JP3889976B2 - Ventilation structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ventilation structure that ventilates a plurality of rooms inside a building by a central ventilation system.
[0002]
[Background]
FIG. 7 shows a schematic diagram of a building to which a conventional ventilation structure is applied to ventilate a plurality of rooms inside the building by a central ventilation system (FIG. 7 of JP 2000-329395 A).
A central ventilator 100 in a conventional ventilation structure has one large ventilation unit body 110 installed on the ceiling of the first floor to ventilate all rooms provided in the building.
That is, the central ventilator 100 has a large ventilation unit body 110 forcibly forming an air flow installed in the back of the ceiling of the first floor, that is, the lower floor of the second floor, and a fresh air outside the building. In order to take air into the room, the outside air introduction pipe 120 communicated with the ventilation unit main body 110 from the outside of the building, and the air introduced from the outside air introduction pipe 120 is supplied into the room of the building via the ventilation unit main body 110. Outside air supply pipes 130, 150, and 140 are provided.
[0003]
The outside air supply pipe is a first floor outside air supply pipe 130 for supplying air to each room on the first floor, a second floor outside air supply pipe 140 for supplying air to each room on the second floor, and the second floor. The outside air supply pipe 140 and the vertical air pipe 150 connecting the first floor outside air supply pipe 130 are configured.
The central ventilator 100 also has a single indoor air recovery pipe 160 that passes from the approximate center of the first floor ceiling toward the ventilation unit main body 110 in order to recover the air in the room to the ventilation unit main body 110, and the internal air recovery pipe. In order to discharge the air collected from the room 160 to the outdoors, an inside air discharge pipe 170 communicating between the outside and the ventilation unit main body 110 is provided.
[0004]
According to such a ventilation structure using the central ventilation device 100, fresh outdoor air blows out into each room in the building, and is collected from the approximate center of the first floor of the building through each room. The air volume is at least effective in ventilating every corner of each room.
[0005]
[Problems to be solved by the invention]
However, in the conventional ventilation structure described above, there are many routing routes that allow the outside air introduction pipe 120 and the inside air discharge pipe 170 arranged on the back of the ceiling to communicate with the outside due to restrictions such as the layout of the room and the length of the route. In this case, since the opening of the inside air discharge pipe 170 is provided in the vicinity of the position where the outside air introduction pipe 120 opens to the outside, the discharged inside air is reintroduced from the outside air introduction pipe 120 and the ventilation efficiency is lowered. There is. In addition, when a plurality of openings and their covers are provided on the outer wall of the building, there is a problem that the design of the building exterior deteriorates.
[0006]
The objective of this invention is providing the ventilation structure which can improve ventilation efficiency, maintaining the external appearance of a building favorable.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, the ventilation structure of the present invention employs the following configuration.
  The present invention will be described with reference to the drawings. The ventilation structure according to claim 1 is a ventilation structure that ventilates a plurality of rooms with a ventilation unit 10 provided in a building 1, and the ventilation unit includes: A ventilation unit body 11, an outside air introduction path 12 for introducing outdoor air into the ventilation unit body, and an indoor air discharge path 14 for discharging indoor air from the ventilation unit body.A single outside air supply path for supplying outside air introduced into the ventilation unit main body into the building, an outside air supply port connected to the outside air supply path and opened to a predetermined space in the building, and the outside air supply A room air recovery port installed at a position away from the mouth, and a room air recovery path connected to the room air recovery port through a single path to collect the room air in the ventilation unit body.The roof 3 of the building is provided with an exhaust port 31 that is open to face outside air, and at least a part of the outer wall 2 of the building has an air passage 21 communicating with the exhaust port therein. The inside air discharge path is communicated with the ventilation path.The plurality of rooms can be communicated with a space where the outside air supply port is located, and at least one of the plurality of rooms is provided with an individual discharge path for discharging the inside air of the room. The individual discharge path is communicated with the ventilation path.It is characterized by.
[0008]
  Here, the “outside air introduction path and the inside air discharge path” are not limited to those configured with a pipe having a predetermined length, but also include those not including a pipe configured only with an opening.
  In addition, the “ventilation path” is not limited to a pipe having a predetermined length, and may be any one that includes a predetermined gap, an opening, and the like and forms a ventable space.
  In addition, the “outside air supply path and the inside air recovery path” are not limited to those configured by a pipe having a predetermined length, but also include those having no pipe configured only by an opening.
  In addition, “single” means substantially single, and is not limited to a single tube over the entire length thereof, but branches by the vicinity of the inner end of the room. One having a plurality of end openings in one room and one having a plurality of end openings in each of the plurality of rooms are also included.
  The “position away from the outside air supply port” may be a position away from the same room, or may be a room different from the room provided with the outside air supply port of the outside air supply path.
[0009]
  According to this invention, fresh outdoor air is introduced into the ventilation unit main body through the outside air introduction path, and supplied to the inside of the building. The air inside the building is collected in the ventilation unit main body, discharged from the inside air discharge path to the ventilation path, communicated with the ventilation path, and discharged to the outside from an exhaust port provided in the roof. Therefore, since the position of the exhaust port can be installed sufficiently separated from the opening of the outside air introduction path, there is no problem that the inside air discharged to the outside from the exhaust port is supplied to the inside of the building again through the outside air introduction path. Introducing fresh outside air, can improve ventilation efficiency.
  In addition, since the inside air discharge passage communicates with the exhaust port through the air passage and does not directly open to the outside air, the number of openings provided on the outer wall or the like and the number of covers thereof can be reduced to improve the design of the building exterior. Can do.
  Further, the outside air introduced into the ventilation unit main body through the outside air introduction path is supplied into the building through a single outside air supply path, and the supplied outside air flows into each room in the building communicating with the outside air supply port, Mixed with room shyness. A part of the room air is discharged from the individual discharge passage, and the remaining room air that has not been discharged from the individual discharge passage is collected in the ventilation unit main body through a single room air recovery passage, and is discharged through the room air discharge passage. The Therefore, compared with the case where duct piping is installed in a plurality of paths to each room, duct piping can be omitted, so that the installation cost of the ventilation unit can be reduced and ventilation can be performed throughout the building. In addition, since the individual discharge path communicates with the exhaust port through the ventilation path and is not directly open to the outside air, the number of openings and covers provided on the outer wall and the like are reduced, and the exterior appearance design is improved. Can do.
[0010]
The ventilation structure according to claim 2 is the ventilation structure according to claim 1,
The outer wall provided with the ventilation path includes an outer wall body 23 facing the outside air, and an inner wall body 22 provided on the indoor side facing the outer wall body, and the ventilation path includes the outer wall body. And a gap provided between the inner wall body and the inner wall body.
[0011]
According to the present invention, the inside air discharged from the inside air discharge passage is blown out to the air passage that is a gap between the outer wall body and the inner wall body, and after rising up the air passage, the air is discharged from the exhaust port communicating with the air passage. It is discharged outdoors. Therefore, it is possible to form an air passage that communicates with an exhaust port provided on the roof without providing duct piping, a chimney, an exhaust pipe, or the like as an air passage, so that the installation cost of the air passage can be reduced. Further, the air passage also has a heat insulating function as an outer wall air layer and suppresses heat transfer due to a temperature difference between indoor and outdoor, so that the heat insulating property of the building can be improved and the air conditioning efficiency can be improved.
[0015]
  Claim3The ventilation structure according to claim2In the ventilation structure described in the item 1, the inner wall body is a structure body 22 constituting a casing of the outer wall, and the outer wall body is a finishing material 23 constituting an exterior of the outer wall.
  Here, the “structure” refers to a structure that maintains the form of the building, the outer wall itself, the outer wall accessories, and the like, and constitutes a frame for supporting the load. For example, concrete, lightweight foam concrete board, wood panel, etc. Etc. are included.
  In addition, “finishing material” refers to a member constituting the outdoor side surface of the outer wall, and is attached to and supported by the structure. For example, cement, metal, wood siding material, tile or stone material is used. Includes affixed boards.
  According to the present invention, the inner wall body and the outer wall body that form the air passage are normally constituted by the structural body and the finishing material used for the outer wall casing and the exterior. It is not necessary to form a wall body and a ventilation path, and an outer wall having a ventilation path can be constructed at a low cost without increasing the number of members.
[0016]
  Claim4The ventilation structure according to claim3In the ventilation structure described above, the finishing material is attached to the structure through a trunk edge extending in a substantially vertical direction.
  According to this invention, when attaching the finishing material to the structure, the method via the trunk edge is a construction method that is usually performed, and since construction procedures, materials used, etc. are common, the cost is low, and It can be constructed in a short construction period, and a space extending in the vertical direction along the trunk edge is formed in the space between the trunk edges. By using this space as a ventilation path, a ventilation path can be easily provided. Can build an outer wall.
[0017]
  Claim5The ventilation structure according to claim3In the ventilation structure described in the above, the finishing material is attached to the structure body via a trunk edge extending in a substantially horizontal direction, and ventilation holes are provided in the trunk edge at a predetermined interval. To do.
  According to this invention, similarly to the invention described in claim 4 described above, it is possible to perform construction at a low cost and in a short construction period, and by providing a vent hole in the trunk edge extending in a substantially horizontal direction, Since an air passage extending through the upper and lower sides is formed, an outer wall having the air passage can be easily constructed.
[0018]
  Claim6The ventilation structure according to claim3In the ventilation structure described in (1), the finishing material is attached to the structure via trunk edges 26 and 27 extending in a substantially vertical direction and a substantially horizontal direction and intersecting each other.
  According to this invention, similar to the invention described in claim 4, the construction can be performed at a low cost and in a short construction period, and the trunk edge extending in the substantially vertical direction and the trunk edge extending in the substantially horizontal direction are crossed. Thus, a continuous space is formed in both the vertical and horizontal directions. By using this space as an air passage, an outer wall having an air passage can be easily constructed. In addition, even when a large amount of inside air is discharged due to the increase in the volume of the air passage, the discharged inside air is immediately diffused into the air passage so that an increase in air pressure in the air passage can be suppressed. It is possible to reduce the load applied to the exhaust gas and prevent the exhaust efficiency from decreasing.
[0019]
  Claim7The ventilation structure according to claim 1 fromClaim 6In the ventilation structure according to any one of the above, the air passage is communicated with the exhaust port through a shed space 4 of the building.
  According to the present invention, the inside air that has been exhausted to the air passage on the outer wall and has risen in the air passage reaches the back space, and once stays in the back space, is exhausted to the outside from the exhaust port provided in the roof. The Therefore, at the same time as ventilating each room of the building, it is possible to ventilate the attic space and exhaust moisture in the attic space, thereby improving comfortability and durability of the building.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a cross-sectional view of a detached house 1 as a building to which a ventilation structure according to this embodiment is applied.
The house 1 is a two-story house that is fixed on a foundation 5 and has an outer shell 2 formed by an outer wall 2 and a roof 3, and has high heat insulation and airtightness. It has a central ventilation structure that ventilates multiple rooms on the first and second floors.
[0021]
The outer wall 2 of the house 1 has a structure 22 as an inner wall disposed on the indoor side, a finishing material 23 as an outer wall disposed opposite to the structure 22 on the outdoor side, and these structures. An air passage 21 formed between the body 22 and the finishing material 23 is provided. The structure 22 maintains the outer shape of the house 1 and supports loads such as the floor and the roof 3. The finishing material 23 forms the appearance of the house 1 and has a function of preventing wind and rain from entering.
The roof 3 is a dormitory-type or gable-type roof, and an exhaust port 31 that is protected from rain by a cap 34 is provided at the top, and a roof is provided between the roof 3 and the second-floor ceiling 43. A back space 4 is formed.
[0022]
The ventilation unit 10 includes a ventilation unit main body 11 housed in a ceiling back 41 on the first floor, and cylindrical pipes 12, 13, which are disposed on the ceiling back 41 of the first floor and communicate with the outside, the inside of the building, or the air passage 21. 14.
In order to introduce air outside the house 1 (outside air) into the building, these pipes extend from the outside of the house 1 to the ventilation unit body 11 and serve as an outside air introduction path that communicates the outdoors with the ventilation unit body 11. The outside air introduction pipe 12, the outside air supply pipe 13 that extends from one place inside the building to the ventilation unit body 11 and communicates the inside of the building and the ventilation unit body 11, and the air inside the house 1 (inside air) In order to discharge the air, the ventilation unit main body 11 extends from the ventilation unit main body 11 to the ventilation path 21, and is constituted by an inside air discharge pipe 14 as an inside air discharge path that connects the ventilation unit main body 11 and the ventilation path 21. The air passage 21 communicates with an exhaust port 31 at the top of the roof 3 through the shed space 4 in order to discharge the inside air discharged from the inside air discharge pipe 14 to the outside.
[0023]
At the end of the outside air supply pipe 13 opposite to the ventilation unit main body 11, a blowout port 16 serving as an outside air supply port for supplying outside air into the house 1 is provided in the first floor ceiling 42.
In addition, a ceiling opening 15 is provided immediately below the ventilation unit main body 11. The ceiling opening 15 communicates the ventilation unit main body 11 provided through the ceiling 22A directly below the ventilation unit main body 11 with the interior of the building. It is said to be the inside air recovery path. Inside the room of the ceiling opening 15, a suction port 17 is formed as a room air collection port of the room air collection path.
In addition, a plurality of rooms are provided on the first floor and the second floor, and these rooms can communicate with the outlet 16 and exhaust fans as individual discharge paths for discharging the room air to the ventilation path 21. 18 is provided.
[0024]
FIG. 2 shows a plan view of the first floor portion of the house 1.
On the first floor, a living / dining room 1A is provided in the lower part of the figure, a kitchen 1B is provided on the upper left side of the living / dining room 1A, and an entrance 1C is provided on the upper right side of the living / dining room 1A in the figure. Is provided. And the washroom 1D and the bathroom 1E are provided in the upper part of the figure of the entrance 1C. A toilet 1F and a first floor staircase 1H are provided on the left side of the bathroom 1E in the drawing. A corridor 1G is provided between the toilet 1F and the first floor staircase 1H and the kitchen 1B. The corridor 1G is folded in an L shape in front of the toilet 1F and extends toward the living / dining room 1A. ing.
[0025]
Here, the outlet 16 is provided in the ceiling 41 of the corridor 1G as a common space provided in the house 1, and the kitchen 1B, the entrance 1C, the washroom 1D, and the first floor staircase 1H are provided in the corridor 1G. Is communicated. In addition, the living / dining room 1A and the toilet 1F communicate with the corridor 1G through vents provided in the upper or lower part of the door of the entrance / exit, respectively. The bathroom 1E communicates with the washroom 1D through a vent provided in the upper part or the lower part of the door of the entrance / exit.
[0026]
The ventilation unit body 11 of the ventilation unit 10 is provided at a position away from the outlet 16 in plan view, here, on the ceiling 41 of the bathroom 1E. Therefore, the suction inlet 17 is provided in the ceiling 42 of the bathroom 1E.
The living / dining room 1A, the kitchen 1B, and the toilet 1F are provided with an exhaust fan 18 so as to be located as far as possible from the opening or door that leads to the hallway 1G.
An air passage 21 in which an inside air discharge pipe 14 connected to the ventilation unit main body 11 and an exhaust fan 18 provided in each room is opened is provided on substantially the entire outer wall 2 excluding an entrance and a window. ing.
[0027]
FIG. 3 shows a plan view of the second floor portion of the house 1.
On the second floor, a main bedroom 2A is provided in the lower part of the figure, and a walk-in closet 2B is provided on the upper right side of the main bedroom 2A. In the upper part of the walk-in closet 2B in the figure, a storage 2G and a toilet 2H are provided. Two sub bedrooms 2C and 2D are provided side by side on the upper left side of the main bedroom 2A in the figure, and closets 2E and 2F are provided in these sub bedrooms 2C and 2D, respectively. A second-floor staircase 2I is provided above the sub-bedroom 2D in the drawing, and a corridor 2J extends from the second-floor staircase 2I toward the main bedroom 2A.
[0028]
Here, the second floor staircase 2I communicates with the first floor staircase 1H, and the main bedroom 2A, walk-in closet 2B, sub-bedrooms 2C and 2D, closets 2E and 2F, storage 2G, and toilet 2H are: Each is communicated with the second floor staircase 2I through a vent provided at the top or bottom of the door of the entrance / exit.
The main bedroom 2A, the walk-in closet 2B, the sub bedrooms 2C and 2D, the storage 2G, and the toilet 2H are provided with an exhaust fan 18 so as to be located as far as possible from the opening or door that leads to the hallway 2J. Yes.
[0029]
FIG. 4 shows an enlarged cross-sectional view of the outer wall 2 and the roof 3 at a position where the exhaust fan 18 is attached.
The structure 22 of the outer wall 2 is composed of a plurality of wood wall panels 24, and the finishing material 23 is composed of a plurality of siding plate members 25. The wall panel 24 is a rectangular member having a height dimension of one floor and a predetermined width dimension, and a wooden face material 24B is attached to both ends of the edge and the wooden core material 24A disposed inside. Is formed. The siding board 25 is a rectangular board formed from cement material or the like, and a plurality of siding boards 25 are arranged in the height direction of the house and fixed to the wall panel 24.
[0030]
As bases for attaching the siding plate member 25, body edges 26 and 27 are attached to the outside of the heat insulating material 28 formed on the outer surface of the wall panel 24 by nailing or the like. The trunk edges 26, 27 are formed of wooden squares, and the trunk edges 26 extending in the substantially vertical direction intersect the trunk edges 27 on the outside of the trunk edges 27 that extend in a substantially horizontal direction and are fixed to the wall panel. Attached. The body edges 26 and 27 are each attached with a predetermined number of holes necessary for supporting the siding plate material 25, and the space portions continuously form the air passage 21 in both the horizontal and vertical directions. is doing.
[0031]
A girder member 35 that supports the roof 3 is disposed on the wall panel 24, and the air passage 21 and the cabin space 4 are communicated with each other through a vent hole 35 </ b> A provided in the girder member 35.
The roof 3 is formed by arranging a plurality of roof panels 32 composed of a core material 32 </ b> A and a face material 32 </ b> B similar to the wall panel 24 of the outer wall 2 and attaching a roof material 33 to the upper surface of the roof panel 32. Has been.
The exhaust fan 18 that exhausts room air is installed through the wall panel 24 and the heat insulating material 28, and communicates the interior of the room with the ventilation path 21. A blower (not shown) is provided inside the exhaust fan 18, and the inside air of the room can be forcibly sent to the ventilation path 21.
[0032]
FIG. 5 shows an enlarged cross-sectional view of the ventilation unit body 11.
Inside the ventilation unit main body 11, two blowers (not shown) and a total heat exchanger 19 are provided.
The blower consists of an electric motor and a number of blades that are rotated by the electric motor, and uses the forced air flow generated by the rotating blades to forcibly move the air inside the pipe. is there. That is, the outside air introduced from the outside air introduction pipe 12 can be forcibly moved toward the outside air supply pipe 13 or the inside air collected from the suction port 17 toward the inside air discharge pipe 14. Specifically, although not shown in particular, it includes a turbo fan that pumps gas by utilizing the centrifugal force of the gas as the impeller rotates, and a casing that forms a flow passage from the turbo fan. Is.
One of the two blowers is a blower for introducing outside air into the building, and the other is a blower for discharging inside air for discharging the inside air to the outside.
[0033]
A shutter device 50 capable of adjusting the discharge amount of the inside air is installed in the suction port 17 of the ventilation unit main body 11. The suction port 17 is provided inside the ceiling opening 15 provided in the ceiling 42 and has a slit-like opening downward. A cover member 51 having Inside the cover member 51, a slit member 52 having the same shape as the slit-shaped opening of the cover member 51 and slidable to the left and right (indicated by a double arrow in FIG. 5) is installed.
In addition to the cover member 51 and the slit member 52, the shutter device 50 includes a slide motor, a control circuit, a sensor, and the like (not shown). The shutter device 50 can make the suction port 17 have a predetermined opening degree from fully open to fully closed by sliding the slit member 52 as necessary, and by adjusting the amount of inside air to be sucked in The amount of the inside air sent to the inside air discharge pipe 14 is adjusted.
[0034]
The total heat exchanger 19 is sucked and collected through the suction port 17, and the inside air discharged to the outside through the inside air discharge pipe 14 and the outside air introduced from the outside air introduction pipe 12 and supplied to the corridor 1 </ b> G from the outlet 16. Heat exchange.
Specifically, it has a structure in which a large number of straw-like ultrathin cylindrical tubes made of metal, resin, or the like having a high thermal conductivity are arranged. Either the inside air discharged outdoors or the outside air supplied to the interior of the house 1 passes through the inside of the straw-shaped cylindrical tube, and the other passes through the periphery of the cylindrical tube to be discharged outside. Of the inside air and the outside air supplied into the house 1, the heat having the higher temperature is transmitted to the lower temperature through the thin cylindrical tube, and heat exchange is performed.
The total heat exchange method is not limited to the above-described structure, and may be any other structure as long as it has a heat exchange function.
[0035]
FIG. 6 shows an enlarged sectional view of the outlet 16.
The blowout port 16 includes a grill 53, and the grill 53 includes a cylindrical grill body 54 to which a front end of the outside air supply pipe 13 on the inside of the room is connected. The grill main body 54 is closed at the upper end surface side and opened at the lower end side to form a blowout port. Although not shown in the drawing, the air outlet has a louver shape in which a plurality of annular rectifying blades having different diameters are provided at concentric positions so that air blows out in all directions.
[0036]
Next, the operation of the ventilation unit 10 according to the present embodiment will be described with reference to FIGS. In addition, in each figure, the arrow shows the direction through which air flows during the ventilation unit 10 operation.
When the two blowers of the ventilation unit body 11 are driven, fresh outside air is introduced into the ventilation unit body 11 through the outside air introduction pipe 12 and then supplied to the interior of the house 1 through the outside air supply pipe 13 from the outlet 16. The
The supplied outside air is communicated to the first floor rooms communicated with the corridor 1G provided with the outlet 16 and the second floor rooms communicated with the corridor 1G via the second floor staircase 2I and the first floor staircase 1H. It flows into the room and is mixed with the room air. A part of the inside air is discharged from the exhaust fan 18 provided in each room to the ventilation path 21.
[0037]
On the other hand, a part of the inside air that has not been discharged from the exhaust fan 18 is collected by the ventilation unit body 11 through the suction port 17. At this time, if the opening degree of the suction port 17 is increased by the shutter device 50, the amount of the inside air collected in the ventilation unit body 11 is increased, and the amount of the inside air discharged from the exhaust fan 18 in each room is relatively small. Become. On the contrary, if the opening degree of the suction port 17 is reduced, the amount of the inside air collected in the ventilation unit body 11 is reduced, so that the amount of the inside air discharged from the exhaust fan 18 in each room is relatively increased.
The inside air collected in the ventilation unit main body 11 is exchanged with the outside air introduced through the outside air introduction pipe 12 by the total heat exchanger of the ventilation unit main body 11 and then discharged to the ventilation path 21. The inside air discharged to the ventilation path 21 rises in the ventilation path 21, reaches the cabin back space 4, stays there, and then is discharged outside through the exhaust port 31.
[0038]
In the present embodiment, the trunk edges 26 and 27 as the base for attaching the siding plate member 25 intersect with the square bars extending in the substantially vertical direction and the substantially horizontal direction, respectively. The base for attaching the siding plate member 25 can be configured only by the trunk edge 26 extending in a substantially vertical direction. At this time, an interval portion of the trunk edge 26 extending in the substantially vertical direction can be used as the air passage 21. On the contrary, it is also possible to omit the trunk edge 26 extending in the substantially vertical direction and to form the base for attaching the siding plate member 25 only by the trunk edge 27 extending in the substantially horizontal direction. At this time, by providing vent holes at predetermined intervals on the trunk edge 27 extending in the substantially horizontal direction, the vent holes 21 can be used.
[0039]
Therefore, according to the present embodiment, the following effects can be obtained.
(1) Since fresh outside air supplied from the air outlet 16 flows into each room in the building, and is sucked into the air inlet 17 or the exhaust fan 18 and discharged, the air volume is at least at the corner in each room. Ventilation is possible all over. Moreover, since the inside air of each room can be individually discharged by the exhaust fan 18, the duct from each room to the ventilation unit body 11 can be omitted, and the installation cost of the ventilation unit 10 can be reduced.
[0040]
(2) The inside air exhausted from the inside air discharge pipe 14 and the exhaust fan 18 in each room to the air passage is raised to the outside through the air outlet 31 provided at the top of the roof 3 through the air passage 21. Therefore, the position of the exhaust port 31 and the opening position of the outside air introduction pipe 12 can be separated from each other, and the inside air discharged to the outside from the exhaust port 31 is not supplied to the inside of the building again through the outside air introduction pipe 12. Therefore, it is possible to improve the ventilation efficiency by always introducing fresh outside air.
[0041]
(3) Since the inside air exhaust pipe 14 and the exhaust fan 18 in each room are not directly open to the outside air, it is not necessary to provide openings or covers on the outer wall 2 and the number of them can be reduced. The design can be improved.
[0042]
(4) The air passage 21 is formed in the gap between the wall panel 24 and the siding plate member 25, and an exhaust port 31 provided in the roof 3 is provided without providing a duct pipe, a chimney, an exhaust pipe or the like as the air passage 21. Therefore, the installation cost of the air passage 21 can be reduced.
[0043]
(5) The air passage 21 also has a heat insulating function as an outer wall air layer and suppresses heat transfer due to a temperature difference between indoor and outdoor, so that the heat insulating property of the house 1 can be improved and the air conditioning efficiency can be improved.
[0044]
(6) Since the air outlet 16 is provided in the corridor 1G, by supplying air to the corridor 1G, this air can easily flow into each room communicating with the corridor 1G, so that the operating efficiency of the ventilation unit 10 can be improved. It can be improved and a comfortable living space can be easily realized.
[0045]
(7) Since the suction port 17 is provided in the bathroom 1E, that is, in a place where the humidity is high due to the generation of steam or the breath of the resident, a high-humidity space is obtained by adjusting the amount of air collected from the suction port 17. Can be easily ventilated to create a comfortable living space.
[0046]
(8) Since the ventilation unit main body 11 is stored in the ceiling back 41 on the first floor, the ventilation unit main body 11 is concealed by the ceiling back 41 and cannot be seen from inside the room, so that the interior of the room can be improved. In addition, since the ceiling opening 15 that is the inside air recovery path is provided through the ventilation unit main body 11 and through the ceiling 42 directly below, the length of the inside air recovery path is shorter than when the inside air recovery path is formed by a duct or the like. Therefore, the installation cost of the ventilation unit 10 can be further reduced.
[0047]
(9) The inside air discharged from the house 1 passes through the ventilation path 21 and once stays in the cabin space 4, and then is discharged to the outside from the exhaust port 31 provided in the roof 3. Therefore, at the same time that each room of the house 1 is ventilated, the hut space 4 can be ventilated, and the moisture and the like of the shed space 4 are discharged, so that comfortable comfort and durability of the house 1 can be improved.
[0048]
(10) The method of attaching the siding plate member 25 to the wall panel 24 via the trunk edges 26 and 27 is generally performed by construction procedures, materials used, etc., so the outer wall 2 can be constructed at low cost and in a short construction period. . In addition, the trunk edge 26 extending in the substantially vertical direction and the trunk edge 27 extending in the substantially horizontal direction are crossed to form a continuous space in both the vertical and horizontal directions. The outer wall 2 provided with the ventilation path 21 can be constructed.
[0049]
(11) By crossing the trunk edge 26 extending in the substantially vertical direction and the trunk edge 27 extending in the substantially horizontal direction, a space that is continuous in both the vertical and horizontal directions is defined as the ventilation path 21, thereby reducing the volume of the ventilation path 21. Even if a large amount of inside air is discharged, the discharged inside air is immediately diffused into the air passage 21, and an increase in the air pressure in the air passage 21 can be suppressed, so that the load on the blower for exhausting is reduced. It is possible to prevent a decrease in exhaust efficiency.
[0050]
(12) If the amount of discharge from the inside air discharge pipe 14 is increased by the shutter device 50 capable of adjusting the inside air discharge amount, the ventilation amount of the bathroom 1E provided with the suction port 17 can be increased. Efficient ventilation can be achieved by adjusting the ventilation volume. Therefore, by adjusting the amount of inside air discharged from the air-conditioned room or by increasing the amount of inside air discharged from a room with high humidity, it is possible to suppress heat energy loss and reduce the air conditioning load.
[0051]
(13) By performing heat exchange between the inside air of the house 1 collected in the ventilation unit main body 11 from the suction port 17 and the outside air introduced through the outside air introduction pipe 12, air adjusted to an appropriate temperature is obtained. A comfortable living space can be realized because it can be supplied inside the building.
[0052]
It should be noted that the present invention is not limited to the above-described embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.
For example, in the present embodiment, the building is a two-storied house 1, but the building is not limited to this, and may have three or more floors, and is not limited to a house but is built for an office or a store. It may be a built building.
Moreover, in this embodiment, although the ventilation unit 10 was provided in the 1st floor ceiling back of the house 1, you may provide not only in this but in the 2nd floor ceiling back, and may be provided in the ceiling back of each floor.
[0053]
In the present embodiment, the air passage 21 is provided on the substantially entire surface of the outer wall 2. However, the present invention is not limited to this, and the outer wall 2 is limited to a portion corresponding to the opening of the internal air discharge pipe 14 and the opening of the exhaust fan 18. You may provide the ventilation path 21 in the inside.
Further, in this embodiment, the opening of the inside air discharge pipe 14 is provided in communication with the air passage 21, but the siding plate member 25, which is the finishing material 23 of the outer wall 2, passes through and is opened on the outer surface of the outer wall 2. Also good. Similarly, all or part of the exhaust fan 18 provided in each room may pass through the outer wall 2 and open toward the outside of the building.
[0054]
Moreover, in this embodiment, although the two air blowers were provided in the ventilation unit main body 11, not only this but one air blower may be provided, and 3 or more air blowers may be provided, The specific configuration of the ventilation unit main body 11 can be appropriately selected for implementation.
[0055]
Further, in the present embodiment, the air outlet 16 is provided in the corridor 1G. However, the present invention is not limited thereto, and may be provided in the first floor staircase 1H, the living / dining room 1A, or the like.
Furthermore, in this embodiment, although the suction inlet 17 was provided in the bathroom 1E, you may provide not only in this but in the toilet 1F, the washroom 1D, the kitchen 1B, the living / dining room 1A.
[0056]
In the present embodiment, the inside air is once retained in the cabin space 4 before being discharged from the exhaust port 31 provided in the roof 3. However, the ventilation path 21 and the exhaust port 31 are connected by piping or the like. However, it may be discharged without being retained in the shed space 4, and an air passage communicating with the exhaust port 31 and the air passage 21 in the wall 2 is provided inside the roof 3, and the air is discharged through this air passage. Also good.
Furthermore, in this embodiment, although the exhaust port 31 was provided in the top part of the roof 3, it does not necessarily need to provide in a top part, You may provide in the intermediate part and eaves back part of a roof inclined surface. Moreover, although the roof is a dormitory form or a gable form, it is not limited to this, and may be a single flow form or a flat roof form.
[0057]
Moreover, in this embodiment, although the structure 22 of the outer wall 2 was used as the wall panel 24, you may comprise from the product made from concrete, a lightweight foamed concrete board, and what used several materials together.
Further, in the present embodiment, the finishing material 23 of the outer wall 2 is the siding plate material 25 molded from cement material or the like, but it may be molded from a metal material or a wood material, or a tile or stone material is pasted on the surface. A board or the like may be used, or a combination of a plurality of materials may be used.
[0058]
In the present embodiment, the amount of inside air discharged can be adjusted by installing the shutter device 50 in the ventilation unit main body 11. However, the present invention is not limited to this, and a part of the inside air collected from the inside air collecting port 17 is taken into the outside air. By providing a branch passage that recirculates indoors from the supply port 16, and by changing the inner diameter of the pipe to a recirculation device that can adjust the flow rate of the inside air by controlling a branch valve or the like, or the inside air discharge pipe 14, etc. A resistance device or the like that can adjust the discharge amount of the inside air by changing the flow resistance of the inside air passing through the inside may be installed. By installing such a device, it is possible to suppress heat energy loss and reduce the air conditioning load.
[0059]
The operation of the ventilation unit 10 and the exhaust fan 18 may be manually adjusted, or may be provided with an automatic control function for automatic adjustment.
Furthermore, the ventilation unit 10 may have not only a ventilation function but also a cooling function, a heating function, an air adjustment function, a deodorizing / deodorizing function, a fragrance air conditioning function, a dustproof / pollen-proof pollen function, and the like.
[0060]
【The invention's effect】
According to the ventilation structure of the present invention, the following effects can be obtained.
According to the ventilation structure of claim 1, since the position of the exhaust port can be separated from the opening of the outside air introduction path, the inside air exhausted to the outside from the exhaust port is re-established through the outside air introduction path. The trouble of being supplied to the inside does not occur, and fresh outside air can always be introduced to improve the ventilation efficiency. In addition, since the inside air discharge passage communicates with the exhaust port through the air passage and does not directly open to the outside air, the number of openings provided on the outer wall or the like and the number of covers thereof can be reduced to improve the design of the building exterior. Can do.
[0061]
According to the ventilation structure of the second aspect, the inside air discharged from the inside air discharge passage is blown out to the air passage that is a gap between the outer wall body and the inner wall body, and after the air passage is raised, the air passage It is discharged to the outside through an exhaust port communicating with the air. Therefore, it is possible to form an air passage that communicates with an exhaust port provided on the roof without providing duct piping, a chimney, an exhaust pipe, or the like as an air passage, so that the installation cost of the air passage can be reduced. Further, the air passage also has a heat insulating function as an outer wall air layer and suppresses heat transfer due to a temperature difference between indoor and outdoor, so that the heat insulating property of the building can be improved and the air conditioning efficiency can be improved.
[0062]
According to the ventilation structure of claim 3, the outside air introduced into the ventilation unit main body through the outside air introduction path is supplied into the building through a single outside air supply path, and the supplied outside air communicates with the outside air supply port. It flows into each room in the building and is mixed with the inside air of each room. A part of the room air is discharged from the individual discharge passage, and the remaining room air that has not been discharged from the individual discharge passage is collected in the ventilation unit main body through a single room air recovery passage, and is discharged through the room air discharge passage. The Therefore, compared with the case where duct piping is installed in a plurality of paths to each room, duct piping can be omitted, so that the installation cost of the ventilation unit can be reduced and ventilation can be performed throughout the building. In addition, since the individual discharge path communicates with the exhaust port through the ventilation path and is not directly open to the outside air, the number of openings and covers provided on the outer wall and the like are reduced, and the exterior appearance design is improved. Can do.
[0063]
According to the ventilation structure of the fourth aspect, since the inner wall body and the outer wall body forming the air passage are usually composed of the structure body and the finishing material used for the outer wall casing and the exterior, the separate members are used. Therefore, it is not necessary to form the inner wall body, the outer wall body, and the ventilation path, and the outer wall having the ventilation path can be constructed at a low cost without increasing the number of members.
[0064]
According to the ventilation structure of Claim 5, when attaching a finishing material to a structure, the method via a trunk edge is the construction method currently performed normally, and a construction procedure, the material to be used, etc. are common. Therefore, it can be constructed at a low cost and in a short construction period, and a space extending in the substantially vertical direction along the trunk edge is formed in the interval part of the trunk edge, so by using this space as an air passage, You can easily build an outer wall with a ventilation channel.
[0065]
According to the ventilation structure of the sixth aspect, similar to the invention of the fifth aspect, the construction can be performed at a low cost and in a short construction period, and a vent hole is provided in the trunk edge extending in a substantially horizontal direction. As a result, a ventilation path extending vertically through the trunk edge is formed, so that an outer wall having a ventilation path can be easily constructed.
[0066]
According to the ventilation structure of the seventh aspect, similar to the above-described invention of the fifth aspect, the construction can be performed at a low cost and in a short construction period, and the trunk edge extending in the substantially vertical direction and extending in the substantially horizontal direction. By intersecting the trunk edge, a continuous space is formed in both the vertical and horizontal directions. By using this space as a ventilation path, an outer wall having a ventilation path can be easily constructed. In addition, even when a large amount of inside air is discharged due to the increase in the volume of the air passage, the discharged inside air is immediately diffused into the air passage so that an increase in air pressure in the air passage can be suppressed. It is possible to reduce the load applied to the exhaust gas and prevent the exhaust efficiency from decreasing.
[0067]
According to the ventilation structure of claim 8, the inside air that has been exhausted to the ventilation path of the outer wall and has risen in the ventilation path reaches the attic space, and once stayed in the attic space, the exhaust provided on the roof Since it is discharged from the mouth to the outside, it is possible to ventilate each room of the building and at the same time ventilate the attic space and exhaust moisture etc. in the attic space to improve comfortable living and durability of the building .
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a building to which a ventilation structure according to an embodiment of the present invention is applied.
FIG. 2 is a plan view of the first floor portion of the building according to the embodiment.
FIG. 3 is a plan view of a second floor portion of the building according to the embodiment.
FIG. 4 is a cross-sectional view showing a main part of the building according to the embodiment.
FIG. 5 is a cross-sectional view of the ventilation unit main body according to the embodiment.
FIG. 6 is a cross-sectional view of the air outlet according to the embodiment.
FIG. 7 is a schematic diagram showing a building to which a central ventilation system according to a conventional example is applied.
[Explanation of symbols]
1 Housing (building)
2 outer wall
3 Roof
4 Hut space
10 Ventilation unit
11 Ventilation unit body
12 Outside air introduction piping (outside air introduction path)
13 Outside air supply piping (outside air supply path)
14 Inside air discharge piping (inside air discharge path)
15 Ceiling opening (inside air recovery path)
16 Outlet (outside air supply port)
17 Suction port (recovery port)
18 Exhaust fan (individual discharge path)
21 Airway
22 Structure (inner wall)
23 Finishing material (outer wall)
26, 27
31 Exhaust port

Claims (7)

A ventilation structure that ventilates multiple rooms with a ventilation unit provided in the building,
The ventilation unit is introduced into the ventilation unit main body, an outside air introduction path for introducing outdoor air into the ventilation unit main body, an inside air discharge path for discharging indoor air from the ventilation unit main body, and the ventilation unit main body. A single outside air supply path for supplying outside air to the inside of the building, an outside air supply port connected to the outside air supply path and opened to a predetermined space in the building, and installed at a position away from the outside air supply port An internal air recovery port, and an internal air recovery path connected to the internal air recovery port through a single path for recovering the internal air to the ventilation unit body,
The roof of the building is provided with an exhaust opening that opens to the outside air,
At least a part of the outer wall of the building has an air passage communicating with the exhaust port inside,
The inside air discharge path is communicated with the ventilation path ,
Each of the plurality of rooms can communicate with a space where the outside air supply port is located, and at least one of the plurality of rooms is provided with an individual discharge path for discharging the inside air of the room. The ventilation structure characterized by the individual discharge path being connected to the said ventilation path. The ventilation structure according to claim 1,
The outer wall provided with the ventilation path includes an outer wall facing the outside air, and an inner wall provided on the indoor side facing the outer wall,
The ventilation structure, wherein the air passage is formed in a gap provided between the outer wall body and the inner wall body. The ventilation structure according to claim 2,
The ventilation structure according to claim 1, wherein the inner wall body is a structure that forms a casing of the outer wall, and the outer wall body is a finishing material that forms an exterior of the outer wall. The ventilation structure according to claim 3,
The ventilation structure, wherein the finishing material is attached to the structure through a trunk edge extending in a substantially vertical direction. The ventilation structure according to claim 3,
The finishing material is attached to the structure through a trunk edge extending in a substantially horizontal direction, and ventilation holes are provided in the trunk edge extending in the substantially horizontal direction at predetermined intervals. Construction. The ventilation structure according to claim 3,
The ventilation structure, wherein the finishing material is attached to the structure body via trunk edges extending in a substantially vertical direction and a substantially horizontal direction and intersecting each other. The ventilation structure according to any one of claims 1 to 6,
The ventilation structure, wherein the air passage is communicated with the exhaust port through a space behind the shed of the building.

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