JP2021081142A - Air conditioner - Google Patents

Abstract

To provide an air conditioner capable of more surely preventing an undesired operation of a voltage doubler circuit.SOLUTION: An air conditioner 10 includes an indoor fan motor 120 of a rated voltage 280 V, a DC power source circuit 130, and an indoor-side control portion 140 at an indoor unit 100 side, and includes an applied voltage detection circuit 150 and an outdoor-side control portion 160 at an outdoor unit 110 side. The outdoor-side control portion 160 determines whether the power source applied to the air conditioner 10 is AC100 V or AC200 V on the basis of an output of the applied voltage detection circuit 150, and transmits a result of the determination to the indoor-side control portion 140 by serial communication. The indoor-side control portion 140 operates a double voltage circuit in the DC power source circuit 130 when the applied power source is AC100 V, and makes the double voltage circuit in the DC power source circuit 130 inoperative when the applied voltage is AC200 V.SELECTED DRAWING: Figure 2

Description

The present invention relates to a separator type air conditioner having an indoor unit and an outdoor unit.

The conventional air conditioner is equipped with a DC fan motor with a rated voltage of 140V for the model (100V model) that energizes the commercial power supply AC100V, and a DC fan with a rated voltage of 280V for the model (200V model) that energizes the commercial power supply AC200V. It was common to mount a motor. However, there are cases where it is desired to mount a DC fan motor with a rated voltage of 280V and rotate the indoor fan at high speed even if it is a 100V model, such as an air purifying air conditioner. In such a case, a voltage doubler circuit may be mounted on the air conditioner, the input voltage of AC100V may be converted to DC140V, and then the voltage may be doubled to DC280V by the voltage doubler circuit to drive a DC fan motor with a rated voltage of 280V. Will be done.

Further, Patent Document 1 discloses a power supply device that drives a motor having a rated voltage of 280 V and includes a voltage doubler circuit. The power supply device of Patent Document 1 operates the voltage doubler circuit when AC100V is input, and deactivates the voltage doubler circuit when AC200V is input.

Japanese Patent No. 62979999

In a 100V model air conditioner that drives a DC fan motor with a rated voltage of 280V, if the voltage doubler circuit operates undesirably when the user accidentally applies a power supply of AC200V, a high voltage of DC560V or higher is generated. There is a risk of exceeding the rated voltage of the component and causing component destruction.

In order to prevent such an undesired operation of the voltage doubler circuit, conventionally, an erroneous application detection circuit is mounted on a 100V model air conditioner, and a warning is given when an AC200V power supply is erroneously applied. Specifically, the applied voltage value is detected by the hardware on the indoor unit side, and the applied voltage value is determined by the software of the microcomputer to detect the erroneous application. Then, when an erroneous application of the AC200V power supply is detected, a warning sound or the like is emitted to warn the user of the erroneous application of the power supply.

However, such an erroneous application detection circuit may not operate correctly, or erroneous detection may occur due to a software bug. As a result, undesired operation of the voltage doubler circuit may not be reliably prevented.

Further, the power supply circuit of Patent Document 1 determines whether the applied power supply is 100V or 200V, and switches the operation / non-operation of the voltage doubler circuit according to the determination. However, the determination circuit for determining the applied voltage may not operate correctly or may cause an erroneous determination due to a software bug, as in the above-mentioned erroneous application detection circuit. Therefore, there is a possibility that an undesired operation of the voltage doubler circuit occurs when 200 V is applied.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an air conditioner capable of more reliably preventing undesired operation of a voltage doubler circuit.

In order to solve the above problems, the air conditioner of the present invention is an air conditioner including an indoor unit and an outdoor unit, and an indoor fan motor which is a DC fan motor having a rated voltage of 280 V and AC100 V are applied. Occasionally, the applied AC100V is converted to DC140V, and the converted DC140V can be doubled to DC280V by a voltage doubler circuit and supplied to the indoor fan motor, and the operation / non-operation of the voltage doubler circuit is switched. A DC power supply circuit including switching means capable of switching, a first determination unit for determining whether the applied power supply is AC100V or AC200V, and an applied power supply based on the determination result of the first determination unit. When the voltage is AC100V, the switching means is controlled to operate the voltage doubler circuit, and when the applied power supply is AC200V, the switching means is controlled to make the voltage doubler circuit inoperable. The control unit is provided in the indoor unit, the first determination unit is provided in the outdoor unit, and the first determination unit transmits the determination result to the control unit by serial communication. It is characterized by that.

According to the above configuration, since the first determination unit is provided not in the indoor unit but in the outdoor unit, the determination result of erroneous application (application of AC200V) by the first determination unit is the control unit on the indoor unit side by serial communication. Is transmitted to. In this case, even if the first determination unit does not operate correctly or an erroneous detection occurs due to a software bug, the control unit can recognize the malfunction of the first determination unit. That is, even when the first determination unit malfunctions, the voltage doubler circuit can be made non-operational, and undesired operation of the voltage doubler circuit can be prevented more reliably.

Further, the air conditioner is provided in the indoor unit and includes a second determination unit for determining whether the applied power source is AC100V or AC200V, and the control unit includes the first determination unit and the said. When the determination results of the second determination unit are both AC100V, it is determined that AC100V has been applied, the switching means is controlled to operate the voltage doubler circuit, and the first determination unit and the second determination unit When at least one of the determination results is AC200V, it is determined that AC200V has been applied, and the switching means can be controlled to make the voltage doubler circuit inoperable.

According to the above configuration, both the first determination unit on the outdoor unit side and the second determination unit on the indoor unit side can detect the erroneous application of the power supply, and have a double protection function against the erroneous application of the power supply. It becomes.

Further, in the air conditioner, the control unit may determine that AC200V has been applied, determine that the AC200V has been applied, and issue a warning of erroneous application detection from the indoor unit.

According to the above configuration, when an erroneous application of a power source (application of AC200V) is detected, the user can be notified by a warning.

Further, in the air conditioner, when it is determined that AC100V is applied, the DC power supply circuit supplies DC280V doubled by the voltage doubler circuit to the indoor fan motor, and determines that AC200V is applied. When this happens, the applied AC200V can be converted to DC280V and supplied to the indoor fan motor.

According to the above configuration, the indoor fan motor can be properly driven regardless of whether AC100V or AC200V is applied.

In the air conditioner of the present invention, even when the first determination unit does not operate correctly or an erroneous detection occurs due to a software bug, the control unit can recognize the malfunction of the first determination unit. Even when the first determination unit malfunctions, it is possible to more reliably prevent undesired operation of the voltage doubler circuit.

It is a schematic block diagram of the air conditioner which concerns on Embodiment 1. FIG. It is a block diagram which shows the drive control system of the indoor fan motor in the air conditioner which concerns on Embodiment 1. FIG. It is a circuit diagram which shows the structure of the DC power supply circuit in the drive control system of FIG. 2, and shows the operation time of a voltage doubler circuit. It is a circuit diagram which shows the structure of the DC power supply circuit in the drive control system of FIG. 2, and shows the non-operation state of the voltage doubler circuit. It is a figure which shows the schematic structure of the applied voltage detection circuit in the drive control system of FIG. It is a block diagram which shows the drive control system of the indoor fan motor in the air conditioner of Embodiment 2. It is a flowchart which shows the activation sequence of the indoor fan motor in the air conditioner which concerns on Embodiment 2.

[Embodiment 1]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram of an air conditioner 10 according to the first embodiment.

The air conditioner 10 is composed of an indoor unit 100 and an outdoor unit 110. An indoor heat exchanger 101 is provided on the indoor unit 100 side on the refrigeration cycle path of the air conditioner 10, and a compressor 111, an outdoor heat exchanger 112, a four-way valve 113, and an expansion valve are provided on the outdoor unit 110 side. 114 is provided.

The heating / cooling operation of the air conditioner 10 can be switched by changing the direction of the circulation of the refrigerant by the four-way valve 113 (FIG. 1 shows the state during the heating operation). That is, during the heating operation, the refrigerant circulates in the order of the compressor 111, the indoor heat exchanger 101, the expansion valve 114, the outdoor heat exchanger 112, and the compressor 111, and the indoor heat exchanger 101 is the condenser and the outdoor heat exchanger. 112 functions as an evaporator. On the other hand, during the cooling operation, the refrigerant circulates in the order of the compressor 111, the outdoor heat exchanger 112, the expansion valve 114, the indoor heat exchanger 101, and the compressor 111, and the outdoor heat exchanger 112 is the condenser and the indoor heat exchanger. 101 functions as an evaporator.

Further, the indoor unit 100 is provided with an indoor fan 102 for sending out the air heat exchanged by the indoor heat exchanger 101 into the room, and the outdoor unit 110 is for sending air to the outdoor heat exchanger 112. The outdoor fan 115 is provided.

In the air conditioner 10 according to the first embodiment, the indoor fan motor 120 (see FIG. 2) for the indoor fan 102 is a DC fan motor having a rated voltage of 280 V. Therefore, when operating the air conditioner 10 with the commercial power supply AC100V, it is necessary to double the voltage of DC140V to DC280V in addition to AC / DC conversion of the applied AC100V to DC140V.

FIG. 2 is a configuration diagram showing a drive control system of the indoor fan motor 120 in the air conditioner 10 according to the first embodiment. 3A and 3B are circuit diagrams showing the configuration of the DC power supply circuit 130 included in FIG. 2, where FIG. 3A shows the operation of the voltage doubler circuit and FIG. 3B shows the operation of the voltage doubler circuit.

As shown in FIG. 2, the air conditioner 10 includes an indoor fan motor 120, a DC power supply circuit 130, and an indoor control unit 140 on the indoor unit 100 side, and an applied voltage detection circuit 150 and a room on the outdoor unit 110 side. The outer control unit 160 is provided.

The power supply of the air conditioner 10 (for example, the commercial power supply AC100V) is applied on the indoor unit 100 side, and is supplied to the indoor fan motor 120 via the DC power supply circuit 130. The DC power supply circuit 130 includes a rectifier circuit, a smoothing circuit, and a voltage doubler circuit. Specifically, as shown in FIG. 3, the DC power supply circuit 130 includes a rectifying bridge (rectifying circuit) 131 composed of four diodes, a smoothing circuit composed of capacitors 132, and two capacitors 133 and 134. It has a voltage doubler circuit. Further, the DC power supply circuit 130 has a changeover switch 135 as a changeover means for switching the operation / non-operation of the voltage doubler circuit.

In the DC power supply circuit 130, the on / off of the changeover switch 135 is switched by a control signal from the indoor control unit 140. That is, the indoor control unit 140 corresponds to the control unit described in the claims. Then, as shown in FIG. 3A, when the changeover switch 135 is on, the voltage doubler circuit operates. In this case, for example, when the commercial power supply AC100V is applied to the air conditioner 10, the AC100V is converted to DC140V by the rectifier circuit and the smoothing circuit of the DC power supply circuit 130, and the DC140V is doubled to DC280V by the voltage doubler circuit. .. As a result, the indoor fan motor 120 having a rated voltage of 280 can be properly operated by the commercial power supply AC100V.

However, if the commercial power supply AC200V is erroneously applied to the air conditioner 10 and the changeover switch 135 is turned on, the AC200V is converted to DC280V by the rectifying circuit and smoothing circuit of the DC power supply circuit 130, and the voltage is doubled. The circuit doubles the voltage of DC280V to DC560V. If such an undesired high voltage is applied to the indoor fan motor 120, which is a load, the rated voltage of each component in the indoor fan motor 120 may be exceeded and component destruction may occur.

On the other hand, as shown in FIG. 3B, when the changeover switch 135 is off, the voltage doubler circuit does not operate. In this case, even if the commercial power supply AC200V is applied to the air conditioner 10, the AC200V is only converted to DC280V by the rectifier circuit and the smoothing circuit of the DC power supply circuit 130, and an undesired high voltage is applied to the indoor fan motor 120. Never given. Further, when the commercial power supply AC100V is applied while the changeover switch 135 is off, the DC power supply circuit 130 converts the AC100V to DC140V and gives it to the indoor fan motor 120, but this does not cause component destruction.

As shown in FIG. 2, the air conditioner 10 according to the first embodiment can detect when the commercial power supply AC200V is erroneously applied by the applied voltage detection circuit 150 and the outdoor control unit 160. .. The applied voltage detection circuit 150 outputs an applied voltage detection signal whose value is switched between when AC100V is applied and when AC200V is erroneously applied to the outdoor control unit 160. The outdoor control unit 160 determines whether the applied voltage is AC100V or AC200V based on the applied voltage detection signal. As a result, the applied voltage detection circuit 150 and the outdoor control unit 160 correspond to the first determination unit described in the claims. Further, the outdoor control unit 160 notifies the indoor control unit 140 of the determination result of the applied voltage by serial communication.

FIG. 4 is a diagram showing a schematic configuration of the applied voltage detection circuit 150. In FIG. 4, the applied voltage detection circuit 150 is composed of resistors R1 to R4 and a comparator Cp1. Of the two power supply lines output from the rectifier circuit (that is, the rectifier bridge 131) of the DC power supply circuit 130, the potential of the high-level power supply line HDD is input to the comparator Cp1 via the resistors R1 to R4. The comparator Cp1 compares the potential of the input high-level power supply line HDD with the reference potential (threshold value), and outputs the comparison result to the outdoor control unit 160 as an applied voltage detection signal. The output of this applied voltage detection signal is switched depending on which of the potential of the high-level power supply line HDD and the reference potential is larger.

For example, the value of the applied voltage detection signal is "0" if the potential of the high-level power supply line HDD is smaller than the reference potential (set to the potential between 140V and 280V), and the potential of the high-level power supply line HDD is the reference. If it is larger than the potential, it shall be "1". In this case, the outdoor control unit 160 can determine that the applied voltage is AC100V if the value of the applied voltage detection signal is "0", and AC200V if the value of the applied voltage detection signal is "1". Can be determined to be an erroneous application of.

In the air conditioner 10 according to the first embodiment, power is applied to the indoor unit 100 side, and the indoor fan motor 120 and the DC power supply circuit 130 are also provided in the indoor unit 100. In such a case, if erroneous application detection of the power supply is performed on the indoor unit 100 side, the applied voltage detection circuit does not operate correctly, or when erroneous detection occurs due to a software bug, the voltage doubler circuit operates undesirably. May not be reliably prevented.

On the other hand, in the air conditioner 10, the applied voltage detection circuit 150 is provided not in the indoor unit 100 but in the outdoor unit 110. Therefore, the determination result of erroneous application by the applied voltage detection circuit 150 and the outdoor control unit 160 is notified to the indoor control unit 140 by serial communication, and the indoor control unit 140 operates the voltage doubler circuit based on this determination result. / Switch non-operation (on / off of changeover switch 135).

As a result, in the air conditioner 10, even if the applied voltage detection circuit 150 does not operate correctly or an erroneous detection occurs due to a software bug, the applied voltage detection circuit 150 malfunctions on the indoor control unit 140 side. Can be recognized. Therefore, the indoor control unit 140 causes the voltage doubler circuit to malfunction not only when the outdoor control unit 160 notifies the erroneous application of AC200V, but also when the applied voltage detection circuit 150 malfunctions. This makes it possible to more reliably prevent undesired operation of the voltage doubler circuit (operation of the voltage doubler circuit when AC200V is erroneously applied).

[Embodiment 2]
FIG. 5 is a configuration diagram showing a drive control system of the indoor fan motor 120 in the air conditioner 10 according to the second embodiment. The air conditioner 10 shown in FIG. 5 includes not only the applied voltage detection circuit 150 on the outdoor unit 110 side but also the applied voltage detection circuit 151 on the indoor unit 100 side. As a result, both the outdoor unit 110 and the indoor unit 100 can detect the erroneous application of the power supply, and have a double protection function against the erroneous application of the power supply.

The applied voltage detection circuit 151 provided in the indoor unit 100 can have the same configuration as the applied voltage detection circuit 150 provided in the outdoor unit 110, that is, the configuration shown in FIG. Further, the applied voltage detection signal output by the applied voltage detection circuit 151 is input to the indoor control unit 140. The indoor control unit 140 determines whether the applied voltage is AC100V or AC200V based on the applied voltage detection signal. As a result, the applied voltage detection circuit 151 and the indoor control unit 140 correspond to the second determination unit described in the claims.

FIG. 6 is a flowchart showing the activation sequence of the indoor fan motor 120 in the air conditioner 10 according to the second embodiment. In the start-up sequence shown in FIG. 6, when a commercial power source is applied to the air conditioner 10 (S1), the applied voltage is determined by each of the indoor unit 100 and the outdoor unit 110. At the start of this start-up sequence, the changeover switch 135 of the DC power supply circuit 130 is off, and the voltage doubler circuit is in an inactive state.

In the applied voltage determination (S2) on the indoor unit 100 side, the indoor control unit 140 determines whether the applied voltage is AC100V or AC200V based on the applied voltage detection signal output by the applied voltage detection circuit 151.

Further, in order to determine the applied voltage on the outdoor unit 110 side, first, the main relay (not shown) between the indoor unit 100 and the outdoor unit 110 is turned on to energize the outdoor unit 110, and the indoor unit 110 is energized. Serial communication between 100 and the outdoor unit 110 is started (S3). Then, in the applied voltage determination (S4) on the outdoor unit 110 side, the outdoor control unit 160 determines whether the applied voltage is AC100V or AC200V based on the applied voltage detection signal output by the applied voltage detection circuit 150. .. The determination result by the outdoor control unit 160 is transmitted to the indoor control unit 140 by serial communication (S5).

The indoor control unit 140 has a DC power supply circuit when the applied voltage is AC100V in both the self-determined S2 determination result and the S5 determination result transmitted from the outdoor control unit 160 (YES in S6). The voltage doubler circuit of 130 is operated to start the indoor fan motor 120 (S7). On the other hand, when the applied voltage of either the determination result of S2 or the determination result of S5 transmitted from the outdoor control unit 160 is AC200V (NO in S6), the indoor control unit 140 is DC. The voltage doubler circuit of the power supply circuit 130 is disabled, and the indoor unit 100 gives a warning of erroneous application detection of AC200V (for example, a warning with a beep sound) (S8).

[Embodiment 3]
In the first and second embodiments, the case where the power supply of the air conditioner 10 (for example, the commercial power supply AC100V) is applied from the indoor unit 100 side is illustrated. However, the present invention is not limited to this, and the power supply of the air conditioner 10 may be applied from the outdoor unit 110 side.

Even in the air conditioner 10 in which the power is applied from the outdoor unit 110 side in this way, the erroneous application detection is determined by the applied voltage detection circuit 150 and the outdoor control unit 160 on the outdoor unit 110 side, and the determination is made. By notifying the indoor control unit 140 of the result by serial communication, the same effect as that of the air conditioner 10 of the first embodiment can be obtained.

In the air conditioner 10 described in the first to third embodiments, when an erroneous application of AC200V is detected, the voltage doubler circuit of the DC power supply circuit 130 is disabled and a warning is given for detecting an erroneous application of AC200V. Was illustrated. This is a configuration on the assumption that the air conditioner 10 is a 100V model that energizes the commercial power supply AC100V. However, the present invention is not limited to this, and the air conditioner 10 can be a 100V / 200V shared model that can be used regardless of whether the commercial power supply AC100V or AC200V is energized. That is, when the application of AC100V is detected, the indoor fan motor 120 is driven with the changeover switch 135 of the DC power supply circuit 130 turned on and the voltage doubler circuit is operated, and when the application of AC200V is detected. It is also possible to drive the indoor fan motor 120 in a state where the changeover switch 135 of the DC power supply circuit 130 is turned off and the voltage doubler circuit is inoperable. However, in this case, other than the drive control system of the indoor fan motor 120, it is necessary to have a configuration capable of applying AC200V.

Further, the timing of performing the erroneous application detection described in the first to third embodiments may be the following example.
-When the power of the air conditioner 10 is turned on (when the indoor fan motor 120 is started)
-First power-on after inserting the outlet of the air conditioner 10: In the air conditioner 10, normally, the power outlet is not frequently inserted and removed, so erroneous application is applied only when the first power is turned on after the outlet is inserted. It may be the one that performs detection.
-During operation of the air conditioner 10: The above-mentioned erroneous application detection may be performed at all times during the operation of the air conditioner 10. In this case, not only the erroneous application of AC200V but also the abnormal high voltage application due to the fluctuation of the power supply voltage can be detected. The harmony machine 10 can be protected.

In the normal air conditioner, when the refrigeration cycle is not operated during the ventilation operation or the like, the outdoor unit is not energized and only the indoor unit is operated. However, the air according to the above-described first to third embodiments is operated. When the erroneous application detection is performed, the air conditioner 10 energizes the outdoor unit 110 even during the ventilation operation.

The embodiments disclosed this time are examples in all respects and do not serve as a basis for limited interpretation. Therefore, the technical scope of the present invention is not construed solely by the above-described embodiments, but is defined based on the description of the claims. It also includes all changes within the meaning and scope of the claims.

10 Air conditioner 100 Indoor unit 102 Indoor fan 110 Outdoor unit 120 Indoor fan motor 130 DC power supply circuit 131 Rectifier bridge (rectifier circuit)
132 Capacitor (smoothing circuit)
133,134 Capacitor (voltage double circuit)
135 Changeover switch (changeover means)
140 Indoor control unit (control unit, second judgment unit)
150 Applied voltage detection circuit (1st judgment unit)
151 Applied voltage detection circuit (second judgment unit)
160 Outdoor control unit (first judgment unit)

Claims (4)

An air conditioner equipped with an indoor unit and an outdoor unit.
An indoor fan motor, which is a DC fan motor with a rated voltage of 280V,
When the commercial power supply AC100V is applied, the applied AC100V is converted to DC140V, and the converted DC140V can be doubled to DC280V by a voltage doubler circuit and supplied to the indoor fan motor, and the voltage doubler circuit can be supplied. A DC power supply circuit equipped with a switching means that can switch between operation and non-operation of
A first determination unit that determines whether the applied power supply is AC100V or AC200V, and
Based on the determination result of the first determination unit, when the applied power supply is AC100V, the switching means is controlled to operate the voltage doubler circuit, and when the applied power supply is AC200V, the switching means is controlled. It is equipped with a control unit that makes the voltage doubler circuit inoperable.
The control unit is provided in the indoor unit, and the first determination unit is provided in the outdoor unit.
The first determination unit is an air conditioner characterized in that the determination result is transmitted to the control unit by serial communication. The air conditioner according to claim 1.
The indoor unit is provided with a second determination unit for determining whether the applied power source is AC100V or AC200V.
When the determination results of the first determination unit and the second determination unit are both AC100V, the control unit determines that AC100V has been applied, controls the switching means, and operates the voltage doubler circuit. When at least one of the determination results of the first determination unit and the second determination unit is AC200V, it is determined that AC200V has been applied, and the switching means is controlled to make the voltage doubler circuit inoperable. Characterized air conditioner. The air conditioner according to claim 1 or 2.
An air conditioner characterized in that, when it is determined that AC200V has been applied, the control unit determines that an erroneous application has been applied, and issues a warning of erroneous application detection from the indoor unit. The air conditioner according to claim 1 or 2.
When it is determined that AC100V is applied, the DC power supply circuit supplies DC280V doubled by the voltage doubler circuit to the indoor fan motor, and when it is determined that AC200V is applied, the applied AC200V. Is converted to DC280V and supplied to the indoor fan motor.

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