JP2004251610A - Air conditioner and building - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner, compatible to be installed regardless of the presence and absence of an opening part in a ceiling, and enough ventilating a building having a plurality of rooms. <P>SOLUTION: An outside air introduction air flow channel AR1 and an exhaust air flow channel AR2 are formed on a body case 2 disposed on the upper part of a ceiling board 3 inside a room, and a heat exchange element 11 is provided on an intersecting part of the outside air introduction air flow channel AR1 and the exhaust air flow channel AR2. With the body case 2 set on the upper part of the ceiling board 3 or above it, an indoor air suction face F2 for introducing the indoor air of an exhaust passage P2 of the heat exchange element 11 is positioned below a blow-off face F for supplying air outside the building of an outside air passage of the heat exchange element 11, and a side wall part 8 facing on the indoor air suction face F2 and a cover plate 15 facing on the indoor air suction face F2 are respectively provided with opening parts 16, 34 for discharging the indoor air to be closed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner having a function of taking in air outside a building into a room and discharging air inside the room to the outside of the building, and a building provided with the air conditioner.
[0002]
[Prior art]
BACKGROUND ART Conventionally, a ventilation device shown in FIG. 14 is known as an air conditioner having a function of taking in air outside a building into a room and discharging air inside the room to the outside of the building.
[0003]
The ventilator 100 is of a semi-concealed type installed on a ceiling plate S in a room, and an opening S1 for sucking room air is formed in the ceiling plate S in the room. An opening 102 is formed in the main body case 101 of the ventilator 100 so as to open toward the room from the opening S1 of the ceiling plate S. The opening 102 is covered by a front panel 103 provided near the ceiling of the room. An opening 104 through which air passes is formed in the front panel 103.
[0004]
Inside the opening 104 of the main body case 100, a heat exchange element 105 is provided. The heat exchange element 105 includes a passage A that sucks through the opening 104 of the front panel 103 and passes room air taken in through the opening 102, and a passage B that passes air outside the building. , And heat can be exchanged between the air passing through the passages A and B, respectively. The opening 102 communicates with the passage A of the heat exchange element 105, and the passage A of the heat exchange element 105 is connected to the exhaust introduction chamber 107 through the air passage 106, and the exhaust introduction chamber 107 is connected to the exhaust passage 108. It is connected. An exhaust fan 109 is housed in the exhaust introduction chamber 107, and the exhaust fan 109 can suck air from the air passage 106 and blow air to the exhaust passage 108. The exhaust passage 108 communicates with the outside of the building via a duct (not shown). The exhaust fan 109 is rotated by a motor M1 attached to a partition plate 114 at the center of the main body case 101.
[0005]
An introduction passage 110 for introducing air outside the building is formed in a side wall portion of the main body case 101. The introduction passage 110 is connected to a duct (not shown) communicating with the outside of the building. The passage B of the exchange element 105 is connected. The passage B is connected to an air supply chamber 112 via an air passage 111, and an outside air introduction fan 113 is provided in the air supply chamber 112. The outside air introduction fan 113 is rotated by a motor M2 attached to a partition plate 114 between the air supply chamber 112 and the exhaust introduction chamber 107. A supply passage 115 is connected to the air supply chamber 112, and the supply passage 115 is connected to a predetermined room through a duct (not shown) so that air outside the building is supplied to the predetermined room. I have. The symbol F is a filter.
[0006]
[Patent Document 1]
JP-A-10-281523 (0014-0021, FIGS. 1 and 3)
[0007]
[Problems to be solved by the invention]
By the way, in a building in which the ventilation device 100 is installed, as shown in the above-mentioned conventional example, an opening S1 is provided in the indoor ceiling plate S and air can be taken in from the opening S1 (semi-concealed type). There is a case where the ventilation device 100 is entirely installed on the ceiling plate without providing an opening in the indoor ceiling plate, and the room air is suctioned through a duct from a separately provided intake grill or the like (all concealment type). .
[0008]
Therefore, when the opening S1 for taking in air is not provided in advance in the indoor ceiling plate, the above-described ventilation device 100 cannot be installed. Ventilation equipment must be configured. In this fully concealed type ventilation device, an opening for introducing room air is provided in the side wall of the main body case 101, and the opening for introducing room air is connected to the passage A of the heat exchange element 105. .
[0009]
However, it is not possible to separately prepare a semi-concealment type ventilation device that is installed when the opening is opened in the indoor ceiling and a totally concealed type ventilation device that is installed when the opening is not opened in the indoor ceiling. However, there is a problem in that it is disadvantageous to mass production of the ventilation device and the cost is increased.
[0010]
In addition, the ventilation device 100 is rarely installed in a substantially central portion of a building ceiling, and in many cases, the ventilation device 100 is installed in a ceiling portion distant from the center portion. It is assumed that ventilation efficiency will decrease. That is, in a building having a plurality of rooms, there is a problem in that it is difficult to uniformly ventilate the entire building. It is also desirable to actively increase the ventilation in a living room where residents are always present or in a room where moisture easily occurs. Furthermore, when the suction port for sucking indoor air faces the room from the ceiling, there is a problem that the sound of the fan leaks from the suction port.
[0011]
The present invention has been made in view of such problems, regardless of the presence or absence of an opening for air intake of the ceiling, installation is enabled, to provide an air conditioner that improves compatibility, It is another object of the present invention to provide sufficient ventilation even in a building having a plurality of rooms.
[0012]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a first air conditioner of the present application provides an external air introduction wind for taking in air outside the building and supplying it to a room in a main body case disposed above or above a ceiling plate in the room. Path and an exhaust air path for taking indoor air and exhausting to the outside of the building,
At the intersection where the outside air introduction air passage and the exhaust air passage intersect, a heat exchange means for exchanging heat between an outside air passage through which air outside the building passes and an exhaust passage through which room air passes is provided. ,
When the main body case is installed above or above the ceiling plate, the indoor air suction surface of the heat exchange unit where the indoor air suction port of the exhaust passage opens is connected to the outside air passage of the heat exchange unit. The air outlet of the outside of the building is configured to be located below the outlet surface that opens,
A side wall portion of the main body case facing the room air suction surface of the exhaust passage and a bottom portion of the main body case facing the room air suction surface are provided so as to be capable of closing a suction port for room air suction. And
[0013]
The second air conditioner of the present application is the first air conditioner of the present application, wherein the bottom plate located on the side of the ceiling plate of the main body case has a detachable opening for attaching and detaching the heat exchange means. A cover plate for closing the opening for attachment / detachment, and a holding member for holding the heat exchange means provided in a space formed by the upper portion of the cover plate and the inner wall surface of the main body case; An opening for introducing outside air constituting a part of the outside air introduction passage, and an opening for discharging indoor air constituting a part of the exhaust passage, and an opening of the ceiling plate in the bottom plate portion. A suction port for indoor air suction, which opens toward the portion, is formed.
[0014]
A third air conditioner according to the present invention is the air conditioner according to any one of the first and second aspects of the present invention, wherein a part of the outside air introduction air path is formed at a position adjacent to the heat exchange means inside the main body case. And an outside air introduction chamber for introducing air outside the building into the main body case and an indoor air introduction chamber for exhausting room air from the heat exchange means to the outside of the building are formed vertically, and the outside air introduction chamber is An opening for passing air outside the building is formed on the side wall, an opening for discharging room air from the main body case is formed on a side wall of the room air introduction chamber, and the outside air introduction chamber and the room air introduction chamber are formed. A partition plate, a single motor is installed, a rotating shaft of the motor is projected above and below the partition plate, and a centrifugal fan is provided on the upper and lower rotating shafts, and each centrifugal fan is covered with a fan case. The outside air introduction air passage and the exhaust air passage Characterized in that the formed.
[0015]
The fourth air conditioner according to the present application is configured such that a main body case disposed above or above a ceiling plate in a room takes in air outside the building and supplies it to the room, and an outside air introduction air passage and room air. An exhaust air passage for exhausting to the outside of the building is formed, and the main body case is provided with a plurality of indoor air suction ports constituting the exhaust air passage.
[0016]
A fifth air conditioner of the present application is the fourth air conditioner of the present application, wherein a suction port for sucking indoor air is formed in each of a bottom portion and a side wall portion of the main body case.
[0017]
A sixth air conditioner of the present application is the fourth air conditioner of the present application, wherein a plurality of indoor air suction ports are formed in a side wall portion of the main body case.
[0018]
The first building of the present application is a building using any one of the first to sixth air conditioners of the present application, and forms an air suction port for sucking indoor air into any of a plurality of rooms of the building, The air inlet and the air inlet on the side wall of the air conditioner are connected by a duct.
[0019]
In the second building of the present application, in the first building of the present application, an outside air supply port for supplying outside air of the air conditioner is formed in a room where the air suction port is formed, and the outside air supply port and the air conditioning are formed. The apparatus is characterized in that the apparatus is connected to an outside air introduction wind path by a duct.
[0020]
The third building of the present application is any one of the first and second buildings of the present application, and the room forming the indoor air inlet is a living room, a closet, a storage, a stairway, a dressing room, and a second floor. It is characterized by being at least one of living rooms.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a ventilation device as an air conditioner according to an embodiment of the present invention will be described with reference to the drawings.
[First air conditioner]
FIG. 1 shows a schematic configuration of a semi-concealed type ventilation device 1 according to an embodiment of the present invention. The main body case 2 of the ventilation device 1 is a semi-concealed type attached to the upper part of the ceiling plate 3 in the room, but can also be used for an all-concealed type. An opening 4 for attachment is formed in the ceiling plate 3. The main body case 2 is inserted through the opening 4 and installed on the ceiling plate 3, so that only approximately half of the main body case 2 can face through the opening 4.
[0022]
The main configuration of the ventilator 1 as the air conditioner is such that outside air for introducing air (outside air) outside the building into the main body case 2 disposed above or above the ceiling plate 3 in the room and supplying the air into the room. An air passage AR1 and an exhaust air passage AR2 for taking in room air and exhausting the air to the outside of the building are formed.
[0023]
At the intersection of the outside air introduction air passage AR1 and the exhaust air passage AR2, heat is exchanged between the outside air passage P1 for passing air outside the building and the exhaust passage P2 for passing indoor air. An exchange element 11 is provided (see FIG. 2).
[0024]
As shown in FIG. 2, the main body case 2 is installed in a state where the main body case 2 is installed above or above the ceiling plate 3, and a suction port for introducing room air into the exhaust passage P <b> 2 of the heat exchange element 11 is opened. The air suction surface F2 is configured to be located below the blowout surface F1 in which the air outlet for supplying the air outside the building into the desired room in the outside air passage P1 of the heat exchange element 11 is opened.
[0025]
The side wall 8 of the main body case 2 facing the indoor air suction surface F2 of the exhaust passage P2 and the lid plate 15 of the main body case 2 facing the indoor air suction surface F2 have suction ports 16 for indoor air suction, respectively. It is provided so that it can be closed.
[0026]
Hereinafter, each part will be described. The main body case 2 is formed of a rectangular parallelepiped box-shaped metal case. An opening 6 on the outlet side for discharging indoor air to the outside of the building on one side wall 5 in the longitudinal direction of the main body case 2 and an outside air introducing port for introducing air outside the building into the room. An opening 7 on the inlet side is formed. The other side wall 8 in the longitudinal direction of the main body case 2 is formed with an opening 9 on the outlet side for introducing outside air for blowing air introduced into the main body case 2 into the room. The openings 7 and 9 form an opening for introducing outside air into the main body case 2, and the opening 6 and an opening 34 described later form an exhaust air passage for room air in the main body case 2.
[0027]
An opening 14 for attaching and detaching the holding members 12 and 13 of the heat exchange element 11 is formed on the bottom plate 10 side of the body case 2 which is in contact with the ceiling plate 3, and a lid for closing the opening 14. An opening 16 on the entrance side for discharging indoor air to the outside of the building is formed in the plate 15. The opening 16 of the cover plate 15 is an opening for sucking room air, and can be closed by screwing a cover 16B into a screw hole 16A shown in FIG.
[0028]
The cover plate 15 forms a part of the bottom plate portion 10 to close the opening 14. The opening 14 is formed smaller than the opening 4 so that the holding members 12 and 13 can be attached to and detached from the opening 4. The cover plate 15 is attached to an edge of the opening 14 by a hinge (not shown) and can be opened and closed.
[0029]
A fixed frame 19 for storing the fan cases 17 and 18 is attached to a portion of the main body case 2 separated from the holding members 12 and 13, and a central portion of the fixed frame 19 in the height direction partitions an air path. A partition plate 20 is attached.
[0030]
An exhaust port of the fan case 17 disposed above the partition plate 20 is fixed to a vertical wall 19A of a fixed frame 19, and an opening 21 for exhausting indoor air is opened in the vertical wall 19A. I have. The exhaust port of the fan case 18 disposed below the partition plate 20 is fixed to the vertical wall 19B of the fixed frame 19, and the vertical wall 19B has an opening 22 for introducing outside air. .
[0031]
An opening 23 for introducing outside air for introducing air outside the building is formed in the vertical wall portion 19A of the fixed frame 19, and indoor air is exhausted to the outside of the building in the vertical wall portion 19B of the fixed frame 19. An opening 24 for exhausting indoor air is formed.
[0032]
A centrifugal fan 25 is provided inside the fan case 17, and a centrifugal fan 26 is provided inside the fan case 18. The centrifugal fans 25 and 26 are fixed to the rotation shaft 27A of the motor 27 attached to the partition plate 20 so as not to rotate. The motor 27 is connected to a control board (not shown) and rotates by power control from the control board. The fan cases 17 and 18 have bell mouths 17A and 18A serving as openings for taking in air, respectively.
[0033]
A resin plate 28 made of an elastic foamed resin (for example, foamed polypropylene, foamed polyethylene, foamed polystyrene, foamed polyvinyl chloride, etc.) is provided between the fixed frame 19 and the side wall 5 of the main body case 2. Openings 29, 30 communicating with the openings 6, 7 are formed in the resin plate 28, and cylindrical duct joints 31, 32 are in contact with the edges of the openings 29, 30.
[0034]
On the side wall 8 side of the main body case 2, an opening 9 for supplying the outside air of the building taken into the main body case 2 into the room, and an opening for discharging other room air to the outside of the building. 34 are formed. A cylindrical duct joint 35 is in contact with the edge of the opening 9, and a duct joint 36 is in contact with the edge of the opening 34. A lid 37 is attached to the duct joint 36, and is closed in this embodiment. Ducts (not shown) communicating with the outside of the building are connected to the duct joints 31 and 32. The duct joint 35 is connected to a duct (not shown) extending to the indoor ceiling for supplying new air taken into the main body case 2. Note that the duct joint 35 can be attached with a duct connected to an intake grill or the like provided on the ceiling, wall, or the like in a room where ventilation is desired.
[0035]
As shown in FIG. 2, the heat exchange element 11 as the heat exchange means is formed by laminating a large number of plastic sheets 40 and 41 having a cross-sectional configuration similar to the cross-sectional shape of corrugated paper. Reference numeral 41 denotes a plurality of elongated passages P for passing indoor air, which are arranged in parallel. The sheet 40 forming a part of the exhaust air path AR2 is directed to the outside air passage P1 along the exhaust air path AR2, and the sheet 41 forming a part of the outside air introduction air path AR1 is connected to the outside air introduction air path AR1. The exhaust passage P2 is directed along. The sheet 40 forming a part of the exhaust air path AR2 and the sheet 41 forming a part of the outside air introducing path AR1 are formed as a set and are joined to be adjacent to each other. The heat exchange element 11 is configured by laminating a number of sets. Due to the configuration of the heat exchange element 11, heat is exchanged between the exhaust air discharged from the room to the outside of the building and the introduced air introduced into the room from the outside of the building.
[0036]
The heat exchange element 11 is held between the holding members 12 and 13. The holding members 12, 13 are made of an elastic foamed resin (for example, foamed polypropylene, foamed polyethylene, foamed polyvinyl chloride, foamed polystyrene, etc.), and have an elasticity that returns to the original form in a short time when compressed. The holding members 12 and 13 are press-fitted between the side wall portion 8 and the vertical wall portion 19B of the fixed frame 19 while holding the heat exchange element 11, and the heat exchange element 11 is held between the holding members 12 and 13. Is formed to be larger than the distance between the side wall portion 8 and the vertical wall portion 19B of the fixed frame 19 so as to be press-fittable, and the reaction force from the vertical wall portion 19B of the side wall portion 8 and the fixed frame 19 is formed. Thereby, even if the heat exchange element 11 and the holding members 12 and 13 are mounted upside down, they do not drop.
[0037]
The holding member 12 includes a vertical wall portion 49 having the same shape and the same shape as the side wall portion 8, vertical wall portions 50, 50 projecting from both sides of the vertical wall portion 49 toward the center portion side of the main body case 2, It has a ceiling plate portion 51 that comes into surface contact with the ceiling plate portion 2A, and a partition plate portion 52 that partitions an air flow path to the heat exchange element 11. The edge portion 52A of the partition plate portion 52 holds the chamfered corner of the heat exchange element 11.
[0038]
The vertical wall portions 50, 50 have a vertical edge portion 50A for inserting the heat exchange element 11, and an inclined edge portion 50B for holding left and right end portions of the heat exchange element 11, and this edge A part of the heat exchange element 11 is supported by the part 50B and the edge 52A of the partition plate part 52.
[0039]
A convex frame portion 54 that houses the box-shaped air guide portion 53 formed on the cover plate 15 is formed inside the vertical wall portion 49 on the side of the cover plate 15. Further, an opening 55 for introducing outside air communicating with the opening 9 and the duct joint 35 is formed at an upper portion of the partition plate portion 52 of the vertical wall portion 50, and a room air is formed at a lower portion of the partition plate portion 52 of the vertical wall portion 50. A suction port 56 for indoor air suction which can communicate with the suction port 53A for suction and the duct joint 36 is formed.
[0040]
The holding member 13 includes a vertical wall portion 60 having substantially the same and the same vertical sectional shape as the main body case 2, vertical wall portions 61, 61 projecting from both sides of the vertical wall portion 60 toward the holding member 12, 2 has a ceiling plate portion 62 that comes into surface contact with the ceiling plate portion 2A, and a partition plate portion 63 that partitions an air flow path to the heat exchange element 11. The edge 63A of the partition plate 63 holds a chamfer at the corner of the heat exchange element 11.
[0041]
The vertical wall portions 61, 61 have a vertical edge portion 61A for inserting the heat exchange element 11, and an inclined edge portion 61B for holding left and right end portions of the heat exchange element 11, and this edge A part of the heat exchange element 11 is supported by the portion 61B and the edge 63A of the partition plate 63. Further, the edge 62A of the ceiling plate 62 holds the upper chamfered portion of the heat exchange element 11 in cooperation with the edge of the ceiling plate 51 of the holding member 12. Since the four corners of the heat exchange element 11 are chamfered and a sealing member 48 is further adhered, the air between the intersecting outside air passages P1 and the exhaust passages P2 is prevented from being mixed. .
[0042]
An opening 64 for discharging indoor air through which air passes through the fan case 17 is opened above the partition plate 63 of the vertical wall 60 of the holding member 13. A backflow prevention shutter 65 (see FIGS. 3 and 4) is detachably provided at an edge of the opening 64. Further, an opening 66 for introducing outside air through which air passes through the fan case 18 is opened below the partition plate 63 of the vertical wall portion 60 of the holding member 13. An insect net member 67 (see FIG. 6) is detachably provided at an edge of the opening 66.
[0043]
The backflow prevention shutter 65 is configured such that a rotating shaft 69 is attached to left and right side walls of a rectangular holding frame 68 that is press-fitted into the opening 64, and the shutter 70 is rotatably provided on the rotating shaft 69. The backflow prevention shutter 65 is provided with a rotation shaft 69 provided above the shutter 70 and provided with a lower end portion of the upper shutter 70 positioned below the rotation shaft 69 of the lower shutter 70 and closer to the fan case 17. In the normal state, it is directed downward by gravity.
[0044]
When the indoor air is discharged to the outside of the building, the shutter 70 opens and guides the air that has passed through the heat exchange element 11 to the centrifugal fan 25 side by the suction force of the centrifugal fan 25. On the other hand, when the air flows back into the fan case 17 due to a building wind or a strong wind, and tries to enter the heat exchange element 11, the shutter 70 blocks the air flowing back.
[0045]
As shown in FIG. 5, the insect-controlling net member 67 is formed by attaching a fine net-like bag-like net 72 to a holding frame 71 which is pressed into and held in the opening 66. It permeates the air outside the building that is sucked into the 11 side, captures dust and insects, and prevents intrusion. A groove 73 for attachment is formed at the edge of the opening 66 on the side of the fan case 18, and an insect-proof net member 67 is detachably fitted into the groove 73.
[0046]
The backflow prevention shutter 65 and the insect-proof net member 67 are held by press fitting so that they can be removed from the openings 64 and 66.
[0047]
Mounting frames 82 and 83 for filters 80 and 81 for preventing fine dust from entering the passage P of the heat exchange element 11 are detachably supported on the upper surface of the cover plate 15. As shown in FIG. 7, the central portion of the cover plate 15 is formed in a belt shape with a convex portion 84 that supports the chamfered portion below the heat exchange element 11 by surface contact. Insertion openings 85, 86 of the attachment frames 82, 83 are formed on the slopes of the convex portions 84, and flanges 87 of the attachment frames 82, 83 seal the gaps between the insertion openings 85, 86. ing. The flange portions 87 of the mounting frame portions 82 and 83 are fixed by a mounting bracket (not shown) having a cross-sectional shape similar to the trapezoidal cross-sectional shape of the convex portion 84 and a size to close the convex portion 84. In this mounting bracket, a plurality of bolts are mounted on the indoor side wall surface of the convex portion 84, holes for passing the bolts are formed in the mounting bracket, and the bolts are inserted into holes of the mounting bracket and fastened with nuts.
[0048]
A front panel 88 for introducing room air into the opening 16 of the cover plate 15 is detachably attached below the cover plate 15. The front panel 88 has an opening 89 for taking in air, and a passage 90 for passing air is formed between the front panel 88 and the cover plate 15.
[0049]
In the ventilation device 1 of this embodiment, the outside air introduction air passage AR1 that takes in the air outside the building into the room includes the duct joint 32, the opening 7 of the vertical wall 5, the opening 30 of the resin plate 28, The opening 23, the installation space SP1 (outside air introduction chamber) of the fan case 18 partitioned by the partition plate 20, the fan case 18, the opening 22, the insect net member 67, the opening 66, and the partition plate. A space SP2 below the holding member 13 partitioned by the portion 63, a filter 80, a heat exchange element 11, a space SP3 above the partition plate portion 52 of the heat exchange element 11 and the holding member 12, an opening 9, And a duct joint 35.
[0050]
The ventilation air passage AR2 for discharging indoor air to the outside of the building includes an opening 89 of the front panel 88, a passage 90 between the front panel 88 and the cover plate 15, an opening 16, and the heat exchange element 11 A space SP4 below the partition plate portion 52 of the holding member 12, a space SP5 above the partition plate portion 63 of the heat exchange element 11 and the holding member 13, an opening 64, a backflow prevention shutter 65, an opening 24, The space SP6 (indoor air introduction chamber) above the partition plate 20, the fan case 17, the openings 21, 29, 6 and the duct joint 31 are formed.
[0051]
And since the insect-proof net member 67 is detachably provided in the space SP2 of the holding member 13 constituting the outside air introduction air passage AR1 and in the air intake of the heat exchange element 11, maintenance for cleaning and replacement is easy. is there.
[0052]
Further, since the backflow prevention shutter 65 is detachably provided in the space SP5 of the holding member 13 forming the ventilation air passage AR2 and in the air discharge opening 64 of the heat exchange element 11, maintenance for cleaning and replacement is performed. Is easy.
[0053]
Further, the heat exchange element 11 and the holding members 12 and 13 can be inserted and removed from the opening 14 of the main body case 2, and an assembly (heat exchange unit) of the holding members 12 and 13 and the heat exchange element 11 is disassembled. Since this is possible, it is extremely convenient when performing maintenance such as mounting, cleaning, and replacement of the heat exchange element 11, the backflow prevention shutter 65, or the insect net member 67.
[0054]
Further, at a position adjacent to the heat exchange element 11 inside the main body case 3, a part of the outside air introduction air passage AR1 is formed, and the outside air introduction chamber SP1 for introducing the air outside the building into the main body case 2 and heat exchange. An indoor air introduction chamber SP6 for exhausting room air from the element 11 to the outside of the building is formed vertically, and an opening 6 for introducing outside air is formed in the side wall 5 of the outside air introduction chamber SP1 to form an indoor air introduction chamber SP6. An opening 7 for exhausting indoor air from the main body case 2 is formed in the side wall of the main body 2, and a motor 27 is installed on a partition plate 20 that separates the outside air introducing chamber SP1 from the indoor air introducing chamber SP6. 27, the upper and lower rotating shafts 27A are provided with centrifugal fans 25 and 26, and the respective centrifugal fans 25 and 26 are covered with fan cases 17 and 18, respectively. Since the formation of the R1 and exhaust air passage AR2, ventilator 1 it can be made compact.
[0055]
According to the ventilating apparatus 1 according to the above-described embodiment, the indoor air suction surface F2 of the heat exchange element 11 is provided below (inside the room) the air blowing surface F1 outside the building, and the main body case 2 Since the openings 16, 56, and 34 are formed in the room air exhaust space SP4 formed by the room air suction surface F2, the openings 34 or 56 are closed, and only the opening 16 is provided. , The room air can be taken in from the room below the ceiling plate 3.
[0056]
When the opening 4 is not formed in the ceiling plate 3, the opening 16 of the cover plate 15 is closed by the closing plate 16 </ b> B (see FIG. 6), the openings 56 and 34 are opened, and the opening 56 and 34 are opened. If the cover 37 is removed and a duct (not shown) extending from an indoor grill or the like for introducing air is connected to the duct joint 36, the ventilation device 1 is installed above or above the ceiling plate 3 even if the ceiling plate 3 has no opening. it can. Therefore, the compatibility of the ventilation device 1 is improved, and mass production and cost reduction can be achieved.
[0057]
In addition, not only can the holding members 12 and 13 and the heat exchange element 11 be detached by opening the lid plate 15 that closes the opening 14 of the ventilator 1, but also the filters 80 and 81, the backflow prevention shutter 65 and the insect net 67 can be removed. Since replacement is also possible, cleaning and replacement maintenance and the like are extremely easy.
[0058]
Further, the outside air introduction chamber SP1 and the indoor air introduction chamber SP6 are formed vertically, and the partition plate 20 is provided with the motor 27, and the rotary shaft 27A is provided with the centrifugal fans 25 and 26. In addition, the size of the entire ventilation device 1 is reduced, and the mounting workability and the like are improved.
[0059]
In this embodiment, the ventilator 1 has been described as an air conditioner. However, the present invention is not limited to this.
[Second air conditioner]
FIG. 7 shows a ventilation device as an air conditioner according to the second embodiment. The ventilator 1 'according to this embodiment may be used for exhausting indoor air without the lid 37 being attached to the duct joint 36 of the opening 34 in the ventilator 1 shown in FIG. Since the other configuration is the same as that of the ventilator 1 of FIG. 1, the description thereof will be referred to. Although not shown, the backflow prevention shutter 65 and the insect net member 67 are provided similarly to FIG.
[0060]
An opening 16 is formed in the cover plate 15 of the ventilation device 1 'as a suction port for room air in an exhaust air path AR2 for discharging room air to the outside of the building. The cover plate 15 forms a part of the bottom plate portion 10 of the main body case 2 that closes the opening portion 14, is attached to an edge of the opening portion 14 by a hinge (not shown), and can be opened and closed. Note that the cover plate 15 may be attached by screws.
[0061]
The duct joint 36 provided at the opening 34 of the side wall 8 of the main body case 2 forms an exhaust air passage for room air of the main body case 2. As described above, the duct joint 36 is connected to a suction port in a room in which the ventilator 1 'is installed and another room through a duct (not shown).
[0062]
When the opening 34 for indoor air suction and the opening 9 for outside air supply are formed on the same side wall 8 respectively, duct piping work and wiring work of a light line for other uses in the building ceiling space. When performing the process, the space in the vicinity of the side surface portion extending in the longitudinal direction of the main body case 2 can be utilized, and the degree of work freedom in construction increases.
[0063]
Further, for example, when an opening 34 is formed in the side wall 8 and an opening for indoor air suction is formed in a side surface orthogonal to the side wall 8 so that the opening for indoor air suction can be selected, the ceiling is formed. Openings for indoor air suction can be selected according to the layout of ducts and wiring in the space, and there is no restriction on the construction of ducts and pipes on the ceiling, so the degree of freedom in construction work is increased. .
[0064]
In particular, the ventilators 1 and 1 ′ are arranged such that the longitudinal direction of the main body case 2 of the ventilators 1 and 1 ′ is different from that of the building for convenience of connecting a duct for supplying outside air or discharging indoor air to an opening of the outer wall. Often oriented in a direction perpendicular to the outer wall. For this reason, openings 9 and 34 are formed in the side wall surface extending in the longitudinal direction of the main body case 2 and the side wall surface extending in the direction perpendicular to the longitudinal direction, respectively, so that a suction port for sucking indoor air is installed in the room. The openings 9 and 34 of the main body case 2 can be selected according to the installation position of the suction port, and the degree of freedom of the construction work in the ceiling space increases.
[0065]
FIG. 8 is a plan view of a detached house in which a plurality of ventilation devices 1 ′ are installed. In FIG. 8, ventilation devices L and R are installed on the ceiling of the hall 201 and the ceiling of the passage 202 of the house 200, respectively. The ventilation devices L and R are the same as the ventilation device 1 'shown in FIG.
[0066]
203A is a hood for taking in outside air into the building, and 203B is a hood for discharging indoor air to the outside of the building. The outside air suction port provided near the hood 203A is connected to the outside air introduction air passage AR1 of the ventilation devices L and R via a duct. Further, an exhaust port provided near the hood 203B is connected to an exhaust air path AR2 of the ventilation devices L and R via a duct.
[0067]
The openings 16 of the ventilation devices L and R provided in the ceiling of the passage 202 introduce room air in the passages 201 and 202. At the ceiling of the staircase near the passage 202, a suction port 204L for discharging indoor air is attached. The suction port 204L is connected to the duct joint 36 of the ventilation device L via the duct 205L. Further, a suction port 204R for discharging indoor air is further attached to the ceiling of the staircase. The suction port 204R is connected to the duct joint 36 of the ventilation device L via the duct 205R.
[0068]
Therefore, the ventilators L and R can suck the air in the passages 201 and 202 from the opening 16 and also can suck the air from the suction ports 204L and R in the staircase. Ventilation can be performed sufficiently.
[0069]
The ventilation devices L and R are provided with three duct joints 35 (for air supply) of the outside air introduction air passage AR1.
[0070]
The air supply duct joint 35 of the ventilator L supplies outside air to a place away from the entrances of the Japanese rooms 206, 207 and the wide rim 208. The room air in the Japanese rooms 206 and 207 and the wide rim 208 is sucked from the door or the gull in a convection manner through the opening 6 or the suction port 204 and exhausted to the outside of the building.
[0071]
The outside air supply air passage AR1 of the ventilation device R communicates with the dining kitchen 209, the hall 201, and the Western room 210 via a duct. The indoor air suction port 204R of the ventilator R is installed at the ceiling of the staircase, and the opening 16 of the ventilator R sucks the air at the ceiling of the hall 201 through the front panel 88 of FIG. . The outside air supplied to the dining kitchen 209, the hall 201, and the Western room 210 moves in a convection manner and is sucked through the inlet 204r and the opening 16, so that each room is ventilated without stagnation.
[0072]
FIG. 9 shows the ventilation device 1 ′ of FIG. 7 installed on the ceiling of the passage 220, and an indoor air inlet 222 provided on the ceiling of the washroom / dressing room 221. The indoor air inlet 222 is connected to the duct joint 36 via the duct 223. The damp indoor air in the washroom / dressing room 221 is sucked through the indoor air inlet 222 and exhausted to the outside of the building.
[0073]
The duct joint 35 of the ventilator 1 ′ is formed at three places, and supplies outside air from supply ports provided at one place at the corner of the Japanese-style room 224 and at two places at the corner of the dining living 225. The air supply ports 224A, 225A, and B of the Japanese-style room 224 and the dining room 225 are provided at positions diagonally away from the door 226 and the entrance 227 of the Japanese-style room 224. Suck through the opening 16. For this reason, ventilation is performed without stagnation in the whole room.
[0074]
10 and 11 show a two-story detached house provided with a ventilation device 1 '. The ventilator 1 ′ is attached to the ceiling of the entrance passage 230 on the first floor, and supplies outside air to the room at one location at the corner of the ceiling of the Japanese-style room 231 and at two locations at the corner of the ceiling of the dining living 232. An air supply port 233 is attached. Each air supply port 233 is connected via a duct 234 to a duct joint 35 of the outside air introduction air passage AR1 of the ventilation device 1 '. The duct joint 35 of the ventilation device 1 'is formed at three places. The air supply port S on the second floor is provided in a room such as a living room, and outside air is supplied into the room. This air supply port S may be a natural air supply port or an air supply device provided with an air supply fan. Outside air is supplied to the room so as to satisfy the required capacity.
[0075]
A suction port 236 is provided in the ceiling or wall 238 of the passage 235 on the second floor. A duct 237 is connected to the suction port 236, and the duct 237 is connected to the duct joint 36 of the exhaust air passage AR2 of the ventilation device 1 '. The duct 237 can be installed inside the wall portion 238, but a suction port 236 is provided at a lower portion of the wall portion of the passage 235, and the duct 237 is disposed between the ceiling portion on the first floor and the passage 235 on the second floor. Then, the duct 237 and the suction port 236 are connected. Air is taken into the western room on the second floor from the windows and the air supply port G, and the room air in the western room exits through the gap under the door to the passage 235, is sucked from the inlet 236 on the second floor, and is discharged from the ventilation system 1 'to the outside of the building. Is done.
[0076]
According to such a ventilating apparatus 1 'and the suction port, the indoor air on the first and second floors can be sucked and ventilated by one ventilating apparatus 1' installed on the ceiling on the first floor.
[0077]
FIG. 12 and FIG. 13 are plan views in which a ventilation device 1 ′ is installed in an apartment house. In the house of FIG. 12, the ventilation device 1 'is installed on the ceiling of the passage 240. In the ceiling of the dining living 241, the Japanese-style room 242, the Western-style rooms 243 and 244, air supply ports 245 are provided at corners far from the entrance and exit, respectively. It is connected to a joint 35.
[0078]
A suction port 247 for sucking room air is provided at a location on the doorway side of the ceiling of the dining living 241 and located diagonally from the air supply port 245. The suction port 247 is connected via a duct 248 to the duct joint 36 of the exhaust air passage AR2 of the ventilation device 1 '. In the house of FIG. 12, a suction port 247 is installed in a dining room 241 where people often stay for a long time, and the ventilation efficiency of the air breathed by the resident and the like is increased, and the suction port 247 and the air supply port 245 are connected to the room. , Convection occurs throughout the room and ventilation efficiency is improved.
[0079]
In the house of FIG. 13, a suction port 250 is provided in the ceiling of the closet 249 of the Japanese-style room 242. Other configurations are the same as those of the ventilation device 1 'of the apartment in FIG.
[0080]
According to the house of FIG. 13, ventilation of a closed space such as the closet 249 where moisture easily accumulates is performed, so that bedding, clothing, and the like are prevented from getting wet, which is suitable for storage.
[0081]
In the ventilation device 1 ', three duct joints 35 are formed, but one end of the duct joint 35 on the side where air enters is one, and the end from which air exits is branched into a plurality. Needless to say, it may be.
[0082]
The building is configured such that an outside air supply port for supplying outside air of the air conditioner is formed in the room where the air intake port is formed, and the outside air supply port and the outside air introduction air path of the air conditioner are connected by a duct. Then, since the outside air supply port is also provided in the room provided with the air suction port, the ventilation efficiency in the room is further improved.
[0083]
Further, according to the above-described air conditioner, even if the number of rotations of the fan is determined by setting with a dip switch or the like at the time of construction or the like so as to obtain a required ventilation amount according to each house, Air can be sucked in from the area, and the required ventilation volume or ventilation frequency depends on the volume of the area to be ventilated (for example, the whole house for an apartment or each floor for a detached house). (For example, 0.5 times / H). As a result, planned ventilation can be performed, and the concentration of VOC (volatile organic compound) and formaldehyde emitted from building materials such as cloth and flooring can be suppressed to a low level, which can contribute to sick house measures.
[0084]
In the building, if the room forming the indoor air inlet is at least one of a living room, a closet, a storage, a stairway, a dressing room, and a second floor living room, a resident is resident if an inlet is provided in the living room. The ventilation efficiency of the room that is easy to improve is improved, and if a suction port is provided in the closet and storage, moisture etc. in the closet and storage can be exhausted and drying is good, and if a suction port is provided in the stairway, air Ventilation is performed in places where stagnation is likely to occur, thus improving the ventilation efficiency of the entire building. In addition, if a suction port is provided in a dressing room or a washroom, moisture can be ventilated, and if provided in a second-floor room, ventilation of both the first floor and the second floor can be efficiently performed by one air conditioner.
[0085]
【The invention's effect】
According to the first air conditioner of the present invention, the opening is provided in the side wall and the bottom plate of the main body case so as to be closed, facing the suction surface of the heat exchange means through which the indoor air is introduced. In some cases, while closing the opening in the side wall, the opening in the bottom plate can be opened to allow room air to be introduced through the opening in the bottom plate.
[0086]
If the ceiling does not have an opening, the room air can be introduced and exhausted by closing the opening of the bottom plate, opening the opening of the side wall, and connecting to a predetermined room.
[0087]
Furthermore, when there is an opening in the ceiling and the desired indoor air is to be exhausted, indoor air is introduced from both the opening with both the side wall opening and the bottom plate opening open.・ Can be exhausted.
[0088]
For this reason, according to the first air conditioner, it is possible to install the air conditioner and exhaust the room air and introduce the air outside the building regardless of the presence or absence of the ceiling opening. Device compatibility is improved.
[0089]
Further, according to the first air conditioner of the present application, the number of rotations of the fan is determined by setting with a dip switch or the like at the time of construction or the like so as to obtain a necessary ventilation amount according to each house. In addition, since air can be sucked in from a plurality of areas, the required ventilation volume depends on the volume of the area to be ventilated (for example, the entire house in an apartment or each floor in a detached house). Alternatively, the number of ventilations (for example, 0.5 times / H) can be satisfied. As a result, planned ventilation can be performed, and the concentration of VOC (volatile organic compound), formaldehyde, and the like emitted from building materials such as cloth and flooring can be suppressed to a low level, which can contribute to sick house measures.
[0090]
According to the second air conditioner of the present application, the heat exchange means and the holding member can be removed from the main body case for cleaning and replacement, and the compatibility of the ventilation device is improved, and the workability of maintenance is improved.
[0091]
According to the third air conditioner of the present invention, in addition to the effects of the first and second air conditioners, since it is constituted by one motor and two fans, a compact (small and light) ventilator can be realized.
[0092]
According to the fourth air conditioner of the present application, since the suction port for suctioning indoor air is formed in the main body case, air in a plurality of rooms can be directly sucked and exhausted, and the ventilation efficiency in a desired room can be improved, and the suction efficiency can be improved. The presence of multiple openings disperses the sound of the fan and makes it quieter.
[0093]
According to the fifth air conditioner of the present application, similarly to the fourth air conditioner, the desired indoor ventilation efficiency is improved, and when the indoor air is sucked and exhausted from the ceiling part where the air conditioner is installed, the ceiling part is removed. Even if there is an opening, the sound is dispersed to other suction ports, so that the sound of the fan is quiet.
[0094]
According to the first building of the present application, since the air suction port is formed in the room of the building, the ventilation efficiency of the installed room itself is improved.
[Brief description of the drawings]
FIG. 1 is a sectional view showing a configuration of a ventilation device according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing an assembled state of a holding member and a heat exchange element of FIG. 1;
FIG. 3 is a side view of the holding member 13 shown in FIG.
FIG. 4 is a plan view of the backflow prevention shutter shown in FIG. 3;
FIG. 5 is a plan view of the insect net member shown in FIG. 3;
FIG. 6 is a diagram showing a configuration of a lower lid side of the case main body shown in FIG. 1;
FIG. 7 is an exemplary sectional view showing the configuration of a ventilation device according to a second embodiment;
FIG. 8 is a plan view showing a state in which a plurality of indoor air inlets are provided on the stairs of a detached house.
FIG. 9 is a plan view showing a state where a suction port for room air is provided in a washroom and a dressing room of a detached house.
FIG. 10 is a plan view showing a state where a ventilation device is provided on the first floor of a detached house.
FIG. 11 is a plan view showing a state where a suction port for indoor air is provided on the second floor of a single-family house.
FIG. 12 is a plan view showing a state where a suction port for room air is provided in a dining room inside a condominium house.
FIG. 13 is a plan view showing a state in which a suction port for room air is arranged in a closet inside an apartment house.
FIG. 14 is a schematic diagram showing a configuration of a conventional ventilation device.
[Explanation of symbols]
1 Ventilation equipment
2 Body case
3 ceiling
10 Bottom plate
11 Heat exchange element
12, 13 holding member
15 Lid plate
17,18 fan case
27 fan motor
25,26 Centrifugal fan
P1 Outside air passage
P2 Exhaust passage
F1 Introduced surface of outside air
F2 Indoor air suction surface
AR1 Outside air introduction wind path
AR2 Ventilation airway
SP1 Fan case 18 installation space (outside air introduction room)
SP4 Lower space of holding member 12
SP6 Fan case 17 installation space (indoor air introduction room)

Claims (7)

A main case installed above or above the ceiling panel in the room, an outside air introduction air path for taking in air outside the building and supplying it to the room, and an exhaust air for taking room air and exhausting it to the outside of the building. Form a road and
At the intersection where the outside air introduction air passage and the exhaust air passage intersect, a heat exchange means for exchanging heat between an outside air passage through which air outside the building passes and an exhaust passage through which room air passes is provided. ,
When the main body case is installed above or above the ceiling plate, the indoor air suction surface of the heat exchange unit where the indoor air suction port of the exhaust passage opens is connected to the outside air passage of the heat exchange unit. The air outlet of the outside of the building is configured to be located below the outlet surface that opens,
A side wall portion of the main body case facing the room air suction surface of the exhaust passage and a bottom portion of the main body case facing the room air suction surface are provided so as to be capable of closing a suction port for room air suction. Air conditioner. The air conditioner according to claim 1,
On the bottom plate portion located on the ceiling plate side of the main body case, a detachable opening for attaching and detaching the heat exchange means, and a lid plate for closing the detachable opening are provided. In a space formed by the inner wall surface of the main body case, a holding member for holding the heat exchange means is provided, and the holding member has an opening for introducing outside air constituting a part of the outside air introduction air passage, An opening for indoor air discharge which constitutes a part of the exhaust air passage, and a suction port for indoor air suction opening to the bottom plate portion facing the opening portion of the ceiling plate is formed. Air conditioner. The air conditioner according to any one of claims 1 and 2,
An outside air introduction chamber that forms a part of the outside air introduction air path and introduces air outside the building into the body case at a position adjacent to the heat exchange means inside the body case; An indoor air introduction chamber for exhausting indoor air to the outside of the building is formed up and down, and an opening for passing air outside the building is formed on a side wall of the outside air introduction chamber, and a side wall of the indoor air introduction chamber is formed on the side wall of the indoor air introduction chamber. An opening for discharging indoor air from the main body case is formed, a single motor is installed on a partition plate that separates the outside air introduction chamber and the indoor air introduction chamber, and the rotation axis of the motor is moved up and down of the partition plate. An air conditioner, wherein a centrifugal fan is provided on upper and lower rotating shafts, and each of the centrifugal fans is covered with a fan case to form the outside air introduction air passage and the exhaust air passage. An external air intake path for taking in air outside the building and supplying it to the room, and an exhaust air for taking room air and exhausting it to the outside of the building. An air conditioner, comprising: a main body case; and a main body case provided with a plurality of indoor air suction ports constituting the exhaust air path. 5. The air conditioner according to claim 4, wherein a suction port for sucking room air is formed in each of a bottom portion and a side wall portion of the main body case. 6. 5. The air conditioner according to claim 4, wherein a plurality of indoor air suction ports are formed in a side wall portion of the main body case. A building using the air-conditioning apparatus according to any one of claims 1 to 6, wherein an air suction port for sucking indoor air is formed in any of a plurality of rooms of the building, and the air suction port and the air-conditioning apparatus are provided. A building characterized by connecting the inlet of the side wall with a duct.

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