JP2014105932A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner comprising an air-filter clogging detection device capable of detecting clogging of an air filter with high accuracy and outputting a cleaning sign for an air filter at an appropriate timing.SOLUTION: An air conditioner includes an air filter, an indoor heat exchanger, and an indoor fan driven by DC fan motors 8, 28 along an air flow path. Air-filter clogging detection means 43 is provided, comprising detection means 44 for detecting a rotation control value to the DC fan motors 8, 28 from an indoor controller 40, storage means 45 for detecting and storing as a reference value the rotation control value for causing the DC fan motors 8, 28 to rotate at a predetermined rotation speed upon a control for determining the reference value, determination means 46 for operating the DC fan motors 8, 28 at the predetermined rotation speed for a certain period of time upon normal air-conditioning operation, comparing the rotation control value at that time to the reference value, and determining that the air filter is clogged when the difference between the rotation control value and the reference value exceeds a threshold value.

Description

  The present invention relates to an air conditioner including a filter clogging detection device that detects whether or not an air filter is clogged.

  In the air conditioner, an air filter is installed on the downstream side of the air suction port to remove dust contained in the suction air. When dust removed by this air filter accumulates on the surface and the ventilation resistance increases, the power consumption of the indoor fan increases, so the operating time of the air conditioner is integrated, and the integrated time reaches the set time When the air filter cleaning sign was output. However, in such a specification, there is a problem that the cleaning sign may not be output until the operation time reaches the set time even though the air filter is clogged.

  Therefore, Patent Document 1 discloses a motor supply voltage for a DC fan motor that drives an indoor fan, and a supply reference voltage for a DC fan motor that is necessary to obtain the fan rotation speed obtained by the motor supply voltage in an unloaded state. Are compared, and when the difference value is smaller than a predetermined value, it is determined that the replacement time of the air filter is determined.

  Further, Patent Document 2 discloses a suction air temperature detected by a suction air temperature sensor, a rotational speed detected by a rotational speed detection means of a DC fan motor, and a motor drive voltage application means for applying a drive voltage to the DC fan motor. The clogging state is determined based on the Mahalanobis distance calculated by taking into account the correlation in the multivariate space using the motor drive applied voltage and whether the air filter is dirty or not. .

Japanese Patent No. 2985754 Japanese Patent No. 3972723

  In the above-mentioned Patent Documents 1 and 2, since the clogging of the air filter is determined based on the applied voltage (motor supply voltage) applied to the DC fan motor, the integrated value of the operating time is used. It is possible to detect the clogging of the air filter at a more appropriate time and output a cleaning sign of the air filter as compared with the conventional one. However, what detects the applied voltage to the DC fan motor detects the applied voltage obtained by converting the rotation control value from the microcomputer or the like with an interface circuit, a drive circuit or the like. Issues such as being susceptible to variations, unit installation conditions (heat, etc.), not being able to detect clogging of the air filter with high accuracy, and requiring a circuit to detect the applied voltage was there.

  The present invention has been made in view of such circumstances, and detects clogging of an air filter with high accuracy, and provides an air filter cleaning sign to an alarm means, an automatic filter cleaning mechanism, or the like at an optimal time. An object of the present invention is to provide an air conditioner equipped with a filter clogging detection device that can output the output.

In order to solve the above-described problems, the air conditioner of the present invention employs the following means.
That is, the air conditioner according to the present invention is an air in which an indoor fan driven by an air filter, an indoor heat exchanger, and a DC fan motor is installed in an air flow path from an indoor air inlet to an outlet. In the harmony machine, a detection means for detecting a rotation control value from the indoor controller to the DC fan motor, and a rotation control value for setting the DC fan motor to a predetermined number of rotations during reference value determination control, The storage means for storing the value as a reference value, and during normal air-conditioning operation, the DC fan motor is operated at the predetermined rotation speed for a certain period of time, and the rotation control value at that time is compared with the reference value. When the air pressure exceeds a threshold value, a filter clogging detection unit comprising a determination unit that determines that the air filter is clogged is provided.

  The indoor fan of the air conditioner is feedback-controlled in order to maintain the commanded rotational speed. Therefore, when the static pressure changes due to the clogging of the air filter, the rotation control value output from the controller side also changes to keep the rotation speed constant. According to the present invention, the detecting means for detecting the rotation control value from the indoor controller to the DC fan motor is provided, and the detecting means is used for setting the DC fan motor to a predetermined number of revolutions when determining the reference value. The rotation control value is detected and stored in the storage means as a reference value. During normal air-conditioning operation, the DC fan motor is operated at a predetermined number of revolutions for a certain period of time, and then detected by the detection means. The rotation control value is compared with a reference value, and if the difference between the two exceeds a threshold value, it can be determined that the air filter is clogged. Therefore, it is possible to directly determine whether the filter is clogged using the rotation control value output from the microcomputer of the indoor controller, and to detect the clogging of the air filter with high accuracy, A cleaning sign can be output to the air filter.

  Furthermore, the air conditioner of the present invention is the above-described air conditioner, wherein the filter clogging detection means outputs an air filter cleaning signal to an alarm means and / or an automatic filter cleaning mechanism that displays clogging of the air filter. Output means for outputting is provided.

  According to the present invention, the filter clogging detection means includes the alarm means for displaying the clogging of the air filter and / or the output means for outputting the air filter cleaning signal to the filter automatic cleaning mechanism. The air filter clogging information detected with high accuracy by the detection means is output as an air filter cleaning signal to the alarm means and / or the automatic filter cleaning mechanism by the output means, and the alarm means, the automatic filter cleaning mechanism, etc. are operated. be able to. Therefore, the increase in the power consumption of the indoor fan can be suppressed by cleaning the air filter at an appropriate time and eliminating the clogging of the air filter.

  Furthermore, in the air conditioner of the present invention, in any one of the above-described air conditioners, the control for determining the reference value is performed at the time of shipment from a factory or during a trial operation, and the reference value is stored in the storage unit. It is set as the structure made into.

  According to the present invention, the control for determining the reference value is performed at the time of shipment from the factory or at the time of trial operation, and the reference value is stored in the storage means, so that it is used for detecting clogging of the air filter. The reference value can be appropriately stored at the time of trial operation before starting normal air-conditioning operation or at the time of control for determining the reference value performed at the time of shipment from the factory. Therefore, during normal air conditioning operation, the presence or absence of clogging of the air filter can be detected with high accuracy based on the reference value.

  According to the present invention, at the time of reference value determination control, the detection means detects a rotation control value for setting the DC fan motor to a predetermined number of revolutions, and stores the value as a reference value in the storage means. During the air conditioning operation, the DC fan motor is operated at a predetermined number of revolutions for a certain period of time. At that time, the rotation control value detected by the detection means is compared with a reference value, and if the difference between the two exceeds the threshold value, the air filter Since it is possible to determine that the filter is clogged, whether or not the filter is clogged can be determined directly using the rotation control value output from the microcomputer of the indoor controller. Filter clogging can be detected with high accuracy, and a cleaning sign can be output to the air filter at an optimal time.

It is a schematic block diagram of the typical examples (A) and (B) of the air conditioner which concerns on one Embodiment of this invention. It is a control circuit diagram of the DC fan motor which drives the indoor fan of the air conditioner shown in FIG. FIG. 3 is an operation explanatory diagram at the time of control determination of the reference value of the DC fan motor shown in FIG. 2 (A) and at the time of filter clogging detection control (during normal operation) (B).

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 3.
FIG. 1 shows a schematic configuration diagram of representative examples (A) and (B) of an air conditioner according to an embodiment of the present invention, and FIG. 2 shows a DC fan motor for driving the indoor fan. A control circuit diagram is shown.
FIG. 1A shows a ceiling-filled air conditioner 1. The air conditioner 1 includes a cabinet 2 having a lower opening, and a quadrangular ceiling panel 3 attached to the lower opening of the cabinet 2.

  A bell mouth 5 having a suction port 4 and a drain pan 6 are installed in a lower part in the cabinet 2, and an air passage 7 is formed by a part of the drain pan 6. In addition, a turbo fan (indoor fan) 9 that is driven to rotate around a vertical axis by a DC fan motor 8 is installed at the central portion of the top plate of the cabinet 2. A square is formed so as to surround the outer periphery of the turbo fan 9. The indoor heat exchanger 10 bent into a shape is fixedly installed on the top plate side via a bracket (not shown).

  Thus, in the cabinet 2, indoor air is guided to the turbo fan 9 through the bell mouth 5 having the suction port 4, and the air boosted by the turbo fan 9 and blown in the radial direction surrounds the outer periphery thereof. Through the indoor heat exchanger 10 arranged as described above, an air flow path 11 is configured to flow to the air path 7 formed by the inner surface of the cabinet 2 and the outer peripheral surface of the drain pan 6.

  Further, the ceiling panel 3 is provided with a rectangular air outlet 12 for blowing conditioned air along the four sides thereof so as to communicate with the air passage 7, and suction for sucking room air into the central portion. A mouth 13 is provided. An air filter 14 with an automatic filter cleaning mechanism is incorporated in the air suction port 13 together with a suction grill 15. In addition, air direction adjusting louvers 16 for adjusting the blowing direction of the conditioned air are installed at the air outlet 12 so as to be individually swingable.

  FIG. 1B shows a wall-mounted air conditioner 21. The air conditioner 21 includes a unit body 22 having an air inlet 23 provided from the upper part to the upper surface of the front surface and an air outlet 24 provided at the lower part of the front surface. An air flow path 25 is formed in the unit main body 22 to guide the indoor air sucked from the air suction opening 23 to the air blow-out opening 24. In the air flow path 25, the air flow passage 25 extends from upstream to downstream. An air filter 26 with an automatic filter cleaning mechanism, an indoor heat exchanger 27, and a cross flow fan (indoor fan) 29 driven by a DC fan motor 28 are sequentially arranged.

  A drain pan 30 that collects drain water generated in the indoor heat exchanger 27 is disposed below the indoor heat exchanger 27, and the temperature of the air outlet 23 is adjusted by the indoor heat exchanger 27. A louver 31 and a flap 32 for adjusting the blowing direction of the conditioned air are respectively rotatably installed.

  The turbo fan 9 and the cross flow fan 29, which are indoor fans of the air conditioners 1 and 21, can be driven via DC fan motors 8 and 28, respectively. As shown in FIG. 4, feedback control is performed through the indoor controller 40 so that the rotational speed becomes the target rotational speed. That is, when the air volume is set by a remote controller or the like, the microcomputer 41 of the indoor controller 40 outputs a rotation control value (Duty value) corresponding to the air volume.

As shown in FIG. 2, the rotation control value (Duty value) is proportional to the length of the ON time (T _ON ) per cycle T of the rectangular wave output from the microcomputer 41, and its duty The rotational speed of the DC fan motors 8 and 28 is controlled by changing the ratio T _ON (T _ON = T × N / 255). The rotation control value is converted into a direct current through an interface circuit (hereinafter referred to as an I / F circuit) 42 and is supplied to the DC fan motors 8 and 28 as a rotation command voltage (V _SP ). The DC fan motors 8 and 28 are configured to be rotationally driven through a drive circuit based on the rotation command voltage (V _SP ).

The rotation speeds of the DC fan motors 8 and 28 are detected by a rotation speed detection circuit, and the output signal (rotation pulse) is fed back to the microcomputer 41 via the I / F circuit 42 as the actual rotation speed. ing. Then, the microcomputer 41 compares the actual rotational speed with the target rotational speed, and repeats the operation of adjusting the rotation command voltage (V _SP ), which is the output value to the DC fan motors 8, 28, so that the DC fan motor Control is performed so that the number of revolutions 8 and 28 becomes the target number of revolutions.

That is, when “target rotational speed> actual rotational speed”, the microcomputer 41 increases the rotational command voltage (V _SP ) to increase the rotational control value (Duty value), and “target rotational speed = actual rotational speed”. In this case, the rotation command voltage (V _SP ) is maintained, and when “target rotation speed <actual rotation speed”, the rotation command voltage (V _SP ) is decreased to reduce the rotation control value (Duty value), thereby reducing the DC Control is performed so that the rotational speeds of the fan motors 8 and 28 become the target rotational speed.

  When the indoor fans 9 and 29 driven by the DC fan motors 8 and 28 are the turbo fan 9 or the propeller fan shown in FIG. 1A, the ventilation resistance increases due to the accumulation of dust on the air filter 14. Although the motor load increases, in the case of the cross flow fan 29 shown in FIG. 1B, if dust accumulates on the air filter 26, the motor load decreases conversely. Therefore, when the static pressure changes due to the clogging of the air filters 14 and 26, the rotation control value output from the indoor controller 40 to the DC fan motors 8 and 28 is also set in order to set the rotation speed to the target rotation speed. Will be increased or decreased.

  As described above, when the static pressure changes due to the clogging of the air filters 14 and 26, the rotation control value output to the DC fan motors 8 and 28 is changed accordingly. Can be detected. The present invention has been made paying attention to this point, and includes filter clogging detection means 43 configured as follows.

Filter clogging detecting means 43, the detection means 44 for detecting the _{T ON} is a rotation control value output from the microcomputer 41 to the DC fan motor 8, 28 side (Duty value), detected by the detection means 44 rotates The control value (Duty value) is stored in the storage means 45 such as a non-volatile memory that stores the control value (Duty value) as the reference value at the time of the reference value determination control, and the rotation control value (Duty value) detected by the detection means 44 during the normal air conditioning operation Value) and the reference value stored in the storage means 45, and when the difference exceeds a preset threshold value, it is determined that the air filters 14, 26 are clogged. The determination means 46 is comprised.

  Further, the filter clogging detecting means 43, when the judging means 46 judges that the air filters 14, 26 are clogged due to dust accumulation, the filter automatic cleaning mechanism of the air filters 14, 26 with the automatic filter cleaning mechanism. Output means 47 for outputting a cleaning signal for the air filters 14 and 26 is provided for alarm means for displaying clogging of the air filters 14 and 26.

  Here, the reference value determination control is a control for storing the reference value in the storage means 45, for example, at the time of shipment from the factory of the air conditioners 1 and 21, or at the time of trial operation after installation. To be implemented. As shown in FIG. 3 (A), this control is performed in a state in which the dust is not accumulated on the air filters 14 and 26, and in the process of setting the DC fan motors 8 and 28 to the target rotational speed, the predetermined rotational speed. This is a control for detecting a rotation control value (Duty value) when a is maintained for a certain time and determining the value as a reference value. When the control signal is input to the detection means 44, the detection means 44 The rotation control value (Duty value) detected at that time is stored in the storage means 45.

  On the other hand, filter clogging detection control is performed as shown in FIG. 3B during an operation such as a normal air conditioning operation. This control is for detecting whether or not dust is accumulated on the air filters 14 and 26, that is, whether or not the air filters 14 and 26 are clogged, and the DC fan motors 8 and 28 are controlled. In the process of maintaining the target rotational speed, the system is operated for a certain time so as to maintain the same rotational speed a as described above. The rotation control value (Duty value) at this time is detected by the detection means 44, and the rotation control value and the reference value stored in the storage means 45 are compared and calculated by the determination means 46. 14 and 26 is configured to determine the presence or absence of clogging.

  That is, when the rotation control value (Duty value) detected at the time of reference value determination control is, for example, “33%”, this 33% is stored in the storage means 45 as a reference value, When the rotation control value (Duty value) detected by the detection unit 44 is “28%” during the filter clogging detection control performed during the normal air conditioning operation, the determination unit 46 compares the two values. When the difference (33% -28%) exceeds a preset threshold value, it is determined that the air filters 14 and 26 are clogged, and a cleaning signal is output from the output means 47. It is like that.

With the configuration described above, according to the present embodiment, the following operational effects can be obtained.
When the air conditioners 1 and 21 are shipped from the factory or trial run after installation, etc., reference value determination control is performed, and at that time, the rotation control value (output from the microcomputer 41 to the DC fan motors 8 and 28 side) the T _oN is a Duty value), detected by the detection means 44 of the filter clogging detection means 43 provided in the indoor controller 40, in the storage unit 45 it as a reference value.

  Thereafter, when performing normal air-conditioning operation or the like, filter clogging detection control is performed at an arbitrary timing, and the rotation control value (Duty value) detected by the detection means 44 of the filter clogging detection means 43 at that time By comparing with the reference value stored in the storage means 45, the presence or absence of clogging of the air filters 14, 26 can be determined based on the rotation control value (Duty value).

  Thus, it is directly determined whether or not the air filters 14 and 26 are clogged by using the rotation control values (Duty values) output from the microcomputer 41 of the indoor controller 40 to the DC fan motors 8 and 28 side. Compared to a configuration in which clogging of the air filters 14 and 26 is determined based on an applied voltage applied to the DC fan motors 8 and 28, errors and manufacturing of circuit components constituting the interface circuit and the drive circuit are possible. The presence or absence of clogging of the air filters 14 and 26 can be detected with high accuracy by the amount that is not easily affected by variations and unit installation conditions. For this reason, a cleaning sign can be output to the air filters 14 and 26 at an optimal time.

  The filter clogging detection means 43 outputs a cleaning signal for the air filters 14 and 26 to an alarm means and / or an automatic filter cleaning mechanism that displays that the air filters 14 and 26 are clogged. Output means 47 is provided. For this reason, the clogging information of the air filters 14 and 26 detected with high accuracy by the filter clogging detection means 43 is used as an alarm means and / or an automatic filter cleaning mechanism via the output means 47 as a cleaning sign of the air filters 14 and 26. The alarm means and the automatic filter cleaning mechanism can be operated. Therefore, by cleaning the air filters 14 and 26 at an appropriate time and eliminating the clogging, an increase in power consumption of the indoor fans 9 and 29 can be suppressed.

  Furthermore, in the present embodiment, the reference value determination control is performed at the time of shipment from the factory or at the time of trial operation after installation, and the reference value is stored in the storage unit 45 such as a nonvolatile memory. Therefore, the reference value used for detecting the clogging of the air filters 14 and 26 is properly stored at the time of trial operation before starting normal air-conditioning operation or at the time of control for determining the reference value performed at the time of shipment from the factory. can do. Therefore, during normal air conditioning operation, the presence or absence of clogging of the air filters 14 and 26 can be detected with high accuracy based on the reference value.

  In addition, this invention is not limited to the invention concerning the said embodiment, In the range which does not deviate from the summary, it can change suitably. For example, in the above embodiment, the ceiling-mounted air conditioner 1 and the wall-mounted air conditioner 21 are given as representative examples of the air conditioner according to the present invention, but the present invention is similarly applied to other air conditioners. Needless to say, it can be done. The reference value stored in the storage means 45 may be set to a value determined in advance by operation in a laboratory or the like.

1,21 Air conditioner 8, 28 DC fan motor 9, 29 Indoor fan 10, 27 Indoor heat exchanger 11, 25 Air flow path 12, 24 Air outlet 13, 23 Air inlet 14, 26 Air filter 40 Indoor controller 41 Microcomputer 42 I / F circuit 43 Filter clogging detection means 44 Detection means 45 Saving means 46 Determination means 47 Output means

Claims (3)

In an air conditioner in which an indoor fan driven by an air filter, an indoor heat exchanger, and a DC fan motor is installed in an air flow path from an indoor air intake port to an outlet port,
Detection means for detecting a rotation control value from the indoor controller to the DC fan motor, and at the time of reference value determination control, a rotation control value for setting the DC fan motor to a predetermined rotation speed is detected, and the value is used as a reference. In the normal air-conditioning operation, the DC fan motor is operated at the predetermined rotational speed for a certain period of time, the rotation control value at that time is compared with the reference value, and the difference between the two exceeds the threshold value. An air conditioner comprising: filter clogging detection means comprising determination means for determining that the air filter is clogged.   2. The filter clogging detection means comprises alarm means for displaying clogging of the air filter and / or output means for outputting an air filter cleaning signal to an automatic filter cleaning mechanism. The air conditioner described. The control for determining the reference value is performed at the time of shipment from a factory or at the time of trial operation, and the reference value is stored in the storage means. Air conditioner.

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