KR20100082521A - Home appliance and controlling method for the same of - Google Patents

Abstract

PURPOSE: A home electronic device and a control method for the same are provided to accurately process a humidity control by using a detected humidity from a humidity sensor installed in other home electronic devices. CONSTITUTION: A home electronic device comprises a temperature sensor(330), and a controller(600) which performs a humidity control according to a humidity detected from a humidity sensor(520) installed in other home electronic device sense, when the difference value of the temperature detected with the temperature sensor and the temperature detected in a temperature sensor(510) of the other home electronic device is under a reference value. The controller controls the indoor unit or the air purifier of an air-conditioner. According to the humidity, the dehumidification operation of the air-conditioner is performed. If the difference value is same or larger than the reference value, the controller stops the humidity control according to the humidity detected in the humidity sensor of the other home electronic device.

Description

Home appliance and controlling method {Home appliance and controlling method for the same of}

The present invention relates to a control method of the home appliance, and more particularly, to a home appliance and a control method thereof that can accurately control the humidity through the humidity detected by the humidity sensor mounted on the other home appliance.

A multi-type air conditioner, which is one of the representative household appliances, is a device that performs a heating function or a cooling function to make a room comfortable for people to live in. A compressor, a condenser, an expansion valve, and a refrigeration cycle are formed to perform a heating or cooling function. An evaporator.

Some of the indoor units of such a multi-type air conditioner have been released including humidity control, that is, dehumidification operation.

On the other hand, the control to control the humidity is precisely performed by sensing the humidity directly through the provided humidity sensor.

However, some of the indoor units of the multi-type air conditioners on the market do not have a humidity sensor, and thus there is a disadvantage in that the humidity control cannot be performed. Although some of the indoor units of the multi-type air conditioners on the market do not have a humidity sensor, a control method of estimating the humidity through another method, that is, a method of estimating humidity using temperature, and controlling the humidity through the estimated humidity In case of performing, the control accuracy is low.

It is an object of the present invention to provide a home appliance and a control method thereof capable of accurately performing humidity control through humidity sensed by a humidity sensor mounted on another home appliance.

To this end, the home appliance according to an embodiment of the present invention includes a temperature sensor for sensing a temperature; And a controller configured to control humidity according to humidity detected by the humidity sensor of the other home appliance when a difference value between the temperature detected by the temperature sensor and the temperature detected by the temperature sensor of the other home appliance is less than the reference value.

Here, the control unit controls the indoor unit or the air purifier of the air conditioner.

The controller performs a dehumidification operation of the air conditioner according to the humidity.

If the difference is greater than or equal to the reference value, the controller ends the humidity control performed according to the humidity detected by the humidity sensor of the other home appliance.

In another aspect, a control method of a home appliance according to an embodiment of the present invention includes calculating a difference value between a temperature detected by another home appliance and a temperature detected by the home appliance; And controlling the humidity of the home appliance according to the humidity detected by the other home appliance when the difference is less than the reference value.

Here, if the difference value is greater than or equal to the reference value further comprises the step of ending the humidity control for the home appliance according to the humidity detected by the other home appliance.

At least one of the other home appliance and the home appliance is an indoor unit or an air purifier of an air conditioner.

As described above, by the home appliance according to the embodiment of the present invention and a control method thereof, the humidity control can be accurately performed through the humidity sensed by the humidity sensor mounted on the other home appliance.

Hereinafter, a multi-type air conditioner to which the present invention is applied will be described with reference to the accompanying drawings as an embodiment of the present invention.

1 and 2, the multi-type air conditioner according to an embodiment of the present invention includes an indoor unit having a humidity sensor provided with a refrigerant from the outdoor unit 100 and the outdoor unit 100 to perform air conditioning. 200 and an indoor unit 300 without a humidity sensor provided with a refrigerant from the outdoor unit 100 and without a humidity sensor for performing air conditioning. And the outdoor unit 100 further includes an outdoor control unit 400 for controlling the outdoor unit 100 as a whole, the indoor unit 200 with a humidity sensor, the indoor unit control unit with a humidity sensor for controlling the overall indoor unit 200 with a humidity sensor Including the 500, the indoor unit 300 having no humidity sensor includes an indoor unit control unit 500 with a humidity sensor for controlling the overall indoor unit 300 without the humidity sensor.

The outdoor unit 100 is controlled by the outdoor control unit 400 to compress the refrigerant 110, the accumulator 120 provided on the suction side of the compressor 110, and the refrigerant compressed by the compressor 110 Outdoor heat exchanger 130 for condensing or evaporating, and an outdoor fan installed at one side of the outdoor heat exchanger 130 and controlled by the outdoor control unit 400 to rapidly condense or evaporate the refrigerant flowing in the outdoor heat exchanger 130. (140) and the indoor unit control unit 500 with a humidity sensor and the indoor unit control unit 600 without a humidity sensor to check the operating capacity of the indoor unit 200 with a humidity sensor and the indoor unit 300 without a humidity sensor and confirmed It includes an outdoor controller 400 for controlling the compressor 110 and the outdoor fan 140 of the outdoor unit 100 based on the operating capacity.

Further, the compressor 110, the outdoor heat exchanger 130, the electronic expansion valve 340 to be described later, and the indoor heat exchanger 320 to be described later further include a four-way valve 150 to form a cooling cycle or a heating cycle circuit. Include. That is, the outlet of the compressor 110 and the first port 151 of the four-way valve 150 are connected by the first refrigerant pipe 161, and the inlet of the outdoor heat exchanger 130 and the four-way valve 150 may be connected. The two ports 152 are connected by the second refrigerant pipe 162, and the third port 153 of the four-way valve 150 and the inlet side of the compressor 110 are connected by the third refrigerant pipe 163. The fourth port 154 of the four-way valve 150, the indoor heat exchanger 220 with a humidity sensor, and the outlet of the indoor heat exchanger 320 without a humidity sensor are connected by a fourth refrigerant pipe 164. The accumulator 120 is installed in the third refrigerant pipe 163. And connected to the outlet of the outdoor heat exchanger 130, the inlet side of the indoor heat exchanger 220 with a humidity sensor, the indoor unit electronic expansion valve 240 with a humidity sensor arranged in parallel with the indoor unit bypass pipe 250 with a humidity sensor And the inlet of the indoor unit electronic expansion valve 340 connected to the inlet side of the indoor heat exchanger 320 without the humidity sensor and without the humidity sensor arranged in parallel with the indoor unit bypass pipe 350 without the humidity sensor is the fifth refrigerant. Connected by a tube 165.

Meanwhile, the four-way valve 150 controlled by the outdoor controller 400 connects the first port 151 and the second port 152 and the third port 153 and the fourth port 154 to connect the refrigerant. Compressor (110)-> Outdoor heat exchanger (130)-> With and without humidity sensor Indoor unit Electronic expansion valve (240,340)-> With and without humidity sensor Indoor unit Heat exchanger (220,320)-> Accumulator (120)-> Compressor A cooling cycle may be formed to circulate the 110, or the first port 151 and the fourth port 154 may be connected, and the second port 152 and the third port 153 may be connected to the refrigerant 110. )-> With and without humidity sensor Indoor unit electronic expansion valve (240,340)-> With and without humidity sensor Indoor unit heat exchanger (220,320)-> With and without humidity sensor Indoor unit bypass pipe (250,350)-> Outdoor heat exchanger (130)-> Accumulator 120-> Compressor 110 forms a heating cycle to circulate.

At the output side of the outdoor controller 400, a compressor 110, an outdoor fan 120, and a four-way valve 150 are provided.

The outdoor controller 400 communicates with the indoor unit controller 600 without the humidity sensor and the indoor unit controller 500 with the humidity sensor through a communication line 700 to determine a cooling operation or a heating operation to cool the four-way valve 150. Mode or heating operation mode. In addition, the operation capacity is calculated and the compressor 110 and the outdoor fan 120 are controlled based on the calculated operation capacity.

The indoor unit 200 with a humidity sensor is installed on one side of the indoor unit heat exchanger 220 with a humidity sensor and the indoor unit heat exchanger 220 with a humidity sensor, and the indoor fan with a humidity sensor is blown to the indoor unit heat exchanger 220 with a humidity sensor. 230, a humidity sensor provided at the inlet side of the indoor unit heat exchanger 220 with a humidity sensor, and an indoor expansion electronic expansion valve 240 with a humidity sensor, and a humidity sensor disposed in parallel with the indoor expansion electronic expansion valve 220 with a humidity sensor. The indoor unit bypass pipe 250 is included.

On the input side of the indoor unit control unit 500 with a humidity sensor, the humidity of the area covered by the indoor unit temperature sensor 510 with a humidity sensor and a indoor unit 200 with a humidity sensor to sense the temperature of the area covered by the indoor unit 200 with a humidity sensor. Humidity sensor 520 for detecting the provided is provided, the output side is provided with a indoor unit fan 230 with a humidity sensor and the indoor expansion electronic expansion valve 240 with a humidity sensor.

The indoor unit controller 500 with the humidity sensor is connected to the indoor unit controller 600 without the humidity sensor by the communication line 700, and the indoor unit controller 600 without the humidity sensor requests the temperature and humidity of the indoor unit with the humidity sensor. In this case, the indoor unit temperature sensor 510 with a humidity sensor and the humidity sensor 520 respectively transmit the temperature and humidity of the indoor unit with a humidity sensor to the indoor unit controller 600 without a humidity sensor.

The indoor unit 300 without the humidity sensor is installed on one side of the indoor unit heat exchanger 320 without the humidity sensor and the indoor unit heat exchanger 320 without the humidity sensor, and the air is blown to the indoor unit heat exchanger 320 without the humidity sensor. The indoor fan 330 without a sensor, the indoor unit electromagnetic expansion valve 340 without a humidity sensor, and the indoor unit electromagnetic expansion valve 320 without a humidity sensor provided at the inlet side of the indoor unit heat exchanger 320 without a sensor. It includes a indoor unit bypass pipe 350 without the humidity sensor disposed in parallel with.

An indoor unit temperature sensor 610 without a humidity sensor is provided on an input side of the indoor unit controller 600 without a humidity sensor, and a temperature sensor 610 without a humidity sensor that senses a temperature of an area covered by the indoor unit 300 without a humidity sensor. An indoor unit electronic expansion valve 340 without a fan 330 and a humidity sensor is provided.

The indoor unit controller 600 without the humidity sensor is inputted by requesting the temperature of the indoor unit with the humidity sensor to the indoor unit controller 500 provided with the humidity sensor when the indoor unit 300 without the humidity sensor needs humidity control, that is, dehumidification control. Receive. When the temperature difference between the input temperature and the indoor unit without the humidity sensor is equal to or less than a reference value for a predetermined period, the humidity sensor indoor unit controller 500 receives a request for the humidity of the indoor unit with the humidity sensor. Using the humidity received in this way to control the humidity indoor unit 300 without the humidity sensor. On the other hand, when the temperature difference between the input temperature and the indoor unit without the humidity sensor is greater than or equal to the reference value for a predetermined period, the humidity control for the indoor unit 300 without the humidity sensor ends.

Hereinafter, a control method of an indoor unit without a humidity sensor according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 3, the indoor unit control unit 600 without the humidity sensor in operation may use the humidity detected by the humidity sensor of the indoor unit with the humidity sensor and the temperature difference duration and the humidity detected by the humidity sensor of the indoor unit with the humidity sensor. Initialize the temperature difference duration (801).

Next, the indoor unit controller 600 without the humidity sensor determines whether the humidity control is necessary (802). In this case, the humidity control may be one example of generally known dehumidification operation. And when the present invention is applied to the air cleaner may be an example of the humidification control.

At this time, if humidity control is not necessary, it is terminated.

On the other hand, if humidity control is required, the indoor unit controller 600 without the humidity sensor 600 requests and receives the temperature of the indoor unit with the humidity sensor detected by the indoor unit 200 with the humidity sensor to the indoor unit controller 500 with the humidity sensor, and receives the humidity. In operation 803, the temperature of the indoor unit without the humidity sensor detected by the temperature sensor 501 of the indoor unit without the sensor is input.

Subsequently, the indoor unit controller 600 without the humidity sensor determines whether the humidity sensed by the humidity sensor of the indoor unit with the humidity sensor is used (804).

In operation 804, when the humidity sensor of the indoor unit having the humidity sensor is not using the humidity sensed, the indoor unit controller 600 without the humidity sensor has a temperature difference between the temperature of the indoor unit without the humidity sensor and the indoor unit without the humidity sensor. It is determined whether or not the indoor unit detects a humidity available temperature difference or less (805).

As a result of the determination in step 805, if the temperature difference between the temperature of the indoor unit with the humidity sensor and the indoor unit without the humidity sensor is not equal to or less than the available temperature difference of humidity detected by the indoor unit with the humidity sensor, the indoor unit controller 600 without the humidity sensor may perform step 801. Regression and subsequent steps. On the other hand, if the temperature difference between the temperature of the indoor unit with a humidity sensor and the indoor unit without a humidity sensor is less than the available temperature difference of humidity detected by the indoor unit with a humidity sensor, the indoor unit controller 600 without the humidity sensor is a humidity sensor of the indoor unit with a humidity sensor. The duration of the detected temperature difference of the detected humidity is counted (806).

Subsequently, it is determined whether the duration of the humidity available temperature difference detected by the indoor unit with a humidity sensor has elapsed a predetermined time (807). At this time, if the duration of the humidity available temperature difference detected in the indoor unit with a humidity sensor has not passed a predetermined time, the process returns to step 802 and subsequent steps, and the duration of the humidity available temperature difference detected in the indoor unit with a humidity sensor is performed. After the elapse of time, the indoor unit 200 without the humidity sensor is controlled using the humidity detected by the indoor unit with the humidity sensor (808), and the process returns to step 801 and subsequent steps.

On the other hand, if the basis of the steps 805 ~ 809, if the indoor unit 200 with the humidity sensor and the indoor unit 300 without the humidity sensor is installed in the same space, the indoor unit 200 with the humidity sensor and the indoor unit without the humidity sensor ( 300) The detected temperature change in each of them changes in the same pattern. Therefore, by checking whether the pattern of the temperature change detected by each of the indoor unit 200 with the humidity sensor and the indoor unit 300 without the humidity sensor for the predetermined period is the same, the indoor unit 300 with the humidity sensor and the indoor unit 300 without the humidity sensor are checked. You can check if it is installed in the same space. If the indoor unit 200 with the humidity sensor and the indoor unit 300 without the humidity sensor are installed in the same space, the humidity detected by each of the indoor unit 200 with the humidity sensor and the indoor unit 300 without the humidity sensor is also estimated to be the same. By using the humidity detected by any one of the indoor unit 200 with a humidity sensor and the indoor unit 300 without a humidity sensor, it is possible to control the humidity of the indoor unit 200 with a humidity sensor and the indoor unit 300 without a humidity sensor. It means.

When using the humidity detected by the humidity sensor of the indoor unit with the humidity sensor in step 804, the indoor unit controller 600 without the humidity sensor is the temperature difference between the temperature of the indoor unit with the humidity sensor and the indoor unit without the humidity sensor is the indoor unit with the humidity sensor In operation 810, it is determined whether the humidity sensor senses the humidity difference of the available temperature.

As a result of the determination in step 810, if the temperature difference between the indoor unit with the humidity sensor and the humidity sensor is not equal to the temperature difference between the humidity sensor of the indoor unit with the humidity sensor and the temperature difference is not greater than the temperature difference, the indoor unit controller 600 without the humidity sensor is included. Performs the regression and subsequent steps to step 801. On the other hand, if the temperature difference between the temperature of the indoor unit with a humidity sensor and the humidity sensor is not equal to the temperature difference of the humidity detected by the humidity sensor of the indoor unit with the humidity sensor, the indoor unit control unit 600 without the humidity sensor is a indoor unit with a humidity sensor. The duration of the temperature difference of the humidity unavailable temperature detected by the humidity sensor of the counts (811).

Subsequently, it is determined whether the duration of the humidity unavailable temperature difference detected by the humidity sensor of the indoor unit with the humidity sensor has elapsed for a predetermined time (812). At this time, if the duration of the humidity unavailable temperature difference detected by the humidity sensor of the indoor unit with the humidity sensor has not passed a predetermined time, the process returns to step 802 and subsequent steps, and the humidity sensor of the indoor unit with the humidity sensor is detected. When the duration of the humidity unavailable temperature difference has elapsed for a predetermined time, the control of the indoor unit 200 without the humidity sensor is terminated (813), and the regression and subsequent steps are performed in step 801.

In the above embodiment, the indoor unit of the air conditioner that requires a relatively high humidity control among home appliances has been described as an example, but may be applied to an air cleaner that requires humidity control.

1 is a schematic view showing the configuration of a multi-type air conditioner according to an embodiment of the present invention.

2 is a block diagram showing a control system of a multi-type air conditioner according to an embodiment of the present invention.

3 is a flowchart illustrating a control method of an indoor unit having no humidity sensor according to an embodiment of the present invention.

Description of the Related Art [0002]

100: outdoor unit 200: indoor unit with humidity sensor

300: indoor unit without humidity sensor 400: outdoor unit control unit

500: indoor unit controller with humidity sensor 600: indoor unit controller 700 without humidity sensor 700: communication line

Claims (7)

      A temperature sensor for sensing a temperature;      If the difference value between the temperature detected by the temperature sensor and the temperature detected by the temperature sensor of the other home appliance is less than the reference value home appliances including a control unit for controlling the humidity according to the humidity detected by the humidity sensor of the other home appliance .        The method of claim 1,        The control unit is a home appliance for controlling the indoor unit or the air purifier of the air conditioner.        The method of claim 1,        The control unit is a home appliance for performing a dehumidification operation of the air conditioner according to the humidity.       The method of claim 1,       The control unit, if the difference value is greater than the reference value home appliance to terminate the humidity control performed according to the humidity detected by the humidity sensor of the other home appliance.      Calculating a difference value between a temperature detected by another home appliance and a temperature detected by the home appliance;       And controlling the humidity of the home appliance using the humidity detected by the other home appliance when the difference is less than the reference value.       The method of claim 5,       If the difference is greater than or equal to a reference value, controlling the humidity control of the home appliance according to the humidity detected by the other home appliance.        The method of claim 5,       And at least one of the other home appliance and the home appliance is an indoor unit or an air purifier of an air conditioner.

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