JP2004138319A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To replace and clean components from outdoor without allowing a worker to enter a house regardless of the absence and presence of a dweller, in replacing the components used in the indoor machine of an air conditioner and cleaning a filter. <P>SOLUTION: Holes (duct 10 for service and in-wall duct 12) penetrated through a back plate 11 of the indoor machine 1, an installed member and an installation wall 13, are formed and the components 9a inside of the indoor machine are arranged to allow a hand of the worker or a tool to reach the components for replacing or cleaning the components. A cover for preventing the intrusion of wind and rain is mounted on an outer wall side of the hole, and a lock for crime-prevention can be attached thereto. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner, and more particularly, to an air conditioner that can perform maintenance services inside an indoor unit from outside a wall where the indoor unit is installed inside.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as an indoor unit of an air conditioner, for example, in order to mix negative ions into air discharged indoors, there is an example in which a negative ion generator is installed in an airflow to be blown. (See, for example, Patent Document 1).
[0003]
If the negative ion generator is dirty with dust and should be cleaned, open the cosmetic cover on the front, remove the ventilation direction control plate, etc., take out the discharge electrode of the negative ion generator, clean it, and then return it to the same position. I am going to put it back.
[0004]
However, since the negative ion generating electrode is a part that has been subjected to high precision processing, general amateurs can not attach or remove or clean it, and a service man handling household electrical equipment comes and Had to be cleaned.
[0005]
For this reason, when cleaning, the orderer who is a customer must be at home at the scheduled time for the serviceman to come, and it has been difficult to adjust the time in a dual-working house as recently. Therefore, the cleaning cannot be performed in an appropriate period, and the cleaning is sent to the end, so that the negative ion generator is often used in a state where the efficiency is reduced.
[0006]
[Patent Document 1]
JP-A-3-87531.
[0007]
Further, in addition to the above-mentioned negative ion generator, the air conditioner includes a filter cleaning, an ozone generator, a deodorant, an electric component, and the like, which are periodically serviced or replaced. It is very convenient if these can be attached or detached or replaced from the outside of the room, but such a maintenance service can be performed only from the indoor side of the conventional product. It is very convenient for service activities if electrical parts and the like that need to be replaced are collected in one place so that they can be replaced from outside.
[0008]
[Problems to be solved by the invention]
In order to clean such air conditioners on a regular basis, a service engineer must adjust to the home time of the orderer, keep a room key, or open the indoor unit mounting wall in advance with a larger opening than the indoor unit. After removing the indoor unit and the ventilation direction control plate from the indoor unit, take out the negative ion generating unit (discharge electrode unit) and remove the discharge electrode. After cleaning the parts, the indoor unit was returned to the wall again.
[0009]
Therefore, a serviceman unfamiliar with taking out the indoor unit sometimes bends or breaks the refrigerant pipe connecting the indoor unit and the outdoor unit. Also, in order to prevent people other than service personnel from entering the room from outside, it is necessary to prevent the indoor unit from being easily removed, and it is necessary to attach a keyed door to an opening such as a wall. The construction was complicated and costly.
[0010]
Therefore, it has been demanded that parts replacement and cleaning (cleaning) can be easily and reliably performed in a short time from outside without a service person entering the absence house. The air conditioner disclosed in Patent Literature 1 cannot perform component replacement, cleaning (cleaning), and the like from the outside.
[0011]
An object of the present invention is to enable maintenance services such as replacement of parts and cleaning inside an indoor unit to be performed from outside the wall where the indoor unit is installed.
[0012]
[Means for Solving the Problems]
In order to solve the above problem, the present invention has an opening for maintenance service on the back of an indoor unit, and a maintenance service target portion of the indoor unit is connected to a through hole of a wall body for attaching the indoor unit and the indoor unit. It is characterized in that it is arranged at a position where maintenance is possible via the rear opening of the machine.
[0013]
According to the present invention, the interior of the indoor unit installed inside the wall from the outside can be maintained from the outside of the wall, so even when the housekeeper who installed the indoor unit is away, various types of Maintenance service can be provided.
[0014]
For example. The replacement and cleaning of the filter of the indoor unit, the replacement and cleaning of the electric components inside the indoor unit, the cleaning of the inside of the indoor unit, and the like can be easily performed. In addition, there is a fragrance that gives a scent such as negative ions and cypress as a substance that adds a certain property to the air blown out from the indoor unit. And the like, and these can be provided on a regular basis.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
The outline of the embodiment of the present invention is as follows. In FIG. 1, an opening (duct 10) is formed on the rear surface of the indoor unit 1 of the air conditioner so that various maintenance services can be performed from the outside as needed. Through this opening 10 and a through hole (duct 12) formed in a wall on which an indoor unit is installed, replacement of parts, cleaning of the indoor unit, installation of parts that add value to the blown air, and the like are performed. It was made possible.
[0016]
In the following, the maintenance of the negative ion generator 9 (FIG. 1) installed inside the indoor unit, the replacement and cleaning of the filter (FIG. 10) installed in the indoor unit, or the through hole of the wall and the indoor unit are mainly performed. The structure of the back opening will be described. However, the present invention is not limited to these, and may be applied to various parts inside the indoor unit, or maintenance services such as improvement of the quality of air blown out from the indoor unit. It is possible.
[0017]
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows an indoor unit having a negative ion generator therein. The housing of the indoor unit 1 of the air conditioner is constituted by a decorative cover 2. A suction port 2a for room air is formed in the decorative cover 2, and a heat exchanger 3 for cooling or warming room air is arranged adjacent to the suction port 2a, and air sucked from the suction port 2a by a fan 4 is provided. Is blown into the room from the outlet 5 through the heat exchanger 3. In this example, the fan 4 is a once-through fan.
[0018]
The blowout port 5 has an up-down airflow direction control plate 6 that controls the airflow direction up and down, and controls the flow direction of the air blown from the once-through fan 4 in the up-down direction. In addition, the right and left blowing direction control plate 7 controls the blowing direction of the air blown from the once-through fan 4 in the left and right direction (horizontal direction). A rear casing 8 is installed on the rear side inside the indoor unit to form an internal space.
[0019]
In the present example, a negative ion generator 9 is arranged upstream of the outlet 5. As shown in FIGS. 1 to 9, the negative ion generator 9 includes a discharge electrode 9 a that generates negative ions and a cover that protects the discharge electrode 9 a from touching the discharge electrode 9 a. 9b, an electrode cover slit 9c provided on the electrode protection cover 9b, and the like.
[0020]
In the present embodiment, the opening 11 a is formed in the rear plate 11 of the air conditioner, and the service duct 10 is provided between the rear opening 11 a and the rear casing 8. Further, the in-wall duct 12 is inserted into a through hole formed in the indoor unit mounting wall 13 in accordance with the rear opening 11a, and the in-wall duct 12 and the service duct 10 are connected.
[0021]
In this way, when cleaning the discharge electrode 9a from outside the room, the cleaning rod or brush 14 (FIG. 2) can be passed through the ducts 12 and 10 from the outside.
[0022]
In this example, as shown in FIG. 1, since the outdoor electrode is connected to the discharge electrode 9a of the negative ion generator of the air conditioner by a straight through-hole (ducts 12 and 10), the discharge electrode 9a is temporarily connected to the discharge electrode 9a. When the dust is attached and the performance is deteriorated, a brush or the like for cleaning the discharge electrode 9a can be put in the duct 10 and cleaned by a service person.
[0023]
At that time, even when the family member is absent, it can be cleaned directly from the outside, so there is no need to meet at home in advance and the service person can always provide service at a convenient time, so efficient service activities can be performed . For this purpose, it is preferable that the mounting direction of the discharge electrode and the like be set so as to be easy to clean.
[0024]
FIG. 3 shows a method in which a power supply connection portion of the discharge electrode portion 9 uses a socket 15 that can be freely inserted and removed to facilitate cleaning of the discharge electrode portion 9 built in the indoor unit 1 from the outdoor. The insertion and withdrawal directions are set in the axial direction of the in-wall duct 12 and the service duct 10.
[0025]
As shown in FIG. 4, a portion 16 (crocodile mouth or the like) for eating the male socket portion 15a (discharge electrode side) is attached to the tip of a rod inserted from the duct 10, and first, the socket with the discharge electrode 9a is attached. The male part 15a is pulled out from the socket female part 15b (power supply side), passes through the service duct 10, cleans the discharge electrode 9a outdoors while looking closely, and then passes through the service duct 10 again. This is a method of returning to the socket female portion 15b.
[0026]
In this case, as shown in FIG. 4, the tip of the discharge electrode 9a faces the rear of the indoor unit, and the slit 15a of the socket 15 also serving as an electrode protection cover is positioned vertically. This facilitates extraction and insertion, and allows the cooling air flowing out of the cross-flow fan 4 to pass through the slits 15a of the socket 15, which serves as a protective cover for the discharge electrode, without disturbing the flow of the cooling air from the through-hole fan 4. Many negative ions can be given to the airflow.
[0027]
FIGS. 5, 6 (section AA in FIG. 5), and FIG. 7 show another example of mounting the negative ion generator. In order to facilitate the cleaning of the discharge electrode unit 9 built in the indoor unit 1 from the outdoor, the rail 17 connects the discharge electrode unit 9 that generates negative ions and the outdoor opening 12a of the inner duct 12 to each other. The slider 19 is provided with the discharge electrode section 9 so that the discharge electrode section 9 can freely move on the top 17.
[0028]
Therefore, when cleaning the discharge electrode unit 9 from the outdoor, the slider 19 on which the discharge electrode unit 9 is mounted is pulled toward the back, that is, toward the outside of the wall, so that the discharge electrode 9a can be easily removed from the outdoor. Therefore, reliable cleaning (cleaning) can be performed in a short time. In addition, by returning the rail 17 to its original position after cleaning, the discharge electrode 9a can be reliably cleaned without entering the house even if no family member is present.
[0029]
FIG. 8 shows still another example of mounting a negative ion generator. As in the previous example, in order to facilitate cleaning of the discharge electrode unit 9 built in the indoor unit 1 from outside, an electric wire to the discharge electrode unit 9 is used. Is a flexible electric wire 20 so that the discharge electrode portion 9 inside the indoor unit can freely move to the back. Therefore, if the discharge electrode portion 9 is detached from the fixing portion and then taken out from the rear opening 12a via the rear duct 10, there is no need to connect or disconnect the lead wire (electric wire), and it is possible to easily check with the naked eye. The discharge electrode section 9 can be cleaned.
[0030]
FIG. 9 shows still another example of mounting a negative ion generator. Attach a negative ion generator (discharge electrode section 9) to the tip 21a of the support rod 21 so that the discharge electrode section 9 can be easily cleaned, and open the support rod 21 on the wall where the indoor unit 1 is installed. The discharge electrode section 9 is installed in cooling air discharged from the through-hole 4 (duct 12) and discharged by the cross-flow fan 4.
[0031]
The other end 21b of the support rod 21 is fixed with a screw near the hole formed in the wall where the indoor unit is installed, and by removing the screw, the negative ion generator 9 can be freely pulled out or inserted from the outdoor side. This makes it possible to clean the negative ion generator 9 easily and easily while watching it outdoors.
[0032]
Next, an example in which a maintenance service such as replacement of a filter of an indoor unit is performed from the outside of a wall where an indoor unit of an air conditioner is installed will be described with reference to FIG. In this example, a filter 22 for removing dust and dust in the room attached to the suction port 2a side of the indoor unit 1 is formed in a belt shape, one end of which is wound around the core 22a, and the other end of which can be wound around another core 22b. By doing so, a new surface comes out at the same time as the dirty surface is wound up, and if necessary, it can be unwound by reversing.
[0033]
The cores at both ends were structured so that they could be taken out from the left and right core outlets 25 and 26 opened in the back of the indoor unit and the wall, or assembled after insertion, so that the winding proceeded and became the last surface. At this time, when the serviceman cleans the filter 22, loosen the wound filter, remove the core 22b, remove the wound filter from the core 22b, and remove any dust that has adhered with a brush or the like to clean it. I do.
[0034]
When cleaning is completed, the filter is wrapped around the core 22b and then put back, then the last surface of the filter is wound on the core 22a, then the core 22a is taken out of the wall and the dirty surface is pulled out for cleaning. After cleaning is completed, it is wrapped around the core 22a again and returned to the original position. Next, the two cores are appropriately rotated to set the first surface. Thus, it can be used again. In addition, since these operations can be performed only outside the room, the cleaning service of the filter can be performed even when the house is absent.
[0035]
In addition, as shown in FIG. 11 (view AA in FIG. 10) and FIG. 12 (cross-section BB in FIG. 10), the mounting structure of each of the cores 22a and 22b has a length Lu of the upper shaft core. And the depth Du of the bearing 22c is longer than the length Ld of the lower shaft core, and the gap Su between the upper bearing surface and the upper end of the filter 22 is longer than the length Ld of the lower shaft core.
[0036]
Accordingly, the filter 22 wound around the shaft is moved upward and pulled forward, whereby the lower shaft is disengaged from the hole of the lower bearing surface 22d, and the shaft wound with the filter 22 can be taken out. After the filter is loosened and the dirt is removed, it is wound, and conversely, the lower shaft is returned to the lower bearing hole 22d while the upper shaft is inserted into the hole of the upper bearing 22c, whereby the shaft is set again. Therefore, the filter 22 is installed on the suction surface 2a without loosening by winding the loose filter 22 around each shaft while pulling the filter.
[0037]
Next, another example for cleaning the suction side filter of the indoor unit will be described with reference to FIGS. 13 and 14. As shown in FIG. 12A, the filter 22 of the present example is formed in a single band shape. As shown in FIG. 12B, a hook 22c is provided at the left end of the filter, and another filter is provided at the right end. A hole 22d for receiving the left hook is provided.
[0038]
As shown in FIG. 13 (A), the filter 22 is attached to the indoor unit in a shipping state. However, when the dirty filter 22 is cleaned during use, the filter 22 is installed so that the filter 22 can be cleaned even from the outdoor side. Spaces for accommodating both ends are provided on the left and right sides from the front with the filter to the back of the indoor unit. Openings 25 and 26 are also formed in the wall 13 where the indoor unit is mounted, facing this space.
[0039]
With such a configuration, as shown in FIG. 13B, when the left side of the filter 22 in the figure is pulled, the suction surface moves. In this case, another new filter is prepared, and the hook 22c of the new filter 22 shown on the right side of the drawing is hooked on the hook receiving hole 22d of the old filter (the dirty filter 22 currently in use). .
[0040]
In this way, as the old filter (left side) is pulled out, the new filter (right side) is pulled in. When the hook receiving hole 22d of the old filter comes out of the opening 26, the new filter covers the suction surface and adheres dust. A new filter 22 that has not been used can be replaced.
[0041]
As shown in FIG. 14 (A), instead of preparing a new expensive filter 22 separately, instead of a new filter 22, a hook 32c and a hook receiver are attached to both ends of a tape-shaped object (tape 32). A hole 32d is provided, and when cleaning the filter 22 currently in use, the hook 32c of the tape 32 is engaged with the hook receiving hole 32d of the filter 22 before being pulled out, and then only the filter 22 is pulled out. When the cleaning is completed, the tape 32 may be pulled back, and the filter 22 may be positioned again on the suction surface of the indoor unit, and the same effect can be obtained.
[0042]
Also, as shown in FIG. 14B, the same effect can be obtained by preparing only the frame 33 of the filter 22 instead of the tape 32 and connecting this frame 33 to the filter 22. . Since these methods can be exchanged only from the outdoor side, the service activity can be performed even when the family member is absent, as in the above-described example.
[0043]
Next, FIG. 15 shows an example of an indoor unit mounting structure according to the present invention. This example shows an example in which the indoor unit 1 is attached to an outer wall 28 via an attachment member 27. A service opening 11a is provided in the back plate 11 of the indoor unit 1 so that a part of the indoor unit 1 of the air conditioner that requires replacement can be replaced from the outdoor side, and the opening 11a is provided in the opening 11a. The opposing opening 27a is also provided in the mounting member 27 to which the indoor unit 1 is mounted, and the outer wall 28 for fixing the mounting member 27 is also provided with a through hole 28a communicating with the outside at the same position facing the same. By doing so, components can be removed and attached from the opening 28a of the outer wall 28, and various services can be performed from outside.
[0044]
FIG. 16 shows an example in which a cover 23 is attached to the outer wall duct 12. In order to clean the indoor unit 1 of the air conditioner from the outside, when an in-wall duct 12 is provided on the wall, it is necessary to prevent the intrusion of wind and rain from the opening of the duct 12 and to provide an external unit other than for services such as cleaning. The cover 23 that closes the opening is attached so that the discharge electrode portion 9 is not touched by the user, for example, is not intentionally tampered with.
[0045]
17 and 18 show examples in which a key 24 is attached so that the cover 23 cannot be removed except when the cover 23 is required. The structure of the key 24 will be described with reference to FIGS.
[0046]
As shown in FIG. 17, a stopper 23 a is provided inside the cover 23, the lower end of the cover 23 has a hook shape (key), and when the tip 23 b of the stopper 23 a hits the latch 29, the latch 29 Using the rotation shaft 29a as a rotation axis, the coil spring 30 which is in contact with the lower end is compressed and once lowered, but after the tip 23b of the stopper 23a passes, the latch 29 is engaged with the hook portion 23b by the reaction force of the coil spring, The cover does not return when pulled back. That is, the cover 23 is locked.
[0047]
Next, as shown in FIG. 18, when unlocking the key, when the screw 31 that is pushing up while compressing the coil spring 30 from below is loosened and lowered, the coil spring 30 is also lowered, and the latch 29 is moved to the stopper 23a. Since the cover 23 is detached from the hook 23b, the cover 23 can be pulled out from the outside and can be removed.
[0048]
Therefore, when it is known in advance that a serviceman will come and the housekeeper is away, the key can be unlocked by lowering the screw 31 indoors. When the service is completed when the family member returns home, the screw 31 is turned again to raise the coil spring 30, and the latch 29 is activated on the stopper 23a, so that the lock is locked and the cover 23 cannot be opened from the outside.
[0049]
In addition, by attaching the cover, outdoor air does not enter, so that the efficiency of the air conditioner does not decrease. Even if a strong wind blows to the opening due to a typhoon or the like, a stable discharge flow can be obtained without affecting the airflow discharged from the indoor unit.
[0050]
Hereinafter, effects of the embodiment of the present invention will be described. As described above in detail, the discharge electrode section is connected from the outside of the wall on which the indoor unit is mounted to a discharge electrode section that generates negative ions, for example, by a straight through hole (pipe). Can be cleaned.
[0051]
When mounting the discharge electrode part, the discharge electrode part was socket type, the socket insertion / removal direction was the rear through hole direction of the indoor unit, and the slit direction of the protective cover was the vertical direction. The discharge electrode can be easily inserted and removed with the discharge electrode biting rod (with crocodile mouth) inserted from the through hole on the back surface, and there is no obstacle to the air flow to the discharge electrode. It is easy to make the discharge air contain a large amount of negative ions.
[0052]
In addition, since a rail is connected between the discharge electrode portion inside the indoor unit and the air opening of the through duct, and the discharge electrode is placed on the rail so as to be movable, the discharge electrode portion can be pulled out from the outdoor and taken out. However, since the discharge electrode portion can be easily seen with the naked eye, the discharge electrode portion can be reliably cleaned.
[0053]
In still another example, since the electric wire serving as the power supply of the discharge electrode portion is made of a flexible material, the discharge electrode inside the indoor unit can be freely moved to the opening on the back surface, so that disconnection and connection work of the power supply become unnecessary, Service activities become easier and work efficiency can be improved.
[0054]
Furthermore, a negative ion generator was attached to the tip of the support rod, and the other end of the support rod was fixed with a screw from the outside near the opening of the wall where the indoor unit was installed, so by removing the fixing screw In addition, the negative ion generator can be freely pulled out from the outside of the room for cleaning. For this reason, the serviceman can perform cleaning while checking visually, even if the family member is absent, so that reliable service can be provided.
[0055]
Also, by attaching a cover to the opening of the outdoor wall and attaching a key, there is no risk of wind and rain entering, and even if a strong wind blows, it will not enter the indoor unit through the penetration pipe, so the discharge air flow will be disturbed A stable state can be obtained without any problem. In addition, since the key is attached, it does not touch the discharge electrode portion or the like when it is not needed from the outside of the room, and is also effective in crime prevention.
[0056]
In addition, parts such as filters that require service are arranged so that they can be removed and installed from the back so that they can be serviced from the back of the indoor unit, and the back of the indoor unit and the indoor unit mounting plate , And through-holes are provided in the wall, so that service can be performed even when no family member is present, so that efficient service activities can be performed.
[0057]
In the above, the maintenance service for the negative ion generator, the filter, and the like has been mainly described. However, according to the present invention, other electric components inside the indoor unit can be serviced. Further, for example, air blown from the indoor unit into the room can be targeted for the maintenance service. As an example, a component that blows out the scent of hinoki and adds it to the air can be periodically replaced and installed externally even while the family is away, as with the negative ion generator.
[0058]
Similarly, an ozone generator, a deodorant, a sterilant, and the like can be installed and replaced inside and outside the indoor unit. In addition, a periodic cleaning service can be performed, for example, by inserting a thin-pointed vacuum cleaner from the outside to suck dust inside the indoor unit, and the indoor unit can always be kept in a clean state.
[0059]
Here, FIG. 19 shows a comparative example of an indoor unit having a negative ion generator. A discharge electrode 109 for generating negative ions is provided in the airflow passing through the heat exchanger 103 blown by the cross-flow fan 104 to mix the negative ions into the air discharged into the room.
[0060]
If the negative ion generating section (discharge electrode 109) is contaminated with dust and is to be cleaned, open the decorative cover 102 on the front side, remove the blowing direction control plates 106 and 107, and then remove the tip ( The discharge electrode 109) is taken out, cleaned, and returned to the same position again.
[0061]
However, since the negative ion generating section (discharge electrode 109) is a part that has been subjected to high precision processing, a serviceman who handles household electric equipment comes, removes the cover 102 of the indoor unit, and controls the air flow direction control plate 106. , 107 were removed, and then the discharge electrode 109 was taken out and cleaned. Therefore, it is necessary to be at home when the service person comes, which is extremely inconvenient. In addition, cleaning cannot be performed in an appropriate period, and it is often used in a state where the efficiency of the negative ion generator is deteriorated.
[0062]
【The invention's effect】
As described above, according to the present invention, an opening for maintenance service is provided on the rear surface of the indoor unit, and through this opening and a through-hole formed in the indoor unit mounting wall, it is possible to replace parts inside the indoor unit from outside. Since services such as cleaning can be performed, regular maintenance services can be performed even while the family members are away.
[Brief description of the drawings]
FIG. 1 is a sectional view showing an embodiment of an indoor unit according to the present invention.
FIG. 2 is an external view showing an example of a cleaning brush according to the present invention.
FIG. 3 is a sectional view showing an example in which a discharge electrode section of a negative ion generating section is of a socket type in one embodiment of the indoor unit of the present invention.
FIG. 4 is an enlarged view of a part (A) of FIG. 3;
FIG. 5 is a longitudinal sectional view showing an example in which a negative ion generating and discharging electrode unit is mounted on a rail in one embodiment of the indoor unit of the present invention.
FIG. 6 is an enlarged view of a cross section (AA) of a rail portion of FIG. 5;
FIG. 7 is a perspective view of a rail section of FIG. 6;
FIG. 8 is a longitudinal sectional view showing an example in which the power supply cord of the negative ion generating and discharging electrode section is connected by a flexible electric wire in one embodiment of the indoor unit of the present invention.
FIG. 9 is a longitudinal sectional view showing an example in which a negative ion generator is attached to one end of a support rod and the other end is fixed to the outdoor side of an indoor unit installation wall in one embodiment of the indoor unit of the present invention.
FIG. 10 is a perspective view showing a state in which the filter can be inserted or pulled out from the back surface of the indoor unit in a state where the filter is wound in a roll shape in one embodiment of the indoor unit of the present invention.
11 is a cross-sectional view of the filter winding portion of FIG. 10 viewed from a viewpoint AA.
FIG. 12 is a sectional view (BB) of a support portion of the filter winding core of FIG. 10;
FIG. 13 is a perspective view showing a loaded state (A) of a filter having a function connectable one time and a connection part (B) thereof in an embodiment of the indoor unit of the present invention.
FIG. 14 is a perspective view showing an example in which a drawing tape (A) or a frame (B) is used instead of the filter in the example of FIG.
FIG. 15 is a perspective view showing an example of an indoor unit mounting structure according to the present invention, showing a mounting member provided with a service opening and a wall.
FIG. 16 is a longitudinal sectional view showing an example in which a cover is covered on the outdoor side of the service duct (opening) according to the present invention.
FIG. 17 is a cross-sectional view showing a locked state of a key provided on an outdoor cover of a service duct (opening) according to the present invention.
FIG. 18 is a sectional view showing an unlocked state of a key provided on an outdoor cover of a service duct (opening) according to the present invention.
FIG. 19 is a longitudinal sectional view showing a comparative example of the present invention.
[Explanation of symbols]
1. Indoor units of air conditioners
2 Makeup cover
2a Suction port
4 Once-through fan
5 outlet
8 Back side casing
9 Negative ion generator (discharge electrode part)
9a Discharge electrode
10 Duct for service
11 Back plate
11a Back opening
12 Duct in the wall
12a Outdoor opening
13 walls
14 Cleaning brush
15 socket
20 flexible electric wires
21 Support rod
22 Filter
22a, 22b Filter-wound core
22c Filter hook
Hook hole of 22d filter
23 Cover
23a stopper
23b hook
24 Sliding mount
25, 26 core outlet
27 Indoor unit mounting plate (indoor unit mounting member)
28 Outer wall
29 Latch
32 tapes
33 Filter frame

Claims (10)

An opening for maintenance service is provided on the rear surface of the indoor unit, and the maintenance service target portion of the indoor unit can be maintained through a through hole in a wall body to which the indoor unit is attached and an opening on the back surface of the indoor unit. An air conditioner characterized by being arranged at a position. 2. The air conditioner according to claim 1, wherein the filter of the indoor unit is a target of a maintenance service, the filters to be replaced have locking portions that lock with each other, and the through-hole of the wall body and the indoor unit have a filter. By locking the locking portion of the filter installed in the indoor unit and the locking portion of the filter to be newly used through the rear opening, and moving one filter, the other filter is moved. The air conditioner is characterized in that the filter is also moved and the filter is replaced. 2. The air conditioner according to claim 1, wherein the filter of the indoor unit is a target of a maintenance service, the filter is formed in a belt shape, and has a core material on each end of which the filter can be wound, and one of the core materials. The filter surface is configured to be updated by rotating the air, and the core material can be taken out and assembled through a through hole of the wall body and a rear opening of the indoor unit. Harmony machine. 2. The air conditioner according to claim 1, wherein parts installed inside the indoor unit are targeted for maintenance service, the parts are attached to one end of a support member, and the other end of the support member is the wall body. An air conditioner characterized by being detachably fixed in the vicinity of the through hole of (1). 2. The air conditioner according to claim 1, wherein a part installed inside the indoor unit is targeted for maintenance service, and the part is detachable via a through hole in the wall and a back opening of the indoor unit. 3. An air conditioner characterized in that the mounting and dismounting direction of the component is set to the rear direction of the indoor unit. 2. The air conditioner according to claim 1, wherein a part installed inside the indoor unit is targeted for maintenance service, and the part can be replaced through a through hole in the wall and a rear opening in the indoor unit. 3. An air conditioner characterized in that the base on which the component is mounted is movable in the rear direction of the indoor unit. 2. The air conditioner according to claim 1, wherein cleaning of the interior of the indoor unit is an object of a maintenance service, and suction is performed into the interior of the indoor unit through a through hole in the wall body and a rear opening of the indoor unit. 3. An air conditioner characterized by inserting a vacuum cleaner for cleaning. 2. The air conditioner according to claim 1, wherein air blown into the room from the indoor unit is a target of maintenance service, and a part that adds a certain property to the blown air is provided by a through hole of the wall and the indoor unit. 3. An air conditioner characterized in that it can be installed, replaced, or maintained through a rear opening. 2. The air conditioner according to claim 1, wherein air blown into the room from the indoor unit is subjected to a maintenance service, and a part that performs a predetermined process on the blown air is provided through a through hole in the wall body and a back surface of the indoor unit. 3. An air conditioner, which can be installed, replaced, or maintained through an opening. The air conditioner according to claim 1, wherein a lid and a key are attached to an outer side of the through hole of the wall.

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