JP5185648B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner equipped with a deodorizing filter and ventilation means that can be regenerated by heating.

  In order to purify indoor air, the air conditioner is equipped with various air purifying filters and ventilation means (ventilation fan) for replacing room air. As one of the air cleaning filters, a deodorizing filter that removes unpleasant odors such as tobacco odor, living odor and pet odor in indoor air is used. Various types of deodorizing filters have been proposed, such as those using a metal catalyst having oxidation-reduction ability, those using a physical adsorbent such as activated carbon or zeolite, or a combination of both. These deodorizing filters can be regenerated by irradiation with an ultraviolet lamp or heating by a heater.

  The deodorizing filter is disposed in an air flow path in a housing having a room air suction port and a blowout port for blowing out air-conditioned air heated or cooled by an indoor heat exchanger into the room, and removes odor components in the air. It is configured so that it can be removed. In addition, a heater (including an indoor heat exchanger that functions as a radiator) is installed in the vicinity of the deodorizing filter using a physical adsorbent, and the adsorbed odor component is removed by heating the deodorizing filter with this heater. In order to regenerate the deodorizing filter and exhaust the odor components separated from the deodorizing filter to the outside, an air conditioner provided with a ventilation fan has been proposed (see, for example, Patent Documents 1 and 2).

JP-A-3-233237 JP-A-2005-321114

  In the air conditioners disclosed in Patent Documents 1 and 2, since the deodorizing function can be recovered by heating and regenerating the deodorizing filter, maintenance such as filter replacement and water washing can be eliminated. In addition, when the deodorizing filter is heated and regenerated, the odor component separated from the deodorizing filter is exhausted to the outside by the ventilation fan, and the indoor blower is stopped in accordance with this and provided in the air outlet. Since the outlet flap is closed, it is possible to prevent re-release of the odor component released from the deodorizing filter into the room from the outlet.

  However, since the odor component heated by the heater arranged on the leeward side of the deodorizing filter and separated from the deodorizing filter is generally raised upward together with the heated ambient air, the indoor blower is stopped. Even if the air outlet is closed, it may be re-released from the air inlet into the room, and the above-mentioned patent document is insufficient as a countermeasure against re-emission of odor components. In addition, in order to efficiently discharge the odor components separated from the deodorization filter to the outside of the room, it is necessary to devise the configuration for collecting the odor components and the connection structure of the ventilation fan.

  On the other hand, in order to heat and regenerate the deodorizing filter, it is common to arrange a heater on the leeward side of the deodorizing filter. However, this heater becomes a ventilation resistance, which may increase fan power and generate noise. was there. At the same time, in order to sufficiently restore the deodorizing function of the filter by heating regeneration, it is necessary to uniformly and efficiently heat the entire deodorizing filter. For this reason, there is still room for devising how to arrange the heater so that the ventilation resistance is not increased and the entire deodorizing filter can be heated uniformly.

  The present invention has been made in view of such circumstances, and is an air conditioner that can uniformly and efficiently heat a deodorizing filter to improve regeneration efficiency and sufficiently restore the deodorizing function after automatic regeneration. The purpose is to provide a machine.

In order to solve the above problems, the air conditioner of the present invention employs the following means.
That is, an air conditioner according to the present invention includes a deodorizing filter that can be regenerated by heating in an air flow path in a housing having a room air inlet and an air outlet for conditioned air. A heating means for regenerating the filter, and an air conditioner provided with a ventilation means for discharging the odor components separated from the deodorizing filter to the outside, wherein the deodorizing filter is provided in the air flow path. The heating means is disposed on the leeward side of the filter, and a metal plate for heat transfer is disposed between the deodorizing filter and the heating means , and the metal plate is used for ventilation. The slit hole is provided .

According to the present invention, the deodorizing filter is provided on the filter installation frame provided in the air flow path, the heating means is disposed on the leeward side of the deodorizing filter, and the heat transfer metal is provided between the deodorizing filter and the heating means. Since the plate is disposed, the metal plate having high thermal conductivity can be uniformly heated by the heating means, and the deodorizing filter can be efficiently and uniformly heated through the metal plate. Therefore, the regeneration efficiency by heating the deodorizing filter can be improved, and the deodorizing function can be sufficiently recovered after the regeneration. In addition, since the metal plate is provided with a slit hole for ventilation, an increase in ventilation resistance due to the provision of the metal plate can be suppressed to the minimum, and accordingly, an increase in fan power and generation of noise are suppressed. be able to.

  Furthermore, the air conditioner of the present invention is characterized in that in the above air conditioner, the metal plate is disposed in contact with the heating means.

  According to the present invention, since the metal plate is disposed in contact with the heating means, the metal plate can be directly heated by contact with the heating means. Thereby, a metal plate can be heated efficiently and uniformly, and the regeneration efficiency of a deodorizing filter can be improved as a result.

Furthermore, the air conditioner according to the present invention is the air conditioner according to any one of the above-described air conditioners, wherein the slit hole is provided along the beam between the filter presser and strength member beam constituting the filter installation frame. It is characterized by.

  According to the present invention, since the slit hole is provided between the filter presser / strength member bars constituting the filter installation frame, the width of the remaining plate portion excluding the slit holes of the metal plate. And the width of the filter presser / strength member can be substantially matched. Thereby, it is possible to reliably prevent an increase in ventilation resistance due to the arrangement of the metal plate, and to suppress an increase in fan power and noise.

  Furthermore, the air conditioner of the present invention is characterized in that, in any of the above air conditioners, the metal plate is formed of an aluminum plate.

  According to the present invention, since the metal plate is composed of an aluminum plate, the metal plate can be composed of an aluminum plate having high thermal conductivity. Therefore, the deodorizing filter can be efficiently and uniformly heated through the aluminum plate for heat transfer having good thermal conductivity.

  Furthermore, the air conditioner of the present invention is characterized in that, in any of the above air conditioners, the metal plate is locked to the filter installation frame in a state where it cannot be removed without using a tool. To do.

  According to the present invention, since the metal plate is locked to the filter installation frame so that it cannot be removed without using a tool, the metal plate is easily removed by hand during maintenance, and the heating means is touched by the hand. The danger (electric shock etc.) by can be reduced. Therefore, safety during maintenance can be improved.

According to the present invention, the metal plate having high thermal conductivity can be uniformly heated by the heating means, and the deodorizing filter can be efficiently and uniformly heated through the metal plate, thereby improving the regeneration efficiency by heating the deodorizing filter. The deodorizing function can be sufficiently restored after regeneration. Moreover, since the metal plate is provided with slit holes for ventilation, an increase in ventilation resistance due to the provision of the metal plate can be minimized, and an increase in fan power and noise can be suppressed. .

Hereinafter, an embodiment according to the present invention will be described with reference to FIGS.
FIG. 1 is a perspective view of an air conditioner 1 according to the present embodiment. FIG. 2 is a perspective view of the air conditioner 1 with the front panel 3 removed. FIG. 3 shows the left end of the front panel 3. The perspective view of the state which fractured | ruptured and exposed the inside is shown. In the present embodiment, the wall-mounted air conditioner 1 is illustrated, but the present invention is not limited to such a wall-mounted air conditioner 1, and is a floor-standing type, a ceiling-mounted type, a ceiling The present invention can be similarly applied to other types of air conditioners such as a buried type and a wall-through type.

  The air conditioner 1 includes a housing 4 that includes a base body 2 and a front panel 3 that is attached to the base body 2 so as to cover the front portion of the base body 2 from the top, bottom, left, and right and from the front. On the upper surface of the housing 4, a lattice-like air suction port 5 is opened on substantially the entire surface thereof, and on the front portion of the lower surface, a blowout port 6 for conditioned air is opened over substantially the entire width. The blowout port 6 is provided with a plurality of louvers that change the wind direction (not shown) in the left-right direction, and at least one flap 7 that can change the wind direction in the vertical direction and close the blowout port 6. A part of a fan case (not shown) is formed on the front surface side of the base body 2, and reaches from the air suction port 5 to the air-conditioning air blowing port 6 with the stabilizer 8 attached to the front side thereof. An air flow path 9 is formed.

  In the air flow path 9, an indoor fan (not shown) composed of a cross flow fan having an elongated cylindrical impeller rotated by a motor is disposed in the horizontal direction. Indoor air is sucked into the housing 4 from the suction port 5 via the indoor fan, and after flowing through the air flow path 9, the air is blown out into the room again from the blowout port 6. A horizontally long air heat exchanger 10 bent in a mountain shape so as to surround the suction side is disposed above the cross flow fan (indoor fan), and the air circulated by the indoor fan is cooled. The room air can be adjusted by cooling and heating during heating.

  A pre-filter (not shown) that removes relatively large dust in the air is installed in the air flow path 9 between the air suction port 5 and the air heat exchanger 10. The cleaning filter is configured to be installed through the filter installation frame 11. In this embodiment, a deodorizing filter 12 carrying a physical adsorbent such as activated carbon or zeolite that adsorbs and removes unpleasant odors such as tobacco odor, life odor, pet odor and the like is installed on the left half of the filter installation frame 11. In the right half of the installation frame 11, an example is shown in which a bioclear filter 13 carrying an enzyme or the like that decomposes or suppresses pollen, mold, mites, bacteria, viruses, or the like is shown.

  The adsorptive deodorizing filter 12 adsorbs odor components, and when saturated, the deodorization performance cannot be maintained. However, it can be regenerated by heating to remove the odor components. As will be described later, the deodorizing filter 12 can be regenerated by heating it to about 60 ° C. automatically every set cumulative operation time or at any time by manual switch operation. The bioclear filter 13 may be replaced with an air purification filter having other functions.

Below, the installation structure of the deodorizing filter 12 and the bioclear filter 13 is demonstrated with reference to FIG. 4 thru | or FIG. The installation configuration of the deodorization filter 12 and the bioclear filter 13 is substantially the same, and the installation configuration of the deodorization filter 12 will be mainly described here.
The filter installation frame 11 is a horizontally-long rectangular frame formed of a resin material, and a horizontal beam 11A and a vertical beam for a filter presser / strength member are provided on the installation portion of the deodorizing filter 12 and the bioclear filter 13, respectively. 11B is provided for each arbitrary number.

  Of the horizontal beam 11A and the vertical beam 11B, the horizontal beam 11C and the vertical beam 11D provided in the inner half of the rectangular frame of the portion where the deodorizing filter 12 is installed are, as shown in FIG. 5 and FIG. It is provided in a ladder shape at intervals. As shown in FIGS. 8 and 9, an upper side for embedding an electric heater (heating means) 14 is formed on the upper surface of the horizontal beam 11 </ b> C and the vertical beam 11 </ b> D facing the deodorizing filter 12 provided in a ladder shape. A groove 11E having an open U-shaped cross section is provided along each crosspiece 11A, 11B.

  In the groove 11E, a linear electric heater (heating means) 14 composed of a sheathed heater or the like serving as a heating source for heating and regenerating the deodorizing filter 12 is vertically and horizontally along the horizontal beam 11C and the vertical beam 11D. The storage is arranged. The electric heater 14 is configured to be able to supply power via a controller 16 disposed on the right side in the housing 4 via a lead wire 15. The temperature of the electric heater 14 is controlled in a range of about 60 ° C. by turning on / off a thermostat (not shown). In addition, the electric heater 14 is disposed only in the back half of the part where the deodorizing filter 12 is installed, and the electric heater 14 is not disposed in the area on the near side which becomes the access side when the deodorizing filter 12 is maintained. It is considered as free space.

  As shown in FIGS. 5 and 7, a heat transfer metal plate 17 made of an aluminum thin plate having high thermal conductivity is in contact with the electric heater 14 on the upper surfaces of the horizontal rail 11 </ b> C and the vertical rail 11 </ b> D. It is arranged to do. The metal plate 17 is formed with a number of punched slits 17A for ventilation, whereby the metal plate 17 has a substantially similar shape to the horizontal beam 11C and the vertical beam 11D that are ladder-shaped. The width dimension S1 (see FIG. 7) of the remaining plate portion from which the slit hole 17A of the metal plate 17 is punched is substantially the same as the width dimension S2 (see FIG. 9) of the horizontal beam 11C and the vertical beam 11D. It is comprised so that 17 may not become extra ventilation resistance. Further, the metal plate 17 is provided at the other edge by locking a plurality of projecting pieces 17B provided at one edge to a recess (not shown) provided in the filter installation frame 11. The rising piece 17 </ b> C is elastically deformed into a protrusion 11 </ b> F provided on the filter installation frame 11 and is fitted and locked so that it cannot be removed without a tool.

  A deodorizing filter 12 can be inserted into and attached to the upper portion of the metal plate 17 along a guide 11G provided in the filter installation frame 11. The deodorizing filter 12 is configured such that a filter material 12A appropriately processed into a flat plate shape, a pleated fold shape, a honeycomb shape, or the like is detachably stored in a resin filter holder 12B having a lattice frame structure. An access handle 12C is formed integrally with the filter holder 12B.

  A shutter mechanism 18 is provided so as to cover the upper part of the deodorizing filter 12 installed in the filter installation frame 11. The shutter mechanism 18 is assembled on the filter installation frame 11 and has a configuration in which a pair of cover members 19 and a shutter member 20 are overlapped. The cover member 19 is a thin plate-like horizontally long cover made of an arc-shaped resin material that is curved upward and has a large number of slit holes (first slit holes) 19A in the front-rear direction at an equal pitch P1. It is drilled in parallel. The cover member 19 is fixedly installed on the filter installation frame 11.

  Similarly to the cover member 19, the shutter member 20 is a thin plate-like horizontally long member made of an arc-shaped resin material that is curved upward and is slidable in the left-right direction inside the cover member 19. It is what is done. Similarly to the cover member 19, the shutter member 20 is also provided with a large number of slit holes (second slit holes) 20 </ b> A in the front-rear direction so as to be parallel to each other at an equal pitch P <b> 2. The pitch P2 of the slit holes (second slit holes) 20A and the pitch P1 of the slit holes (first slit holes) 19A of the cover member 19 are equal to each other (P1 = P2).

  Thus, the shutter member 20 can be opened by sliding the shutter member 20 to a position where the slit hole 20A is overlapped with the slit hole 19A of the cover member 19, and the shutter member 20 can be opened from that position. Since the shutter member 20 closes the slit hole 19 </ b> A of the cover member 19 by sliding by a half pitch P <b> 1 (P <b> 2), the shutter mechanism 18 can be closed. The shutter member 20 is slidable by being coupled to a rotation lever 21A of a stepping motor 21 that can be rotated in the forward and reverse directions installed at the left end portion on the filter installation frame 11 via a long hole 20B.

  As described above, the shutter mechanism 18 that can be opened and closed so as to cover the upper portion of the deodorizing filter 12 is provided on the filter installation frame 11, so that the deodorizing filter 12 is provided between the deodorizing filter 12 and the shutter mechanism 18. A space 22 covering the top is formed. The space 22 is configured to form a closed space 22 shielded from the air flow path 9 by closing the shutter mechanism 18. The space (closed space) 22 is formed over the entire length in the length direction of the deodorizing filter 12.

  A ventilation fan 23 is disposed on the left side in the housing 4. As shown in FIG. 10, the ventilation fan 23 includes a case main body 23A formed with a scroll portion 23B for accommodating an impeller (not shown) and a lid body 23C assembled to the case main body 23A. A suction port 23D and a discharge port 24E are provided. The suction port 23D is connected to the cover member 19 of the shutter mechanism 18 through a duct 24 formed integrally with the case body 23A and the lid body 23C, and is directly connected to one side of the space (closed space) 22. Has been. Further, the discharge port 24E is connected to an exhaust duct (not shown) disposed through the housing 4 and the wall of the building, and is opened to the outside. As a result, the air inside the space (closed space) 22 is sucked by the ventilation fan 23 and can be directly exhausted to the outside.

In the air conditioner 1, the regeneration operation of the deodorizing filter 12 and the bioclear control operation of the bioclear filter 13 are configured to be automatically performed as follows.
In the deodorizing filter regeneration operation and the bioclear control operation, the deodorizing button (deodorizing switch) 25A and the bioclear button (bioclear switch) 25B of the remote controller 25 shown in FIG. When the controller 16 on the air conditioner 1 side receives the ON signal or when the accumulated operation time of the air conditioner 1 has passed a set time (for example, 100 hours), the operation of the air conditioner 1 Is implemented at the timing when is stopped.

  In the deodorizing filter regeneration operation and the bioclear control operation, when a preset time (for example, 60 minutes for the deodorization filter regeneration operation and 90 minutes for the bioclear control operation) has elapsed, or a forced termination command has been issued When it comes to being terminated. In addition, when the deodorizing filter regeneration operation and the bioclear control operation satisfy the implementation conditions at the same time, the bioclear control operation is performed at the first operation stop timing, and the deodorization filter regeneration operation is performed at the next operation stop timing. Is set.

  In the deodorizing filter regeneration operation, as shown in the timing chart of FIG. 11, the stepping motor 21 is driven by the deodorizing filter regeneration signal to change the shutter mechanism 18 from the open state to the closed state. Is started (heater is turned on) and the ventilation fan 23 is operated at a low speed (Lo) (ventilation fan is turned on). In this state, the deodorizing filter 12 is heated by the electric heater 14 for 60 minutes, a regeneration operation is performed in which the odor component is removed and the deodorizing function is recovered, and the automatic termination is performed when 60 minutes have elapsed.

  The opening of the shutter mechanism 18 and the turning on of the electric heater 14 and the ventilation fan 23 are not limited to those simultaneously operated as described above. First, the shutter mechanism 18 is opened, and then the electric heater 14 and the ventilation fan 23 are sequentially set to a predetermined value. Delayed activation may be performed with a time lag (for example, several seconds to several tens of seconds). Although the ventilation fan 23 is continuously operated, it may be operated on / off. In particular, in the vicinity of the end of the regeneration operation, the ventilation fan 23 may be turned on / off or variable speed for a certain time. This is effective in discharging so that no odorous component remains in the space 22.

With the configuration described above, according to the present embodiment, the following operational effects can be obtained.
In the air conditioning operation by the air conditioner 1, a low-temperature low-pressure gas-liquid two-phase refrigerant adiabatically expanded from a refrigeration cycle (not shown) is supplied to the air heat exchanger 10 and circulated by this refrigerant and an indoor fan (not shown). Heat exchange is performed with room air, cooling operation is performed by cooling the air and blowing it into the room, and high-temperature and high-pressure hot gas refrigerant is supplied from the refrigeration cycle to the air heat exchanger 10, The heating operation can be performed by exchanging heat and heating the air and blowing it out into the room.

  During this air conditioning operation, since the shutter mechanism 18 is in an open state, a part of the air flowing through the air flow path 9 is circulated while passing through the deodorizing filter 12 or the bioclear filter 13. As a result, various odor components contained in the air are adsorbed by the deodorizing filter 12 and sequentially collected, and allergen substances such as pollen, mold and mites are sequentially collected by the bioclear filter 13. . In this way, air is gradually cleaned by removing odor components and allergen substances in the air.

  When the deodorizing filter regeneration and bioclear control start conditions are satisfied by performing the air conditioning operation as described above, the deodorizing filter regeneration operation and the bioclear control operation are executed based on preset control charts, respectively. . The bio-clear control operation is performed after the air-conditioning operation is completed, and the housing 4 of the air conditioner 1 is made into a high-temperature and high-humidity atmosphere by using a cooling and heating function by the air heat exchanger 10 as is well known. Allergen substances are decomposed and suppressed by activating the supported enzyme. The bioclear control operation is automatically terminated after 90 minutes.

  On the other hand, the deodorizing filter regeneration operation is an operation in which the deodorizing filter 12 that collects odor components is heated to remove the odor components and restore the deodorization function. After the air conditioning operation is completed, an indoor fan (not shown) is turned on. This is done by stopping and closing the flap 7 of the outlet 6. The regeneration of the deodorizing filter 12 is performed by closing the air flow path 9 with the shutter mechanism 18 to form a closed space 22 that covers the upper portion of the deodorizing filter 12 between the deodorizing filter 12 and the shutter mechanism 18. While energizing the electric heater 14 and operating the ventilation fan 23 at a low speed, the deodorizing filter 12 is heated to about 60 ° C. to remove the adsorbed odor components. Note that at the start of the regeneration operation, the shutter mechanism 18 may be closed first, and the electric heater 14 and the ventilation fan 23 may be delayed and started to reliably suppress leakage of odor components. This regeneration operation is automatically terminated after 60 minutes, and during this time, the odor component detached from the deodorizing filter 12 is discharged to the outside by the ventilation fan 23.

  During the heating and regeneration operation of the deodorizing filter 12 described above, in this embodiment, the shutter mechanism 18 provided so as to cover the upper portion of the deodorizing filter 12 is closed, and the upper portion of the deodorizing filter 12 is shielded from the air flow path 9. A closed space 22 is formed. For this reason, the odor component separated from the deodorizing filter 12 by the heating of the electric heater 14 rises into the closed space 22 together with the heated ambient air, and is collected and confined there. Since a ventilation fan 23 is connected to one side of the closed space 22 via a duct 24, the odor component trapped in the closed space 22 is sucked into the ventilation fan 23 without interruption, and there Without being leaked into the housing 4, the air is discharged outside through an exhaust duct (not shown) connected to the discharge port 23 </ b> E.

  For this reason, not only can the odor component removed from the deodorizing filter 12 during the regeneration be prevented from being re-released into the room from the outlet 6, but also the air channel 9 rises together with the heated odor component, and the inlet 5 Can be prevented from being released again into the room. Therefore, the air-conditioned space can be maintained comfortably. Moreover, since the deodorizing filter 12 can be automatically regenerated and the deodorizing function can be recovered, maintenance such as replacement of the deodorizing filter 12 and washing with water can be made unnecessary.

  Further, since a plurality of slit holes 19A and 20A are provided at equal pitches in the pair of cover member 19 and shutter member 20 constituting the shutter mechanism 18, they do not become ventilation resistance, and normal air conditioning. It will not interfere with driving. Moreover, when the regeneration of the deodorizing filter 12 is started, the shutter 20 is slid by the half pitch of the hole pitches P1 and P2 of the slit holes 19A and 20A by the stepping motor 21, so that the air flow path 9 can be quickly moved with the minimum amount of slide. The regeneration operation can be started smoothly with the closed state. Therefore, the regeneration operation of the deodorizing filter 12 can be executed smoothly and the deodorizing filter 12 can be automatically regenerated.

  Furthermore, since the cover member 19 and the shutter member 20 have an arc shape that is smoothly curved upward and convex, the ceiling surface of the odor component that rises with the heated ambient air in the closed space 22 Can be collected to the uppermost portion while being circulated along, and sucked into the ventilation fan 23 via the duct 24 connected to the upper portion of the closed space 22 and discharged to the outside without interruption. For this reason, it is possible to prevent stagnation and stagnation due to stagnation of odorous components in the space (closed space) 22 between the deodorizing filter 12 and the shutter mechanism 18, and to discharge smoothly and efficiently. At this time, by performing the on / off operation or variable speed operation of the ventilation fan 23, it is possible to more effectively prevent stagnation and retention due to stagnation.

  In addition, when the deodorizing filter 12 is regenerated, the operation start signal starts the energization of the electric heater 14 in conjunction with the closing operation of the air flow path 9 by the shutter mechanism 18 to drive the ventilation fan 23. Therefore, from the collection of the odor components during the air-conditioning operation, the heating / regeneration of the deodorization filter 12 that has collected the odor components, and further the series of actions of the discharge of the odor components released from the deodorization filter 12 to the outside are all automated. It becomes possible. For this reason, the maintenance of the air conditioner 1 can be greatly reduced and the usability can be improved. The regeneration operation of the deodorizing filter 12 is performed manually by operating a deodorizing button (deodorizing switch) 25A provided on the remote controller 25 in addition to automatic operation every cumulative operation time (every 100 hours) according to a preset control specification. The deodorizing function can be recovered at an arbitrary time depending on the state of use.

  In addition, the electric heater 14 for heating the deodorizing filter 12 is disposed below the deodorizing filter 12 and is configured to heat the deodorizing filter 12 from below. The air rises together with the air and is collected in the closed space 22. For this reason, the deodorized filter 12 can be efficiently regenerated without the adsorbed odor component being re-adsorbed by the deodorizing filter 12. In addition, the electric heater 14 is constituted by a linear heater such as a sheathed heater, and is in a groove 11E provided on the upper surface of the horizontal frame 11A and the vertical beam 11B for the filter presser and strength member of the filter installation frame 11. Therefore, it can be disposed within the width S2 (see FIG. 9) of the horizontal beam 11A and the vertical beam 11B. For this reason, the electric heater 14 itself does not become a ventilation resistance, and an increase in the ventilation resistance in the air flow path 9 can be reliably suppressed, and an increase in indoor fan power and generation of noise can be prevented.

  Further, the deodorizing filter 12 can be installed close to the filter presser / strength member bars 11A and 11B and the electric heater 14, and the edge of the groove 11E blocks the escape of the heat of the electric heater 14 to the surroundings. Since it can heat, the deodorizing filter 14 can be heated efficiently. As a result, the regeneration efficiency of the deodorizing filter 14 can be increased, and the deodorizing performance after regeneration can be improved. In addition, since the electric heater 14 is disposed in the rear area with the area on the near side that becomes the access side at the time of filter maintenance with respect to the filter installation frame 11, the user touches the electric heater 14 at the time of filter maintenance. Risk (electric shock, etc.) can be reduced. Thereby, the safety | security at the time of a maintenance can be improved.

  In addition, since the aluminum plate 17 for heat transfer with high thermal conductivity that comes into contact with the electric heater 14 is disposed between the deodorizing filter 12 and the electric heater 14, the electric heater 14 has a thermal conductivity. A good aluminum metal plate 17 can be uniformly heated, and the deodorizing filter 12 can be efficiently and uniformly heated via the aluminum metal plate 17. For this reason, the regeneration efficiency by heating the deodorizing filter 12 can be improved, and the deodorizing function can be sufficiently recovered after the regeneration. Moreover, since the aluminum metal plate 17 has slit holes 17A that are similar to the filter presser / strength member bars 11A and 11B provided in a ladder shape on the filter installation frame 11 side, Ventilation resistance by the aluminum metal plate 17 can be suppressed, and an increase in indoor fan power and noise can be prevented.

Further, since the aluminum metal plate 17 is locked to the filter installation frame 11 by elastic deformation so that it cannot be removed without using a tool, the aluminum metal plate 17 is inadvertently removed by hand during maintenance of the deodorizing filter 14. In this case, the danger (electric shock or the like) due to the hand touching the electric heater 14 can be reduced. Thereby, safety during maintenance can be improved.
In addition, all the ventilation systems that collect the odor components separated from the deodorizing filter 12, suck them out and discharge them to the outside are arranged on one side in the housing 4, so that these can be accommodated and installed in a compact manner can do.

  In addition, this invention is not limited to the invention concerning the said embodiment, In the range which does not deviate from the summary, it can change suitably. For example, the example in which the electric heater 14 is disposed as a heating means of the deodorizing filter 12 has been described. However, the air heat exchanger 10 may be used as a radiator by a heating cycle, and may be used together for heating. The same effects as those of the above embodiment can be obtained. Further, when the heating and regeneration operation of the deodorizing filter 12 is finished, the ventilation fan 23 is stopped with a delay while the shutter mechanism 18 is closed with the electric heater 14 turned off, so that no odor component remains. It is also possible to expect.

  Further, the functions of the cover member 19 and the shutter member 20 constituting the shutter mechanism 18 may be reversed. That is, in the above embodiment, the cover member 19 is fixed and the shutter member 20 is slid, but conversely, the same function can be obtained by fixing the shutter member 20 and sliding the cover member 19. be able to. Furthermore, the ventilation fan 23 is not provided exclusively for the regeneration of the deodorizing filter 12, but may be used also as a ventilation fan provided for indoor ventilation during normal air conditioning operation.

  In the above-described embodiment, an example in which the deodorizing filter regeneration operation and the bioclear control operation are set to automatically operate has been described. However, these operations are enabled (initial setting) / invalid on the remote controller 25 side. It is possible to select an invalid setting that does not automatically operate as required. In addition, as for the interval of automatic operation, an example in which the accumulated operation time is 100 hours has been described. However, this time may be appropriately selected, and if automatic operation is forcibly terminated halfway, the next time You may make it re-operate at the time of an air-conditioning operation stop.

1 is an external perspective view of an air conditioner according to an embodiment of the present invention. It is a perspective view of the state which removed the front panel of the air conditioner shown in FIG. It is a perspective view of the state which fractured | ruptured the left end part of the front panel of the air conditioner shown in FIG. 1, and exposed the inside. It is an assembly perspective view of the filter installation frame integrated in the air conditioner shown in FIG. It is a disassembled perspective view of the filter installation frame shown in FIG. It is an expansion perspective view by the side of the deodorizing filter installation part of the filter installation frame shown in FIG. It is an expansion perspective view of the state which removed the deodorizing filter by the side of the deodorizing filter installation part of the filter installation frame shown in FIG. It is an expansion perspective view of the state which removed the deodorizing filter and metal plate by the side of the deodorizing filter installation part of the filter installation frame shown in FIG. FIG. 9 is a partially enlarged perspective view of a filter presser and strength member bar of the filter installation frame shown in FIG. 8. It is a disassembled perspective view of the ventilation fan integrated in the air conditioner shown in FIG. It is a timing chart figure at the time of the deodorizing filter reproduction | regeneration driving | operation of the air conditioner shown in FIG. It is a front view of the state which opened the cover of the remote control used for the driving | operation operation of the air conditioner shown in FIG.

DESCRIPTION OF SYMBOLS 1 Air conditioner 4 Case 5 Air inlet 6 Air outlet 9 Air flow path 11 Filter installation frame 11C Horizontal beam (crosspiece)
11D Vertical beam
11F Protrusion 12 Deodorizing filter 14 Electric heater (heating means)
17 Metal plate (aluminum metal plate)
17A Slit hole 17B Projection piece 17C Startup piece 23 Ventilation fan (ventilation means)

Claims (5)

A deodorizing filter that can be regenerated by heating and a heating means for regenerating the deodorizing filter are disposed in an air flow path in the housing having an air inlet for indoor air and a blowout port for air-conditioned air. And an air conditioner provided with a ventilation means for discharging the odor component separated from the deodorizing filter to the outside,
The deodorizing filter is provided on a filter installation frame provided in the air flow path, the heating means is disposed on the leeward side, and a metal plate for heat transfer between the deodorizing filter and the heating means. And an air conditioner provided with a slit hole for ventilation in the metal plate .   The air conditioner according to claim 1, wherein the metal plate is disposed in contact with the heating unit. 3. The air conditioner according to claim 1, wherein the slit hole is provided between the filter presser / strength member bars constituting the filter installation frame along the bars. The air conditioner according to any one of claims 1 to 3 , wherein the metal plate is made of an aluminum plate. The air conditioner according to any one of claims 1 to 4 , wherein the metal plate is locked to the filter installation frame so as not to be removed without using a tool.

Images