JP4134397B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner such as a ventilator. For example, the present invention relates to a ceiling-mounted type installed in a ceiling space.
[0002]
[Prior art]
The above-described air conditioner has a device body installed in the ceiling space. The lower surface of the apparatus main body is installed along the ceiling surface of the room. Inside the main unit, heat exchange elements that exchange heat between the airflows flowing from the outdoor to the indoor air supply path and the indoor to outdoor exhaust airflow paths, and the dust in the airflow entering the heat exchange elements And a filter to capture.
[0003]
This filter usually requires maintenance such as cleaning and replacement every predetermined period. During maintenance, the panel on the lower surface of the apparatus main body is opened from the indoor side, and a maintenance opening is formed on the lower surface. The filter is cleaned or removed through this opening.
[0004]
[Problems to be solved by the invention]
By the way, when cleaning or exchanging, dust captured by the filter may fall off the filter and fall downward. As a result, the room under the maintenance opening may be soiled.
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a ceiling-mounted air conditioner that solves the above technical problems and can prevent the lower room from becoming dirty during filter maintenance.
[0005]
[Means for Solving the Problems]
In order to achieve this object, an air conditioner according to a first aspect of the present invention includes an apparatus main body in which a maintenance opening is formed by opening a lower panel, an air passage is defined in the apparatus main body, and An airway partition member that can be inserted and removed through the maintenance opening; A heat exchange element for exchanging heat between the exhaust discharged from the room to the outside and the air supplied to the room from the outside, With the above The airway partition member is A holding part for holding the heat exchange element; Includes a holding part for holding the filter and a receiving part for receiving dust that falls off the filter. The air passage partition member at least divides the air supply air passage from the outside to the room, the filter is disposed in the air supply air passage, and the receiving portion, the filter, and the heat exchange are arranged along the flow direction of the air supply air passage. Arranged in order of elements It is characterized by that.
[0006]
According to this configuration, the panel can be opened from the room below the apparatus main body, and the air passage partition member and the filter can be taken out collectively through the maintenance opening.
For example, when taking out in this way, even if the dust adhering to the filter drops off from the filter, it is received by the receiving portion, so that it does not fall into the lower room, so that the room is not dirty.
[0007]
In particular, since the receiving part is attached and detached integrally with the filter, it is possible to reliably receive dust, and it is easy to clean the dust received there after the receiving part is taken out together with the filter.
Further, since the air passage partition member and the filter can be handled integrally, dust is not easily dropped from the filter when taken out from the apparatus main body.
[0008]
Also, The air passage partition member includes a holding portion that holds a heat exchange element. . This Since the heat exchange element can also be handled integrally, dust is more difficult to drop off from the filter when it is taken out from the apparatus main body.
[0009]
Also, The filter in the air supply passage captures relatively large dust from the outside and tends to drop off from the filter. However, such dust can be received by the receiving portion.
[0010]
Also Along the flow direction of the air supply air passage, the receiving portion, the filter, and the heat exchange element are arranged in this order. . This The filter can reliably prevent dust from flowing into the heat exchange element, and can be reliably received by the receiving portion even if dust falls off the filter.
[0011]
Claim 2 An air conditioner according to the invention described in claim 1 In the air conditioner described above, the air passage partition member includes a holding portion that holds an additional filter downstream of the heat exchange element in the air supply air passage.
According to this configuration, the claims 1 In addition to the operation of the invention described in (4), even if dust passes through the filter or the heat exchange element, it is captured by the additional filter, so that it is possible to prevent the dust from entering the room.
[0012]
Further, since the additional filter can also be handled integrally, dust is more difficult to drop off from the filter when it is taken out from the apparatus main body.
In addition, when an additional filter with a fine mesh and a filter with a coarse mesh are combined, the filter can be prevented from being clogged with a large amount of dust, so that the filter maintenance period can be extended, resulting in an opportunity for dust to fall into the room. In addition, it is possible to reduce the amount of dust and to prevent the invasion of dust into the room.
[0013]
Claim 3 An air conditioner according to the invention described in claim 1 or 2 In the air conditioner described above, the air passage partition member is a combination of divided bodies made of a pair of foamed resins that sandwich the heat exchange element.
According to this configuration, the claims 1 or 2 In addition to the operation of the invention described in (1), the heat exchange element can be removed from the airway partition member by separating the pair of divided bodies. Further, if a pair of divided bodies are combined while sandwiching the heat exchange element, they can be handled integrally. Therefore, it is easy to maintain the heat exchange element.
[0014]
In addition, since the air passage partition member made of foamed resin is lightweight, it is easy to handle when attaching to and detaching from an apparatus main body installed at a high place such as a space behind the ceiling. As a result, dust is not easily removed from the filter.
In addition, since the air passage partition member made of foamed resin has a buffering property, it is difficult for dust to fall from the filter even if it hits the apparatus main body.
[0015]
Here, as the foamed resin, foamed polystyrene can be exemplified.
Claim 4 An air conditioner according to the invention described in claim 3 In the air conditioner described above, the holding portion that holds the filter is formed of a groove that is formed in each divided body and into which the periphery of the filter is fitted.
According to this configuration, the claims 3 In addition to the operation of the invention described in (2), it is possible to seal between the groove and the filter while holding the filter by the groove, and the sealing and holding can be realized by a simple operation of fitting the filter in the groove. .
[0016]
The peripheral edge may be a part of the peripheral edge of the filter. However, when the peripheral edge is provided on the entire periphery, reliable sealing and retaining properties can be obtained.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
An air conditioner according to an embodiment of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a schematic configuration diagram of an air conditioner according to an embodiment of the present invention.
The air conditioner 1 includes a device main body 2 for generating a flow of air supply from the outside to the room and a flow of exhaust air from the room to the outside, and a supply of air flowing from the air supply port 11 facing the outdoors to the device main body 2. An air duct 6, a blowout duct 8 for flowing a blown air flow from the apparatus main body 2 to a blowout outlet (not shown) facing the room, and an exhaust duct 7 connecting the apparatus main body 2 and the exhaust port 12 facing the outdoors have. The apparatus main body 2 is disposed in a ceiling space, and a suction port 13 is defined on the lower surface 2a of the apparatus main body 2 facing the room. These parts form an exhaust air passage from the room to the outside and an air supply air passage from the outside to the room.
[0018]
The air supply passage passes from the air supply port 11 through the air supply duct 6, the air supply flow path in the apparatus main body 2, and the blowout duct 8 to the blowout outlet (arrow F1).
The exhaust air passage passes from the suction port 13 through the exhaust passage in the apparatus main body 2 and the exhaust duct 7 to the exhaust port 12 (arrow F2).
The apparatus main body 2 includes a heat exchange unit 3 including a heat exchange element 31 that exchanges heat between supply air and exhaust, a fan unit 4 that is connected to the heat exchange unit 3 and includes a pair of blower fans 41 and 42, The panel 5 is provided on the lower surface of the fan unit 4 and defines the above-described suction port 13.
[0019]
The heat exchanging unit 3 has an air supply passage that is a part of the air supply air passage and an exhaust air passage that is a part of the exhaust air passage, and the heat exchange element 31 Heat exchange between air flowing through The upstream end of the air supply flow path is connected to the air supply duct 6, and the downstream end of the air supply flow path is connected to the suction port 44 of the fan unit 4. Further, the upstream end of the exhaust passage is connected to the outlet 45 of the fan unit 4, and the downstream end of the exhaust passage is connected to the exhaust duct 7.
[0020]
The fan unit 4 has an air supply passage that is a part of the air supply air passage and an exhaust air passage that is a part of the exhaust air passage. The air supply channel has the above-described suction port 44 at the upstream end thereof, the blower fan 41 is provided in the middle, and is connected to the blowout duct 8 at the downstream end. Further, the exhaust passage is connected to the suction port 13 of the panel 5 at the upstream end portion, and the blower fan 42 is provided in the middle, and has the outlet 45 at the downstream end portion. The pair of blower fans 41 and 42 are driven by a common motor 43.
[0021]
In the air conditioner 1, when the motor 43 is driven, air flows through the supply air passage by the blower fan 41, and air flows through the exhaust air passage by the blower fan 42. Heat exchange is performed between the supply air and the exhaust air by the heat exchange element 31, and ventilation is performed between the room and the outdoors.
Moreover, the panel 5 is installed along the ceiling surface T so that opening and closing is possible. A maintenance opening MK is formed in the ceiling surface T by opening the panel 5. Through this maintenance opening MK, the fan unit 4 and the heat exchange unit 3 can be maintained such as cleaning and replacement. For example, when the fan unit 4 is removed, the air passage partition member 20 of the heat exchange unit 3 can be inserted and removed through the maintenance opening MK.
[0022]
By the way, when maintenance work is performed through an opening at a high place such as that on the ceiling in this way, it is assumed that dust or the like adhering to the filter 32 of the heat exchange unit 3 falls into the lower room and contaminates the room. .
In the present air conditioner 1, the air passage partition member 20 of the heat exchange unit 3 is provided with a receiving portion 50 (see FIG. 2) that receives dust to prevent the dust from falling into the room.
[0023]
Details will be described below.
FIG. 2 is an exploded perspective view of the heat exchange unit. 3 to 9 show the heat exchange unit, and refer to each figure as necessary. In each figure, an arrow X indicating the left-right direction, an arrow Y indicating the front-rear direction, and an arrow Z indicating the up-down direction are illustrated.
The heat exchange unit 3 is configured to remove a plurality of, for example, two heat exchange elements 31, a foamed polystyrene partition plate 25 disposed between the two heat exchange elements 31, and dust in the air to the heat exchange elements 31. Filter 32, additional filter 33 disposed downstream of filter 32, air passage partition member 20 that partitions the air supply passage and the exhaust passage while holding these portions, and an upper casing that houses these portions 23 and a lower casing 24.
[0024]
The upper casing 23 and the lower casing 24 are formed of a metal plate material, are combined with each other to form a box, and the above-described parts are accommodated therein. Further, the upper casing 23 and the lower casing 24 cooperate with the air passage partition member 20 to partition a part of the air supply passage and the exhaust passage.
The air passage partition member 20 is configured by combining a first casing 21 and a second casing 22 as a pair of divided bodies. The first casing 21 and the second casing 22 are made of foamed resin, for example, polystyrene foam. The 2nd casing 22 is arrange | positioned on the 1st casing 21, and the two heat exchange elements 31, the filter 32, and the additional filter 33 are clamped among them.
[0025]
The filter 32 is a fibrous member and is formed in a rectangular plate shape.
The additional filter 33 is a filter in which the periphery of the filter medium finer than the filter 32 is held by a square annular frame.
The heat exchange element 31 has a substantially rectangular parallelepiped shape, and has a first air passage having an inlet and an outlet on one surface (for example, an upper surface), and another surface opposite to the one surface (for example, for example, A second air passage having an inlet and an outlet on the lower surface is partitioned, and heat is exchanged between the air flowing through the first air passage and the second air passage. The heat exchange element 31 includes a single heat transfer sheet 61 having a corrugated cross section, an annular frame 62 that holds the heat transfer sheet 61, and the heat transfer sheet 61 while being supported by the frame 62 and the heat transfer sheet 61. A pair of partition members 63 that partition the above-described air path between the surface and the surface are provided. The pair of partition members 63 cross the corrugation along the corrugated apexes 61m on both surfaces of the heat transfer sheet 61, and are disposed in the middle of the direction in which the corrugated apex 61m extends (in the direction of the arrow X). An inlet and an outlet of each air passage are provided before and after the partition member 63 along the direction.
[0026]
The pair of heat exchange elements 31 are disposed with the partition plate 25 interposed between the partition members 63 while matching the extending direction of the waveform of the heat transfer sheet 61.
The air path on the lower surface side of the upper heat exchange element 31 and the air path on the upper surface side of the lower heat exchange element 31 constitute a part of the air supply flow path. Further, the air path on the upper surface side of the upper heat exchange element 31 and the air path on the lower surface side of the lower heat exchange element 31 constitute a part of the exhaust flow path. The two heat exchange elements 31 are arranged in parallel to the flow of the air supply passage and the exhaust passage. In the heat exchange element 31, as shown in FIGS. 4 and 5, the flow of the supply air passage (arrow F1) and the flow of the exhaust air passage (arrow F2) are opposite to each other.
[0027]
The air passage partition member 20 holds a holding part 51 that holds the two heat exchange elements 31 therein, a holding part 52 that holds the filter 32, a holding part 53 that holds the additional filter 33, and the partition plate 25. The holding part 55 and the receiving part 50 which receives the dust which falls from the filter 32 are included.
The receiving part 50, the filter 32, the heat exchange element 31, and the additional filter 33 are arranged in this order along the flow direction of the supply air path.
[0028]
In addition, as shown in FIGS. 4 and 5, in the air passage partition member 20, each chamber constituting the air supply flow path, that is, an air supply inlet chamber 20 a that receives air from the air supply duct 6, and this air supply passage are provided. A first chamber 20c that communicates with the air inlet chamber 20a and the opening 20b (the hatched portion in FIG. 7), a second chamber 20d that communicates with the first chamber 20c through an air passage in the pair of heat exchange elements 31, and a second chamber 20d. A two-chamber 20d and an air supply outlet chamber 20f communicating with the suction port 44 of the fan unit 4 through the opening 20e are partitioned. The first chamber 20 c and the second chamber 20 d are partitioned by a partition plate 25, a first casing 21, and a second casing 22 between a pair of heat exchange elements 31.
[0029]
In addition, the air passage partition member 20 communicates with each chamber constituting the exhaust passage, that is, the exhaust inlet chamber 20g for receiving air from the outlet 45 of the fan unit 4, the exhaust inlet chamber 20g, and the opening 20h. A third chamber 20j, a fifth chamber 20m communicating with the third chamber 20j through the air passage of the upper heat exchange element 31, a fourth chamber 20k communicating with the exhaust inlet chamber 20g and the opening 20i, and a fourth chamber 20k. An exhaust outlet chamber 20q that communicates with the exhaust duct 7 through the sixth chamber 20n and the opening 20p while communicating with the sixth chamber 20n through the opening 20o while communicating with the sixth chamber 20n through the air passage of the lower heat exchange element 31. And have. The openings 20o and 20p are shown hatched in FIG. The third chamber 20j and the fifth chamber 20m are partitioned along the upper surface of the upper heat exchange element 31, and the fourth chamber 20k and the sixth chamber 20n are partitioned along the lower surface of the lower heat exchange element 31. Some of these flow paths are partitioned by the upper casing 23 and the lower casing 24. The third chamber 20j and the fourth chamber 20k are composed of a small chamber group communicating with each other.
[0030]
The receiving part 50 is formed in the part of the 1st casing 21 used as the lower surface of the air supply inlet chamber 20a. The receiving part 50 is formed in such a size that it can sufficiently receive dust assumed to enter through the air supply duct 6 when it is dropped from the filter. Moreover, it has a size capable of collecting dust during a preset maintenance period. Moreover, since the receiving part 50 is surrounded by each part of the air passage partition member 20 that partitions the air supply inlet chamber 20a and the lower casing 24, the received dust does not spill. The receiving portion 50 is provided immediately before the flow direction of the filter 32.
[0031]
The holding part 52 for the filter 32 includes a groove 21e formed on the surface of the first casing 21 and a groove 22e formed on the surface of the second casing 22 that define the air supply inlet chamber 20a. These grooves fit and hold the entire periphery of the filter 32. Thus, since the filter 32 is fitted in the groove, it can be reliably held without rattling, and the gap between the filter 32 and the groove can be sealed. As a result, the passage of dust can be prevented.
[0032]
The holding portion 51 for the heat exchange element 31 includes a recess formed on the upper surface of the first casing 21 and a recess formed on the lower surface of the second casing 22. Both recesses face each other, and sandwich the two heat exchange elements 31 therebetween. The concave portion of the first casing 21 has four opposed surfaces 21 a that contact the partition material 63 of the lower heat exchange element 31 and the front, rear, left and right surroundings of the frame body 62 of the lower heat exchange element 31. It is partitioned by the surface 21b, and the lower heat exchange element 31 is accommodated therein. Similarly, the concave portion of the second casing 22 is partitioned by a surface 22a that contacts the partition member 63 of the upper heat exchange element 31 and four surfaces 22b that contact the frame body 62, and the upper heat exchange element is contained therein. 31 is accommodated. Thus, the two heat exchange elements 31 are reliably held in all directions by the holding portion 51.
[0033]
The holding portion 53 for the additional filter 33 is configured by a plurality of surfaces of the first casing 21 and the second casing 22 that define the air supply outlet chamber 20f. These surfaces include two sets of a pair of surfaces facing each other, and the peripheral edge of the frame of the additional filter 33 is fitted and held between the pair of surfaces.
As shown in FIG. 6, the holding portion 55 for the partition plate 25 includes a recess 21 c formed on the front and rear surfaces of the first casing 21 and a recess 22 c formed on the front and rear surfaces of the second casing 22. 21c and the recessed part 22c oppose each other, and the edge part of the partition plate 25 is fitted inside and hold | maintained.
[0034]
Further, as shown in FIGS. 7 and 8, the joint portion 20r of the first casing 21 and the second casing 22 is formed in a stepped portion that fits together, and prevents air leakage at the joint portion 20r.
Thus, in this air conditioning apparatus 1, even if dust is inhaled during operation, it can be captured by the filter 32 and the additional filter 33. Further, relatively large dust adheres to the filter 32 or falls off the filter 32 and is received by the receiving portion 50.
[0035]
At the time of maintenance, the panel 5 can be opened from the room below the apparatus main body 2, and the air passage partition member 20, the filter 32, the heat exchange element 31, the additional filter 33, and the like can be taken out collectively through the maintenance opening MK. At this time, although the air passage partition member 20 is tilted, the receiving portion 50 is located on the opposite side of the maintenance opening across the filter 32, so that the dust can be received by the receiving portion 50 and the filter 32, and the dust is not scattered. .
[0036]
Even if dust falls off from the filter 32 during such removal, it can be received by the receiving portion 50, so that it does not fall downward and can be cleaned.
The removed first casing 21 and second casing 22 can be separated, and the heat exchange element 31 and the filter 32 can be removed from the air passage partition member 20. Moreover, it is easy to mount the first casing 21 and the second casing 22 together while holding the heat exchange element 31 and the filter 32 together.
[0037]
As described above, according to the present embodiment, since the air passage partition member 20 includes the holding portion 52 and the receiving portion 50 of the filter 32, dust attached to the filter 32 is removed when the filter 32 is taken out. Even if it falls off 32, the dust is received by the receiving portion 50, so that it does not fall into the lower room and the room is not soiled.
In particular, since the receiving portion 50 is attached and detached integrally with the filter 32, it is possible to reliably receive dust, and after removing the receiving portion 50 together with the filter 32, it is easy to clean the dust received there. .
[0038]
In addition, since the filter 32 and the air passage partition member 20 that holds the filter 32 can be handled as one body, dust is not easily dropped from the filter 32 when the filter 32 is taken out from the apparatus main body 2.
Moreover, since the air-path division member 20 also hold | maintains the heat exchange element 31, the heat exchange element 31 can also be handled integrally. As a result, since the heat exchange element 31 and the filter 32 can be taken out by a single operation, dust is more difficult to drop off from the filter when taken out from the apparatus main body.
[0039]
Further, in the supply air passage, relatively large dust from outside tends to be captured by the filter 32 and tends to drop off from the filter 32. Therefore, it is preferable to provide the receiving portion 50 and the filter 32 in the supply air passage.
Further, since the receiving portion 50, the filter 32, and the heat exchange element 31 are arranged in this order along the flow direction of the air supply air passage, dust that has entered the air supply air passage flows into the heat exchange element 31. The filter 32 can reliably prevent the dust, and even if dust falls off the filter 32, it can be reliably received by the receiving portion 50.
[0040]
Further, since the filter 32 and the additional filter 33 are provided in the air supply air passage, even if dust passes through the filter 32 and the heat exchange element 31, as a result of being captured by the additional filter 33, Intrusion of garbage into the room can be prevented.
Further, since the air passage partition member 20 and the additional filter 33 can be handled integrally, dust can be removed when the additional filter 33, the filter 32, and the air passage partition member 20 can be detached from the apparatus main body 2 by one operation. It is even more difficult to drop off.
[0041]
In addition, when the fine filter 33 and the coarse filter 32 are combined, the filter 32 can be prevented from being clogged with large dust, so that the maintenance period of the filter 32 can be extended. The chance of falling can be reduced. In addition, the intrusion of dust into the room can be reliably prevented by the additional filter 33.
[0042]
Further, since the heat exchange element 31 is sandwiched between the first casing 21 and the second casing 22, the heat exchange element 31 can be easily maintained as a result of being easily taken out and held.
Further, since the air passage partition member 20 made of foamed resin is lightweight, it is usually easy to handle when attaching to and detaching from the apparatus main body 2 installed at a high place such as a ceiling space. As a result, it is difficult for dust to fall from the filter 32.
[0043]
Further, since the air passage partition member 20 made of foamed resin has a cushioning property, even if it hits a maintenance opening or the like, dust is not easily removed from the filter 32.
Moreover, since the groove | channel of the holding | maintenance part 52 can seal between filters 32, holding the filter 32, as a result of being able to perform holding and sealing by simple operation of fitting the filter 32 in a groove | channel, the filter 32 is maintained. Easy to do.
[0044]
Since the receiving part 50 is formed integrally with the air passage partition member 20, the structure can be simplified.
In the air conditioner 1, the panel 5 is opened, the maintenance opening MK is formed in the ceiling surface T, and the heat exchange unit 3 can be inserted and removed. However, the present invention is not limited to this. For example, a maintenance opening may be formed on the lower surface of the apparatus main body, and the filter and the air passage forming member may be taken out through the maintenance opening.
[0045]
The heat exchange element 31 may be, for example, a cross-flow type heat exchange element in which flat plate heat transfer sheets are stacked and air paths are alternately formed in the crossing direction.
Further, the additional filter 33 may have a filter medium or may carry a photocatalyst that receives light and purifies contaminants.
Further, the holding portion 52 for the filter 32 may be configured by a surface like the holding portion 53 for the additional filter 33 in addition to the above-described groove. Moreover, although what hold | maintains at least one part of the periphery of the filter 32 may be sufficient, if it hold | maintains the perimeter, reliable sealing performance and holding property are obtained and it is preferable.
[0046]
In addition, various design changes can be made without changing the gist of the present invention.
[0047]
【The invention's effect】
According to the first aspect of the present invention, even if dust adhering to the filter falls off the filter, it is received by the receiving portion, so that the lower chamber is not soiled.
In particular, since the receiving portion is attached to and detached from the apparatus main body integrally with the filter, it is possible to reliably receive dust and to easily clean the dust there.
[0048]
Further, since the air passage partition member and the filter can be handled integrally, dust is not easily dropped from the filter when taken out from the apparatus main body.
Also In addition, since the air passage partition member and the heat exchange element can be handled as one body, the dust is more difficult to drop off from the filter when taken out from the apparatus main body.
[0049]
Also In addition, it can be received by the receiving portion which is relatively large from the outside and tends to fall off from the filter.
Also Since the receiving part, filter, and heat exchange element are arranged in this order along the flow of the air supply air passage, it is possible to reliably prevent dust from flowing into the heat exchange element, and even if dust falls off the filter. It can be received reliably in the department.
[0050]
Claim 2 According to the invention described in claim 1 In addition to the effects of the invention described in (1), the additional filter can prevent the entry of dust into the room. In addition, since the air passage partition member and the additional filter can be handled integrally, dust is more difficult to drop off from the filter when it is taken out from the apparatus main body.
In addition, when a fine additional filter and a coarse filter are combined, the filter can be used for a long period of time, reducing the chance of dust falling into the room, and intrusion of dust into the room. Can be reliably prevented.
[0051]
Claim 3 According to the invention described in claim 1 or 2 In addition to the effects of the invention described above, since the heat exchange element is sandwiched between the air passage partition members in which the pair of divided bodies are combined, it is easy to maintain the heat exchange element.
In addition, since the air passage partition member made of foamed resin is light and easy to handle, and has a cushioning property, it is difficult for dust to fall off the filter.
[0052]
Claim 4 According to the invention described in claim 3 In addition to the effects of the invention described above, since the filter can be fitted and held in the groove of the airway partition member, a simple operation is sufficient.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an air conditioner according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the heat exchange unit of FIG.
FIG. 3 is a plan view of the heat exchange unit of FIG. 1;
4 is a cross-sectional front view of the heat exchange unit of FIG. 1, showing a cross section AA in FIG. 3;
5 is a cross-sectional front view of the heat exchange unit of FIG. 1, showing a cross section taken along the line BB of FIG.
6 is a cross-sectional side view of the heat exchange unit of FIG. 1, showing a CC cross section of FIG. 3;
7 is a left side view of the heat exchange unit of FIG. 1. FIG.
8 is a right side view of the heat exchange unit of FIG. 1. FIG.
9 is a bottom view of the heat exchange unit of FIG. 1. FIG.
[Explanation of symbols]
1 Air conditioner
2 Main unit
2a Bottom surface
5 panels
20 Airway section members
21 1st casing (divided body)
22 Second casing (divided body)
21e, 22e groove
31 Heat exchange element
32 filters
33 Additional filters
50 receiving part
51 Holding part
52 Holding part
53 Holding part
MK maintenance opening
F1 supply air path

Claims (4)

A device body (2) in which a maintenance opening (MK) is formed by opening the panel (5) on the lower surface (2a), and
An air passage partition member (20) that partitions the air passage (F1, F2) in the device main body (2) and is removable through the maintenance opening (MK) ;
A heat exchange element (31) for exchanging heat between the exhaust discharged from the room to the outside and the air supplied from the outside to the room ,
The air passage partition member (20) is subject holding unit for holding the heat exchange element (31) and (51), the holding portion for holding the filter (32) and (52), the dust dropping from the filter (32) receiving unit (50) only contains,
The air passage partition member (20) partitions at least the air supply air passage (F1) from the outside to the room ,
The filter (32) is disposed in the air supply path (F1) ,
An air conditioner characterized in that the receiving portion (50) , the filter (32) , and the heat exchange element (31) are arranged in this order along the flow direction (F1) of the air supply air passage . 2. The air conditioner (1) according to claim 1 , wherein the air passage partition member (20) is a holding portion that holds the additional filter (33) downstream of the heat exchange element (31) in the air supply air passage (F 1). (53) The air conditioning apparatus characterized by the above-mentioned. The air conditioner (1) according to claim 1 or 2 , wherein the air passage partition member (20) is a combination of divided bodies (21, 22) made of a pair of foamed resins that sandwich the heat exchange element (31). An air conditioner characterized by comprising: The air conditioner (1) according to claim 3 , wherein the holding portion (52) for holding the filter (32) is formed in each of the divided bodies (21, 22) and fits the periphery of the filter (32). An air conditioner characterized by comprising grooves (21e, 22e) for insertion.

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