KR102643518B1 - Intelligent apparatus for controlling air conditioner - Google Patents

Abstract

An intelligent air conditioning and heating control device is disclosed. The intelligent air conditioner control device includes a receiver that receives a power control signal containing information for turning on or off the air conditioner from a control terminal, and a remote control signal that turns on or off the power of the air conditioner in response to the power control signal to the air conditioner. A transmitting unit that transmits, a detection unit that detects at least one of vibration and sound of the air conditioner or sound during a first period from the time the remote control signal is applied, or a detection unit that detects temperature and humidity around the air conditioner, and a result detected by the detection unit is used to detect the A control unit that determines whether the power of the air conditioner is on or off and, if the power state of the air conditioner does not match the information of the received power control signal, controls the transmitter to retransmit the remote control signal to the air conditioner. It can be provided.

Description

Intelligent apparatus for controlling air conditioner}

The present invention relates to an intelligent air conditioner control device, and in particular, to an intelligent air conditioner control device that detects whether the air conditioner is in an on or off state while performing a remote control function and controls the air conditioner to achieve a user's desired state.

Recently, home appliances have become more advanced, and IoT products linked to the Internet and wireless communication are being released. Previously, a remote control had to be used to control heating and cooling devices such as air conditioners and heaters from a distance. However, recently, products that allow you to turn on or off the air conditioner or control the temperature through an application or the web on a smartphone or PC are being released. Accordingly, remote controls can now be replaced by smartphones.

There is no problem if you use a recently released air conditioner that includes IoT functions, but if you use an existing air conditioner that does not include IoT functions, you still have no choice but to use a remote control to control it from a distance. Therefore, it is difficult to control the existing air conditioner outside the house, and in order to control the air conditioner, it must be replaced with the latest air conditioner with IoT function. In order to control the air conditioner indoors, there was the inconvenience of having to find and use a remote control. In addition, since the remote control transmits control signals using the IR method, it is not only impossible to use when the distance is long or is blocked by a wall, but there is also the inconvenience of being able to control only with the remote control of the product.

To solve this problem, in Korea Patent No. 10-1819590, etc., a remote control repeater that receives a drive control signal from an application of a portable terminal converts the drive control signal into an infrared remote control signal and outputs it to the air conditioner, thereby controlling the air conditioner. This is applied. However, when using such a remote control repeater, there is a problem in that there is no way to check whether the power status of the air conditioner has normally changed after the remote control repeater outputs an infrared remote control signal to the air conditioner. The remote control repeater transmits an infrared remote control signal to the air conditioner, but the air conditioner cannot transmit a separate power status signal to the remote control repeater. Therefore, when the infrared remote control signal is not properly received from the air conditioner, the application shows that the air conditioner is on, but in reality, the air conditioner is off, making it difficult to control and use it like an existing air conditioner with IoT functions.

The problem to be solved by the present invention is to provide an intelligent air conditioner control device that can detect whether the air conditioner is in an on or off state while performing a remote control function and control the air conditioner to be in the user's desired state.

An intelligent air conditioner control device according to an embodiment of the present invention for achieving the above problem includes a receiver that receives a power control signal containing information for turning on or off the air conditioner from a control terminal, and an air conditioner and heater in response to the power control signal. A transmitter that transmits a remote control signal that turns on or off the power to the air conditioner, a sensor that detects at least one of vibration and sound of the air conditioner or a temperature and humidity around the air conditioner during a first section from the time the remote control signal is applied. It is determined whether the power of the air conditioner is on or off using the results detected by the unit and the detection unit, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter A control unit may be provided to control retransmission of the remote control signal to the air conditioner.

The detection unit includes at least one of a vibration sensor that detects vibration, an acoustic sensor that detects sound, and a temperature and humidity sensor that detects temperature and humidity, and the control unit determines that the vibration detected by the vibration sensor is included in the reference vibration range or the detected If the pattern of vibration corresponds to a standard vibration pattern, the sound detected by the acoustic sensor is included in the standard sound range, or if the pattern of the detected sound corresponds to the standard sound pattern, the frequency of the sound detected by the acoustic sensor If is included in the reference frequency range or the detected frequency pattern corresponds to the reference frequency pattern, the temperature change detected by the temperature and humidity sensor is included in the reference temperature change range and the humidity change detected by the temperature and humidity sensor is the reference humidity change amount. When included in the range, the air conditioner or heater satisfies at least one of the cases where the temperature change pattern detected by the temperature and humidity sensor corresponds to a reference temperature change pattern and the humidity change pattern detected by the temperature and humidity sensor corresponds to the reference humidity change pattern. It may be determined that the air conditioner is in an on state, and in other cases, it may be determined that the air conditioner is in an off state.

The vibration sensor, the sound sensor, or the temperature and humidity sensor may be built into the intelligent air conditioner control device, and the intelligent air conditioner control device may be attached to the body of the air conditioner.

If the control unit determines that the power state of the air conditioner does not match the information of the received power control signal after transmitting the remote control signal from the transmitter to the air conditioner n times (n is a natural number of 2 or more), The current power status of the air conditioner can be transmitted to the control terminal.

The intelligent air conditioner control device may perform wireless communication with the control terminal and infrared communication with the air conditioner.

The detection unit detects at least one of vibration, sound, frequency, and temperature and humidity of the air conditioner during a first period from the time the power control signal is applied, and the control unit uses the result detected by the detection unit to detect the power of the air conditioner and heater. determines whether the air conditioner is in an on or off state, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter transmits the remote control signal to the air conditioner and the heater, and the power state of the air conditioner is changed to If the status matches the information of the received power control signal, the transmitter can be controlled not to transmit the remote control signal to the air conditioner or heater.

The intelligent air conditioner control device further includes an occupancy detection sensor that detects the presence of an occupant in the space where the air conditioner is installed, and the control unit uses the detection result of the occupancy detection sensor to determine that there is no occupant in the space. In this case, the detection unit is controlled to detect at least one of the vibration, sound, frequency, and temperature and humidity of the air conditioner during the second period from the time it is determined that the occupant is not present, and the detected result by the detection unit is used. As a result of determining the current power state of the air conditioner, if the air conditioner is turned on, the transmitter can be controlled to transmit the remote control signal to the air conditioner.

When the control unit converts the power of the air conditioner or heater without receiving the power control signal from the control terminal, the control unit may transmit information corresponding to the converted power state of the air conditioner to the control terminal.

The control unit determines that no occupants exist in the space and transmits the remote control signal to turn the air conditioner to an off state. When the power control signal is received from the control terminal, the remote control signal is transmitted to the air conditioner. can be controlled to transmit, and thereafter, even if it is determined that there is no occupant in the space, the remote control signal can be controlled not to be transmitted to the air conditioner or heater.

The control unit operates the occupancy detection sensor from the time the power control signal to change the air conditioner to the on state is received from the control terminal until the power control signal to change the air conditioner to the off state is received, In other sections, the occupancy detection sensor can be controlled not to operate.

An intelligent air conditioner control device according to an embodiment according to the technical idea of the present invention receives a power control signal to turn the air conditioner on or off from a control terminal such as a smartphone and controls the air conditioner, responding to the received power control signal. This has the advantage of being able to detect whether the status of the air conditioner has changed and perfectly synchronizing the status of the air conditioner displayed on the control terminal with the actual operation status of the air conditioner. In other words, when a signal to turn on the air conditioner or heater is received from a smartphone, etc. through wireless communication, the corresponding remote control signal (e.g., infrared signal, etc.) is transmitted to the air conditioner. If the air conditioner does not receive the remote control signal properly, In this case, the current power status of the air conditioner can be detected and a remote control signal can be transmitted until the air conditioner is turned on. Recently released IoT products communicate with smartphones, etc. over the Internet, so there is no inconvenience in detecting whether the air conditioner is currently on or off. However, in the case of existing air conditioners that do not include IoT functions and are operated only by remote control, a signal to simply change the power is transmitted from the remote control to the air conditioner and heating device, and no separate information is transmitted from the air conditioner to the remote control, so it is necessary to determine whether the air conditioner is currently on or off. There was no way to know what the status was. However, in the case of the present invention, it is possible to detect whether the air conditioner is normally switched on or off in response to the remote control signal while transmitting a remote control signal instead of a remote control, so it is possible to obtain the same effect as a product equipped with an IoT function. There is.

In addition, the intelligent air conditioner control device according to an embodiment of the technical idea of the present invention not only automatically turns off the air conditioner when there is no occupant in the space where the air conditioner exists, but also checks whether the power state of the air conditioner has been normally changed in this case. can be detected, and when the power status of the air conditioner is automatically changed, the current state of the air conditioner can be transmitted to a control terminal such as a smartphone to automatically change the status of the air conditioner displayed in the application. Therefore, not only can energy savings be achieved by preventing the air conditioner from operating in an empty space, but it can also accurately display the status of the air conditioner or heater corresponding to the control terminal, which has the advantage of enabling more stable use.

In order to more fully understand the drawings cited in the detailed description of the present invention, a brief description of each drawing is provided.
Figure 1 is a block diagram briefly showing the configuration of an intelligent air conditioner control device 100 according to an embodiment of the technical idea of the present invention.
FIG. 2 is a diagram illustrating an embodiment of the control terminal 200 in FIG. 1.
FIG. 3 is a flowchart for explaining the operation of the intelligent air conditioner control device 100 of FIG. 1 according to an embodiment.
FIG. 4 is a flowchart for explaining the operation of the intelligent air conditioner control device 100 of FIG. 1 according to another embodiment.
FIG. 5 is a flowchart for explaining the operation of the intelligent air conditioner control device 100 of FIG. 1 according to another embodiment.

In order to fully understand the present invention, its operational advantages, and the objectives achieved by practicing the present invention, reference should be made to the accompanying drawings and the contents described in the drawings illustrating preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

FIG. 1 is a block diagram briefly showing the configuration of an intelligent air conditioning control device 100 according to an embodiment according to the technical idea of the present invention, and FIG. 2 shows an embodiment of the control terminal 200 in FIG. 1. It is a drawing, and FIG. 3 is a flowchart for explaining the operation according to an embodiment of the intelligent air conditioner control device 100 of FIG. 1, and FIG. 4 is a flowchart of another embodiment of the intelligent air conditioner control device 100 of FIG. 1. This is a flowchart to explain the following operations.

Referring to Figures 1 to 4, an intelligent air conditioner control device 100 according to an embodiment according to the technical idea of the present invention can communicate with the control terminal 200 and the air conditioner 300. The control terminal 200 is a terminal that includes a remote control function for controlling an air conditioner and a heater, and may be a variety of devices capable of wireless communication, such as a smartphone, tablet PC, or PC. For example, if the control terminal 200 is a smartphone, the on/off of the air conditioner 300 can be controlled or applied through the application of the control terminal 200 or on the web, as shown in FIG. 2. You can set the mode, wind strength, wind direction, etc. The control terminal 200 can communicate with the air conditioner control device 100 using various wireless communication networks, and the control terminal 200 provides information to turn the air conditioner 300 on or off with the intelligent air conditioner control device 100. The included power control signal can be transmitted.

The air conditioner 300 is a device capable of cooling or heating, and may include a device capable of only cooling, a device capable of heating only, and a device capable of both cooling and heating. The intelligent air conditioning control device 100 can transmit a remote control signal to the air conditioner 300. The remote control signal is a signal transmitted from a conventional remote control to the air conditioner 300 and may be, for example, an infrared signal. Since the recently released air conditioner 300 is equipped with an IoT function that can be controlled remotely with a smartphone, etc., it can turn on or off the power of the air conditioner 300 without using the intelligent air conditioning control device 100 of the present invention. It is possible. However, conventional air conditioning and heating devices that do not include IoT functions simply receive remote control signals such as infrared signals from the remote control and are converted to the on or off state, and the remote control determines whether the air conditioner 300 is currently in the on or off state. There is a problem that feedback cannot be received from 300). The intelligent air conditioner control device 100 of the present invention solves this problem. The intelligent air conditioner control device 100 of the present invention is used to control air conditioners 300 that are not equipped with IoT functions in a control terminal 200 such as a smartphone. ), if you want to turn it on or off, check whether the power state of the air conditioner (300) has been normally converted to the state where the command was issued from the control terminal 200, and if not, transmit the remote control signal again to change the power state of the air conditioner (300). can be converted to the same state as commanded from the control terminal 200. Therefore, using the intelligent air conditioner control device 100 of the present invention, an existing air conditioner that is not equipped with an IoT function can be controlled remotely using a smartphone, etc., like a new air conditioner equipped with an IoT function.

To this end, the intelligent air conditioning control device 100 according to an embodiment according to the technical idea of the present invention may be provided with a receiving unit 110, a transmitting unit 120, a sensing unit 130, and a control unit 140.

The receiving unit 110 may receive a power control signal containing information for turning on or off the air conditioner 300 from the control terminal 200. The power control signal includes information to change the air conditioner 300 to the on state or information to change the air conditioner 300 to the off state. The intelligent air conditioner control device 100 uses the information of the power control signal received from the receiver 110 to determine whether to change the air conditioner 300 to the on or off state.

The transmitter 120 may transmit a remote control signal to the air conditioner 300 to turn on or off the power of the air conditioner 300 in response to the power control signal. As described above, the remote control signal is the same signal transmitted from the remote control that can control the operation of the air conditioner 300, and may be, for example, an infrared signal. In order to stably transmit the remote control signal from the transmitter 120 to the air conditioner 300, the intelligent air conditioner control device 100 may be attached to the body of the air conditioner 400. As in the embodiment of FIG. 3, the transmitter 120 may immediately transmit the remote control signal to the air conditioner 300 upon receiving the power control signal, and after receiving the power control signal as in the embodiment of FIG. 4, the air conditioner ( After detecting the power state of the air conditioner (400), the remote control signal may be transmitted to the air conditioner (300) only when the power control signal and the power state of the air conditioner (400) do not match. This will be described in more detail in each of the embodiments of FIGS. 3 and 4.

The detection unit 130 may detect at least one of the vibration and sound of the air conditioner 300 or the temperature and humidity around the air conditioner 300 during the first period from the time the remote control signal is applied. The detection unit 130 may include at least one of a vibration sensor that detects vibration, an acoustic sensor that detects sound, and a temperature and humidity sensor that detects temperature and humidity. As described above, the intelligent air conditioner control device 100 is attached to the body of the air conditioner 300, and the vibration sensor, the acoustic sensor, or the temperature and humidity sensor may be built into the intelligent air conditioner control device, so the air conditioner control device ( 100) can accurately detect at least one of the vibration and sound of the air conditioner 300 and can accurately sense the temperature and humidity around the air conditioner 300.

The control unit 140 determines whether the power of the air conditioner 300 is on or off using the result detected by the detection unit 130, and determines the power state of the air conditioner 300 based on the information of the received power control signal. If there is a mismatch, the transmitter 120 can be controlled to retransmit the remote control signal to the air conditioner 300. For example, if the result detected by the detection unit 130 is that the power of the air conditioner 300 is turned off and the information of the received power control signal includes a command to turn on the power of the air conditioner 300, or The result detected by the detection unit 130 is that the power of the air conditioner 300 is turned on, and if the information of the received power control signal includes a command to turn off the power of the air conditioner 300, the power control signal Accordingly, since the power of the air conditioner 300 is not controlled, the control unit 140 can control the transmitter 120 to retransmit the remote control signal to the air conditioner 300.

When the air conditioner 300 is operating, vibration or sound in a specific band occurs, vibration or sound in a specific pattern occurs, or the temperature and humidity around the air conditioner 300 changes when it has a specific band or pattern, so the detection unit 130 ), the control unit 140 can determine whether the air conditioner 300 is in an on or off state. For example, when the vibration detected by the vibration sensor is included in the standard vibration range or the pattern of the detected vibration corresponds to the standard vibration pattern, the control unit 140 determines that the sound detected by the acoustic sensor is within the standard sound range. If the pattern of the sound included or detected corresponds to a reference sound pattern, if the frequency of the sound detected by the acoustic sensor is included in the standard frequency range, or if the pattern of the frequency of the detected sound corresponds to the reference frequency pattern, If the temperature change detected by the temperature and humidity sensor is included in the standard temperature change range and the humidity change detected by the temperature and humidity sensor is included in the standard humidity change range, the temperature change pattern detected by the temperature and humidity sensor corresponds to the reference temperature change pattern. If the humidity change pattern detected by the temperature and humidity sensor satisfies at least one of the cases corresponding to the reference humidity change pattern, it is determined that the air conditioner is in an on state, and in other cases, it is determined that the air conditioner is in an off state. there is.

The control unit 140 transmits the remote control signal from the transmitter 120 to the air conditioner 300 n times (n is a natural number of 2 or more) and then uses the detected result of the detection unit 130 to determine the power status of the air conditioner 300. If it is determined that the current power state of the air conditioner 300 does not match the information of the received power control signal, the current power state of the air conditioner 300 may be transmitted to the control terminal 200. For example, in order to turn the air conditioner 300 into the on state, the remote control signal is transmitted to the air conditioner 300 n times, but the air conditioner 300 is still in the off state. This means that the air conditioner 300 is broken or the air conditioner 300 is in the off state. ) is likely to be impossible to control with the remote control signal, such as when the power is not applied, so in this case, the control unit 140 determines the status of the air conditioner 300 displayed on the control terminal 200 and the actual air conditioner 300. ), the current power status of the air conditioner 300 is transmitted to the control terminal 200 to match the status. Therefore, if the user fails to turn the air conditioner 300 into the on state after clicking the button to turn on the air conditioner 300 on the control terminal 200, the control terminal receives the signal transmitted from the control unit 140. At 200, the status of the air conditioner 300 is displayed as off. Therefore, the current power status of the air conditioner 300 can be accurately displayed on the control terminal 200.

In summary, an embodiment of the operation of the intelligent air conditioning control device 100 will be described with reference to FIG. 3 . First, the receiver 110 of the intelligent air conditioner control device 100 receives the power control signal from the control terminal 200 (S310), and in response to the power control signal, the transmitter 120 controls the air conditioner 300. The remote control signal that turns the power on or off can be transmitted to the air conditioner 300 (S320). The detection unit 130 detects at least one of the vibration and sound of the air conditioner 300 or the temperature and humidity around the air conditioner 300 during the first period from the time the remote control signal is applied (S330), and the control unit 140 Using the detected result, it is possible to determine whether the power of the air conditioner 300 is on or off (S340). The current power state of the air conditioner 300 determined in this way is compared with the information of the power control signal (S350), and if the current power state of the air conditioner 300 and the information of the power control signal match, the air conditioner 300 is normally operated. Since the power status has changed, no additional operation is performed. As a result of the determination in step S350, if the current power state of the air conditioner 300 and the information of the power control signal do not match, the power state of the air conditioner 300 has not been changed normally, and the control unit 140 controls the air conditioner 300 to The transmitter 120 can be controlled to retransmit the remote control signal (S360). Since the remote control signal is applied in step S360, the detection unit 130 detects at least one of vibration and sound of the air conditioner 300 or detects the temperature and humidity around the air conditioner 300 during the first period from the time the remote control signal is applied. The detection step S330 is performed again. Afterwards, steps S340 and S350 are performed and the above operations are repeated until the power state of the air conditioner 300 is changed normally. If the power state of the air conditioner 300 does not change even after repeating this operation n times, the control unit 140 no longer transmits the remote control signal to the air conditioner 300 and the control terminal 200 Information about the current status of the air conditioner 300 can be transmitted.

Figure 4 shows another embodiment of the operation of the intelligent air conditioning control device 100. In the embodiment of FIG. 4, the receiver 110 of the intelligent air conditioner control device 100 does not immediately transmit the remote control signal to the air conditioner 300 after receiving the power control signal from the control terminal 200 (S410). Instead, the current power state of the air conditioner 300 is first detected by the sensing unit 130 (S420). That is, after step S410, the detection unit 130 detects at least one of the vibration and sound of the air conditioner 300 or the temperature and humidity around the air conditioner and heater during the first section from the time the power control signal is applied (S420). , the control unit 140 can determine whether the power of the air conditioner 300 is on or off using the sensed result (S430). The current power state of the air conditioner 300 determined in this way is compared with the information of the power control signal (S440), and if the current power state of the air conditioner 300 and the information of the power control signal match, the air conditioner 300 Since there is no need to change the power state, the operation is terminated without transmitting the remote control signal to the air conditioner 300. As a result of the determination in step S440, if the current power state of the air conditioner 300 and the information of the power control signal do not match, the power state of the air conditioner 300 must be changed, so the control unit 140 sends the remote control signal to the air conditioner 300. The transmitter 120 can be controlled to transmit (S450). After step S450 is performed, it must be determined whether the power state of the air conditioner 300 has changed normally, as shown in FIG. 3. Therefore, the detection unit 130 detects at least one of the vibration and sound of the air conditioner 300 or the temperature and humidity around the air conditioner 300 during the first section from the time the remote control signal is applied. Step S330 of FIG. 3 is performed. It is performed, and then steps S340, S350, and S360 are performed. Since this has been described in detail in relation to FIG. 3, the detailed description below will be replaced with the description of FIG. 3.

FIG. 5 is a flowchart for explaining the operation of the intelligent air conditioner control device 100 of FIG. 1 according to another embodiment.

Referring to Figures 1 to 5, the intelligent air conditioning control device 100 may further include an occupancy detection sensor 150. The occupancy detection sensor 150 is a sensor that detects the presence of occupants in the space where the air conditioner 300 is installed, and may include various sensors such as a motion sensor, an infrared sensor, and a door sensor.

When it is determined that there is no occupant in the space using the detection result of the occupancy detection sensor 150, the control unit 140 detects the detector 130 during a second period from the time it is determined that there is no occupant. It can be controlled to detect at least one of vibration, sound, frequency, and temperature and humidity of the air conditioner 300. Then, the control unit 140 determines the current power state of the air conditioner 300 using the result detected by the detection unit 130, and if the air conditioner 300 is turned on, the transmitter 120 sends the air conditioner 300 to the air conditioner 300. It can be controlled to transmit the remote control signal. Since the operation of the detection unit 130 and the operation of the control unit 140 to determine the current power state of the air conditioner 300 have been described in detail previously, overlapping parts will be replaced with those described above. Through this operation, when there are no occupants in the space, the state of the air conditioner 300 is automatically detected and changed from the on state to the off state, thereby minimizing energy consumption.

And when the control unit 140 converts the power of the air conditioner 300 without receiving the power control signal from the control terminal 200, the control unit 140 sends information corresponding to the converted power state of the air conditioner 300 to the control terminal ( 200), so that the changed power state is displayed on the control terminal 200.

In addition, when the power control signal is received from the control terminal 200 after the control unit 140 determines that there are no occupants in the space and transmits the remote control signal to change the air conditioner 300 to the off state, , the remote control signal can be controlled to be transmitted to the air conditioner 300, and thereafter, even if it is determined that there is no occupant in the space, the remote control signal can be controlled not to be transmitted to the air conditioner 300. That is, if it is determined that there are no occupants and the air conditioner 300 is turned off, but the power control signal is later received from the control terminal 200, a command is issued to turn on the air conditioner 300 in advance even though there are no occupants. Since there is a high possibility that there is no occupant, but the power control signal to turn on the air conditioner (300) is applied, the air conditioner (300) can be turned on and the air conditioner (300) cannot be turned off even if there are no occupants. .

In addition, the control unit 140 operates from the time the power control signal to change the air conditioner 300 to the on state is received from the control terminal 200 when the power control signal to change the air conditioner 300 to the off state is received. The occupancy detection sensor 150 operates up to, and can be controlled so that the occupancy detection sensor 150 does not operate in other sections. In other words, the occupancy detection sensor 150 operates only during the section in which the air conditioner 300 is in the on state, so that when there is no occupant, the occupancy detection sensor 150 needs to be converted to the off state. Therefore, the occupancy detection sensor 150 operates on the air conditioner 300. ) can only operate during the section where it is on.

Comprising the above, another embodiment of the operation of the intelligent air conditioning control device 100 will be described with reference to FIG. 5. First, the occupancy detection sensor 150 of the intelligent air conditioner control device 100 determines whether an occupant exists in the space where the air conditioner 300 is installed (S510), and if there is no occupant as a result of the determination in S510, the detection unit 130 Can detect at least one of the vibration, sound, frequency, and temperature and humidity of the air conditioner during a second period from the time when it is determined that there is no occupant (S520). Then, the control unit 140 can use the sensed result to determine whether the air conditioner 300 is turned on or off (S530). If the determination in S530 is that the air conditioner 300 is turned on, the control unit 140 can control the transmitter 120 to retransmit the remote control signal to the air conditioner 300 (S550). Since the remote control signal is applied in step S550, it must be determined whether the power state of the air conditioner 300 has been normally changed as shown in FIG. 3. Therefore, the detection unit 130 detects at least one of the vibration and sound of the air conditioner 300 or the temperature and humidity around the air conditioner 300 during the first section from the time the remote control signal is applied. Step S330 of FIG. 3 is performed. It is performed, and then steps S340, S350, and S360 are performed. Since this has been described in detail in relation to FIG. 3, the detailed description below will be replaced with the description of FIG. 3.

As described above, the optimal embodiments are disclosed in the drawings and specifications. Although specific terms are used here, they are used only for the purpose of explaining the present invention and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached patent claims.

Claims (10)

A receiving unit that receives a power control signal containing information for turning on or off the air conditioner from the control terminal;
a transmitter that transmits a remote control signal to the air conditioner or heater to turn on or off the power of the air conditioner in response to the power control signal;
a detection unit that detects at least one of vibration and sound of the air conditioner or sound or temperature and humidity around the air conditioner during a first period from the time the remote control signal is applied; and
Using the result detected by the detection unit, it is determined whether the power of the air conditioner is on or off, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter and a control unit that controls retransmission of the remote control signal,
The sensing unit,
It includes at least one of a vibration sensor that detects vibration, an acoustic sensor that detects sound, and a temperature and humidity sensor that detects temperature and humidity,
The control unit,
When the pattern of vibration detected by the vibration sensor corresponds to a standard vibration pattern, when the sound detected by the acoustic sensor is included in the standard sound range, or when the pattern of the detected sound corresponds to the standard sound pattern, the acoustic sensor If the frequency of the sound detected is included in the reference frequency range or the pattern of the detected frequency corresponds to the reference frequency pattern, the temperature change amount detected by the temperature and humidity sensor is included in the reference temperature change amount range and the temperature change amount detected by the temperature and humidity sensor is When the humidity change amount is included in the standard humidity change range, at least one of the following cases occurs where the temperature change pattern detected by the temperature and humidity sensor corresponds to the reference temperature change pattern and the humidity change pattern detected by the temperature and humidity sensor corresponds to the reference humidity change pattern. If satisfies, it is determined that the air conditioner is in an on state, and in other cases, it is determined that the air conditioner is in an off state. delete According to paragraph 1,
The vibration sensor, the sound sensor, or the temperature and humidity sensor are built into the intelligent air conditioning control device,
The intelligent air conditioner control device is characterized in that it is attached to the body of the air conditioner. The method of claim 1, wherein the control unit:
After transmitting the remote control signal from the transmitter to the air conditioner n times (n is a natural number of 2 or more), if it is determined that the power state of the air conditioner does not match the information of the received power control signal, the control terminal sends the remote control signal to the air conditioner. An intelligent air conditioner control device characterized by transmitting the current power status of the air conditioner. The method of claim 1, wherein the intelligent air conditioning/heating control device,
An intelligent air conditioner control device characterized in that it performs wireless communication with the control terminal and infrared communication with the air conditioner. The method of claim 1, wherein the sensing unit,
Detecting at least one of vibration, sound, frequency, temperature and humidity of the air conditioner and heating during a first period from the time the power control signal is applied,
The control unit,
Using the result detected by the detection unit, it is determined whether the power of the air conditioner is on or off, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter transmitting the remote control signal to the air conditioner, and controlling the transmitter not to transmit the remote control signal from the transmitter to the air conditioner when the power state of the air conditioner matches the information of the received power control signal. Intelligent air conditioning control device. The method of claim 1, wherein the intelligent air conditioning/heating control device,
It is further provided with an occupancy detection sensor that detects the presence of an occupant in the space where the air conditioner is installed,
The control unit,
When it is determined that there is no occupant in the space using the detection result of the occupancy detection sensor, the detection unit detects vibration, sound, and frequency of the air conditioner during a second period from the time when it is determined that there is no occupant. and control to detect at least one of temperature and humidity,
An intelligent air conditioner control device that controls the transmitter to transmit the remote control signal to the air conditioner when the current power state of the air conditioner is determined using the result detected by the detection unit and the air conditioner is turned on. . A receiving unit that receives a power control signal containing information for turning on or off the air conditioner from the control terminal;
a transmitter that transmits a remote control signal to the air conditioner or heater to turn on or off the power of the air conditioner in response to the power control signal;
A detection unit that detects at least one of vibration and sound of the air conditioner or a temperature and humidity around the air conditioner during a first period from the time the remote control signal is applied;
An occupancy detection sensor that detects the presence of an occupant in a space where the air conditioner is installed; and
Using the result detected by the detection unit, it is determined whether the power of the air conditioner is on or off, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter and a control unit that controls retransmission of the remote control signal,
The control unit,
When it is determined that there is no occupant in the space using the detection result of the occupancy detection sensor, the detection unit detects vibration, sound, and frequency of the air conditioner during a second period from the time when it is determined that there is no occupant. and control to detect at least one of temperature and humidity,
If the current power state of the air conditioner is determined using the result detected by the detection unit and the air conditioner is turned on, the transmitter is controlled to transmit the remote control signal to the air conditioner and heater,
The control unit,
When the power of the air conditioner is converted without receiving the power control signal from the control terminal, an intelligent air conditioner control device transmits information corresponding to the converted power state of the air conditioner to the control terminal. A receiving unit that receives a power control signal containing information for turning on or off the air conditioner from the control terminal;
a transmitter that transmits a remote control signal to the air conditioner or heater to turn on or off the power of the air conditioner in response to the power control signal;
A detection unit that detects at least one of vibration and sound of the air conditioner or a temperature and humidity around the air conditioner during a first period from the time the remote control signal is applied;
An occupancy detection sensor that detects the presence of an occupant in a space where the air conditioner is installed; and
Using the result detected by the detection unit, it is determined whether the power of the air conditioner is on or off, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter and a control unit that controls retransmission of the remote control signal,
The control unit,
When it is determined that there is no occupant in the space using the detection result of the occupancy detection sensor, the detection unit detects vibration, sound, and frequency of the air conditioner during a second period from the time when it is determined that there is no occupant. and control to detect at least one of temperature and humidity,
If the current power state of the air conditioner is determined using the result detected by the detection unit and the air conditioner is turned on, the transmitter is controlled to transmit the remote control signal to the air conditioner and heater,
The control unit,
When the power control signal is received from the control terminal after determining that there is no occupant in the space and transmitting the remote control signal to turn the air conditioner to an off state, control is performed to transmit the remote control signal to the air conditioner or heater. And, thereafter, even if it is determined that there is no occupant in the space, an intelligent air conditioner control device is controlled not to transmit the remote control signal to the air conditioner. A receiving unit that receives a power control signal containing information for turning on or off the air conditioner from the control terminal;
a transmitter that transmits a remote control signal to the air conditioner or heater to turn on or off the power of the air conditioner in response to the power control signal;
A detection unit that detects at least one of vibration and sound of the air conditioner or a temperature and humidity around the air conditioner during a first period from the time the remote control signal is applied;
An occupancy detection sensor that detects the presence of an occupant in a space where the air conditioner is installed; and
Using the result detected by the detection unit, it is determined whether the power of the air conditioner is on or off, and if the power state of the air conditioner does not match the information of the received power control signal, the transmitter and a control unit that controls retransmission of the remote control signal,
The control unit,
When it is determined that there is no occupant in the space using the detection result of the occupancy detection sensor, the detection unit detects vibration, sound, and frequency of the air conditioner during a second period from the time when it is determined that there is no occupant. and control to detect at least one of temperature and humidity,
If the current power state of the air conditioner is determined using the result detected by the detection unit and the air conditioner is turned on, the transmitter is controlled to transmit the remote control signal to the air conditioner and heater,
The control unit,
The occupancy detection sensor operates from the time the power control signal to change the air conditioner to the on state is received from the control terminal until the power control signal to change the air conditioner to the off state is received, and in other sections, An intelligent air conditioner control device characterized in that it controls the occupancy detection sensor not to operate.