JP5215128B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner including a dust removing unit that removes a dust collecting filter that removes dust in the air.

  Conventionally, air conditioners such as air conditioners, humidifiers, dehumidifiers, air purifiers, and heaters are equipped with dust collection filters to remove dust in the air, but they adhere to the dust collection filters. It takes time and effort to clean the dust, and there is a problem that it is not hygienic.

  In order to solve this problem, for example, in Patent Document 1, with respect to two dust collection filters arranged side by side, a dust removal box is installed so as to cross the two dust collection filters in the left-right direction, While passing the dust collection filter through the dust box and moving the dust filter relatively in the direction perpendicular to the length direction of the dust box, the air flow from one end to the other end in the length direction of the dust box. And a filter cleaning device that removes dust from the dust removal box.

In the above filter cleaning device, a dust collection filter is introduced into a dust removal box in which an air flow is generated from one end side in the length direction to the other end side, and dust is removed from a filter portion having a large area surrounded by the dust removal box. Therefore, it has an advantage of excellent dust removal efficiency.
Japanese Patent No. 4119453

  In the filter cleaning device described in Patent Document 1, in order to efficiently remove dust attached to the filter, it is necessary to generate a vigorous air flow from one end side in the length direction of the dust removal box toward the other end side. . For this purpose, it is necessary to prevent air from flowing into the dust removal box from other than the intake port.

  By the way, slit-shaped filter guide paths are formed on both sides in the length direction of the dust removal box. The contact surface between the guideway and the filter is provided with a sealing material to prevent the inflow of air, but because of the structure, the filter passes through the guideway, so that the inflow of air from the guideway is completely prevented. It is difficult to block. Therefore, when air flows in from the guide path, the air flow may be weakened accordingly.

  Furthermore, the length of the entire downstream duct connected to the other end of the dust removal box may affect the power required for the suction device. That is, as the length of the duct becomes longer, the pressure loss of the air flow flowing in the duct becomes larger, and accordingly, the air flow flowing in the dust removal box may be weakened.

  Therefore, an object of the present invention is to provide an air conditioner including a filter cleaning device that is compact and excellent in dust removal efficiency.

  In order to solve the above problems, an air conditioner according to the present invention is provided with an air suction port in a cabinet, and provided with a dust collection filter for removing dust in the air sucked from the suction port. A dust removal part that allows the dust collection filter to pass therethrough is provided at the center in the left-right direction, the dust removal part is formed in an elongated box shape, and its length direction is along the vertical direction of the dust collection filter. The suction port is formed at one end in the length direction of the dust removing portion, and a suction device is connected to the other end via a suction duct.

  According to the above configuration, since the dust removal unit is installed along the vertical direction of the dust collection filter, which is the short direction of the cabinet, with respect to the dust collection filter, dust removal is performed along the horizontal direction of the dust collection filter, which is the horizontal direction of the cabinet. Compared with the case where a part is installed, the length of a dust removal part may be short, and the fall of the momentum (flow velocity) of an airflow can be suppressed. Therefore, it is possible to obtain a compact air conditioning apparatus with excellent dust removal efficiency.

  In order to remove the dust adhering to the dust collection filter, the dust collection filter may be reciprocated in the left-right direction while passing through the dust removal portion. Further, in order to reciprocate the dust collection filter, for example, a flat plate having flexibility is used as the dust collection filter, and when moving in either the left or right direction, the dust collection filter is moved in the moving direction. What is necessary is just to wind up.

  In this case, since the dust removing portion is arranged at the central portion in the left-right direction of the cabinet, the reciprocating distance in one direction of the dust collecting filter can be shortened. Therefore, there is an advantage that a device and a space for temporarily storing the dust collecting filter in the moving direction, such as a device for winding the filter moved in one direction, can be reduced.

  Further, the dust collecting filter is composed of a first filter and a second filter arranged on both right and left sides of the dust removing portion, and the first filter and the second filter are alternately passed through the dust removing portion. Is also possible. In this case, when one of the first filter and the second filter is moved to the other filter side, it is superposed on the other filter, so that a temporary storage place for the moved filter is obtained. There is no need to provide it separately.

  In addition to the above-described configurations, an indoor heat exchanger may be disposed below the dust collection filter, and the suction device may be configured to be disposed below the indoor heat exchanger at the center in the left-right direction of the dust collection filter. Is possible.

  Thereby, the length of the suction duct from the other end of the dust removal portion to the suction device can be shortened, and the pressure loss of the air flow in the suction duct can be suppressed. Therefore, it is possible to obtain an air conditioner with better dust removal efficiency. Further, conventionally, the suction device is disposed adjacent to either the left or right side of the indoor heat exchanger. In the present invention, since the suction device is disposed below the indoor heat exchanger, only the space of the suction device is provided. The size of the indoor heat exchanger in the left-right direction can be increased, and the heat exchange efficiency of the air conditioner can be increased even if the cabinet has the same width.

  When the suction device is arranged below the indoor heat exchanger, the suction device is provided with a drain pan that is inclined from the rear end of the indoor heat exchanger toward the bottom of the front cabinet, and is stored in the rear space of the cabinet partitioned by the drain pan. You just have to do it.

  Moreover, if the position of the blower fan in the cabinet is installed in front of the indoor heat exchanger, a large space can be secured below the indoor heat exchanger. Accordingly, the drain pan can be extended to the front cabinet bottom, and the rear space can be expanded.

  Therefore, it becomes possible to install the dust collection box which collects the dust removed from the dust collection filter in the rear space together with the suction device. Therefore, an air duct from the suction device to the dust collection box is not required or the length of the exhaust duct is short, and the air conditioner is more excellent in dust removal efficiency by suppressing the pressure loss of the air flow in the exhaust duct. Can be obtained.

  The simplest treatment method is to release the air containing dust discharged from the suction device to the outdoors. Therefore, it is desirable that an exhaust duct or a dust collection box be selectively connectable to the exhaust port of the suction device.

  That is, the dust removed from the dust collection filter can be discharged outdoors by connecting an exhaust duct for outdoor exhaust to the exhaust port of the suction device. At this time, the exhaust duct may be disposed in the rear space and led out to the outside from either one of the left and right side surfaces of the cabinet.

  As a result, even when the exhaust duct is led out from either the right side or the left side of the cabinet, the length of the exhaust duct can be shortened, and the pressure loss of the air flow in the exhaust duct can be suppressed. it can. Therefore, it is possible to obtain an air conditioner with better dust removal efficiency.

  In the air conditioner described above, the suction device has been described with respect to the configuration disposed below the indoor heat exchanger at the central portion in the left-right direction of the dust collection filter. It is also possible to install a ventilation fan on the left and right ends of the exchanger. In this case, if a conventional ventilation fan is used as a suction device, there is no need to separately install a suction device, and air containing dust can be discharged outdoors using the ventilation path as it is. It becomes possible.

  Specific examples of the air conditioner on which the filter cleaning device according to the present invention can be mounted include an air conditioner, a humidifier, a dehumidifier, an air cleaner, and a heater.

  As described above, according to the present invention, the dust removing unit that removes dust adhering to the dust collecting filter is provided at the central portion in the horizontal direction of the cabinet along the vertical direction of the dust collecting filter. The length is short, and it is possible to suppress a decrease in the momentum of the air flow. Therefore, it is possible to obtain a compact air conditioning apparatus with excellent dust removal efficiency.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the present embodiment, description will be made using an indoor unit of a separate air conditioner having an air conditioning function as a main function as an air conditioner. FIG. 1 is an external perspective view of an indoor unit of an air conditioner, and FIG. 2 is a cross-sectional view taken along line AA in FIG. 1 with the cabinet of the indoor unit removed.

  The indoor unit in the present embodiment differs greatly from the conventional indoor unit in that the conventional indoor unit generally has a blower fan arranged below the indoor heat exchanger, whereas in this embodiment, the blower The fan 6 is located in front of the indoor heat exchanger 5. As a result, the indoor unit of the present embodiment has a low height, and accordingly, the flat cabinet 1 has a depth, and can be installed near the upper ceiling of the indoor wall.

  Almost the entire top surface of the cabinet 1 serves as a suction port 2, and a dust collection filter 4 and a first indoor heat exchanger 5 a are arranged in this order on the back side of the suction port 2. The suction port 2, the filter cleaning device 20, and the first indoor heat exchanger 5 a are arranged so that the area of the ventilation surface is substantially the same and each ventilation surface is substantially parallel.

  A blower outlet 3 is formed on the front surface of the cabinet 1 except for its upper part. A louver 9 for changing the direction of the air flow in the vertical direction is swingably attached to the air outlet 3. The louver 9 operates quickly when the air-conditioning airflow is turned off, and closes the outlet 3 as shown in FIG. That is, the louver 9 also has a role of an open / close panel that closes the outlet 3.

  In the upper part of the air outlet 3, horizontally long outlets 7 and 7 for detachably pulling out the dust collecting filter 4 during maintenance are formed (see FIGS. 10 and 11). A protective cover 8 is appropriately provided at each outlet 7 so as to be openable and closable. The dust collecting filter 4 can be pulled out from the outlet 7 together with frames 15 and 16 described later.

  Inside the cabinet 1, a ventilation path from the suction port 2 to the blowout port 3 is formed. In this ventilation path, the dust collection filter 4, the indoor heat exchanger 5, and the blower fan 6 are arranged with the suction port 2 side as the upstream side. Are arranged in this order, and a filter cleaning device 20 for cleaning the dust collection filter 4 is provided. The blower fan 6 is a cross-flow fan whose rotation axis direction is the left-right direction of the cabinet, and is arranged in the vicinity of the blower outlet 3. The indoor heat exchanger 5 is disposed below the suction port 2 and on the rear side of the blower fan 6.

  The indoor heat exchanger 5 includes a first heat exchanger 5a disposed on the upstream side of the ventilation path and a second heat exchanger 5b disposed on the downstream side thereof. It has a configuration capable of heat dehumidification.

  The first heat exchanger 5a is formed in a single flat plate shape below the suction port 2 so as to be opposed to the suction port 2 on the top surface of the cabinet. Specifically, the first heat exchanger 5a is a parallel flow type heat exchange made of aluminum in which a large number of flat refrigerant tubes having fine passages are arranged in parallel and corrugated fins are arranged therebetween. Even if it is a plate-like and compact shape as a whole, the heat exchange efficiency is good. This 1st heat exchanger 5a functions as an evaporator at the time of cooling dehumidification, for example. And the 1st heat exchanger 5a is inclined and arrange | positioned in the front-back direction with the front facing up, in order to prevent the water droplet adhering at the time of cooling dehumidification flowing into the blower outlet 3 side.

  On the other hand, the 2nd heat exchanger 5b is comprised from the fin and tube type heat exchanger with which the refrigerant | coolant tube which penetrates many heat-transfer fins arranged in parallel is arranged in the meandering form. The second heat exchanger 5b is disposed at a front lower position of the first heat exchanger 5a and inclined in the front-rear direction with the front facing upward, and water droplets generated in the first heat exchanger 5a are discharged from the blowout port 3. It can be prevented from being released indoors.

  The first heat exchanger 5a is a parallel flow type heat exchanger, and the second heat exchanger 5b is a fin-and-tube type heat exchanger, but is not limited thereto. Of course, the indoor heat exchanger 5 may be composed of a single heat exchanger in addition to a plurality of heat exchangers.

  When the air conditioning operation is performed in the indoor unit configured as described above, the blower fan 6 is activated and the indoor air is sucked from the suction port 2, and the indoor air passes through the dust collection filter 4 and comes into contact with the indoor heat exchanger 5. Then, heat-exchanged and air-conditioned indoor air is discharged into the room from the air outlet 3.

  As described above, the space in the cabinet 1 behind the blower fan 6 is utilized as the installation space for the indoor heat exchanger 5 by making the cabinet 1 wide in the left-right direction and flat with depth. Thus, the heat exchange efficiency of the indoor heat exchanger 5 can be increased.

  A drain pan 50 is provided so as to be inclined from the rear end of the first heat exchanger 5 a toward the bottom surface of the front cabinet 1, and a rear space 51 behind the cabinet 1 defined by the drain pan 50 is formed. . In addition, the cabinet 1 is attached to the wall surface W with the attitude | position which inclines upwards toward the front. Thereby, it becomes easy to blow the wind upward from the blower outlet 3, and it is possible to efficiently send the wind far away. Furthermore, since the cabinet 1 is attached to be inclined with respect to the wall surface W, the rear space 51 can be made wider.

  As described above, the dust collection filter 4 is interposed between the air inlet 2 for sucking air and the indoor heat exchanger 5. The dust collection filter 4 is composed of two plates, a first filter 10 and a second filter 11 having the same shape and formed in a flat plate and a rectangle. The first filter 10 and the second filter 11 are arranged in parallel to the suction port 2 on the downstream side of the suction port 2. Specifically, suction is performed so that the short direction of the filters 10 and 11 is the front-rear direction of the top surface (in other words, the longitudinal direction of the filters 10 and 11 is the left-right direction of the top surface). They are installed side by side on the same plane that is substantially horizontal on the downstream side of the mouth 2. The indoor unit is provided with a filter cleaning device 20 for cleaning the first filter 10 and the second filter 11.

  7 is a perspective view of the first filter 10. FIG. 8 is a cross-sectional view taken along line BB of FIG. 7, and FIG. 9 is a cross-sectional view taken along line CC of FIG. The second filter 11 has the same form as the first filter 10. As shown in FIG. 7, both filters (the first filter 10 and the second filter 11) are rectangular mesh filter portions 12 and a rectangular frame-like frame that supports the outer periphery of the mesh filter portions 12. Part 13. The mesh filter portion 12 is provided with a grid-like reinforcing portion 14 that is provided in the front and rear and right and left directions inside the frame portion 13 on the front and back surfaces of a synthetic resin filter made of a knitted or woven structure. The filter is reinforced by the portion 14.

  A rack portion 43 that can mesh with a drive gear 41 (to be described later) on the front and rear edges of the first filter 10 and the second filter 11 in order to move and convey the first filter 10 and the second filter 11 in the left-right direction. Is formed in the left-right direction. As shown in FIGS. 7 and 8, the rack portion 43 is formed in a corrugated shape on the front and rear outer sides of the frame portion.

  The rack portion 43 is formed in a corrugated shape that can be used even when the first filter 10 and the second filter 11 are reversed. Moreover, the height of the rack part 43 is set below the thickness of the frame part 13, as shown in FIG. That is, in the dust collection filter 4, the surrounding frame portion 13 is formed to be the thickest.

  Here, although the thickness of the frame part 13 and the reinforcement part 14 is not particularly limited, in the present embodiment, the frame part 13 and the reinforcement part 14 are formed to be relatively thin, approximately 1.0 mm to 1.5 mm. The thickness difference between the mesh filter portion 12 and the mesh filter portion 12 is small, and the dust is not left behind in the stepped portions (the corners of the frame portion 13 and the reinforcing portion 14) between them. Further, the frame portion 13 and the reinforcing portion 14 are integrally formed of the same synthetic resin. And each dust collection filter 4 can be accommodated in the frame bodies 15 and 16 also in the state reversed front and back.

  As shown in FIGS. 3 and 4, the filter cleaning device 20 includes a dust removing unit 21 that removes dust attached to the dust collection filter 4. The dust removal unit 21 is formed in a long and narrow box shape, and is installed in the center of the cabinet 1 so that the length direction matches the front-rear direction of the cabinet 1.

  An intake port 22 is formed on one end side (front end side) of the dust removing portion 21 in the length direction, and a suction fan is connected to the other end side (rear end side) as a suction device 23 that sucks air through a suction duct 24. Has been. As a result, it is possible to generate an air flow from one end side in the length direction of the dust removing portion 21 toward the other end side. A pair of cleaning brushes 28 for scraping off dust adhering to both the filters 10 and 11 are installed inside the dust removing portion 21.

  As described above, in the present embodiment, the dust removing portion 21 is installed at the center in the left-right direction of the cabinet 1 along the vertical direction (front-rear direction) of the dust collection filter 4. Compared with the case where the dust removing unit 21 is installed along the length, the length of the dust removing unit 21 can be shortened, and a decrease in the momentum (flow velocity) of the air flow can be suppressed.

  Moreover, as shown in FIG. 2, the suction device 23 is accommodated in the rear space 51 at the center in the left-right direction of the dust collection filter 4 and below the indoor heat exchanger 5a. Thus, by effectively utilizing the space below the indoor heat exchanger 5a, there is no need to provide extra space on the left and right sides of the indoor heat exchanger 5a, and accordingly the dimensions of the indoor heat exchanger 5a in the left-right direction. The heat exchange efficiency can be increased.

  Further, by arranging the suction device 21 as described above, the length of the suction duct 24 connecting the rear end of the dust removing portion 21 and the suction device 23 can be shortened, and the air flow in the suction duct 24 can be reduced. The pressure loss can be suppressed, and the decrease in the momentum (flow velocity) of the airflow flowing in the dust removing portion 21 can be suppressed.

  A dust collection box 25 that collects dust removed from the dust collection filter 4 is connected to the exhaust port of the suction device 23 and is accommodated in the rear space 51 together with the suction device 23. On the bottom surface of the cabinet 1, an unillustrated outlet is provided at a position below the dust box 25, and the dust box 25 can be taken out from the outlet.

  Note that an exhaust duct (not shown) for outdoor exhaust can be connected to the exhaust port of the suction device 23, and an exhaust duct or a dust collection box can be selectively connected. When connecting the exhaust duct, the suction device 23 is installed at the left and right central part of the cabinet 1, so that the length of the exhaust duct can be shortened even if it is led out from either the left or right side of the cabinet 1. Have

  As shown in FIG. 3, the first filter 10 and the second filter 11 constituting the dust collection filter 4 are arranged on both sides of the dust removal unit 21. And as shown to Fig.5 (a), the conveyance line L of the 1st filter 10 and the 2nd filter 11 which is parallel to the 1st filter 10 and the 2nd filter 11, and passes the inside of the dust removal part 21 is set, Common openings 26 and 26 for guiding the first filter 10 and the second filter 11 to the inside of the dust removing portion are formed at portions where the conveying line L intersects both side surfaces of the dust removing portion 21.

  An elastic member 27 made of rubber or the like is disposed on the contact surface between the opening 26 and the first filter 10 and the second filter 11. When the suction device 23 is operated when cleaning the dust collecting filter, the opening 26 is provided. In order to efficiently generate an air flow from one end side in the length direction of the dust removing portion 21 to the other end side, the air is mainly taken in from the intake port 22.

  A pair of cleaning brushes 28 and 28 are installed inside the dust removing portion 21. The cleaning brush 28 includes a cylindrical main body and a flocked portion provided around the main body, and the main body rotates to scrape dust adhering to the filter surface at the flocked portion. . The dust removing portion 21 is formed such that the center line in the length direction is linear, and the cleaning brushes 28 and 28 are arranged in parallel to the length direction of the dust removing portion 21 and facing each other. ing. The cleaning brushes 28 and 28 are arranged such that the first filter 10 or the second filter 11 passing between the openings 26 and 26 passes between the cleaning brushes 28 and 28.

  Further, as shown in FIGS. 5 and 6, the filter cleaning device 20 includes a parallel movement mechanism 30 that translates the first filter 10 and the second filter 11 to the conveyance line L, and a first set on the conveyance line L. A filter transport mechanism 40 that reciprocally moves one of the one filter 10 and the second filter 11 through the dust removing portion 21 to the other filter side is provided.

  The first filter 10 and the second filter 11 are accommodated in the first frame 15 and the second frame 16, respectively, as shown in FIG. In the first frame 15 and the second frame 16, the upper frame portions 15a and 16a and the lower frame portions 15b and 16b face each other with a certain gap, and the first filter 10 or the second filter 11 is opposed to the gap. It is a flat box shape that can be inserted. An insertion port 18 for inserting the first filter 10 and the second filter 11 is formed on the front surface of each of the frames 15 and 16. Moreover, the side port 17 is formed in the surface where the frame bodies 15 and 16 mutually oppose on both sides of the dust removal part 21 as an entrance / exit for the 1st filter 10 or the 2nd filter 11 to move the conveyance line L ( (See FIG. 5).

  The upper frame portions 15a and 16a and the lower frame portions 15b and 16b are formed with openings 19 that are partitioned in a lattice shape except for the peripheral edge portions. The air circulation in each of 11 is ensured. The frames 15 and 16 may be integrally formed, or the upper frame portions 15a and 16a and the lower frame portions 15b and 16b formed as separate members may be assembled. Further, as shown in FIG. 3, a notch 48 is formed in the center of the front end of each of the frames 15 and 16 for exposing part of the front end of the first filter 10 and the second filter 11. Accordingly, the first filter 10 and the second filter 11 exposed at the cut portion 48 can be easily picked and pulled out with the frame bodies 15 and 16 projecting outside the cabinet 1.

  As shown in FIG. 10, stoppers 45 for preventing the filters 10 and 11 from falling off are attached to the insertion openings 18 of the frames 15 and 16. The stopper 45 has an elongated plate shape, and its length and thickness are substantially the same as the width and thickness in the left-right direction of the filters 10 and 11, respectively. The stopper 45 is inserted into the insertion port 18 so that the length direction of the stopper is along the left-right direction of the insertion port 18 in a state where the first filter 10 and the second filter 11 are accommodated in the frames 15 and 16, respectively. insert.

  The stopper 45 regulates the movement of the frames 15 and 16 in the front-rear direction, and also functions as a guide for smoothly reciprocating the filters 10 and 11 during filter cleaning, as will be described later. The width of the stopper 45 is adjusted so that it does not protrude from the frame bodies 15 and 16 in a state where the stopper 45 is inserted into the insertion port 18.

  As shown in FIGS. 5 and 6, the first filter 10 and the second filter 11 are moved to the transport line L by the parallel moving mechanism 30 together with the first frame 15 or the second frame 16. The frame bodies 15 and 16 are placed on the guide 37 while being accommodated in the frame bodies 15 and 16, respectively, during air conditioner operation (for example, during heating operation or cooling operation), Dust in the air sucked from the suction port 2 is removed by the first filter 10 and the second filter 11.

  The first frame body 15 and the second frame body 16 are supported by two sets of guides 37 and 37 so as to be slidable forward of the cabinet. The first frame 15 is supported by a left guide 37 disposed on the left side of the dust removing unit 21 in FIG. The second frame body 16 is supported by a right guide 37 disposed on the right side of the dust removing portion 21 in FIG.

  Each guide 37 includes a pair of rails 37 a and 37 b having an L-shaped cross section extending along the length direction of the dust removing portion 21. The rails 37a and 37b are arranged at intervals in the left-right direction. In FIG. 5, the rail 37 a is disposed at the center portion (dust removing portion 21) in the left-right direction, and the rail 37 b is disposed on the outer side (inside the side surface of the cabinet 1) in the left-right direction. The left and right ends of 16 are supported.

  Further, as described above, the first filter 10 and the second filter on the front side of the cabinet 1 at the rear upper part of the louver 9 and ahead of the first filter 10 and the second filter 11 held on the guide 37. The outlets 7 and 7 for pulling out 11 respectively are formed. Each outlet 7 is provided with a protective cover 8 that can be opened and closed in the vertical direction (see FIGS. 1 and 2).

  When maintenance or replacement of the first filter 10 and the second filter 11 is performed, the lower part of the protective cover 8 is manually lifted and opened, and the first frame 15 and the second frame 16 are opened as shown in FIG. Is pulled forward along the guide 37 to remove the stopper 45. As a result, the frame bodies 15 and 16 are drawn out about a half of the length in the front-rear direction, and project beyond the blower fan 6 to the front of the cabinet 1.

  Note that when the frames 15 and 16 are pulled forward, a known mechanism such as a rack-pinion may be employed to automatically pull them out. Further, in this state, as shown in FIG. 11, by extracting the first filter 10 and the second filter 11 from both the frame bodies 15 and 16, both the filters 10 and 11 can be easily and smoothly taken out.

  The parallel movement mechanism 30 includes a first lift mechanism 31 and a second lift mechanism 32, and is installed below the first frame body 15 and the second frame body 16 placed on the guide 37, respectively. The filter 10 and the second filter 11 are separately pushed up from the lower side to the conveying line L for each frame.

  Specifically, the first lift mechanism 31 and the second lift mechanism 32 include two drive shafts 33a and a driven shaft 33b arranged in parallel, and cams attached to both ends of the drive shaft 33a and the driven shaft 33b. 34, 34, a motor 35 that rotates the drive shaft 33a, and a parallel link mechanism 36 that links the drive shaft 33a and rotates the driven shaft 33b.

  As described above, each of the first lift mechanism 31 and the second lift mechanism 32 includes four cams 34. When these cams 34 are rotated in synchronization by a motor 35, the frame bodies 15 and 16 are moved up and down. Can be moved in parallel. Specifically, when the cam 34 (the maximum diameter portion thereof) is in the horizontal direction, it does not come into contact with the frames 15 and 16, and when the cam 34 is in the vertical direction, the frame bodies 15 and 16 are lifted from the guide 37 and are conveyed. To move.

  A roller 38 is rotatably attached to the tip of each cam 34 (the maximum diameter portion). Accordingly, unnecessary friction is not generated between the cam 34 and the frame bodies 15 and 16 as the cam 34 rotates, and the first filter 10 or the second filter 11 is smoothly moved up and down together with the frame bodies 15 and 16. Can be translated.

  A pair of filter transport mechanisms 40 are installed on the opposite side of the parallel movement mechanism 30 across the transport line L, that is, above the transport line L and on both sides of the dust removing unit 21. Each filter transport mechanism 40 includes a pair of drive gears 41 and 41. The pair of drive gears 41 and 41 are attached to the rotating shaft 42 with a space therebetween. The rotating shaft 42 is installed in the vicinity of the dust removing unit 21 along the length direction of the dust removing unit 21. A motor 44 is connected to one end of the rotating shaft 42 as a drive source, and the driving of the motor 44 is controlled by a control unit described later.

  As shown in FIG. 7, the distance between the pair of drive gears 41 and 41 is the same as the distance X from the front end edge 10 a to the rear end edge 10 b of the first filter 10. Rack portions 43 that can mesh with the drive gear 41 are formed on the front edge 10 a and the rear edge 10 b of the first filter 10, respectively. The configuration of the second filter 11 is the same as that of the first filter 10.

  When one of the first filter 10 and the second filter 11 is moved to the conveyance line L by the parallel movement mechanism 30, the pair of drive gears 41 and 41 and the rack portion 43 are engaged, and the drive gear 41, By rotating 41, one filter is conveyed toward the other filter side.

  As shown in FIGS. 5 and 6, portions of the frames 15 and 16 corresponding to the drive gear 41 are notched to form a meshing hole 49 so that the drive gear 41 and the rack portion 43 can be directly engaged. Has been. Further, in each of the first frame body 15 and the second frame body 16, as described above, the side port 17 is formed on the side surface facing the dust removing portion 21, and the first filter 10 or The second filter 11 is movable in the left-right direction on the transport line L.

  When the first filter 10 or the second filter 11 is transported along the transport line L, the filter transport mechanism 40 drives not only the group installed on one filter side but also the group installed on the other filter side. . As a result, the entire filter can be passed through the dust removing unit 21.

  In the above configuration, when the operation of the air conditioner is started, the filter cleaning device 20 is configured so that the cabinet with the first filter 10 and the second filter 11 placed on the guide 37 as shown in FIG. Air is sucked in from the first suction port 2, and dust adheres to the surfaces of the first filter 10 and the second filter 11.

  In the cabinet 1, a control unit including an input circuit, a CPU, a memory, and an output circuit is provided. For example, when it is determined that the operation time of the air conditioner has reached a predetermined time, an optical sensor, etc. When it is determined that the surfaces of the first filter 10 and the second filter 11 are dirty based on the detection result, the operation of the suction device 23, the parallel movement mechanism 30, the filter transport mechanism 40, etc. is controlled to control the dust collection filter. Cleaning is performed.

  When cleaning the dust collection filter, the control unit first operates the first lift mechanism 31 as shown in FIG. 5B to lift the first filter 10 together with the first frame 15 from the guide 37, The filter transport mechanism 40 and the rack portion 43 are engaged with each other. Thereafter, the two sets of filter transport mechanisms 40 and 40 are operated, and the first filter 10 is transported toward the second filter 11 as shown in FIG. At the same time, the suction device 23 is operated to generate an air flow in the dust removing unit 21 and to rotate the cleaning brush 28 installed in the dust removing unit 21. Thereby, the dust adhering to the first filter 10 introduced into the dust removing unit 21 is lifted and lifted, and dust is blown off by the air flow to remove the dust.

  The first filter 10 uses the second frame 16 as a guide for the transport line L by the filter transport mechanism 40 installed above the second frame 16. That is, by using the upper surface of the upper frame portion 16a of the second frame body 16 as a guide for the transport line L, the first filter 10 slides on the upper surface and overlaps with the second filter 11 (folding position). ). When the control unit determines that the first filter 10 has reached the folding position based on the microswitch, the total number of rotations of the filter transport mechanism 40, and the like, the control section rotates the filter transport mechanisms 40, 40 in the opposite direction, When the filter 10 has been accommodated in the first frame 15, the filter transport mechanisms 40, 40 are stopped.

  Thereafter, the control unit lowers the first lift mechanism 31, places the first filter 10 together with the first frame 15 on the guide 37, and the first lift mechanism when the cam 34 is separated from the first frame 15. 31 is stopped. The above operation is similarly performed for the second filter 11 (see FIGS. 6A to 6C), and the dust collection filter cleaning is finished.

  In the present embodiment, the first filter 10 and the second filter 11 are placed on the guide 37 (on the same plane) when the dust collection filter is used (air conditioner operation such as cooling operation or heating operation). However, the present invention is not limited to this. For example, when the dust collection filter is used, the first filter 10 and the second filter 11 Both are arranged on the conveying line L (arranged on the same plane), and when cleaning the dust collecting filter, one filter is lowered and placed on the guide 37 to stand by at a position off the conveying line L. It is also possible to do.

  Alternatively, when using the dust collection filter, either the first filter 10 or the second filter 11 may be arranged on the transport line L, and the other may be placed on the guide 37. In this case, the first filter 10 and the second filter 11 are not installed on the same plane when the dust collection filter is used. Therefore, when cleaning the dust collecting filter, it is possible to clean from the filter disposed on the transport line L, and then to clean the other filter placed on the guide 37 by placing it on the transport line L. It is. At this time, the filter that has been cleaned later is placed on the transport line L without returning to the state before cleaning (in other words, the filter that was on the transport line L before cleaning and the filter that was on the guide 37). However, the arrangement location may be changed after cleaning). In this way, the number of parallel movements of the filter can be reduced, so that the cleaning time can be shortened and energy can be saved.

  In addition, this invention is not limited to the said embodiment, Of course, many corrections and changes can be added to the said embodiment within the scope of the present invention. For example, the structure which does not use the stopper 45 may be sufficient, for example. Further, for example, in the present embodiment, the suction device 23 is installed below the indoor heat exchanger 5a at the central portion in the left-right direction of the dust collection filter 4, but not limited thereto, as shown in FIG. Moreover, it is also possible to install the cabinet 1 so as to be adjacent to either the left or right of the indoor heat exchanger 5a. In this case, since the position of the suction device 23 is the same as the installation position of the ventilation fan in the conventional air conditioner, this ventilation fan can be used as the suction device 23, and there is no need to newly provide a suction device. . Moreover, since the dust removal part 21 is installed so that the dust removal part 21 may follow the vertical direction of the dust collection filter 4 irrespective of the position of the suction device 23, the length of the dust removal part 21 may be short, and airflow As described above, the decrease in momentum can be suppressed.

Indoor unit perspective view of an air conditioner showing an embodiment of the present invention AA sectional view of the indoor unit in FIG. Upper perspective view of filter cleaning device Upper perspective view of filter cleaning device It is a front view of a filter cleaning device, (a) is a state when using a dust collection filter, (b) is a state where the first filter is moved to the transport line, (c) is a state when the first filter is reciprocating. Are shown respectively. It is a front view of a filter cleaning device, (a) is a state when using a dust collection filter, (b) is a state where the second filter is moved to the transport line, (c) is a state when the second filter is reciprocating. Are shown respectively. Perspective view of the first filter BB sectional view of FIG. CC sectional view of FIG. Sectional drawing which shows the state which pulled out the frame in FIG. Sectional drawing which shows the state which pulled out the filter from the frame in FIG. The lower perspective view which shows another aspect about the installation position of a suction device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cabinet 2 Inlet 3 Outlet 4 Dust collection filter 5 Indoor heat exchanger 6 Blower fan 7 Outlet 8 Protective cover 9 Louver 10 First filter 11 Second filter 12 Mesh filter part 13 Frame part 14 Reinforcement part 15 First frame Body 16 Second frame 17 Side port 18 Insertion port 19 Opening 20 Filter cleaning device 21 Dust removal unit 22 Air inlet 23 Suction device 24 Suction duct 25 Dust collection box 26 Opening 27 Elastic member 28 Cleaning brush 30 Parallel movement mechanism 31 First lift Mechanism 32 Second lift mechanism 33 Shaft 34 Cam 35 Motor 36 Link mechanism 37 Guide 40 Filter transport mechanism 41 Drive gear 42 Rotating shaft 43 Rack portion 44 Motor 50 Drain pan 51 Rear space

Claims (7)

An air suction port is formed in the cabinet, a dust collection filter for removing dust in the air sucked from the suction port is provided, and the dust collection filter is passed inside at the center in the left-right direction of the cabinet. The dust removing portion is formed in a long and narrow box shape, the length direction of the dust removing portion is set along the vertical direction of the dust collecting filter, and an intake port is provided at one end in the length direction of the dust removing portion. A suction device is connected to the other end via a suction duct , an indoor heat exchanger is disposed below the dust collection filter, and the suction device is located at the center in the left-right direction of the dust collection filter. An air conditioner arranged below an indoor heat exchanger . The air conditioner according to claim 1, wherein the dust collection filter is reciprocated in the left-right direction in a state of penetrating the dust removing portion. The dust collection filter is composed of a first filter and a second filter disposed on both the left and right sides of the dust removal unit, so that the first filter and the second filter are alternately passed through the dust removal unit. The air conditioner according to claim 2, wherein The drain pan which inclines toward the front cabinet bottom face from the rear end of the indoor heat exchanger is provided, and the suction device is stored in a rear space of the cabinet partitioned by the drain pan . 4. The air conditioner according to any one of 3 . The air conditioner according to claim 4 , wherein a blower fan is installed in front of the indoor heat exchanger in the cabinet. The air conditioner according to claim 5 , wherein a dust collection box is connectable to an exhaust port of the suction device, and the dust collection box is installed in the rear space in a state of being connected to the exhaust port. . An exhaust duct for outdoor exhaust is connected to the exhaust port of the suction device, and the exhaust duct is disposed in the rear space so as to be led out from one of the left and right side surfaces of the cabinet. The air conditioning apparatus according to claim 4 .

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