indoor side support member 36 with the cushioning material 36A interposed therebetween. Push 50 toward the outside. Then, the indoor support member 3
6, the roller 36 reduces resistance due to contact with the bottom plate lower surface 50A of the air conditioner unit 50, so that the air conditioner unit 50 moves more smoothly toward the outdoor side. Then, the intermediate support member 3 with the cushioning material 35A interposed therebetween.
After passing 5, the contact is made with the stopper 34A provided on the outdoor side support member 34 with the cushioning material 34B interposed.

In the air conditioner supporting portion, since the upper surface of the indoor side supporting member 36 is formed to be higher than the outdoor side supporting member 34, the air conditioner unit 50 is formed.
Moves smoothly toward the outdoor side, is stored in the air-conditioner storage space, and is then fixed. Next, the operation of the drainage structure of the bay window air conditioner 40 will be described.

Drain water generated when the air conditioner unit 50 is operating is guided to the indoor water drainage space 38A through the drain hole 53 and discharged. When rainwater is blown into the air conditioner unit 50 beyond the outdoor louver 56,
The rainwater is guided to the rainwater drainage space 39A from the rainwater drainage hole 57 and discharged from the rainwater drainage pipe 39B. Even rainwater accompanied by wind is not blown into the room through the indoor water drainage space 38A because the rainwater drainage space 39A is provided separately from the indoor water drainage space 38A.

The air conditioner support is provided with a bay window sash 40.
The air conditioner unit 50 and the air conditioner unit 50 must have a shape that matches the shape of the air conditioner unit 50. However, in the manufacture, first, the shape required for the air conditioner support portion is made of a core material 31 formed of a material that can be easily processed.
A, 34, 35, 36 are produced. Therefore, it is cheaper and easier to fabricate than molding. Then, by covering the manufactured core materials 31A, 34, 35, 36 with the waterproof thin plate 31B, the air conditioner supporting portion can be manufactured.

Next, the effect of the above embodiment will be described. First, the rainwater drainage space 39A for discharging the rainwater blown into the bay window sash 40 or the air conditioner unit 50 to the outside of the air conditioner unit 50 is independent of the indoor water drainage space 38A for discharging the drain water from the air conditioner unit. Since it is provided in such a way, even rainwater that is blown in with the wind will not be blown into the room. Since it is formed in this way, there is an effect that even an air conditioner unit in which the indoor unit 51 and the outdoor unit 55 are integrated can be used as a bay window air conditioner.

In addition, the air conditioner support portion, which must be manufactured in a shape corresponding to the shape of the bay window sash 40 and the air conditioner unit 50, is formed by the core materials 31A, 34, 35, 36 which are made of easily-processed wooden boards. It may be produced, and the required waterproof property can be easily secured by the waterproof thin plate 31B. Therefore, there is an effect that the time and effort required for manufacturing are lower and the cost is lower than the manufacturing by molding.

Further, the bottom plate lower surface 50A of the air conditioner unit 50 is inclined from the indoor side to the outdoor side, and the upper surface of the indoor side supporting member 36 is the outer side supporting member 34.
Since it is formed to be higher than the above and further provided with the roller 37, the movement of the air conditioner unit 50 at the time of mounting the air conditioner unit is made smooth. For this reason, although the air conditioner unit has a considerable weight, there is an effect that the worker can perform the mounting work extremely easily.

Further, in the mounting structure of the bay window sash,
Formed by processing a roof core material 21A and a bayonet lower core material 24A that are easy to fabricate, and covering the outdoor surfaces of these core materials 21A and 24A and the contact surfaces with the bayonet sash 40 with waterproof thin plates 21B and 24B. As a result, there is an effect that the manufacturing labor is smaller and the cost is smaller than the molding. And the required waterproofness is the angle members 26, 3
2. It is secured by the embedded fixing members 27 and 33, the outer wall material 13, and the filling material 14, so that it can be used without worry even against rain or snow.

[0038]

According to the bay window air conditioner drainage structure of the first aspect, the following effects can be obtained. That is, the rainwater drainage space for discharging the rainwater blown into the bay window sash or the air conditioner unit to the outside of the air conditioner unit is provided separately from the indoor water drainage space for discharging the drain water from the air conditioner unit. , Even rainwater that blows with the wind will not blow into the room. Since it is formed in this manner, there is an effect that even an air conditioner unit in which an indoor unit and an outdoor unit are integrated can be used as a bay window air conditioner.

According to the bayonet air conditioner drainage structure of the second aspect, in addition to the effect of the bayonet air conditioner drainage structure of the first aspect, there are also the following effects. That is, the air conditioner support portion, which must be formed in a shape that matches the shape of the bay window sash or the air conditioner unit, may be formed of a core material formed of a material that is easy to process, and the required waterproofness is also a waterproof thin plate. Can be secured easily. Therefore, there is an effect that the time and effort required for manufacturing are lower and the cost is lower than the manufacturing by molding.

[Brief description of drawings]

FIG. 1 is a front view of a bay window sash as viewed from the indoor side.

FIG. 2 is a vertical sectional view of an example.

FIG. 3 is a front view showing an air conditioner unit.

FIG. 4 is a side view showing an air conditioner unit.

FIG. 5 is a bottom view showing the air conditioner unit.

FIG. 6 is a schematic view showing a bay window air conditioner disclosed in Japanese Utility Model Laid-Open No. 57-125921.

[Explanation of symbols]

1 bay window sash storage space 2 bay window sash 3 air conditioner indoor unit 4 air conditioner outdoor unit 10 structural material 11 wall panel 12 inner wall material 13 outer wall material 14 filling material 20 bay window sash mounting structure 21 bay window roof material 21A roof core material 21B waterproof thin plate 22 Inner wall material 23 Installation auxiliary material 24 Bay window lower material 24A Bay window lower core material 24B Waterproof thin plate 25 Decorative plate 26 Angle material 27 Embedded fixing member 30 Air conditioner unit mounting structure 31 Air conditioner unit support plate 31A Support plate core material 31B Waterproof thin plate 32 Angle material 33 Embedded fixing member 34 Outdoor support member 34A Stopper 34B Buffer material 35 Intermediate support member 35A Buffer material 36 Indoor support member 36A Buffer material 37 Roller 38 Indoor drainage structure 38A Indoor water drainage space 38B Drain water drainage pipe 39 Outdoor drainage structure 39A Rainwater drainage space 39B Rainwater drainage pipe 40 Bay window sash 50 Air conditioner unit 50A Bottom plate lower surface 51 Indoor unit 51A Indoor suction port 51B Indoor blowout port 52 Indoor louver 53 Drain hole 54 Drain plate 55 Outdoor unit 55A Outdoor suction port 55B Outdoor blowout port 56 Outdoor louver 57 Rainwater drainage hole

Claims (2)

[Claims] 1. An air conditioner unit in which an indoor unit and an outdoor unit are integrated is housed in an air conditioner storage space that is provided below a bay window sash and has a ventilation portion outside the room. An indoor water drainage space that guides the drain water generated during operation of the unit to the outside from the air conditioner unit is provided, and a rainwater drainage space that discharges the rainwater that has passed through the ventilation section to the outside is provided on the outside of this indoor water drainage space. A bay window air conditioner drainage structure characterized by being installed separately from the water drainage space. 2. An air conditioner support part for mounting and fixing an air conditioner unit is provided in a lower part of an air conditioner storage space, and a core material formed of a material that is easy to process the air conditioner support and a waterproof thin plate covering the core material. 2. The bay window air conditioner drainage structure according to claim 1, wherein the indoor water drainage space and the rainwater drainage space are formed in the air conditioner support portion.