JP4661881B2 - Air conditioner indoor unit - Google Patents

Description

  The present invention relates to an indoor unit of an air conditioner for air-conditioning an indoor space.

2. Description of the Related Art Conventionally, an indoor unit having a function of removing dust attached to an air filter is known as an indoor unit of an air conditioner that air-conditions an indoor space. For example, Patent Document 1 discloses an indoor unit that performs an auto-clean operation for automatically cleaning an air filter. In this indoor unit, when the auto clean operation is performed, the dust removed from the air filter is accumulated in the dust box. When the accumulated operation time of the indoor unit after the dust box is empty reaches a predetermined time, it is determined that the amount of dust in the dust box has reached a certain level, and it is necessary to remove the dust from the dust box. Is displayed on the main body display unit.
JP 2004-239449 A

  By the way, in an indoor unit of a conventional air conditioner, only one dust detection unit that detects whether the amount of dust in the dust storage unit has reached a certain level is provided. For this reason, when the dust detection unit fails, it is impossible to detect whether or not the amount of dust in the dust storage unit has reached a certain level.

  The present invention has been made in view of such a point, and an object of the present invention is to detect the amount of dust in the dust storage unit in an indoor unit of an air conditioner having a dust storage unit that stores dust removed from the air filter. It is to improve the reliability.

The first invention includes a casing in which an inlet (13) and an outlet (14) are formed, an indoor fan (21) that sends air sucked from the inlet (13) to the outlet (14), An air filter (30) that captures dust contained in the air sucked from the suction port (13), and air-conditions the air sucked from the suction port (13) from the air outlet (14) to the indoor space. Targets indoor units of air conditioners that blow out to The indoor unit includes a dust removing unit that removes dust trapped by the air filter (30) from the air filter (30), and a dust storage unit that stores dust removed from the air filter (30). Part (60, 90) and a first dust detector for individually detecting whether or not the dust storage state (60, 90) is in a dust reaching state in which the amount of dust reaches a certain level (36, 37) and a second dust detection unit (38, 71), and the first dust detection unit (36, 37) is configured to remove dust from the dust storage unit (60, 90). It has a measurement timer (37) that measures the accumulated operation time of the indoor fan (21) or the air conditioner, and detects whether or not the dust has reached the state based on the measurement time of the measurement timer (37). The second dust detector (38, 71) stores the dust in the dust reservoir (60, 90) to a predetermined height. A detection sensor (71) for detecting whether or not the dust has arrived, and detecting whether or not the dust reaches the state by the output of the detection sensor (71), and the first dust detection unit (36, 37) detects that the dust has reached when the measurement time of the measurement timer (37) or the time calculated from the measurement time reaches a predetermined reference time, while the first dust detection unit (36, 37), when the first dust detection unit (36, 37) detects that the dust has reached the state before the second dust detection unit (38, 71) detects When the second dust detection unit (38, 71) detects that the reference time has been changed to a longer time and the first dust detection unit (36, 37) has detected that the dust has reached the state. The reference time is changed to a short time .

  In the first invention, each of the first dust detector (36, 37) and the second dust detector (38, 71) has reached a certain level of dust in the dust reservoir (60, 90). It is individually detected whether or not it is in a dust reaching state. For this reason, even if one of the first dust detection unit (36, 37) and the second dust detection unit (38, 71) breaks down, it is detected whether the dust arrival state is reached on the other side. In the first aspect of the invention, the dust detection unit (36, 37, 38, 71) is configured so that even if one of the dust detection units (36, 37, 38, 71) breaks down, the function of detecting whether or not the dust reaches the state is not lost. 36, 37, 38, 71) are provided.

In the first invention, the first dust detection unit (36, 37) detects whether or not the dust reaches the state based on the measurement time of the measurement timer (37). On the other hand, a 2nd dust detection part (38,71) detects whether it is in the dust arrival state by the output of a detection sensor (71). In the first aspect of the invention, two types of dust detection units (a first dust detection unit (36, 37) using a measurement timer (37) and a second dust detection unit (38, 71) using a detection sensor (71) ( 36, 37, 38, 71).

In the first invention, when the indoor unit (1) is installed in an indoor space in which the amount of dust contained in the air is relatively small, there is a pace at which dust is stored in the dust storage section (60, 90). Relatively slow. For this reason, it takes a relatively long time to accumulate dust up to a height at which it is detected that the dust reaches the state by the output of the detection sensor (71). That is, the time until the second dust detector (38, 71) detects that the dust has reached is relatively long. On the other hand, when the indoor unit (1) is installed in an indoor space where the amount of dust contained in the air is relatively large, the pace at which the dust is stored in the dust storage portions (60, 90) becomes relatively fast. For this reason, the time until the second dust detector (38, 71) detects that the dust has reached is relatively long. Thus, the time until the second dust detection unit (38, 71) detects that the dust has reached the state changes according to the amount of dust contained in the air in the indoor space. And in this 1st invention, before detecting that the 2nd dust detection part (38,71) is in a dust arrival state, the 1st dust detection part (36,37) will be in a dust arrival state. If it is detected, the reference time is changed to a long time. On the other hand, when it is detected that the second dust detection unit (38, 71) is in the dust arrival state before the first dust detection unit (36, 37) is detected as being in the dust arrival state. The reference time is changed to a short time. That is, the reference time is changed according to the time until the second dust detector (38, 71) detects that the dust has reached the dust. Therefore, the reference time is adjusted according to the amount of dust contained in the air in the indoor space.

In a second aspect based on the first aspect , at least one of an upper limit time and a lower limit time of the reference time is set in the first dust detector (36, 37).

In the second invention, at least an upper limit time and a lower limit time with respect to a reference time that is changed according to the time until the second dust detection unit (38, 71) detects that the dust has reached the dust. One is set. Therefore, when the upper limit time of the reference time is set, until the second dust detection unit (38, 71) detects that the dust has reached the state due to erroneous detection of the detection sensor (71) or the like. The reference time is prevented from becoming extremely long when the time is extremely long. In addition, when the lower limit time of the reference time is set, it is necessary to detect that the second dust detection unit (38, 71) is in the dust arrival state due to erroneous detection of the detection sensor (71). When the time is extremely short, the reference time is prevented from being extremely short. In the second aspect of the invention, by providing a function of adjusting the reference time according to the amount of dust contained in the air in the indoor space, it is possible to prevent the reference time from being set to an extremely long time or a short time. .

According to a third aspect of the present invention, in the first or second aspect of the present invention, a cleaning sign output unit (33) that outputs a cleaning sign for notifying that dust needs to be removed from the dust storage unit (60, 90) 48), and when the cleaning sign output unit (33, 48) detects that the second dust detection unit (38, 71) is in the dust arrival state, the first cleaning sign is In the case where the dust reaching state is output, the operation is calculated from the operation accumulated time of the indoor fan (21) or the air conditioner from the output time of the first cleaning sign or the operation accumulated time. When the time reaches the determination time calculated from the reference time, the second cleaning sign is output.

In 3rd invention, when the 2nd dust detection part (38,71) detects that it has reached the dust arrival state, a 1st cleaning sign is output from the cleaning sign output part (33,48). . When the dust arrival state continues, the accumulated operation time of the indoor fan (21) or the air conditioner from the output of the first cleaning sign or the time calculated from the accumulated operation time reaches the determination time. In this case, the second cleaning sign is output from the cleaning sign output unit (33, 48). The determination time is a time calculated from the reference time. Further, as described above, the reference time is adjusted according to the amount of dust contained in the air in the indoor space. Therefore, along with the adjustment of the reference time, the determination time is also adjusted according to the amount of dust contained in the air in the indoor space.

According to a fourth aspect of the present invention, in the first or second aspect of the present invention, a cleaning sign output unit (33) that outputs a cleaning sign for notifying that dust needs to be removed from the dust storage unit (60, 90) 48), and the cleaning sign output unit (33, 48) detects that the first dust detection unit (36, 37) is in the dust arrival state, and the second dust detection Different cleaning signs are output when it is detected that the part (38, 71) is in the dust arrival state.

In 4th invention, when the 1st dust detection part (36,37) detects that the dust arrival state is detected, and the 2nd dust detection part (38,71) is the dust arrival state A cleaning sign is output when is detected. Different cleaning signs are output in the former case and the latter case. For this reason, it is identified whether it is a cleaning sign based on the output of the detection sensor (71) or a cleaning sign based on the measurement time of the measurement timer (37).

In a fifth aspect based on the first to fourth any one aspect of the invention, the dust portion (60, 90) comprises a first container (60) and a second container connected to each other (90) In the dust storage part (60, 90), the dust removed from the air filter (30) by the dust removal part (40, 50) passes through the first container (60) to the second container (90). On the other hand, the second dust detector (38, 71) detects whether or not dust has accumulated in the first container (60) to a predetermined height by the output of the detection sensor (71).

In the fifth invention, the dust removed by the dust removing section (40, 50) is sent to the second container (90) through the first container (60). For this reason, when the second container (90) becomes full, it cannot be sent from the first container (60) to the second container (90). Then, dust accumulates in the first container (60). In the fifth aspect of the invention, the detection sensor (71) is provided for the first container (60) on the upstream side when dust is sent. When the second dust detector (38, 71) detects that the dust has reached, the second container (90) is full and the first container (60) has accumulated dust to a predetermined height. It is in a state. That is, the dust storage part (60, 90) consisting of the first container (60) and the second container (90) is almost full.

  In the present invention, since at least two dust detectors (36, 37, 38, 71) for individually detecting whether or not dust has reached are provided, the dust detectors (36, 37, 38, 71) Even if one 71) breaks down, it is possible to detect whether or not dust has reached. Therefore, compared to the case where there is only one dust detection unit, the function of detecting whether or not dust has reached is less likely to be lost, so the amount of dust in the dust storage unit (60, 90) can be reduced. The reliability of the function to detect can be improved.

In the present invention, two types of dust detection units (36, 37), a first dust detection unit (36, 37) using a measurement timer (37) and a second dust detection unit (38, 71) using a detection sensor (71), are used. 37, 38, 71). Here, since the configurations of the detection sensor (71) and the measurement timer (37) are different, the life and durability are different. Therefore, there is a low possibility that the first dust detection unit (36, 37) and the second dust detection unit (38, 71) will break down in the near future, and the first dust detection unit (36, 37) and the second dust detection unit. Both (38, 71) are less likely to fall into a state of failure. For this reason, the reliability of the function which detects the amount of dust in a dust storage part (60,90) can further be improved.

In the present invention, the reference time is changed to the air in the indoor space by changing the reference time according to the time until the second dust detection unit (38, 71) detects that the dust has reached the dust. It is adjusted according to the amount of dust contained. Accordingly, since the time until the first dust detection unit (36, 37) detects that the dust has reached is changed according to the amount of dust contained in the air in the indoor space, the first dust detection unit (36, 37) makes it possible to accurately detect whether or not dust is reached.

In the second aspect , since at least one of the upper limit time and the lower limit time of the reference time is set, by providing a function of adjusting the reference time according to the amount of dust contained in the air in the indoor space, On the contrary, the reference time is prevented from being changed to an extremely long time or a short time. Therefore, by providing a function for adjusting the reference time according to the amount of dust contained in the air in the indoor space, it is possible to prevent the accuracy of the detection result by the first dust detection unit (36, 37) from being impaired. Can do.

In the third aspect , the determination time for determining whether or not to output the second cleaning sign is adjusted according to the amount of dust contained in the air in the indoor space. Accordingly, whether or not to output the second cleaning sign is determined based on the adjusted determination time corresponding to the amount of dust contained in the air in the indoor space. Can be output.

In the fourth aspect of the invention, the cleaning sign based on the output of the detection sensor (71) or the cleaning sign based on the measurement time of the measurement timer (37) is identified. For this reason, the user recognizes whether the cleaning sign is based on the output of the detection sensor (71) or the cleaning sign based on the measurement time of the measurement timer (37), and then the dust storage unit (60, 90 It is possible to determine whether or not to remove dust inside.

In the fifth aspect , the first container (60) and the second container (90) are provided by providing the detection sensor (71) with respect to the first container (60) on the upstream side when dust is sent. It is detected whether or not the dust storage part (60, 90) consisting of is almost full. Therefore, while preventing excessive accumulation of dust in the dust storage part (60,90), the capacity of the dust storage part (60,90) is maximized and a large amount of dust is stored in the dust storage part (60,90). It becomes possible to do.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  This embodiment is an indoor unit (1) of an air conditioner according to the present invention. This indoor unit (1) is a ceiling-mounted indoor unit installed on the ceiling of the indoor space. The indoor unit (1) is provided with a so-called cleaning function that automatically cleans the air filter (30). The air conditioner includes a refrigerant circuit that performs a vapor compression refrigeration cycle, and is configured to be capable of performing a cooling operation and a heating operation as an air conditioning operation. Of the components connected to the refrigerant circuit, the indoor unit (1) is provided with an indoor heat exchanger (22).

  As shown in FIGS. 1 and 2, the indoor unit (1) includes a casing (20) composed of a substantially rectangular parallelepiped box-shaped main body casing (10) and a rectangular plate-shaped decorative panel (11). . The main casing (10) is installed behind the ceiling. The main casing (10) includes an upper casing (10a) and a lower casing (10b) attached to the lower portion of the upper casing (10a). A heat insulating material (17) is laminated on the inner surface of the upper casing (10a).

  The decorative panel (11) has a suction port (13) and a blowout port (14). The suction port (13) is formed at the center of the suction grille (12) of the decorative panel (11). The suction port (13) is composed of a plurality of slits, and is formed in a substantially square shape as a whole.

  The air outlet (14) is formed between the suction grill (12) and the outer peripheral portion of the decorative panel (11). The blower outlet (14) is formed along the entire periphery of the outer periphery of the decorative panel (11). In the indoor unit (1), the air outlet (14) is formed not only in the portion along each side of the outer periphery of the decorative panel (11) but also in each corner portion. Further, the suction grill (12) is formed with an insertion port (18) for removing dust from a dust storage portion (60, 90) described later.

  The decorative panel (11) is attached to the main casing (10) so as to cover the lower side of the main casing (10). In this state, the front surface (lower surface) of the decorative panel (11) is exposed to the indoor space, and the outer peripheral portion of the rear surface (upper surface) of the decorative panel (11) contacts the ceiling plate (16).

  Each corner part of the decorative panel (11) is constituted by a corner panel (45) as shown in FIG. Each corner panel (45) is removable from the main body of the decorative panel (11). One of the four corner panels (45) is provided with a lighting part (33) that is lit by the control of a control part (35) described later. The lighting part (33) includes a light emitting part composed of three LEDs (light emitting diodes) and a light diffusing part made of transparent acrylic resin. The light emitting unit is composed of two green LEDs and one red LED. Moreover, the lighting part (33) is an exposed part with one end face exposed to the indoor space. In the lighting part (33), when the light emitting part emits light, light from the light emitting part enters the light diffusing part, and the incident light is emitted from the exposed part of the light diffusing part.

  An indoor heat exchanger (22), a drain pan (23), and an indoor fan (21) are provided inside the upper casing (10a). In addition, as shown in FIG. 4, an air filter (30), a filter drive unit (40), a brush unit (50), a dust collection container (60), and a dust reservoir are placed inside the lower casing (10 b). A container (90) is provided. The filter driving unit (40) and the brush unit (50) constitute a dust removing unit (40, 50). The dust collection container (60) and the dust storage container (90) constitute a dust storage part (60, 90). In the dust storage section (60, 90), the dust collection container (60) becomes the first container, and the dust storage container (90) becomes the second container.

  The indoor fan (21) is a so-called turbo fan. The indoor fan (21) is disposed near the middle of the upper casing (10a). The indoor fan (21) includes a fan motor (21a) and an impeller (21b). The fan motor (21a) is fixed to the top plate of the upper casing (10a). The impeller (21b) is connected to the rotation shaft of the fan motor (21a). A bell mouth (24) communicating with the suction port (13) is provided below the indoor fan (21). The indoor fan (21) is configured to blow out air sucked from below through the bell mouth (24) in the circumferential direction.

  The indoor heat exchanger (22) is a cross-fin type fin-and-tube heat exchanger. The indoor heat exchanger (22) is formed in a square shape in plan view, and is disposed so as to surround the periphery of the indoor fan (21). In the indoor heat exchanger (22), heat is exchanged between the indoor air sent by the indoor fan (21) and the refrigerant.

  The drain pan (23) is provided below the indoor heat exchanger (22). The drain pan (23) is for receiving drain water generated by condensation of moisture in the air in the indoor heat exchanger (22). The drain pan (23) is provided with a drain pump for draining drain water (not shown).

  The air filter (30) is for capturing dust in the air from the suction port (13) toward the bell mouth (24). The air filter (30) is formed in a disk shape. The air filter (30) is attached so as to cover a circular vent formed in the partition plate (25) at the upper end of the lower casing (10b). The air filter (30) is rotatably attached to the center of a rib (not shown) that divides the vent hole of the partition plate (25) into four parts. A filter-side gear portion is formed on the outer peripheral surface of the air filter (30) (not shown).

  The filter drive unit (40) includes a motor and a motor-side gear unit that is rotated by the motor. The filter drive part (40) is provided outside the air filter (30) so that the motor side gear part meshes with the filter side gear part. The filter drive unit (40) rotates the air filter (30) by the rotation of the motor during a cleaning operation in which dust is removed from the air filter (30) by a brush unit (50) described later.

  The brush unit (50) is for removing dust trapped by the air filter (30). The brush unit (50) is attached to a dust collecting container (60) described later. The brush unit (50) includes a rotating brush (51) that contacts the air filter (30), and a brush drive unit (53) that rotates the rotating brush (51). In the brush unit (50), the brush drive unit (53) rotates the rotating brush (51) during the cleaning operation.

  As shown in FIG. 5, in the dust collecting container (60), the upper part is a storage part (61) for storing the brush unit (50), and the lower part is the dust removed from the air filter (30). It becomes the storage part (62) which accumulates. In the storage part (62), a first window part (64) and a second window part (65) made of a transparent member are provided in a part facing a light emitting LED (72) and a phototransistor (73) described later. It has been. Dust scraped from the air filter (30) by the rotating brush (51) and the cleaning brush (52) provided in the storage unit (61) are scraped from the rotating brush (51) to the reservoir (62). The dropped dust accumulates.

  A damper box (81) having a first chamber and a second chamber formed therein is connected to the dust collecting container (60). The damper box (81) is provided with a damper (82) that opens and closes the communication port between the first chamber and the second chamber. An introduction duct (86) that opens above the bell mouth (24) is connected to the upper surface of the first chamber. When the indoor fan (21) is operated with the damper (82) set to the open state, the air blown from the indoor fan (21) is passed through the introduction duct (86) and the damper box (81) to collect the dust collecting container (60 ), The dust in the dust collection container (60) is transferred to the dust storage container (90). The damper (82) is set to an open state during the air conditioning operation.

  Further, a suction duct (87) communicating with the insertion port (18) is connected to the lower surface of the second chamber of the damper box (81). When the dust suction port of the vacuum cleaner is connected to the insertion port (18) and the vacuum cleaner is operated, the dust in the dust storage container (90) and the dust collection container (60) is sucked by the vacuum cleaner.

  The dust container (90) is disposed below the air filter (30) and is connected to the dust collecting container (60) via the transfer duct (88). An exhaust port (91) is formed in the dust container (90). A filter (92) is attached to the exhaust port (91). The exhaust port (91) communicates with the outside of the casing (20) through the exhaust passage (19) of the lower casing (10b).

  In this embodiment, as shown in FIG. 5, a detection sensor (71) for detecting the amount of dust stored in the dust collection container (60) is provided for the dust collection container (60). . The detection sensor (71) is composed of an optical sensor. The detection sensor (71) is accommodated in the sensor box (70) attached to the storage part (62) of the dust collection container (60).

  The detection sensor (71) includes a pair of light emitting LEDs (72) and a phototransistor (73) installed at the same height. The light emitting LED (72) and the phototransistor (73) are provided at a height slightly lower than the middle height of the reservoir (62). In the detection sensor (71), the light emitted from the light emitting LED (72) sequentially passes through the first window (64) and the second window (65), and the intensity of the transmitted light is determined by the phototransistor (73). ) Is detected. The detected light intensity detected by the phototransistor (73) is output to the control unit (35) described later. According to the detection sensor (71), it is detected that the dust is stored in the dust collection container (60) up to the height of the detection sensor (71) when the detection light intensity is equal to or less than a determination light intensity described later.

-Control unit configuration-
The indoor unit (1) of the present embodiment is provided with a control unit (35) that controls the air conditioning operation and the cleaning operation. The control unit (35) is provided on the control board (31) in the control box (32) in which the lower casing (10b) is accommodated.

  In addition, the indoor unit (1) is provided with a cleaning sign output unit (33, 48) for outputting a cleaning sign for notifying that it is necessary to remove dust from the dust storage unit (60, 90). Yes. The cleaning sign output unit (33, 48) includes a lighting unit (33) of the decorative panel (11) and a remote controller (48) through which the user inputs power on / off and the like. The control of the cleaning sign output unit (33, 48) is performed by the control unit (35).

  Further, as shown in FIG. 6, the remote control (48) includes a liquid crystal display (34) for displaying a set temperature, a reset button (55) that constitutes a prohibition release input part, and a remote control constituted by LEDs. A lighting part (56) is provided. The reset button (55) is also provided on the control board (31) constituting the control unit (35).

  The control unit (35) is configured to determine whether or not to output the cleaning sign, and to output the cleaning sign to the cleaning sign output unit (33, 48) when it is determined to output the cleaning sign. Yes. As shown in FIG. 6, the control unit (35) includes a measurement timer (37), a first output determination unit (36), a second output determination unit (38), and an output instruction unit (39). The first output determination unit (36) and the measurement timer (37) constitute a first dust detection unit (36, 37). Moreover, the 2nd output determination part (38) and the detection sensor (71) comprise the 2nd dust detection part (38,71). Whether the first dust detector (36, 37) and the second dust detector (38, 71) are in a dust arrival state in which the amount of dust in the dust reservoir (60, 90) has reached a certain level. Each is individually detected.

  The indoor unit (1) is configured to output four types of cleaning signs, that is, a caution sign, a warning sign, a first abnormality sign, and a second abnormality sign. The warning sign corresponds to the first cleaning sign. The first abnormal sign corresponds to the second cleaning sign.

  The measurement timer (37) is configured to measure the accumulated operation time of the indoor fan (21). When the measurement timer (37) detects that the detected light intensity detected by the phototransistor (73) has changed from a state below the determination light intensity described later to a state exceeding the determination light intensity, the dust storage unit (60, 90) It is reset as if the dust was removed from the inside. The measurement timer (37) is also reset when the reset button (55) is input while the detected light intensity exceeds the determination light intensity. In the measurement timer (37), the accumulated operating time of the indoor fan (21) after removing dust from the dust storage part (60, 90) (however, immediately after the installation of the indoor unit (1) The first accumulated time which is the accumulated operation time of the indoor fan (21) from is measured.

  The first output determination unit (36) is configured to determine whether or not to output a caution sign based on the measurement time (first integration time) of the measurement timer (37). In the first output determination unit (36), an initial value (for example, 8760 hours = 1 year) of the reference time Tsd for determining whether or not to output a caution sign is preset. When the measurement time of the measurement timer (37) reaches the reference time Tsd, the first output determination unit (36) determines to output a caution sign.

  The second output determining unit (38) is configured to determine whether or not to output a warning sign based on the light intensity detected by the phototransistor (73). A determination light intensity for determining whether or not to output a warning sign is preset in the second output determination unit (38). The second output determination unit (38) determines to output a warning sign when the detected light intensity is equal to or less than the determination light intensity. The second output determination unit (38) reads the detection light intensity of the phototransistor (73) every time a dust transfer operation described later is completed, and detects the phototransistor (73) at a constant cycle after the warning sign is output. Read the light intensity.

  In addition, the control unit (35) of the present embodiment opens the damper (82) so that the light intensity detected from the phototransistor (73) does not fall below the determination light intensity before the dust container (90) becomes full. Thus, the dust carrying operation for carrying the dust in the dust collecting container (60) to the dust storing container (90) by operating the indoor fan (21) is performed. Specifically, the control unit (35) performs a dust transfer operation every time after the cleaning operation is completed. For this reason, when the second output determination unit (38) decides to output a warning sign, the dust container (90) is full unless the transport duct (88) is clogged, and the dust trap Dust accumulated in the collection container (60) cannot be transferred to the dust storage container (90). In this embodiment, the amount of dust stored at the warning sign is at the first level. The first level is the amount of storage that can still afford the dust collection container (60) to be full.

  The second output determination unit (38) is configured to determine whether or not to output the first abnormality sign. The second output determination unit (38) outputs the first abnormality sign based on the second integrated time that is the integrated operation time of the indoor fan (21) from the time when it is determined that the first level has been reached. Determine whether or not. Specifically, the second output determination unit (38) stores the measurement time of the measurement timer (37) at the time when it is determined that the first level has been reached. Then, the second output determination unit (38) calculates the second integrated time from the difference between the current measurement time of the measurement timer (37) and the stored time, and the second integrated time is a predetermined first determination time. When T1 is reached, it is determined to output the first abnormal signature. The first determination time T1 is calculated by the following equation 1. In the following formula 1, A represents a predetermined first coefficient (for example, A = 0.04).

Formula 1: T1 = Tsd × A
In this embodiment, as shown in FIG. 7, the amount of dust stored at the stage of the first abnormality sign is the second level with a larger amount of dust than the first level. The second level assumes that the dust collection container (60) is almost full and the brush unit (50) etc. does not fail but the function of the brush unit (50) etc. starts to decline. is doing. After reaching the second level, dust may fall from the dust collection container (60) into the indoor space, or dust may remain on the air filter (30) even if a cleaning operation is performed.

  Further, the second output determination unit (38) is configured to determine whether or not to output a second abnormal sign. The second output determination unit (38) outputs a second abnormality sign based on the third integrated time which is the integrated operation time of the indoor fan (21) from the time when it is determined that the second level has been reached. Determine whether or not. Specifically, the second output determination unit (38) stores the measurement time of the measurement timer (37) when it is determined that the second level has been reached. Then, the second output determination unit (38) calculates a third integration time from the difference between the current measurement time of the measurement timer (37) and the stored time, and the third integration time is a predetermined second determination time. When T2 is reached, it is determined to output the second abnormal sign. The second determination time T2 is calculated by Expression 2 shown below. In the following Expression 2, B represents a predetermined second coefficient (for example, B = 0.04). The second coefficient is the same value as the first coefficient.

Formula 2: T2 = Tsd × B
In this embodiment, the amount of dust stored at the stage of the second abnormal sign is the third level with a larger amount of dust than the second level. The third level assumes a state in which dust is accumulated in the dust collecting container (60) as the brush unit (50) or the like is broken. After reaching the third level, the situation where the brush unit (50) does not rotate, the situation where dust falls from the dust collection container (60), or the dust storage part (60, 90) There is a possibility that the dust inside cannot be collected.

  The output instruction unit (39) causes the cleaning sign output unit (33, 48) to output a caution sign when the first output determination unit (36) determines the output of the caution sign. In the case of a caution sign, the cleaning sign is output only from the remote control (48). In the remote control (48), a character prompting the user to remove dust from the dust storage part (60, 90) is displayed in accordance with an output instruction from the output instruction part (39). Specifically, characters “Please clean the dust box” are displayed on the liquid crystal display unit (34).

  The output instruction unit (39) causes the cleaning sign output unit (33, 48) to output a warning sign when the second output determination unit (38) determines the output of the warning sign. In the case of a warning sign, a cleaning sign is output from each of the lighting part (33) and the remote control (48). In the lighting section (33), the red LED of the light emitting section is turned on by an output instruction from the output instruction section (39). In the remote control (48), in response to an output instruction from the output instruction section (39), the letters “Please clean the dust box” are displayed on the liquid crystal display section (34) as in the case of the caution sign.

  When the reset button (55) is input by the user, the output instruction unit (39) causes the cleaning sign output unit (33, 48) to stop outputting the warning sign. Thereby, the red LED is turned off in the lighting section (33). However, as long as the detected light intensity is kept below the determination light intensity, the output instruction unit (39) performs the third determination with the predetermined operation accumulated time of the indoor fan (21) from the input of the reset button (55). Whenever the time T3 (for example, 2 hours) is reached, the cleaning sign output unit (33, 48) outputs a warning sign. The third determination time T3 is set to be shorter than the first determination time T1 and the second determination time T2.

  Further, the output instruction unit (39) causes the cleaning sign output unit (33, 48) to output the first abnormality sign when the second output determination unit (38) determines the output of the first abnormality sign. In the case of the first abnormal sign, a cleaning sign is output from each of the lighting unit (33) and the remote control (48). In the lighting section (33), the red LED of the light emitting section blinks in response to an output instruction from the output instruction section (39). On the remote control (48), the word “Please clean the dust box” is displayed on the liquid crystal display (34) and the remote control lighting (56) is turned on by the output instruction from the output instruction (39). Flashes.

  In the present embodiment, when the output of the first abnormality sign is determined, the control unit (35) is configured to prohibit the air conditioning operation and the cleaning operation. In the indoor unit (1), simultaneously with the output of the first abnormality sign, the air conditioning operation is prohibited and the cleaning operation is prohibited and the cleaning is prohibited.

  In this state, when the reset button (55) is input, the output instruction unit (39) causes the cleaning sign output unit (33, 48) to stop outputting a part of the first abnormality sign. Further, the control unit (35) temporarily cancels the air conditioning prohibition state and the cleaning prohibition state even if the dust storage unit (60, 90) is not cleaned. Thereby, the lighting part (33) and the remote control lighting part (56) are turned off. In the liquid crystal display unit (34), the display of the cleaning sign is continued. Moreover, the indoor unit (1) is in a state where air conditioning operation and cleaning operation are possible.

  However, as long as the detected light intensity remains below the determination light intensity, every time the integrated operation time of the indoor fan (21) from the input of the reset button (55) reaches the third determination time T3, an output instruction is issued. The unit (39) blinks the lighting unit (33) and the remote control lighting unit (56) again, and the control unit (35) again prohibits the air conditioning operation and the cleaning operation. The air conditioning prohibition state and the cleaning prohibition state are canceled only while the lighting section (33) and the remote control lighting section (56) stop blinking.

  The output instructing unit (39) causes the cleaning sign output unit (33, 48) to output the second abnormal sign when the second output determining unit (38) determines the output of the second abnormal sign, Is displayed on the remote control (48) indicating that the dust storage part (60, 90) is. In the case of the second abnormal sign, a cleaning sign is output from each of the lighting unit (33) and the remote control (48). In the lighting section (33), the red LED of the light emitting section blinks in response to an output instruction from the output instruction section (39). In the remote control (48), the remote control lighting section (56) blinks and an abnormal code is displayed on the liquid crystal display section (34). The liquid crystal display (34) also displays the contact information of the service center that performs maintenance of the air conditioner, along with the abnormality code.

  In the present embodiment, the control unit (35) is configured to continue prohibiting the air conditioning operation and the cleaning operation even after the second abnormality sign. In this indoor unit (1), when the air conditioning operation and the cleaning operation are temporarily canceled by the input of the reset button (55), the air conditioning operation is prohibited at the same time as the output of the second abnormality sign. And the cleaning operation is prohibited and the cleaning is prohibited.

  In this state, when the reset button (55) is input by the user, the output instruction unit (39) causes the cleaning sign output unit (33, 48) to stop outputting the second abnormal sign. Further, the control unit (35) temporarily cancels the air conditioning prohibition state even if the dust storage unit (60, 90) is not cleaned. In this embodiment, only the air conditioning prohibition state is canceled, and the cleaning prohibition state can be canceled only until the output of the second abnormality sign is determined. After the output of the second anomaly sign is determined, the control unit (35) is in a prohibited state unless the dust storage unit (60, 90) is cleaned even if the reset button (55) is input. Do not cancel. Thereby, the lighting part (33) and the remote control lighting part (56) are turned off. In the liquid crystal display unit (34), the display of the abnormal code is continued. And indoor unit (1) will be in the state in which an air-conditioning driving | operation is possible.

  However, as long as the detected light intensity remains below the determination light intensity, every time the integrated operation time of the indoor fan (21) from the input of the reset button (55) reaches the third determination time T3, an output instruction is issued. The unit (39) blinks the lighting unit (33) and the remote control lighting unit (56) again, and the control unit (35) again prohibits the air conditioning operation. The air conditioning prohibition state is canceled only while the lighting section (33) and the remote control lighting section (56) are stopped blinking.

  In the present embodiment, the measurement timer (37) is reset by the user inputting the reset button (55) until the warning sign is output. At this time, if the cleaning sign is issued, the cleaning sign is canceled. In addition, after the warning sign is output, the user removes the dust from the dust reservoir (60, 90), so that the detection intensity of the phototransistor (73) exceeds the determination intensity, and the measurement timer (37) automatically Reset automatically. At this time, if the cleaning sign is issued, the cleaning sign is canceled.

  Moreover, in this embodiment, a control part (35) lights up two green LED of a lighting part (33) continuously during an air conditioning operation, and turns on two green LED of a lighting part (33) during a cleaning operation. It is configured to blink. However, the remote control (48) is provided with a lighting operation button (54) so that the user can select whether or not to turn on the lighting part (33). In the control unit (35), the first setting for lighting the lighting unit (33) during the air-conditioning operation and the cleaning operation each time the lighting operation button (54) is input, and the lighting unit (33) not lighting the lighting unit (33). Switch between 2 settings. In addition, even if it is set to the 2nd setting, a control part (35) will light a lighting part (33), when the output of a warning sign, a 1st abnormality sign, and a 2nd abnormality sign is determined. .

  In the present embodiment, a learning function is provided for learning the reference time Tsd so that the time corresponds to the amount of dust in the air in the indoor space in which the indoor unit (1) is installed. Specifically, the first output determination unit (36) changes the reference time Tsd to a longer time when the output of the caution sign is determined before the output of the warning sign is determined. In this case, the reference time Tsd is changed to a value Tsd ′ obtained by Expression 3 shown below. In Equation 3 below, Tsd represents the reference time before the change, Tsd ′ represents the reference time after the change, and C represents a third coefficient larger than 1 (for example, C = 1.2). .

Formula 3: Tsd ′ = Tsd × C
The first output determination unit (36) changes the reference time Tsd to a short time when the warning sign output is determined before the attention sign output is determined. In this case, the reference time Tsd is changed to a value Tsd ′ obtained by Expression 4 shown below. In Expression 4 below, D represents a fourth coefficient less than 1 (for example, D = 0.7).

Formula 4: Tsd ′ = Tsd × D
Note that an upper limit time (for example, 10800 hours) and a lower limit time (for example, 900 hours) of the reference time Tsd are set in the first output determination unit (36), respectively. When the changed reference time Tsd ′ exceeds the upper limit time, the changed reference time Tsd ′ is set to the upper limit time, and when the changed reference time Tsd ′ falls below the lower limit time, the changed reference time Time Tsd ′ is set to the lower limit time. For this reason, the reference time Tsd is not adjusted to an extremely short time or a long time due to erroneous detection of the detection sensor (71).

  In the present embodiment, in an indoor environment where the amount of dust in the air is relatively large, the dust is stored in the dust storage part (60, 90) in a relatively short time. Therefore, the dust is removed from the dust storage part (60, 90). The time from when the warning sign is output becomes relatively short. In such a case, the reference time Tsd is adjusted to a short time by the learning function. On the other hand, in an indoor environment where the amount of dust in the air is relatively small, the time from when dust is removed from the dust reservoir (60, 90) until the warning sign is output is relatively long. In such a case, the reference time Tsd is adjusted to a long time by the learning function. Thus, in this embodiment, since the reference time Tsd is adjusted according to the output timing of the warning sign, the reference time Tsd is adjusted to a time according to the amount of dust in the air in the indoor space. Therefore, a caution sign is output at an appropriate timing.

  The first determination time T1 for determining whether or not to output the first abnormal sign and the second determination time T2 for determining whether or not to output the second abnormal sign are based on the reference time Tsd. Calculated. Therefore, the first determination time T1 and the second determination time T2 are changed with the change of the reference time Tsd. Specifically, in an indoor environment where the amount of dust in the air is relatively large, the first determination time T1 and the second determination time T2 are adjusted to a short time, and in an indoor environment where the amount of dust in the air is relatively small, The determination time T1 and the second determination time T2 are adjusted to a long time. Similarly to the reference time Tsd, the first determination time T1 and the second determination time T2 are also changed to a time corresponding to the amount of dust in the air in the indoor space. Accordingly, the warning sign and the second abnormal sign are output at an appropriate timing.

  In the second output determination unit (38), a lower limit time (for example, 100 hours) of the first determination time T1 and a lower limit time (for example, 100 hours) of the second determination time T2 are set. When the first and second determination times T1 and T2 after the change are less than the lower limit time, the first and second determination times T1 and T2 after the change are set to the lower limit time. For this reason, the first and second determination times T1 and T2 are not adjusted to an extremely short time or a long time.

-Effect of the embodiment-
In this embodiment, since it has at least two dust detectors (36, 37, 38, 71) that individually detect whether or not dust has reached, the dust detector (36, 37, 38). , 71), it is possible to detect whether or not the dust reaches the state even if one breaks down. Therefore, compared to the case where there is only one dust detection unit, the function of detecting whether or not dust has reached is less likely to be lost, so the amount of dust in the dust storage unit (60, 90) can be reduced. The reliability of the function to detect can be improved.

  In the present embodiment, two types of dust detection units (a first dust detection unit (36, 37) using a measurement timer (37) and a second dust detection unit (38, 71) using a detection sensor (71) ( 36, 37, 38, 71). Here, since the configurations of the detection sensor (71) and the measurement timer (37) are different, the life and durability are different. Therefore, in this embodiment, it is unlikely that the first dust detection unit (36, 37) and the second dust detection unit (38, 71) will break down in the near future, and the first dust detection unit (36, 37) It is difficult to fall into a state where both of the second dust detection units (38, 71) do not function. For this reason, the reliability of the function which detects the amount of dust in a dust storage part (60,90) can further be improved.

  In the present embodiment, the reference time is changed according to the time until the second dust detector (38, 71) detects that the dust has reached the reference time, so that the reference time is the air in the indoor space. Is adjusted in accordance with the amount of dust contained in the. Accordingly, since the time until the first dust detection unit (36, 37) detects that the dust has reached is changed according to the amount of dust contained in the air in the indoor space, the first dust detection unit (36, 37) makes it possible to accurately detect whether or not dust is reached.

  In this embodiment, since the upper limit time and the lower limit time of the reference time are set, it is possible to prevent the reference time from being changed to an extremely long time or a short time by providing a reference time learning function. Is done. Therefore, by providing a learning function for the reference time, it is possible to prevent the accuracy of the detection result by the first dust detection unit (36, 37) from being impaired.

  In the present embodiment, the determination time for determining whether to output the first and second abnormal signs is adjusted according to the amount of dust contained in the air in the indoor space. Accordingly, whether or not to output the first and second abnormal signs is determined based on the adjusted determination time corresponding to the amount of dust contained in the air in the indoor space. It can be output at an appropriate timing.

  In the present embodiment, different cleaning signs are output when the cleaning sign is based on the output of the detection sensor (71) and when the cleaning sign is based on the measurement time of the measurement timer (37). Therefore, since it is identified whether it is a cleaning sign based on the output of the detection sensor (71) or a cleaning sign based on the measurement time of the measurement timer (37), the user can use the output of the detection sensor (71). To determine whether or not to remove dust from the dust reservoir (60, 90) after recognizing whether it is a cleaning sign based on the measurement time of the measurement timer (37) Can do.

  Moreover, in this embodiment, the detection sensor (71) is comprised with the optical sensor which can detect the height in a dust storage part (60,90) correctly. For this reason, in the state where the warning sign is output by the output of the detection sensor (71), the dust is stored in the dust storage part (60, 90) to a predetermined height unless there is a trouble such as a failure in the detection sensor (71). Have accumulated. For this reason, the warning sign accurately indicates that it is necessary to remove the dust from the dust reservoir (60, 90). On the other hand, the caution sign based on the measurement time of the measurement timer (37) does not directly detect the amount of dust in the dust reservoir (60, 90). For this reason, the caution sign does not accurately indicate that it is necessary to remove the dust from the dust reservoir (60, 90) as accurately as the warning sign. Therefore, the user can recognize whether it is necessary to remove dust from the dust reservoir (60, 90) by recognizing whether the sign is a caution sign or a warning sign.

  In the present embodiment, the dust collection container (60) and the dust storage container (90) are provided with a detection sensor (71) for the dust collection container (60) on the dust sending side. It is detected whether the part (60, 90) is almost full. That is, the state before the dust overflows from the dust storage part (60, 90) is detected. Therefore, while preventing the dust from overflowing from the dust reservoir (60, 90), the capacity of the dust reservoir (60, 90) is maximized and a large amount of dust is stored in the dust reservoir (60, 90). It becomes possible.

<< Other Embodiments >>
About the said embodiment, it is good also as the following structures.

  About the said embodiment, the cleaning sign output part (33,48) may be comprised so that a sound may be emitted as a cleaning sign.

  Moreover, about the said embodiment, a 1st output determination part (36) sets this measurement time so that it may become long time, so that the rotational speed of an indoor fan (21) is large instead of the measurement time of a measurement timer (37). It may be determined whether or not to output a caution sign using the corrected first correction time. Instead of correcting the measurement time of the measurement timer (37), the reference time Tsd is corrected by the rotational speed of the indoor fan (21) so that the shorter the time is, the higher the rotational speed of the indoor fan (21) is. May be.

  Moreover, about the said embodiment, a 2nd output determination part (38) is the said operation integration instead of the operation integration time of the indoor fan (21) from the time of having judged that it reached the 1st level or the 2nd level. Whether or not to output the first abnormal sign and the second abnormal sign may be determined using the second correction time in which the time is corrected to be longer as the rotational speed of the indoor fan (21) increases. .

  In the above embodiment, the reference time may be learned so that the reference time is changed to the time of the measurement timer (37) when the warning sign output is determined.

  Moreover, about the said embodiment, dust conveyance operation | movement may be performed, performing cleaning operation. In this case, the dust collecting container (60) functions as a dust passage, and the dust removed from the air filter (30) is not temporarily stored in the dust collecting container (60) but is directly stored in the dust storing container ( 90).

  Moreover, about the said embodiment, a dust removal part may be comprised as a suction device which attracts | sucks the dust of an air filter (30) like a vacuum cleaner. Also in this case, the dust collecting container (60) functions as a dust passage.

In the embodiment described above, the indoor unit (1) may be a wall-mounted indoor unit that is often used in general households.

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for an indoor unit of an air conditioner for air-conditioning an indoor space.

It is a longitudinal cross-sectional view of the indoor unit which concerns on this embodiment. It is a horizontal sectional view of the indoor unit concerning this embodiment. It is a perspective view at the time of seeing the decorative panel which concerns on this embodiment from diagonally downward. It is a perspective view at the time of seeing the lower casing which concerns on this embodiment from diagonally downward. It is sectional drawing of the dust collection container which concerns on this embodiment. It is a schematic block diagram of the control part which concerns on this embodiment. It is a chart showing the relationship between the cleaning sign of each level in the indoor unit which concerns on this embodiment, and the amount of dust in a dust storage part.

31 Control board 33 Lighting part (cleaning sign output part)
34 Liquid crystal display part 35 Control part 36 1st output determination part (1st dust detection part)
37 Measurement timer (first dust detector)
38 2nd output determination part (2nd dust detection part)
39 Output instruction section 48 Remote control (cleaning sign output section)
54 lighting operation button 55 reset button 56 remote control lighting unit 71 detection sensor (second dust detection unit)

Claims (5)

A casing (20) in which an inlet (13) and an outlet (14) are formed;
An indoor fan (21) for sending the air sucked from the inlet (13) to the outlet (14);
An air filter (30) for capturing dust contained in the air sucked from the suction port (13),
An indoor unit of an air conditioner that performs an air conditioning operation in which air sucked from the suction port (13) is air-conditioned and blown into the room from the air outlet (14),
A dust removing section (40, 50) for removing dust trapped by the air filter (30) from the air filter (30);
A dust reservoir (60,90) in which dust removed from the air filter (30) is stored;
A first dust detector (36, 37) and a second detector that individually detect whether or not the dust storage state (60, 90) is in a dust arrival state where the amount of dust reaches a certain level. With dust detection part (38,71) ,
The first dust detection unit (36, 37) is a measurement timer that measures an accumulated operation time of the indoor fan (21) or the air conditioner after the dust is removed from the dust storage unit (60, 90). 37), and detecting whether or not the dust reaches the state based on the measurement time of the measurement timer (37),
The second dust detection unit (38, 71) includes a detection sensor (71) for detecting whether or not dust is stored up to a predetermined height in the dust storage unit (60, 90), and the detection sensor (71) detects whether or not the dust reaches the state,
The first dust detector (36, 37) detects that the dust has reached the state when the measurement time of the measurement timer (37) or a time calculated from the measurement time reaches a predetermined reference time. While
In the first dust detector (36, 37), before the second dust detector (38, 71) detects that the dust has reached, the first dust detector (36, 37) If detected, the reference time is changed to a longer time, and the second dust detector (38, 71) before the first dust detector (36, 37) detects that the dust has reached the state. The indoor unit of the air conditioner is characterized in that the reference time is changed to a short time when detected . In claim 1 ,
The indoor unit of an air conditioner, wherein at least one of an upper limit time and a lower limit time of the reference time is set in the first dust detection unit (36, 37). In claim 1 or 2 ,
A cleaning sign output unit (33,48) for outputting a cleaning sign for notifying that it is necessary to remove dust from the dust storage unit (60,90),
The cleaning sign output unit (33, 48) outputs a first cleaning sign when the second dust detection unit (38, 71) detects that the dust has reached the state. When the arrival state continues, the accumulated operation time of the indoor fan (21) or the air conditioner from the output point of the first cleaning sign or the time calculated from the accumulated operation time is the reference time. The indoor unit of an air conditioner, wherein the second cleaning sign is output when the determination time calculated from the above is reached. In claim 1 or 2 ,
A cleaning sign output unit (33,48) for outputting a cleaning sign for notifying that it is necessary to remove dust from the dust storage unit (60,90),
In the cleaning sign output unit (33, 48), when the first dust detection unit (36, 37) detects that the dust has reached the state, the second dust detection unit (38, 71). An indoor unit of an air conditioner, wherein a different cleaning sign is output when it is detected that the dust has reached the dust state. In any one of Claims 1 thru | or 4 ,
The dust storage part (60, 90) includes a first container (60) and a second container (90) connected to each other, and the dust storage part (60, 90) includes the dust removal part (40, 50). ), The dust removed from the air filter (30) is sent to the second container (90) through the first container (60),
The second dust detector (38, 71) detects whether dust has accumulated in the first container (60) to a predetermined height based on the output of the detection sensor (71). Indoor unit of the machine.

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