JP4495920B2 - Central ventilation structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a central ventilation facility structure for ventilating a building having a plurality of floors.
[0002]
[Background]
In order to reduce the energy loss in the air conditioning inside the building, the recent buildings have been highly airtight for the reason of blocking the entrance and exit of the air inside and outside the building, or for the reason of improving the sound insulation from the outside to the building. It tends to be highly insulated. In such a highly airtight and highly insulated building, although air-conditioning efficiency and sound insulation are improved, contaminated air generated in the building has accumulated, leading to deterioration of the environment in the building. Moreover, blocking the flow of air inside and outside the building has caused condensation due to air containing moisture, and has promoted the decay of building materials such as wood. Under such circumstances, the importance of ventilation equipment that takes outside air from outside the building and exchanges it with the air inside the building has been screamed.
[0003]
Central ventilation equipment is being used as such ventilation equipment. This is done by piping from the ventilation unit so that multiple spaces in the building communicate with the outside of the building, introducing outside air from the outside of the building and supplying it to the inside of the building, and exhausting the air inside the building to the outside of the building. It is for ventilation. In a building having a plurality of floors, such a ventilation unit of the central ventilation facility is generally provided in a ceiling pocket on the upper floor or the lower floor. (For example, refer to Patent Document 1 and Patent Document 2).
[0004]
In addition, as ventilation equipment, there is a technology in which a ventilation fan is installed in the back of the hut and the humidity is adjusted by ventilating the back of the shed, thereby preventing the decay of residential building materials such as wood due to condensation (for example, And Patent Document 3).
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-33277 (second term, FIG. 1)
[Patent Document 2]
Japanese Patent Laid-Open No. 2002-22236 (Section 3, FIG. 1)
[Patent Document 3]
A microfilm of actual application No. 60-10575 (No. 61-127337) (FIG. 1)
[0006]
[Problems to be solved by the invention]
In such central ventilation equipment of Patent Document 1 and Patent Document 2, since the ventilation unit is provided in the ceiling pocket of the upper floor or the lower floor, the installation of the central ventilation equipment in the ceiling with a low height becomes complicated, There is a problem that the cost increases. Also, for buildings that have already been built, piping work into the building becomes complicated. Installation in an already built building will install a ventilation unit in the ceiling pocket that is not considered to install a central ventilation facility in the first place. Therefore, there is a problem that it is difficult to install the central ventilation facility on an existing building.
[0007]
Further, as in Patent Document 3, a ventilation facility in which a ventilation fan is provided in the back of a cabin for ventilation is not intended to ventilate the entire interior living space of a building, which is necessary for central ventilation.
[0008]
Here, there is a multi-story building having a lower house, and a structure of a central ventilation facility that can be reasonably installed in this building is desired.
[0009]
The objective of this invention is providing the central ventilation installation structure which can perform installation work easily in the building provided with the lower house.
[0010]
[Means for Solving the Problems]
In order to ventilate the living space of the building 1 having the upper floor portion 6 and the lower floor portion 5 , the central ventilation equipment structure of the present invention is provided in the piping that communicates between the inside of the building and the outside, and the piping. And a ventilating unit 41 for taking outside air into the building and exhausting the air inside the building to the outside of the building, wherein the building is located above the lower floor. And the lower house 3 adjacent to the upper floor part, the ventilation unit is provided in the shed 31 of the lower house, and the pipe has one end connected to the ventilation unit and the other end connected to the ventilation unit. An outside air intake pipe 42 that opens to the outside of the building and through which the outside air sucked by the ventilation unit flows, and one end of which is connected to the ventilation unit and extends from the ventilation unit in a substantially horizontal direction, End is above An outside air supply pipe 43 that opens to the upper part and supplies the external air sucked by the ventilation unit to the upper floor part, and one end of which is connected to the lower part of the ventilation unit and hangs down from the ventilation unit. One end is connected to the ventilation unit, the other end is opened to the outside of the building. and, wherein Rukoto the air in the building, which is sucked by the ventilation unit having a inside air discharge pipe 45 for discharging outside the building.
[0011]
According to the present invention, since the ventilation unit is installed in the back of the shed of a house that originally has no use, the back of the shed can be effectively used, and the dead space existing in the building can be eliminated.
Further, since the ventilation unit is provided in the back of the hut having a larger space than the ceiling and the floor, not only the installation can be facilitated, but also the central ventilation equipment can be installed in an already built building.
[0012]
Provide vent unit into attic of Shitaya, and the outside air intake pipe, with respect to upper floor portion adjacent the attic, and the outside air supply pipe for supplying provided outside air taken from the building externally, and flows through the building Installation work can be completed simply by installing an inside air intake pipe and an inside air discharge pipe for taking in the circulating air and connecting them to the ventilation unit. Moreover, compared with the case of providing the ventilation unit of the central ventilation ceiling bosom upstairs, since the pipe length of the pipe, such as inside air intake pipe is shortened, ventilation unit for sucking circulation air in the building from the bottom floor section The power of can be suppressed.
[0013]
In addition, one end of the pipe is connected to the ventilation unit, extends substantially horizontally from the ventilation unit, the other end opens to the upper floor, and the outside air sucked by the ventilation unit is removed. Ru with outside air supply pipe 43 for supplying to the upper floor portion.
According to the present invention, the piping that guides the outside air to the outside air supply port opened inside the building on the upper floor can be installed without bending in the vertical direction, so that the piping work can be easily performed.
[0014]
In the present invention, the inside air inlet 44A for sucking the air in the building, one provided in the ventilation unit, it is preferable that the inside air inlet is provided in the ceiling 52 of the lower floor portion 5.
According to the present invention, since there is one inside air intake port, the air supplied from the outside air supply port circulates in the building, and the flow of air guided to the inside air intake port does not interfere with each other, thereby improving the ventilation efficiency. can do. Further, the air introduced from the outside air supply opening inside the upper floor portion, is guided to the inside air suction port provided in the lower floor portion, it flows through the upper and lower floors using stairs or the like provided in a building As a result, ventilation efficiency is improved.
[0015]
In the present invention, the air-inhaling pipe and the inside air discharge pipe is preferably open to the eaves 32 of the lower house.
According to the present invention, not only can the effective use of the eaves of the lower house, which was a dead space in the building, but also the outside air inlet and the inside air outlet can be made inconspicuous, thereby preventing the appearance of the building from being damaged. be able to.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a central ventilation facility structure in the first embodiment of the present invention, and FIG. 3 shows a main part of the central ventilation facility structure in the first embodiment. Hereinafter, the central ventilation equipment structure in the first embodiment will be described.
[0019]
In FIG. 1 to FIG. 3, a building 1 is a highly airtight and highly heat-insulated house with improved airtightness and heat insulation in order to block the flow of air inside and outside and reduce energy loss in air conditioning.
The building 1 includes a first floor portion 5 that is a lower floor portion provided on a foundation 2, a second floor portion 6 that is an upper floor portion, a stairs 7 that connects the first floor portion 5 and the second floor portion 6, and a roof 8. And the lower floor 3 adjacent to the first floor portion 5 in the horizontal direction.
The first-floor section 5 is provided with a first-floor room 51, a first-floor ceiling 52, and a first-floor ceiling pocket 53. In the second floor 6, two second-floor rooms 61 are provided side by side. In addition, a hut back 31 and an eaves bottom 32 are provided on the lower shed 3. In this shed 31, a ventilation device 4 is provided in the vicinity of the side wall 62 sandwiched between the shed 31 and the second floor portion 6. In the first embodiment, the second-floor room 61 is adjacent to the back of the cabin 31.
[0020]
The ventilation device 4 sucks outside air from the outside of the building 1, supplies the outside air taken into the second-floor room 61 adjacent to the back of the hut 31, and sucks air circulated through the building 1 from the first-floor room 51. It is a central ventilator configured to exhaust outside. The ventilation device 4 includes a ventilation unit 41 that ventilates the inside and outside of the building 1, an air supply system pipe that supplies outside air into the building 1, and an exhaust system pipe that exhausts the circulating air inside the building 1 outside the building 1. I have.
[0021]
The ventilation unit 41 is provided with a total heat exchanger (not shown) for exchanging heat between the air taken in from the outside of the building 1 and the air exhausted from the inside of the building 1 to the outside of the building 1. By providing this total heat exchanger, for example, the temperature and humidity can be lowered during the summer and both can be raised during the winter. The ventilation unit 41 is provided with a fan and a dustproof filter (not shown) for ventilation. These fans are provided according to the supply system and exhaust system pipes 42 to 45, and the dustproof filter is provided on the ventilation unit 41 side of these pipes. In addition, the supply / discharge amount of the outside air into and out of the building 1 by the ventilation unit 41 is set to a comfortable flow rate such that a resident of the building 1 hardly feels the wind.
1-3, the ventilation unit 41 is arrange | positioned so that it may be located in the middle of the two-story room 61 provided in the side wall 62 vicinity.
[0022]
The piping of the air supply system includes an outside air intake pipe 42 for taking in outside air from the outside of the building 1 and an outside air supply pipe 43 for supplying the taken outside air into the building 1.
[0023]
The outside air intake pipe 42 communicates the outside of the building 1 and the ventilation unit 41 via the outside air inlet 42A opened in the eaves 32 of the lower house 3, and the air taken in from the outside air inlet 42 A is supplied to the ventilation unit 41. It is a guide. The open air inlet 42A is provided with a louver (not shown) at its opening so that small animals, foreign objects, and the like do not enter when taking in the external air.
With this configuration, air outside the building 1 is sucked through the outside air inlet 42A via the outside air inlet pipe 42 by the fan provided in the ventilation unit 41.
[0024]
Two outside air supply pipes 43 are connected to the ventilation unit 41, and each outside air supply pipe 43 extends from the ventilation unit 41 in a substantially horizontal direction. One end of the outside air supply pipe 43 opens into a separate second-floor room 61 adjacent to the hut back 31 to form an outside air supply port 43A. Thereby, each outside air supply port 43 </ b> A is open to the lower part of the side wall 62 on the second floor room 61 side. These outside air supply ports 43A are covered with a louver 46 to prevent entry of foreign matters and the like.
With this configuration, the air outside the building 1 taken in by the outside air suction pipe 42 is sent to the outside air supply pipe 43 by the fan of the ventilation unit 41 and supplied into the building 1 through the outside air supply port 43A.
[0025]
The piping of the exhaust system includes an inside air intake pipe 44 for taking in the circulating air from the inside of the building 1 and an inside air discharge pipe 45 for exhausting the air inside the taken in building 1 to the outside of the building 1.
[0026]
The inside air suction pipe 44 is provided in the lower part of the ventilation unit 41, and one end of the inside air suction pipe 44 is opened in the first floor ceiling 52 of the first floor room 51 located immediately below the ventilation unit 41 to form an inside air suction port 44A. is doing. The inside air inlet 44A is covered with a louver 47 in order to prevent intrusion of foreign matter or the like.
With this configuration, the outside air supplied into the building 1 from the ventilation unit 41 by the outside air supply pipe 43 circulates inside the building 1 and is sucked into the ventilation unit 41 from the inside air suction port 44 </ b> A via the inside air suction pipe 44.
[0027]
The inside air discharge pipe 45 extends from the ventilation unit 41 toward the outside of the building 1 and opens to the outside of the building 1 to form an inside air discharge port 45A. The inside air discharge port 45A is provided with a louver (not shown) so that a small animal or a foreign object does not enter. The inside air discharge port 45A opens to the eaves bottom 32 of the lower house 3 in the same manner as the outside air suction port 42A.
With this configuration, the air that has flowed through the building 1 sucked in the inside air suction pipe 44 is blown to the inside air discharge pipe 45 by the ventilation unit 41, and is exhausted to the outside of the building 1 through the inside air discharge port 45A.
[0028]
The first embodiment as described above has the following effects.
[0029]
(1) Since the ventilation unit 41 of the ventilation device 4 is provided in the hut back 31 of the lower shed 3, the hut back 31 that is not originally used can be effectively used, and the dead space in the building 1 can be eliminated. Further, since the hut back 31 has a larger space than the ceiling pocket, the ventilation unit 41 can be easily installed. Furthermore, since the space of the back of the hut 31 is wide, the retrofitting of the ventilator 4 is possible even for an existing building having the lower shed 3 where the installation of the ventilator 4 is not considered.
[0030]
(2) Regarding piping to the room 1 of the building 1, an outside air supply pipe 43 and an inside air suction pipe 44 are installed in the room 1 of the building 1 adjacent to the house back 31 and connected to a ventilation unit 41 provided in the house back 31. Just finish the piping work. In addition, since the ventilation unit 41 is provided in the ceiling pocket of the second floor portion 6 that is the upper floor, and the inside air suction port 44A is open to the first floor ceiling 52, the length of the inside air suction pipe 44 is shortened. The suction force of the ventilation unit 41 that sucks air flowing through the interior of the first floor 5 from the first floor 5 can be suppressed. Similarly, as compared with the case where the ventilation unit 41 is provided under the floor of the first floor portion 5, not only the pipe length of the pipe can be shortened but also the force of the ventilation unit 41 required for the supply of outside air and the suction of the inside air can be suppressed. it can.
[0031]
(3) Since the outside air supply pipe 43 is formed to extend substantially horizontally from the ventilation unit 41, the outside air supply pipe 43 is moved up and down as in the case where the outside air supply pipe 43 is opened in the ceiling of the second-floor room 61. Since it does not bend and arrange | position in a direction, piping work can be made easy. Further, in the case where a plurality of second-floor rooms 61 are provided adjacent to the hut 31 in the building 1, if the ventilation unit 41 is arranged in the middle of the second-floor room 61, the length of the outside air supply pipe 43 can be shortened. it can. Moreover, since the outside air supply port 43A is provided for each room in the building 1, the outside air is supplied to each room, and the ventilation efficiency of the entire building 1 can be improved.
[0032]
(4) Since only one inside air inlet 44A is provided on the first floor ceiling 52 of the first floor 5 which is a different floor from the second floor 6 where the outside air supply pipe 43 is provided, The flow of air that circulates does not interfere with each other. That is, by providing one inside air inlet 44A on another floor, the air flow of the entire building 1 is collected. For this reason, the air supplied into the building 1 circulates from the second-floor room 61 provided with the outside air supply port 43 </ b> A to the first floor part 5 through the stairs 7 and interferes with the inside air inlet 44 </ b> A of the first-floor room 51. Therefore, the ventilation efficiency in the building 1 is improved. Further, by providing the inside air suction port 44A immediately below the ventilation unit 41, the tube length of the inside air suction pipe 44 can be made the minimum necessary length.
[0033]
(5) Since the outside air intake pipe 42 and the inside air discharge pipe 45 are open to the eaves bottom 32 of the lower house 3, the eaves under 32 of the lower house 3 that was a dead space in the building 1 can be effectively used. Further, since the outside air intake port 42A and the inside air discharge port 45A are opened under the eaves 32, the opening portion is not conspicuous outside the building 1, so that the appearance of the building 1 is prevented from being damaged by the installation of the ventilation device 4. Can do.
[0034]
Next, a second embodiment of the present invention will be described with reference to FIG. In the description of the second embodiment, the same reference numerals are given to configurations that are considered to be the same as or equivalent to those of the first embodiment, and description thereof is omitted or simplified.
[0035]
FIG. 4 shows a central ventilation facility structure in the second embodiment. In the second embodiment, the building 1 is provided with a non-room space 63 such as a hallway or a storage room between the back of the hut 31 and the second-floor room 61. The outside air supply pipe 431 that supplies outside air to the second-floor room 61 extends in the horizontal direction from the ventilation unit 41 toward the side wall 62 and is substantially suspended along the side wall 62, and is then disposed in the first floor ceiling pocket 53. . One end of the outside air supply pipe 431 is open to the second-floor room 61 to form an outside air supply port 431A. The outside air supply pipe 431 may be configured to be substantially suspended from the ventilation unit 41 and provided in the first floor ceiling pocket 53.
According to such a second embodiment, in addition to the same operational effects as (1), (4) and (5) of the first embodiment, the following operational effects can be achieved. .
That is, (6) Since the outside air supply pipe 431 is arranged in the first floor ceiling pocket 53, the outside air can be supplied even if the lower house 3 and the second floor room 61 are not adjacent to each other. Moreover, since the first floor ceiling pocket 53 is originally a dead space, the internal space of the building 1 can be effectively utilized.
[0036]
Next, a third embodiment of the present invention will be described with reference to FIG. In the description of the third embodiment, the same reference numerals are given to configurations that are the same as or equivalent to those of the first embodiment and the second embodiment, and description thereof is omitted or simplified.
[0037]
FIG. 5 shows a central ventilation facility structure in the third embodiment. In the third embodiment, the building 1 includes a plurality of first-floor rooms 51. An outside air supply pipe 432 that supplies outside air to the first-floor room 51 and the second-floor room 61 is disposed in the first-floor ceiling pocket 53, and one end is connected to the ventilation unit 41. The other end of the outside air supply pipe 432 opens into the first-floor ceiling 52 and the second-floor room 61 of the first-floor room 51, and forms an outside-air supply port 432A. In FIG. 5, the outside air supply pipe 432 extends substantially horizontally from the ventilation unit 41 toward the side wall 62 and then hangs down. However, the outside air supply pipe 432 substantially hangs down from the ventilation unit 41 to the first floor ceiling pocket 53. The structure provided may be sufficient.
According to such a third embodiment, the same operational effects as the (1), (5), (6) of the first and second embodiments can be obtained, and the following operational effects can be achieved. Can do.
(7) Since the outside air supply pipe 432 is arranged in the first floor ceiling pocket 53 and the outside air supply port 432A is formed in the first floor ceiling 52 of the first floor living room 51, in the building 1 having a plurality of first floor living rooms 51 , Can supply outside air to each room. Further, as in the second embodiment, the dead space in the building 1 can be effectively utilized, and if the same piping is provided for the second-floor room 61, the first-floor portion 5 and the second-floor portion 6 are provided. Outside air can be supplied to all the rooms inside the building 1 having a plurality of rooms.
[0038]
It should be noted that the present invention is not limited to the above-described embodiment, but includes modifications and improvements as long as the object of the present invention can be achieved.
[0039]
In the first embodiment, the outside air supply pipe 43 is provided so as to extend in a substantially horizontal direction from the ventilation unit 41, and in the second and third embodiments, the outside air supply pipes 431 and 432 are arranged in the first floor ceiling pocket 53. However, the present invention also includes piping that combines these. That is, the piping arranged in the building 1 may be appropriately determined in consideration of the structure of the building 1 and the layout of the living room. For example, a second-floor room 61 adjacent to the hut 31 of the lower house 3 and a second-floor room 61 that is not adjacent to the hut 31 are provided, such as by providing a non-room space 63 between the shed 31 and the like. Suppose that there is a building 1. In this case, the piping to the second-floor room 61 adjacent to the back of the hut 31 may extend from the ventilation unit 41 in a substantially horizontal direction to provide an outside air supply pipe 43. In addition, the piping to the second-floor living room 61 that is not adjacent to the back of the hut 31 may be arranged such that an outside air supply pipe 431 is arranged on the first-floor ceiling pocket 53 to supply outside air to each living room. In this way, outside air can be supplied to all the second-floor rooms 61.
[0040]
In each of the above embodiments, the inside air inlet 44A is provided directly below the ventilation unit 41, but the present invention is not limited to this. That is, the opening position of the inside air inlet 44A may be appropriately determined from the ventilation efficiency, the position of the lower house 3 in the building 1, the layout of the living room, and the like. For example, in a building 1 having a plurality of first-floor rooms 51, when the ventilation unit 41 is directly on the side wall of the first-floor room 51, the inside air suction pipe 44 is bent to An inside air inlet 44 </ b> A may be provided in the floor ceiling 52. If the configuration is such that the inside air suction port 44A is opened directly below the ventilation unit 41, it is not necessary to bend the inside air suction tube 44, and the length of the inside air suction tube 44 is shortened and the ventilation unit 41 is also shortened. Can reduce the suction force.
[0041]
In each of the above-described embodiments, the building 1 is provided with two floors of the first floor part 5 and the second floor part 6, but the present invention is adopted in a building having three or more floors provided with the lower house 3. May be. For example, the present invention may be adopted when the building 1 is provided with the lower floor 3 adjacent to the first floor portion 5 in the horizontal direction and the building 1 has three or more floors. In such a case, the piping may be arranged in the side wall of the building 1 from the hut back 31 of the lower house 3 and opened to a living room provided on the third floor or higher. Similarly, when the lower house 3 is provided adjacent to the second floor 6 or higher floors, piping to the upper floor of the floor adjacent to the hut back 31 and lower floors below is provided in the building 1. What is necessary is just to arrange | position in the side wall made.
[0042]
In each said embodiment, although the attachment position of piping and the ventilation unit 41 is shown in the position shown in FIGS. 1-5, this invention is not restricted to this. For example, the ventilation unit 41 having a structure in which the inside air suction pipe 44 is attached to the side surface of the ventilation unit 41 may be used.
[0043]
In each of the above embodiments, any one of the outside air supply pipes 43, 431, and 432 is provided in the ventilation unit 41 for each living room, but the present invention is not limited to this. That is, the outside air supply pipes 43, 431, and 432 may be configured to branch at an intermediate portion thereof, open to each room, and supply outside air to each room.
[0044]
In each of the above-described embodiments, the ventilation unit 41 is provided in the back of the shed 31 of the lower house 3, but in the present invention, the building 1 is configured such that the lower floor portion extends substantially horizontally than the upper floor portion. May be adopted. For example, if the ventilation unit 41 is provided in the extended portion and piping is provided, the installation work can be completed. At this time, a new roof may be provided in consideration of the influence of rain, wind and direct sunlight.
[0045]
In each said embodiment, although the dustproof filter provided in piping was provided in the ventilation unit 41 side, this invention is not limited to this. That is, you may provide in the opening part of each piping. In addition, when a dustproof filter is provided in the ventilation unit 41, since the dustproof filter can be replaced at one place, the replacement work is easy.
[0046]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
[0047]
According to the first aspect of the present invention, since the ventilation unit of the ventilation device is provided in the back of the shed of a lower house that is not originally used, dead space in the building can be eliminated. In addition, because the back of the hut has a larger space than the ceiling pocket, the ventilation unit can be easily installed, and ventilation equipment can be retrofitted to existing buildings. With regard to piping to the building room, piping can be completed simply by installing an outside air supply pipe and an inside air suction pipe to the building room adjacent to the back of the building and connecting it to the ventilation unit provided in the back of the building. .
[0048]
According to the second aspect of the present invention, since the outside air supply pipe is provided in the substantially horizontal direction from the ventilation unit, it is not necessary to bend the pipe in the vertical direction, and the construction of the pipe can be facilitated.
[0049]
According to the third aspect of the present invention, since the inside air intake port is provided on a different floor from the floor on which the outside air supply port is provided, the air supplied from the outside air supply port can be used for stairs and the like. Since the inside of the building is circulated to the inside air intake port provided on another floor using the air flow, the air flow does not interfere with each other, so that the ventilation efficiency can be improved.
[0050]
According to the fourth aspect of the present invention, the outside air supply pipe is arranged in the ceiling pocket of the lower floor part, and the outside air supply port is opened in the room on the upper floor part. Therefore, piping is performed according to the layout of the room on the upper floor part. be able to. And it is possible to effectively utilize the ceiling pocket of the lower floor, which was a dead space.
[0051]
According to the fifth aspect of the present invention, the outside air supply pipe is arranged in the ceiling pocket of the lower floor and the outside air supply port is opened in the ceiling of the lower floor of the room, so that it matches the layout of the room of the lower floor. Can be plumbed. And it is possible to effectively utilize the ceiling pocket of the lower floor, which was a dead space.
[0052]
According to the invention described in claim 6, since the outside air intake pipe and the inside air discharge pipe are opened under the eaves of the lower house, not only can the effective use of the eaves of the lower house, which was a dead space in the building, but also the outside air The suction port and the inside air discharge port can be made inconspicuous.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing a central ventilation facility structure according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view showing a central ventilation facility structure according to the first embodiment.
FIG. 3 is a cross-sectional view showing a main part of the central ventilation facility structure of the first embodiment.
FIG. 4 is a sectional view showing a central ventilation facility structure according to a second embodiment of the present invention.
FIG. 5 is a sectional view showing a central ventilation facility structure according to a third embodiment of the present invention.
[Explanation of symbols]
1 ... Building 3 ... Shock 4 ... Ventilation system (central ventilation equipment structure)
5 ... 1st floor (lower floor)
6 ... Second floor (upper floor)
31 ... Back of the hut 32 ... Under the eaves 41 ... Ventilation unit 42 ... Outside air intake pipes 43, 431, 432 ... Outside air supply pipe 45 ... Inside air discharge pipe 51 ... 1st floor living room (lower floor room)
52 ... 1st floor ceiling (ceiling)
53 ... First floor ceiling pocket (ceiling pocket)
61 ... Second-floor room (upstairs room)
63 ... Non-room 44A ... Inside air inlet

Claims (3)

In order to ventilate the living space of a building having an upper floor portion and a lower floor portion , a pipe communicating between the inside of the building and the outside, and the outside air provided in the pipe and taking the outside air into the building, A central ventilation facility structure comprising a ventilation unit for discharging air in the building to the outside of the building,
The building is located above the lower floor and includes a lower house adjacent to the upper floor ,
The ventilation unit is provided in the back of the shed of the lower house ,
The piping is
One end connected to the ventilation unit, the other end opened to the outside of the building, and the outside air suction pipe through which the outside air sucked by the ventilation unit circulates,
One end is connected to the ventilation unit, extends substantially horizontally from the ventilation unit, the other end opens to the upper floor, and supplies the external air sucked by the ventilation unit to the upper floor An outside air supply pipe,
One end connected to the lower part of the ventilation unit, hanging from the ventilation unit, the other end opened to the lower floor, and the inside air intake pipe through which the air in the building sucked by the ventilation unit circulates When,
One end connected to the ventilation unit, the other end opened outside the building, and wherein Rukoto to have a inside air discharge pipe for discharging the air in the building, which is sucked by the ventilation unit outside the building Central ventilation facility structure. The central ventilation facility structure according to claim 1 ,
One inside air inlet for inhaling air in the building is provided in the ventilation unit,
A central ventilation facility structure, wherein the inside air inlet is provided on a ceiling of the lower floor . In the central ventilation equipment structure according to claim 1 or 2 ,
The air-inhaling pipe and the inside air discharge pipe, the central ventilation structure, characterized in that is open to the eaves of the lower house.

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