JP6312047B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner that air-conditions sanitary spaces such as bathrooms and toilets.

  Conventionally, in an air conditioner used in a sanitary space such as a bathroom or toilet, in order to operate with a constant air volume as a fan motor, the number of rotations for operating with the instructed air volume is detected by detecting the rotation speed of the fan motor. What adjusts so that it may become is known (for example, patent document 1).

JP-A-5-146189

  In such an air conditioner equipped with a fan motor, in order to prevent smoke and burning accidents due to abnormal heat generation of the fan motor, when it is detected that the fan motor cannot be rotated (decrease in rotation speed) due to foreign matter inhalation, etc. In addition, the “motor lock error process” is performed in which the power supply is shut off, the product is stopped without accepting the switch operation, and the user is notified of the occurrence of an abnormality.

However, in rare cases, noise may be added to a signal for detecting the rotational speed of the fan motor, so that it may be erroneously detected as “unrotatable” even though the fan motor is normal.
In such a case, even if the repair operator confirms the product, the defect may not be reproduced, and the repair work is wasted or the air conditioner cannot be used during the repair work. There was a disadvantage for them.

  Therefore, the present invention solves the problems of the prior art as described above, that is, the object of the present invention is to reduce erroneous detection of motor rotation speed abnormality and to accurately detect motor rotation speed abnormality. It is providing the air-conditioning apparatus which detects this.

The invention according to claim 1 is a flow channel having a suction port for sucking air in a room and a blower port for blowing out the air, an impeller provided in the flow channel and generating a flow in the flow channel, and the impeller An air conditioner for air-conditioning the room, comprising a fan having a motor for driving the motor, a control means for controlling the motor of the fan, and an abnormality notification means for notifying abnormality of the motor, wherein the control The means includes: a motor abnormality determination process for stopping the motor when the rotation speed of the motor is equal to or less than an abnormality determination rotation speed; a retry process for driving the motor again after the motor abnormality determination process; and again after the retry process. If the rotational speed of the motor is equal to or less than the abnormality determination rotational speed, the abnormality of the motor is confirmed and the motor is stopped, and the abnormality notification means Run a motor abnormality confirmation processing performed more abnormality notification, when the retry process, the motor rotational speed reducing process of the control means lowers the rotation speed of the motor from the rotational speed of the motor at the start of the air conditioning system By executing this, the above-described problems are solved.
According to the air conditioner of the invention according to claim 1 configured as described above, the control means includes a motor abnormality determination process for stopping the motor when the rotation speed of the motor is equal to or lower than the abnormality determination rotation speed, and the motor abnormality determination. A retry process for driving the motor again after the process, and a motor for notifying the abnormality by the abnormality notification means while confirming the motor abnormality if the motor rotation speed is equal to or lower than the abnormality determination rotation speed again after the retry process. By executing the abnormality confirmation process, false detection of motor speed abnormality due to accidental factors is reduced compared to an air conditioner that performs motor abnormality determination with one abnormality determination, so the motor can be accurately It is possible to detect an abnormal rotation speed. In addition, during the retry process, the control means performs a motor rotation speed reduction process that lowers the motor rotation speed below the motor rotation speed when the air conditioner is started, so that the motor when an abnormality has occurred in the motor is applied. Since the load is reduced, the motor can be prevented from being damaged.
The “accidental factor” referred to here is an uncertain factor such as noise on a signal for detecting the rotational speed of the motor.

According to a second aspect of the present invention, there is provided a flow path having a suction port for sucking air in a room and a blow-out port for blowing out the air, an impeller provided in the flow path and generating a flow in the flow path, A fan having a motor for driving an impeller, a control means for controlling the motor of the fan, and an abnormality notifying means for notifying abnormality of the motor, an air conditioner for air-conditioning the room, The control means includes a motor abnormality determination process for stopping the motor when the rotation speed of the motor is equal to or less than an abnormality determination rotation speed, a retry process for driving the motor again after the motor abnormality determination process, and again after the retry process. If the rotational speed of the motor is less than or equal to the abnormality determination rotational speed, the abnormality of the motor is confirmed and the motor is stopped and the abnormality report A motor abnormality confirmation process for performing abnormality notification by means, and the control means includes an installation state determination process for determining an installation state of the air conditioner, and the motor abnormality confirmation process is prohibited during the installation state determination process by being, it is to solve the aforementioned problems.
According to the air conditioner of the invention according to claim 2 configured as above, the control means is a motor.
Motor abnormality determination processing for stopping the motor when the rotation speed of
Retry processing to drive the motor again after this motor abnormality determination processing, and this retry
After the processing, if the motor speed is less than the abnormality judgment speed again, the motor abnormality is confirmed
Motor abnormality confirmation processing for stopping the motor and notifying abnormality by means of abnormality notification;
Compared to an air conditioner that performs motor abnormality determination with a single abnormality determination,
Since false detection of abnormal motor speed due to accidental factors is reduced, the motor
Abnormal rotation speed can be detected. In addition, since the motor abnormality confirmation process is prohibited during the installation state determination process, the determination of the air conditioner installation state has priority over the motor abnormality determination, so the air conditioner installation state can be accurately determined. Can do.

According to a third aspect of the present invention, in addition to the configuration of the air conditioner described in the first or second aspect, the motor abnormality that maintains the state of the motor even when the main power supply of the air conditioner is shut off. The apparatus includes a state storage unit, and the control unit solves the above-described problem by executing a motor abnormality storage process that records in the motor abnormality state storage unit that the abnormality of the motor is determined by the motor abnormality determination process. To do.
According to the air conditioner of the invention according to claim 3 configured as described above, in addition to the effect of the invention according to claim 1 or claim 2, the motor abnormal state storage means shuts off the main power supply of the air conditioner. The control means retains the motor state even if the motor abnormality is confirmed, and the control means executes a motor abnormality storage process that records in the motor abnormality state storage means that the motor abnormality is confirmed by the motor abnormality confirmation process. Even when the power supply is cut off, the fact that the motor is determined to be in an abnormal state is recorded in the motor abnormal state storage means, so that it is possible to continuously notify the abnormality in the motor speed.

According to a fourth aspect of the present invention, in addition to the configuration of the air conditioner according to the first or third aspect, the control means includes an installation state determination process for determining an installation state of the air conditioner, and the installation The aforementioned problem is solved by prohibiting the motor abnormality determination process during the state determination process.
According to the air conditioner of the invention according to claim 4 configured in this way, in addition to the effect produced by the invention according to any one of claims 1 to 3, the motor abnormality is confirmed during the installation state determination process. Since the determination of the air conditioner installation state is prioritized over the motor abnormality determination by prohibiting the processing, the air conditioner installation state can be accurately determined.

In the invention according to claim 5, in addition to the configuration of the air conditioner according to any one of claims 1 to 4, the air outlet of the flow path is opened toward the room. Thus, the above-described problem is solved.
According to the air conditioner of the invention according to claim 5 configured as described above, in addition to the effect produced by the invention according to any one of claims 1 to 4, the air outlet of the flow path is provided in the room. Since the air in the room is sucked in from the suction port and blown into the room from the air outlet, the air in the room can be circulated.

The invention according to claim 6 is further provided with an air heating means for heating the air sucked from the room, in addition to the configuration of the air conditioner according to any one of claims 1 to 5.
When the control unit determines that the motor is abnormal, the control unit executes the air heating unit energization stop process for stopping energization of the air heating unit, thereby solving the above-described problem.
According to the air conditioner of the invention according to claim 6 configured as described above, in addition to the effect exerted by the invention according to any one of claims 1 to 5, the control means determines an abnormality of the motor. In this case, the control means executes an air heating means energization stop process that stops energization of the air heating means, so that the air heating means does not work when an abnormality occurs in the motor. Can be prevented.

According to a seventh aspect of the present invention, in addition to the configuration of the air conditioner according to any one of the first to fourth aspects, the air outlet of the flow path is opened toward the outside of the room. Thus, the above-described problems are solved.
According to the air conditioner of the invention according to claim 7 configured as described above, in addition to the effect exerted by the invention according to any one of claims 1 to 4, the air outlet of the flow path is provided in the room. By opening outward, the air in the room is sucked in from the suction port and blown out of the room, so that the air in the room is exhausted and the room can be ventilated.

  According to the present invention, it is possible to provide an air conditioner that accurately detects an abnormality in the rotational speed of the motor by reducing erroneous detection of the rotational speed abnormality of the motor.

It is the schematic which shows the installation state of the air conditioner which is 1st Embodiment of this invention. It is the schematic which shows the structure of the air conditioner which is 1st Embodiment of this invention. It is a flowchart which shows operation | movement of the air conditioner which is 1st Embodiment of this invention. It is a flowchart which shows operation | movement of the air conditioner which is 1st Embodiment of this invention, and is a flowchart which continues FIG. 3A. It is the schematic which shows the installation state of the air conditioner which is 2nd Embodiment of this invention. It is the schematic which shows the structure of the air conditioner which is 2nd Embodiment of this invention.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described with reference to the accompanying drawings.
<1. Overview of Air Conditioning Apparatus as First Embodiment of the Present Invention>
First, the outline | summary of the air conditioner 100 which is 1st Embodiment of this invention is demonstrated with FIG. 1 and FIG.
FIG. 1 is a schematic diagram illustrating an installation state of an air conditioner 100 according to the first embodiment of the present invention, and FIG. 2 is a schematic diagram illustrating a configuration of the air conditioner 100 according to the first embodiment of the present invention.

As shown in FIG. 1, the air conditioner 100 which is 1st Embodiment of this invention is installed in the bathroom (room) B, and is being fixed to the ceiling surface of the bathroom B. As shown in FIG.
And the air conditioner 100 is provided with the inlet 111 which opens toward the inside of the bathroom B, and the outdoor air outlet (air outlet) 112 (refer FIG. 2) opened toward the outside of the bathroom B, As a result, the suction port 111 sucks air in the bathroom B, and the outdoor air outlet 112 can blow this air out of the bathroom B.
Further, the air conditioner 100 includes an indoor air outlet (air outlet) 113, whereby the air inlet 111 sucks air in the bathroom B, and the indoor air outlet 113 blows this air into the bathroom B. it can.

As shown in FIG. 2, the air conditioner 100 includes a flow path 110 in which the above-described suction port 111, the indoor air outlet 113, and the outdoor air outlet 112 are formed.
Furthermore, a damper 114 is provided in the flow path 110 to switch the blowout from the indoor air outlet 113 and the outdoor air outlet 112.
The damper 114 is provided on the downstream side of the fan 120 described later.
Note that the air conditioner 100 may be of a circulation type that does not have the outdoor air outlet 112 and the damper 114 and sucks air in the bathroom B and discharges the air into the bathroom B.

The air conditioner 100 includes a fan 120 in the middle of the flow path 110.
The fan 120 includes an impeller 121 that stirs air in the flow path 110 to generate a flow in the flow path 110, and a motor 122 that drives the impeller 121.

Furthermore, the air conditioner 100 includes a control unit 130 that controls the motor 122 of the fan 120, an abnormality notification unit 140 that notifies abnormality of the motor 122, and a heater (air heating unit) that warms the air sucked from the bathroom B. 150, a non-volatile memory 160 that is a motor abnormality state storage unit that holds the state of the motor 122 even when the main power supply of the air conditioner 100 is shut off, and an installation state determination unit 170 that determines the installation state of the air conditioner 100 It has.
The heater 150 is provided downstream of the fan 120 and the damper 114 and warms the air blown from the indoor air outlet 113.
The installation state determination unit 170 determines the installation state of the air conditioner 100. For example, the control unit 130 moves the damper 114 to a predetermined position and sends a signal to the motor 122 so as to have a predetermined target rotational speed. When given, it is determined whether the rotational speed of the motor 122 is within a predetermined range.
In such an example of the installation state determination means 170, when 100V is applied to a 200V rated product or when an abnormality occurs in the pressure loss due to a blockage in the middle of the flow path 110, the rotation speed of the motor is normal. It is possible to determine that the installation state is abnormal by largely deviating from the case of the installation state.
The control unit 130 is connected to the damper 114, the fan 120, the abnormality notification unit 140, the heater 150, the nonvolatile memory 160, and the installation state determination unit 170, and controls each of them.

The nonvolatile memory 160 may be an EEPROM (Electrically Erasable Programmable Read-Only Memory) or a flash memory as long as the data is retained even when the power of the air conditioner 100 is turned off. Also good.
The heater 150 is a PTC (Positive Temperature Coefficient) heater, such as a sheathed heater in which a heating element is housed in a metal pipe, a quartz tube heater in which the heating element is housed in a quartz tube, or a carbon heater. May be.

<2. Operation of the air conditioner according to the first embodiment of the present invention>
Next, the operation of the air conditioner 100 according to the first embodiment of the present invention will be described with reference to FIGS. 3A and 3B which are flowcharts showing the operation of the air conditioner according to the first embodiment of the present invention.

(Step S101)
The user gives a command to start the operation of the air conditioner 100.
Thereby, the operation of the motor 122 is turned on, and the process proceeds to step S102.

(Step S102)
The control unit 130 acquires the abnormal state of the motor 122 stored in the nonvolatile memory 160, and proceeds to the process of step S102.

(Step S103)
Then, the control unit 130 determines whether or not the abnormality of the motor 122 has been determined based on the abnormal state of the motor 122 acquired in step S102 described above.
If the abnormality of the motor 122 is confirmed, the process proceeds to step S104. If the abnormality of the motor 122 is not confirmed, the process proceeds to step S105.

(Step S104)
In a state where the abnormality of the motor 122 is confirmed, the control unit 130 controls the abnormality notification unit 140 to notify the user that the motor 122 is abnormal.
Then, the operation of the air conditioner 100 ends.

(Step S105)
The control means 130 sets the set rotational speed r1 when operating the motor 122 to the first target rotational speed R1 (for example, 1000 rpm), and proceeds to the process of step S106.

(Step S106)
The control unit 130 initializes the value of the abnormality determination counter i that counts the number of abnormality determinations of the motor 122 as 0, and proceeds to the process of step S107.

(Step S107)
The control means 130 drives the motor 122 to rotate at the set rotational speed r1 determined in step S105, and proceeds to the process in step S108.

(Step S108)
After waiting for a waiting time T1 (for example, 1.5 seconds), the control unit 130 proceeds to the process of step S109.

(Step S109)
The control means 130 determines whether the rotation speed r of the motor 122 is always equal to or higher than the abnormality determination rotation speed Rc (for example, 100 rpm) during the rotation speed abnormality determination time T (for example, 2 seconds).
If the rotational speed r of the motor 122 is equal to or higher than the abnormality determination rotational speed Rc, the process proceeds to step S110. If the rotational speed r of the motor 122 is not equal to or higher than the abnormal determination rotational speed Rc (that is, the rotational speed r of the motor 122 is determined to be abnormal). If it is less than the rotation speed Rc), the process proceeds to step S113.

(Step S110)
Control means 130 resets the value of the abnormality determination counter i to 0, the setting rotational speed r1 at the time of driving the motor 122 again set to the first target rotation number R1, the process proceeds to step S1 11.

(Step S111)
The control means 130 energizes the heater 150 and proceeds to the process of step S112.

(Step S112)
The control means 130 determines the presence or absence of a command for turning off the operation of the air conditioner 100 by the user (that is, a command for turning off the motor 122).
If there is a command to turn off the operation of the air conditioner 100, the operation of the air conditioner 100 is terminated, and if there is no command to turn off the operation of the air conditioner 100, the process returns to step S109.

(Step S113)
The control unit 130 determines whether the pressure loss in the flow path 110 is measured by the installation state determination unit 170.
If the installation state determination unit 170 measures the pressure loss in the flow path 110, the process proceeds to step S114, and the installation state determination unit 170 measures the pressure loss in the flow path 110. If not, the process proceeds to step S117.

(Step S114)
The control unit 130 notifies the abnormality by the abnormality notification unit 140 and proceeds to the process of step S115.

(Step S115)
The control unit 130 turns off the operation of the motor 122 and proceeds to the process of step S116.

(Step S116)
The operation of the motor 122 is finished, and the operation of the air conditioner 100 is finished.

(Step S117)
The control unit 130 determines whether the installation state determination unit 170 measures the voltage applied to the air conditioner 100.
If the installation state determination unit 170 measures the voltage applied to the air conditioner 100, the process proceeds to step S114, and the installation state determination unit 170 measures the voltage applied to the air conditioner 100. If not, the process proceeds to step S118.

(Step S118)
The control means 130 determines whether or not the abnormality determination counter i is equal to a motor abnormality determination value C (for example, 2).
If the abnormality determination counter i is equal to the motor abnormality determination value C, the process proceeds to step S119. If the abnormality determination counter i is not equal to the motor abnormality determination value C, the process proceeds to step S120.

(Step S119)
The control unit 130 records in the nonvolatile memory 160 that the state of the motor 122 is determined to be an abnormal state, and proceeds to the process of step S114.

(Step S120)
The control unit 130 turns off the power to the heater 150 and proceeds to the process of step S121.

(Step S121)
The control means 130 substitutes the value of i + 1 for the abnormality determination counter i, and proceeds to the process of step S122.

(Step S122)
The control means 130 performs a process of turning off the operation of the motor 122, and proceeds to the process of step S123.

(Step S123)
The control means 130 waits for the retry waiting time T2 (for example, 5 seconds), and then proceeds to the process of step S124.

(Step S124)
The control means 130 sets the second target rotation speed R2 (for example, 500 rpm) as the set rotation speed r1 when operating the motor 122, and returns to the process of step S107.
The second target rotation speed R2 is lower than the first target rotation speed R1.

The air conditioner 100 which is 1st Embodiment of this invention operate | moves by the step described above.
According to this flowchart, the control unit 130 performs motor abnormality determination processing for stopping the motor 122 when the rotation speed r of the motor 122 is equal to or less than the abnormality determination rotation speed Rc (step S109 → step S118 → step S122).
Moreover, the control means 130 performs the retry process (step S123-> step S107) which drives the motor 122 again after a motor abnormality determination process.
Further, the control means 130 determines that the motor 122 is abnormal and stops the 122 motor when the rotational speed r of the motor 122 is equal to or smaller than the abnormality determination rotational speed Rc again after the retry process, and also notifies the abnormality by the abnormality notifying means 140. A motor abnormality determination process (when i = 2, step S109 => step S118 => step S114 => step S115) is performed.

  Further, the controller 130 reduces the motor rotation speed r by lowering the rotation speed r of the motor 122 below the rotation speed (first target rotation speed R1) of the motor 122 when starting the air conditioner 100 during the retry processing described above (step S1). S124) is performed.

  Further, the control means 130 performs a motor abnormality storage process (step S119) for recording in the nonvolatile memory 160 that the abnormality of the motor 122 has been confirmed by the above-described motor abnormality confirmation process.

Furthermore, the control means 130 performs an installation state determination process (step S113, step S117) for determining the installation state of the air conditioner 100.
Note that the motor abnormality determination process described above is not performed during the installation state determination process.
That is, the motor abnormality determination process is prohibited during the installation state determination process.

  Furthermore, the control means 130 performs an air heating means energization stop process (step S120) for stopping energization of the heater 150 when the abnormality of the motor 122 is determined.

<4. Action and Effect of Air Conditioner according to First Embodiment of the Present Invention>
In the air conditioner 100 according to the first embodiment of the present invention obtained in this way, the control means 130 causes the motor abnormality determination to stop the motor 122 when the rotation speed r of the motor 122 is equal to or less than the abnormality determination rotation speed Rc. Processing, a retry process for driving the motor 122 again after the motor abnormality determination process, and an abnormality of the motor 122 when the rotational speed r of the motor 122 is equal to or lower than the abnormality determination rotational speed Rc again after the retry process. And the motor abnormality determination process in which abnormality notification means 140 notifies the abnormality by executing the abnormality notification means 140, compared with the air conditioner that determines the abnormality of the motor by one abnormality determination, the motor 122 due to an accidental factor. Since false detection of abnormal rotation speed is reduced, it is possible to accurately detect abnormal rotation speed of the motor 11. .

  Further, during the retry process, the control unit 130 executes a motor rotation speed reduction process for lowering the rotation speed r of the motor 122 to be lower than the rotation speed of the motor 122 when the air conditioner 100 is started. Since the load applied to the motor 122 at the time is reduced, damage to the motor 122 can be suppressed.

  Further, the non-volatile memory 160 that is a motor abnormality state storage means maintains the state of the motor 122 even when the main power supply of the air conditioner 100 is cut off, and the control means 130 causes the abnormality of the motor 122 to be detected by the motor abnormality confirmation process. Even if the main power supply of the air conditioner 100 is shut off by executing the motor abnormality storage process for recording the confirmation in the nonvolatile memory 160, the nonvolatile memory 160 determines that the motor 122 has been determined to be in an abnormal state. Since it is recorded, it is possible to continuously report abnormality in the motor rotation speed.

  In addition, since the motor abnormality determination process is prohibited during the installation state determination process, the determination of the installation state of the air conditioner 100 has priority over the abnormality determination of the motor 122, and thus the installation state of the air conditioner 100 is accurately determined. can do.

  Furthermore, since the indoor air outlet 113 of the flow path 110 is opened toward the bathroom (room) B, the air in the bathroom B is sucked in from the air inlet 111, and from the indoor air outlet 113 to the inside of the bathroom B. Therefore, the air in the bathroom B can be circulated.

  In addition, when the control unit 130 determines that the motor 122 is abnormal, the control unit 130 executes an air heating unit energization stop process for stopping energization of the heater 150 that is an air heating unit. Since the heater 150 does not work when it occurs, the heater 150 can be prevented from overheating.

  Furthermore, since the outdoor air outlet 112 of the flow path 110 is opened toward the outside of the bathroom (room) B, the air in the bathroom B is sucked from the air inlet 111 and blown out of the bathroom B. Therefore, the air in the bathroom B is exhausted and the bathroom B can be ventilated.

<5. Second Embodiment>
Subsequently, an air conditioner 200 according to a second embodiment of the present invention will be described with reference to FIGS. 4 and 5.
FIG. 4 is a schematic diagram showing an installation state of an air conditioner according to the second embodiment of the present invention, and FIG. 5 is a schematic diagram showing a configuration of the air conditioner according to the second embodiment of the present invention.

  The air conditioner 200 according to the second embodiment is obtained by removing the indoor air outlet 113, the damper 114, and the heater 150 from the air conditioner 100 according to the first embodiment, and many elements are common to the air conditioner 100 according to the first embodiment. For this reason, detailed description of common items is omitted, and only the reference numbers in the 200s in the last two digits are used.

The air conditioner 200 is provided in the bathroom B, a suction port 211 is formed in the ceiling of the bathroom B, and an outdoor air outlet 212 is formed outside the bathroom B.
Thereby, the air in the bathroom B is sucked in from the suction port 211, and this air is blown out of the bathroom B. Therefore, the inside of the bathroom B can be ventilated.
The air conditioner 200 is not limited to the bathroom B, and is installed in a sanitary space that requires ventilation such as a toilet.

<6. Action and Effect of Air Conditioner according to Second Embodiment of the Present Invention>
In the air conditioner 200 according to the second embodiment of the present invention obtained as described above, the control means 230 causes the motor abnormality determination to stop the motor 222 when the rotation speed r of the motor 222 is equal to or less than the abnormality determination rotation speed Rc. Processing, a retry process for driving the motor 222 again after the motor abnormality determination process, and an abnormality of the motor 222 when the rotational speed r of the motor 222 is equal to or lower than the abnormality determination rotational speed Rc after the retry process. By executing the motor abnormality confirmation process in which abnormality is notified by the abnormality notifying means 240, the motor 222 due to accidental factors is compared with the air conditioner that determines the abnormality of the motor by one abnormality determination. Since false detection of abnormal rotation speed is reduced, it is possible to accurately detect abnormal rotation speed of the motor 222. That.

  In addition, during the retry process, the control unit 230 executes a motor rotation speed reduction process that lowers the rotation speed r of the motor 222 below the rotation speed of the motor 222 when the air conditioner 200 is started, so that an abnormality has occurred in the motor 222. Since the load applied to the motor 222 at the time is reduced, damage to the motor 222 can be suppressed.

  Further, the non-volatile memory 260 that is a motor abnormality state storage means maintains the state of the motor 222 even when the main power supply of the air conditioner 200 is cut off, and the control means 230 causes the abnormality of the motor 222 to be detected by the motor abnormality confirmation process. Even if the main power supply of the air conditioner 200 is shut off by executing a motor abnormality storage process that records the confirmation in the nonvolatile memory 260, the nonvolatile memory 260 determines that the motor 222 has been determined to be in an abnormal state. Since it is recorded, it is possible to continuously report abnormality in the motor rotation speed.

  In addition, since the motor abnormality determination process is prohibited during the installation state determination process, the determination of the installation state of the air conditioner 200 has priority over the abnormality determination of the motor 222, and thus the installation state of the air conditioner 200 is accurately determined. can do.

  Furthermore, since the outdoor air outlet 212 of the flow path 210 is opened toward the outside of the bathroom (room) B, the air in the bathroom B is sucked from the air inlet 211 and blown out of the bathroom B. Therefore, the air in the bathroom B is exhausted and the bathroom B can be ventilated.

<7. Modification>
As mentioned above, although the form for implementing this invention was demonstrated, this invention is not limited above.

  For example, the abnormality notification means may be an alarm device that informs the user of the abnormal state with sound, or may be one that notifies the user of the abnormal state with visual information such as an image. .

In each embodiment of the present invention, the motor abnormality storage process recorded in the motor abnormality state storage means is executed when the abnormality of the motor is determined. However, the motor abnormality storage process may not be performed.
However, if such a use is used, power is supplied to the motor in a state in which the motor is suspected of being abnormal, which may cause abnormal heat generation.

In general, devices installed on the ceiling of a bathroom often do not have a single power switch, and it is necessary to turn off the breaker to turn off the device, and control by turning off the device. It is difficult to reset the means.
In such a case, in the operation of the remote controller for operating the apparatus, the control means may be reset by an operation such as simultaneously pressing a plurality of buttons or continuously pressing a predetermined button for a predetermined time or more.

In addition, the apparatus similar to the present invention is often provided with a function for notifying the user of the maintenance time, and for that purpose, the control means is also provided with a time measuring function to hold the accumulated energization time information. is there.
However, if the power is turned off when the motor is abnormal, the control means may be reset and the accumulated energization time information may be lost.
As a method of avoiding such a situation, the remote control also has means for holding time information, and the clock information synchronized with the main body is overwritten on the remote control side at a predetermined timing, and the main body is operated by the remote control after an error occurs. When reset, it is possible to overwrite the clock information of the remote controller with the clock information of the main body.

  In addition, the elements included in the above-described embodiments can be combined as long as technically possible, and combinations thereof are also included in the scope of the present invention as long as they include the features of the present invention.

100, 200 ... Air conditioner 110, 210 ... Channel 111, 211 ... Suction port 112, 212 ... Outdoor air outlet (air outlet)
113 ... Indoor air outlet (air outlet)
114 ・ ・ ・ Damper 120, 220 ・ ・ ・ Fan 121, 221 ・ ・ ・ Impeller 122, 222 ・ ・ ・ Motor 130, 230 ・ ・ ・ Control means 140, 240 ・ ・ ・ Abnormality notification means 150 ・ ・ ・ Heater (Air Heating means)
160, 260 ... Non-volatile memory (motor abnormality storage means)
170, 270 ... installation state determination means

B ・ ・ ・ Bathroom (room)

i ... Abnormality judgment counter r ... Number of rotations r1 ... Set number of rotations

T ... rotation speed abnormality determination time T1 ... standby time T2 ... retry standby time Rc ... abnormality determination rotation speed R1 ... first target rotation speed R2 ... second target rotation speed

Claims (7)

A flow path having a suction port for sucking air in a room and a blow-out port for blowing out the air, an impeller provided in the flow path to generate a flow in the flow path, and a fan for driving the impeller And an air conditioner for air-conditioning the inside of the room, comprising control means for controlling the motor of the fan, and abnormality notifying means for notifying abnormality of the motor,
The control means includes: a motor abnormality determination process for stopping the motor when the rotation speed of the motor is equal to or less than an abnormality determination rotation speed; a retry process for driving the motor again after the motor abnormality determination process; and after the retry process. When the rotation speed of the motor is equal to or lower than the abnormality determination rotation speed, the motor abnormality is determined by determining abnormality of the motor and stopping the motor and performing abnormality notification by the abnormality notification means ,
The air conditioner characterized in that, at the time of the retry process, the control means executes a motor rotation speed reduction process for lowering the rotation speed of the motor below the rotation speed of the motor when the air conditioner is activated . A flow path having a suction port for sucking air in a room and a blow-out port for blowing out the air, an impeller provided in the flow path to generate a flow in the flow path, and a fan for driving the impeller And an air conditioner for air-conditioning the inside of the room, comprising control means for controlling the motor of the fan, and abnormality notifying means for notifying abnormality of the motor,
The control means includes: a motor abnormality determination process for stopping the motor when the rotation speed of the motor is equal to or less than an abnormality determination rotation speed; a retry process for driving the motor again after the motor abnormality determination process; and after the retry process. When the rotation speed of the motor is equal to or lower than the abnormality determination rotation speed, the motor abnormality is determined by determining abnormality of the motor and stopping the motor and performing abnormality notification by the abnormality notification means,
The control means includes an installation state determination process for determining an installation state of the air conditioner,
The air conditioner characterized in that the motor abnormality determination process is prohibited during the installation state determination process . Furthermore, even if the main power supply of the air conditioner is cut off, the motor abnormal state storage means for holding the state of the motor,
The said control means performs the motor abnormality memory | storage process which records in the said motor abnormality state memory | storage means that the abnormality of the said motor was confirmed by the said motor abnormality confirmation process. Air conditioner. The control means includes an installation state determination process for determining an installation state of the air conditioner,
The air conditioner according to claim 1 or 3 , wherein the motor abnormality determination process is prohibited during the installation state determination process.   The air conditioner according to any one of claims 1 to 4, wherein the air outlet of the flow path is opened toward the room. An air heating means for heating the air sucked from the room;
6. The air heating unit energization stop process for stopping energization of the air heating unit when the control unit determines that the motor is abnormal. An air conditioner described in item 1.   The air conditioner according to any one of claims 1 to 4, wherein the air outlet of the channel is opened toward the outside of the room.

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