KR20190119820A - Air conditioner and the control method thereof - Google Patents

Abstract

An objective of the present invention is to provide an air conditioner for adjusting indoor humidity by using a ventilation mode to minimize energy consumption and a control method thereof. To this end, the air conditioner is operated in a plurality of operation modes for indoor air conditioning. The air conditioner includes a control unit set to be operated in a ventilation mode in which exchange between indoor air and outdoor air is performed and a humidity adjustment mode in which indoor humidity is adjusted as the plurality of operation modes, and selecting and controlling one of the ventilation mode and the humidity adjustment mode to enable the indoor humidity to satisfy a predetermined reference.

Description

Air conditioner and air conditioner control method {AIR CONDITIONER AND THE CONTROL METHOD THEREOF}

The present invention relates to an air conditioner and a control method of an air conditioner, and more particularly, to a control method of an air conditioner and an air conditioner capable of optimizing indoor humidity while minimizing energy consumption.

In general, an air conditioner is a device that maintains a comfortable room by adjusting room temperature and humidity or ventilating indoor air according to a user's request.

Recently, by adding various functions such as dehumidification, humidification, cooling, heating, air purification, and ventilation to the air conditioner, technologies for maintaining indoor air comfortably according to the change of season according to the user's choice have been developed.

Republic of Korea Patent No. 10-0465722 is disclosed as a conventional technology for the air conditioner.

The air conditioner of the prior art is a dehumidification operation is performed by operating the compressor of the heat pump, the operation of the compressor takes a long time until the dehumidification effect after the compressor operation, the electrical energy consumption according to the operation of the compressor is large, Noise is a big problem.

On the other hand, the factors that determine the quality of the indoor air may be CO2, VOC (volatile organic compounds), fine dust, temperature, humidity.

The plurality of elements may vary in efficiency depending on an operation mode in which an air conditioner is operated. For example, the air conditioner may be operated in a ventilation mode or an air cleaning mode to lower the concentration of CO 2, VOC, and fine dust contained in indoor air. In addition, it can be operated in any one operation mode of the humidification, dehumidification, heating, cooling mode to make the room temperature and humidity in a comfortable state.

In this case, the most suitable operation mode for improving the quality of the indoor air for each of the plurality of elements may be different from each other.

In particular, the CO2 and VOC contained in the indoor air has a great effect on the human body. The CO2 and VOC concentrations of the indoor air vary depending on which operation mode is preferentially operated, so the selection of the operation mode becomes a very important problem.

In addition, since there are differences in the parts that are operated for each of the plurality of operation modes, there is a difference in the energy consumption for operating each operation mode.

Due to these differences, it is necessary to select an operation mode that can more efficiently improve indoor air quality and reduce energy consumption, but it is difficult for a consumer to determine which operation mode to operate.

The present invention has been made to solve the above-mentioned problems, and an object thereof is to provide an air conditioner and a control method of the air conditioner that can minimize energy consumption by controlling the humidity of the room using the ventilation mode. have.

Another object of the present invention is to provide an air conditioner and a control method of the air conditioner that can provide a comfortable indoor environment by maintaining the optimum humidity corresponding to the room temperature.

Another object of the present invention is to provide an air conditioner and a control method of the air conditioner that can improve the quality of the indoor air efficiently by minimizing the energy consumption by allowing the ventilation mode to operate in preference to the humidity control mode. To be.

Still another object of the present invention is to provide an air conditioner and a method of controlling the air conditioner which can minimize the influence of indoor air pollutants on the human body.

The air conditioner of the present invention for achieving the above object is, in the air conditioner which operates in a plurality of operation modes for the air conditioning of the room, the plurality of operation modes and the ventilation mode in which the indoor air and outdoor air exchange is performed It is set to operate in each of the humidity control mode for controlling the indoor humidity, and the control unit for selecting and controlling any one of the ventilation mode and the humidity control mode to ensure that the indoor humidity meets the setting criteria.

The control unit may be set to the ventilation mode selection criteria for determining whether the indoor humidity can meet the set criteria when operating in the ventilation mode.

The ventilation mode selection criterion may be a change amount of indoor humidity generated by the operation of the ventilation mode for a predetermined time or more.

The ventilation mode selection criterion may be an estimated time required for the indoor humidity to meet the setting criteria when operating in the ventilation mode.

The controller may be configured to select one of the ventilation mode and the humidity control mode according to whether the humidity difference between the outdoor air and the indoor air is greater than or equal to a set value.

The controller may be configured to select a mode that requires less energy by comparing energy required when operating in the ventilation mode with energy required when operating in the humidity control mode.

When operating in the humidity control mode may be provided with a heat pump for dehumidification.

The plurality of operation modes further comprises an air cleaning mode for filtering the indoor air using a filter and then discharged back to the room; The control unit is set to operate in the order of the ventilation mode, the humidity control mode and the air cleaning mode when an automatic operation signal is received; The controller may control to select one of the ventilation mode and the humidity control mode when it is determined that the humidity control of the room is necessary after the operation of the air cleaning mode.

An optimum control region defined by a range of temperatures and a range of humidity is stored in the storage unit; The setting criterion may be within the optimum control region.

The controller may select the ventilation mode when it is determined that the indoor humidity can enter the optimal control region by the operation of the ventilation mode.

The setting criterion comprises a first setting criterion and a final setting criterion; The control unit may further include a mode for operating in the ventilation mode until the indoor humidity satisfies the primary setting criteria, and operating in the humidity control mode until the final setting criteria are satisfied after the primary setting criteria are satisfied. It may be provided.

The control method of the air conditioner of the present invention comprises the steps of: a) receiving information on the indoor humidity to the controller; b) determining, by the controller, whether the indoor humidity satisfies a setting criterion; c) selecting, by the controller, one of a ventilation mode in which indoor air and outdoor air are exchanged and a humidity control mode for controlling indoor humidity in order to satisfy the setting criterion when the indoor humidity is out of the setting criterion; ; d) the control unit includes controlling to operate in the selected mode.

In step c), the controller may select the ventilation mode when it is determined that the indoor humidity can satisfy the setting criteria when operating in the ventilation mode. .

In step c), the control unit may determine that the setting criterion may be satisfied when the amount of change in the indoor humidity is greater than or equal to a predetermined value after operating the ventilation mode for a predetermined time.

In step c), the controller may calculate the time required for the indoor humidity to meet the setting criteria when operating in the ventilation mode, and select the ventilation mode when the calculated time is less than or equal to the set time.

In step c), the controller may select the ventilation mode when the difference between the outdoor humidity and the indoor humidity is greater than or equal to a set value.

In step c), the controller may select a mode that requires less energy by comparing energy required when operating in the ventilation mode with energy required when operating in the humidity control mode.

The controller may operate a heat pump for dehumidifying the room when the humidity control mode is selected.

The control unit is set to operate in the order of the air cleaning mode in which the ventilation mode, the humidity control mode and the indoor air is filtered using a filter and then discharged back to the room when the automatic operation signal is received; The controller may control to select one of the ventilation mode and the humidity control mode when it is determined that the humidity control of the room is necessary after the operation of the air cleaning mode.

Whether the indoor humidity is outside the setting criteria is determined by whether the indoor humidity is outside the range of the optimum control region defined by the temperature in the predetermined range and the humidity in the predetermined range; In step c), the controller may select the ventilation mode when it is determined that the indoor humidity can enter the optimal control region by operating the ventilation mode.

The controller obtains an optimum humidity zone defined by a range between a minimum humidity and a maximum humidity in the optimum control region so as to correspond to the indoor temperature; If the indoor humidity is lower than the minimum humidity operating in the humidification mode until the set humidity between the optimum humidity tool, and if the indoor humidity is higher than the maximum humidity, dehumidification mode until the set humidity between the optimum humidity tool Can be operated as

The control unit may determine the degree of indoor humidity outside the optimum control region in step c), and select the ventilation mode if the deviation is within a setting range.

And a mode for operating the ventilation mode and the humidity control mode in combination until the indoor humidity satisfies the setting criteria. The setting criterion comprises a first setting criterion and a final setting criterion; The indoor humidity may be first operated in the ventilation mode so as to meet the primary setting criteria, and may be operated in the humidity control mode so as to satisfy the final setting criteria after satisfying the primary setting criteria.

According to the present invention, it is possible to minimize the energy consumption by controlling the humidity of the room using the ventilation mode, and to prevent the occurrence of failure due to frequent operation of the heat pump.

In addition, it is possible to provide a comfortable indoor environment by maintaining the optimum humidity corresponding to the room temperature in the humidity control mode.

In addition, by allowing the ventilation mode to operate in preference to the humidity control mode, it is possible to efficiently improve the quality of indoor air and minimize energy consumption.

In addition, by controlling the indoor humidity by using the ventilation mode it can minimize the influence of the pollutants on the human body by controlling the humidity of the indoor air and at the same time by discharging the pollutants such as CO2, VOC contained in the indoor air to the outdoors.

1 is a view showing a control configuration of an air conditioner of the present invention
2 is a view showing a state in which the optimum control region for each temperature of the present invention is set differently for each season
3 is a view showing a state in which dehumidification and humidification are performed in the optimum control region for each temperature of the present invention;
4 is a view showing a control method of an air conditioner according to an embodiment of the present invention;
5 is a view showing a control method of an air conditioner according to another embodiment of the present invention.
6 is a view showing a control method of an air conditioner according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The air conditioner (1) of the present invention is operated in a plurality of operation modes for air conditioning in a room, and the ventilation mode in which the indoor air and outdoor air are exchanged as the plurality of operation modes, and the humidity for adjusting the indoor humidity. Each control unit 10 is set to operate in a control mode, and selects and controls any one of the ventilation mode and the humidity control mode so as to satisfy the setting criteria.

The air conditioner 1 may be provided with a plurality of sensors for detecting indoor environmental conditions. The plurality of sensors include a temperature sensor 51 for detecting indoor temperature, a humidity sensor 52 for detecting indoor humidity, a dust sensor 53 for detecting an amount of dust included in indoor air, and indoor air. CO2 sensor 54 for detecting the amount of CO2 can be made, VOC sensor 55 for detecting the amount of VOC (volatile organic compounds) contained in the indoor air. The plurality of sensors may be provided in a sensing box (not shown) provided separately from the air conditioner 1, may be provided in the air conditioner 1, or may be individually provided at various locations in the room. .

The indoor temperature, the indoor humidity, the dust and the amount of CO 2 and VOC detected by the plurality of sensors are received by the controller 10 of the air conditioner 1.

The factors for determining the quality of the indoor air include CO2, VOC, fine dust, temperature, and humidity. Among these, the standard for determining the pollution level of indoor air may be the concentration of dust, CO2, and VOC, which are pollutants. .

The efficiency of air conditioning may vary depending on which of the plurality of operation modes is operated. That is, the degree to which the concentration of CO 2 and VOC and fine dust is lowered may vary, and the degree to which temperature / humidity of indoor air varies.

Since the CO2 is not filtered by the filter, it can be operated in the ventilation mode to lower the concentration most efficiently. Although the VOC has a slight effect even when operating in the air cleaning mode, it can be lowered more effectively than the air cleaning mode when operating in the ventilation mode. The dust may be partially removed by operating in the ventilation mode and discharging to the outside, but the concentration may be most effectively reduced by filtering in the filter by operating in the air cleaning mode.

As a result, the operation mode for changing the factors that determine the quality of indoor air may vary according to each factor. In this case, it is most effective to operate the ventilation mode for elements that are not filtered in the filter such as CO2 and VOC, and to operate in the air cleaning mode for elements that are filtered in the filter such as dust. In this case, since CO2 and VOC have a great effect on the human body, it is a very important criterion in determining the comfort of the indoor environment.

The humidity information of the outdoor air may be configured to be received by the controller 10. The humidity information of the outdoor air may be received from an outdoor humidity sensor (not shown) provided in the air conditioner 1, or received from an external server (not shown) connected to the air conditioner 1 by an internet network. You may. In this case, when operating in the ventilation mode based on the humidity information of the outdoor air, it is possible to determine whether the humidity of the indoor air can be adjusted to the desired humidity using the outdoor air, the humidity difference between the indoor air and the outdoor air When the degree is large, it can be determined that the humidity control is possible using the ventilation mode, and when the humidity difference between the indoor air and the outdoor air is small, it can be determined that the humidity control is not possible using the ventilation mode.

On the other hand, in the case of the humidity by operating in the humidity control mode can make the indoor humidity in a comfortable state. The humidity control mode includes a dehumidification mode for dehumidifying indoor air and a humidification mode for humidifying indoor air. To this end, the air conditioner 1 includes a dehumidifying unit 23 and a humidifying unit 24.

The dehumidifying unit 23 is for cooling the air discharged into the room by the first blower 21 in the dehumidifying mode, for example, may be configured as an evaporator of the heat pump. In addition, the dehumidifying unit 23 absorbs moisture contained in indoor air and discharges it to outdoor air, a driving unit for rotating the dehumidifying rotor, and heating the outdoor air flowing to the dehumidifying rotor to regenerate the dehumidifying rotor. It may be made of a heating unit for providing heat.

The humidifier 24 is to humidify the indoor air by heating the air flowing in the room by the first blower 21 in the humidification mode, and evaporating the moisture of the dehumidification rotor by using the heated air. For example, it may be configured to include a condenser of the heat pump.

The air conditioner 1 may include a first blower 21 and a second blower 22 that operate under the control of the controller 10. The first blower 21 sucks indoor air or outdoor air and discharges it into the room, and the second blower 22 sucks indoor air or outdoor air and discharges it to the outside.

In addition, the air conditioner 1 may further include at least one filter (not shown) for filtering the air discharged into the room, and the plurality of operation modes may be performed by filtering the indoor air using the filter. It may further include an air cleaning mode to discharge back to the room.

In the air conditioner 1 having the above configuration, the heat pump is operated to operate the dehumidifying unit 23 and the humidifying unit 24 to control the indoor humidity, and in order to operate the heat pump, the energy consumption is increased. Will increase.

Therefore, instead of operating the dehumidifying unit 23 and the humidifying unit 24 to operate the dehumidifying mode or the humidifying mode, the indoor humidity may be adjusted using outdoor air by operating in the ventilation mode. In this case, when operating in the ventilation mode, the heat pump does not need to be operated and only the first blower 21 and the second blower 22 need to be operated for ventilation, thereby reducing energy consumption. In addition, by operating the ventilation mode, it is possible to reduce the concentration of CO2 and VOC, which have a great influence on the human body as well as humidity control.

The control unit 10 selects and operates any one of a ventilation mode and a humidity control mode according to a predetermined criterion so that the indoor humidity satisfies the setting criteria.

As an example of such a criterion, in order to operate the ventilation mode in preference to the humidity control mode, when operating in the ventilation mode, it is possible to set a ventilation mode selection criterion for determining whether the set criteria can be satisfied.

That is, since the energy consumption is smaller when operating in the ventilation mode than in the humidity control mode, the ventilation mode selection criteria may be set to determine whether to operate in the ventilation mode first. The controller 10 may be configured to select and operate a ventilation mode when the ventilation mode selection criteria are satisfied, and to operate in a humidity control mode when the ventilation mode selection criteria are satisfied.

As an example of the ventilation mode selection criterion, the ventilation mode is first operated for a set time before selecting any one of the ventilation mode and the humidity control mode, and the change in indoor humidity generated as a result of the operation of the ventilation mode is greater than or equal to the set value. have. That is, when the change in the indoor humidity is large, it can be determined that the humidity control of the indoor air by the outdoor air is properly performed. When the change in the indoor humidity is small or when the change in the indoor humidity is low, the humidity of the indoor air by the outdoor air is not properly controlled. You can judge that.

As another example of the ventilation mode selection criterion, when operating in the ventilation mode, the estimated time required for the indoor humidity to meet the set criteria may be configured to be less than or equal to the set time. That is, when the humidity difference between the outdoor air and the indoor air is small, when the operation in the ventilation mode, the estimated time may take too long to meet the setting criteria or may not meet the setting criteria. Estimated time required to meet the set criteria can be determined by experiment from the difference between the humidity of the outdoor air and the indoor air, the size of the indoor space to be controlled humidity and the air volume of the first and second blowers (21, 22) This experimental value may be stored in the storage unit 60. The controller 10 may estimate the estimated time required to meet the set criteria, and may operate in the ventilation mode only when the estimated time calculated by the controller 10 is less than or equal to the set time.

As another example of the ventilation mode selection criteria, the humidity difference between the current indoor humidity and the setting criteria is obtained, and if the humidity difference is less than the set humidity difference, the ventilation mode is selected, and if the humidity difference is more than the set humidity difference, the humidity control mode. Can be selected. That is, if the current humidity difference is less than the set humidity difference, it can be determined that the setting criteria can be satisfied only by the ventilation mode without operating the humidity control mode.

On the other hand, as an example of the criterion for selecting any one of the ventilation mode and the humidity control mode, the humidity difference between the outdoor air and the indoor air may be configured to be above or below the set value. That is, if the humidity difference between the outdoor air and the indoor air is less than the set value, it may be difficult to control the humidity of the indoor air by using the outdoor air, so if the humidity is higher than the set value, the indoor air is operated by using the outdoor air control mode. It can be determined that the humidity of the air can be controlled, so it can be operated in the ventilation mode.

In addition, as another example of the criterion for selecting one of the ventilation mode and the humidity control mode, a mode that requires less energy by comparing the energy required when operating in the ventilation mode with the energy required when operating in the humidity control mode. It can be configured to select. For example, when operating in the ventilation mode, only the first blower 21 and the second blower 22 need to be operated, so that power consumption required when the first blower 21 and the second blower 22 are operated. When calculating and operating in the humidity control mode, it is possible to calculate and compare not only the first blower 21 and the second blower 22 but also the power consumption required when the heat pump is operated. In order to compare the power consumption, it is necessary to consider the operating time. The power consumption may be compared in consideration of the time required to meet the above-described setting criteria.

The plurality of determination criteria described above may be selected based on only one criterion, or may be selected based on a combination of the plurality of determination criteria.

The air conditioner 1 may be operated in an automatic operation mode which is automatically operated according to a condition in which a plurality of operation modes are set. The air conditioner 1 may be provided with an automatic operation button (not shown). When the user presses the automatic operation button, the air conditioner 1 may be operated in a required operation mode by detecting an indoor environmental condition.

In this case, the control unit 10 may be set to prioritize a plurality of operation modes, and the ventilation mode may be set to operate in preference to other operation modes. In this case, the operation of the ventilation mode in priority means that the automatic operation mode is operated in the order of the ventilation mode, the humidity control mode, the air cleaning mode, and the operation mode when the ventilation mode operation conditions are met while the humidity control mode or the air cleaning mode is in operation. This includes stopping the operating mode and starting the ventilation mode. In addition, when it is determined that the indoor humidity control is necessary after the operation of the air cleaning mode, the ventilation mode includes preferentially operating compared to the humidity control mode.

The air conditioner 1 is provided with a storage unit 60 for storing an optimum control region defined by a predetermined range of temperature and a predetermined range of humidity in order to define the setting criteria. When the indoor humidity is out of the optimum control region, the controller 10 operates in the ventilation mode or the humidity control mode so as to meet the set criteria set within the range of the optimum control region.

On the other hand, the above has been described for selecting any one of the ventilation mode and the humidity control mode until the room humidity meets the set criteria, it may further include a mode for operating in combination with the ventilation mode and the humidity control mode. . That is, it may be configured to operate in the ventilation mode until the indoor humidity satisfies the primary setting criteria, and to operate in the humidity control mode until the final setting criteria are satisfied after satisfying the primary setting criteria.

An optimal control area will be described with reference to FIG.

The optimum control region may be stored in the storage unit 60 as a table value to obtain an optimal indoor humidity for the current room temperature.

As shown in FIG. 2, the optimum control regions A and B are defined as a range of temperatures and a range of humidity in a graph in which the horizontal axis is the room temperature (T) and the vertical axis is the room humidity (RH; relative humidity). It can be represented as a certain area.

The optimum control areas A and B may include at least two areas A and B in which at least some areas do not overlap.

In this case, the at least two regions A and B may be configured to apply different regions for each season. In FIG. 2, the optimum control region A, which is a low temperature region, may be applied in winter, and the optimal control region B, which is a high temperature region, may be applied in summer. In addition, the interseater may be configured to be applied to the C region overlapping the A region and the B region. The C area may be set as a separate area from the A area and the B area, or the optimum control area may be composed of two areas A including the C area and two B areas including the C area.

In this case, it is possible to define an optimum humidity zone that is a humidity interval corresponding to the current room temperature within the optimum humidity ranges A and B. The optimum humidity tool section may be configured as a range between a minimum humidity and a maximum humidity in the optimum control areas A and B, and may be the setting criteria.

In this case, the ventilation mode selection criterion consists of judging the degree to which the current indoor humidity deviates from the optimum control region (between the optimum humidity tools). If the deviation is within the set value, the ventilation mode is selected, and the deviation is If the set value is exceeded, the humidity control mode may be selected.

Referring to Figure 3 will be described in more detail for the optimum humidity range and humidity control. Although only one optimal humidity region A is shown in FIG. 3, the definition of the optimal humidity region described below may be equally applied to the other region B. FIG.

If the room temperature detected by the temperature sensor 51 is T1 and the room humidity detected by the humidity sensor 52 is RH1, the current indoor environment condition in the graph of FIG. 3 becomes the position of P1. Therefore, the current indoor humidity is located outside the optimum humidity range (A), it is necessary to control the humidity.

In this case, it is possible to define an optimal humidity zone that is a range of optimal humidity corresponding to the current room temperature T1 within the optimum humidity region A. In FIG. 3, the optimum humidity zone corresponding to the current room temperature T1 is in a range between the lowest humidity RH3 and the highest humidity RH5.

Therefore, the current room humidity is lower than the minimum humidity, so the humidification is required, the control unit 10 can operate until either the humidity mode and the maximum humidity (HH5) by operating in one of the humidification mode and the ventilation mode. In addition, the indoor humidity may not be operated until the maximum humidity RH5 is reached, but may be configured to operate until the humidity between the minimum humidity RH3 and the maximum humidity RH5 is reached. In addition, since the room humidity may be difficult to reach the maximum humidity (RH5) only by operating the ventilation mode, the device is operated in the ventilation mode until the indoor humidity reaches the minimum humidity (RH3), and then the maximum humidity (RH5) or the minimum humidity is reached. It may be configured to operate in a humidification mode until the humidity between RH3 and RH5 is reached.

In addition, when the room temperature is T2 and the room humidity is RH6, the current room environment condition is the position of P2 in the graph of FIG. Therefore, indoor humidity is located outside the optimum humidity range (A), it is necessary to control the humidity.

In this case, it is possible to define an optimal humidity zone that is a range of optimal humidity corresponding to the current room temperature T2 within the optimum humidity region A. In FIG. 3, the optimum humidity zone corresponding to the current room temperature T2 is in a range between the lowest humidity RH2 and the highest humidity RH4.

Therefore, the current room humidity is higher than the maximum humidity (HH4), so dehumidification is necessary, and thus the control unit 10 can operate until either the dehumidification mode or the ventilation mode until the room humidity reaches the minimum humidity (RH2). . Moreover, it can also be comprised so that room humidity may not operate until it becomes the minimum humidity RH2, and it may operate so that it may operate until it becomes the humidity between the minimum humidity RH2 and the highest humidity RH4. In addition, since the room humidity may be difficult to reach the minimum humidity (RH2) only by operating the ventilation mode, the device is operated in the ventilation mode until the indoor humidity reaches the maximum humidity (RH4), and then the minimum humidity (RH2) or the minimum humidity is thereafter. It may also be configured to operate in the dehumidification mode until the humidity between RH2 and RH4 is reached.

A control method of an air conditioner according to an embodiment of the present invention will be described with reference to FIG. 4.

In step S101, the indoor humidity information detected by the humidity sensor 52 is received by the controller 10.

In step S102, it is determined whether the indoor humidity satisfies the setting criteria. The setting criteria may set a desired humidity of the user, or may store in advance the humidity recognized as the optimal humidity in the storage unit 60. As a result of the determination, if the indoor humidity satisfies the setting criteria, the process proceeds to step S101; otherwise, the process proceeds to step S103.

In step S103, the control unit 10 selects one of the ventilation mode and the humidity control mode to satisfy the setting criteria when the indoor humidity is out of the setting criteria.

In this case, one of the ventilation mode and the humidity control mode may be selected based on the above-described determination criteria or the ventilation mode selection criteria.

That is, when the humidity difference between the outdoor air and the indoor air is more than the set value, it is determined that the humidity control is possible in the ventilation mode, and the ventilation mode is selected. Otherwise, the humidity control mode may be selected in consideration of the difficulty in controlling the humidity in the ventilation mode.

In addition, it is possible to select a mode that requires less energy by comparing the energy requirements when operating in the ventilation mode and the energy requirements when operating in the humidity control mode.

In addition, by operating in the ventilation mode for a set time to obtain a change in the indoor humidity, if the change in the indoor humidity is more than the set value, select the ventilation mode, otherwise it is determined that it is difficult to control the humidity in the ventilation mode can select the humidity control mode. .

In addition, when operating in the ventilation mode, it is possible to predict the time required for the indoor humidity to meet the set criteria, and select the ventilation mode when the estimated time is less than the set time, otherwise select the humidity control mode. .

In addition, when operating in the ventilation mode, it is predicted whether the indoor humidity can meet the set criteria for the set time, and if it is determined that the set criteria can be satisfied for the set time, the ventilation mode is selected, otherwise the humidity The adjustment mode can be selected.

In operation S104, the operation mode is one of the ventilation mode and the humidity control mode.

In operation S105, it is determined whether the indoor humidity satisfies the setting criteria as a result of the operation in the selected mode. If the determination result satisfies the setting criteria, then the control process ends, otherwise the flow proceeds to step S104 to continue the selected mode.

According to such a control method, it is possible to minimize energy consumption by controlling the humidity of the room using the ventilation mode. In addition, the use of the heat pump during the operation of the humidity control mode may cause a failure due to the frequent operation of the heat pump, it is possible to prevent the failure of the heat pump by operating in the ventilation mode. In addition, by allowing the ventilation mode to operate in preference to the humidity control mode based on the ventilation mode selection criteria, it is possible to efficiently improve the quality of indoor air and to minimize energy consumption. In addition, by controlling the indoor humidity by using the ventilation mode it can minimize the influence of the pollutants on the human body by controlling the humidity of the indoor air and at the same time by discharging the pollutants such as CO2, VOC contained in the indoor air to the outdoors.

Referring to Fig. 5, the control process in the case where the setting criteria is within the optimum control area will be described.

In operation S201, the indoor temperature information detected by the temperature sensor 51 and the indoor humidity information detected by the humidity sensor 52 are received by the controller 10.

In step S202, the control unit 10 selects which area of the plurality of optimal control areas A and B stored in the storage unit 60 is to be applied. In this case, the season can be judged to select the optimum control region corresponding to the season. If only one optimal control area is stored, the area selection step of step S202 may be omitted.

In step S203, the controller 10 derives an optimum humid tool from the received indoor temperature information and the selected optimal control region. In this case, the highest humidity may be set as the setting criterion among the derived optimal humidity tools, or the humidity between the highest humidity and the lowest humidity may be set as the setting criteria.

In step S204, the controller 10 determines whether the received indoor humidity is within the optimum humid tool. If it is determined that the optimum humidity tool is out of the range, the process proceeds to step S205;

Selecting one of the ventilation mode and the humidity control mode in step S205 and operating in the mode selected in step S206 is performed by the same process as described in steps S103 and S104.

In this case, the degree of deviation of the current indoor humidity from the optimum humidity tool can be determined, and if the deviation is within the set value, the ventilation mode can be selected, and if the deviation exceeds the set value, the humidity control mode can be selected.

In operation S207, it is determined whether the indoor humidity satisfies the setting criteria as a result of the operation in the selected mode. If the determination result satisfies the setting criteria, the control process ends, otherwise the flow proceeds to step S206 to continue operation of the selected mode.

According to such a control method, it is possible to provide a comfortable indoor environment by maintaining the optimum humidity corresponding to the room temperature in the humidity control mode. 5 also has the same effect as the control method described with reference to FIG.

A control method when the ventilation mode, the humidity control mode, and the air cleaning mode are operated in the automatic operation mode will be described with reference to FIG. 6.

In operation S301, the automatic driving signal is input to the controller 10 to start the automatic driving mode.

In step S302, when the indoor pollution level is out of the setting standard, the operation is performed in the ventilation mode. The criterion for determining the indoor pollution degree may be set whether one or more of CO2 and VOC deviate from the setting criteria. Ventilation mode is terminated when the indoor pollution level meets the setting criteria. When the ventilation mode ends, the flow advances to step S303.

If the indoor humidity is out of the setting standard in step S303, the operation is performed in the humidity control mode. As a result of the operation of the humidity control mode, if the room humidity meets the setting criteria, the humidity control mode ends. When the humidity control mode ends, the flow advances to step S304.

In step S304, when the indoor dust deviates from the setting criteria, it is operated in the air cleaning mode. If the indoor dust meets the setting criteria as a result of the operation of the air cleaning mode, the air cleaning mode is terminated. When the air cleaning mode ends, the process proceeds to step S305.

In step S305, it is again determined whether the indoor humidity is out of the setting criteria. The preceding steps, that is, the steps S302 to S304 are automatically progressed sequentially, and the indoor humidity can be kept comfortable by continuously determining whether the indoor humidity satisfies the setting criteria even after the end of the air cleaning mode. In this case, one of the ventilation mode and the humidity control mode may be selected to control the indoor humidity.

Thereafter, the steps S306 to S308 are the same as the steps S103 to S105 described above.

According to this control method, by operating the ventilation mode in preference to other control modes, it is possible to efficiently improve the quality of the indoor air, minimize the energy consumption, and simultaneously control the humidity of the indoor air. By discharging pollutants such as CO2 and VOC to the outdoors, it is possible to minimize the pollutants affecting the human body.

As described above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above-described embodiments, and various modifications are made within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible to carry out by this and this also belongs to the present invention.

1: air conditioner 10: control unit
21: first blower 22: second blower
23: dehumidifier 24: humidifier
51: temperature sensor 52: humidity sensor
53 Dust sensor 54 CO2 sensor
55: VOC sensor 60: storage unit

Claims (23)

In the air conditioner operated in a plurality of operation modes for the air conditioning in the room,
The plurality of operation modes are set to operate in a ventilation mode in which indoor air and outdoor air are exchanged and a humidity control mode for controlling indoor humidity, and the ventilation mode and humidity control to ensure that the indoor humidity satisfies a setting standard. An air conditioner comprising a control unit for selecting and controlling any one of the modes The method of claim 1,
The control unit, when operating in the ventilation mode, the air conditioner, characterized in that the ventilation mode selection criteria is set to determine whether the indoor humidity can meet the setting criteria The method of claim 2,
The ventilation mode selection criterion is an air conditioner, characterized in that the amount of change in the indoor humidity generated by the operation of the ventilation mode for a predetermined time is more than a set value. The method of claim 2,
The ventilation mode selection criterion is an air conditioner characterized in that when operating in the ventilation mode, the estimated time required for the indoor humidity to meet the setting criteria is less than or equal to a set time. The method of claim 1,
The control unit is configured to select any one of the ventilation mode and the humidity control mode according to whether the humidity difference between the outdoor air and the indoor air is more than a set value. The method of claim 1,
The control unit compares the energy required when operating in the ventilation mode with the energy required when operating in the humidity control mode, and selects a mode that requires less energy. The method of claim 1,
Air conditioner characterized in that the heat pump is provided for dehumidification when operating in the humidity control mode. The method of claim 1,
The plurality of operation modes further comprises an air cleaning mode for filtering the indoor air using a filter and then discharged back to the room;
The control unit is set to operate in the order of the ventilation mode, the humidity control mode, and the air cleaning mode when an automatic operation signal is received;
The control unit controls to select one of the ventilation mode and the humidity control mode when it is determined that the humidity control of the room is necessary after the operation of the air cleaning mode. The method of claim 1,
An optimum control region defined by a range of temperatures and a range of humidity is stored in the storage unit;
The setting criterion is within the optimum control region. The method of claim 1,
An optimum control region defined by a range of temperatures and a range of humidity is stored in the storage unit;
The controller selects the ventilation mode when it is determined that the indoor humidity can enter the optimum control region by the operation of the ventilation mode. The method of claim 1,
The setting criterion comprises a first setting criterion and a final setting criterion;
The control unit may further include a mode for operating in the ventilation mode until the indoor humidity satisfies the primary setting criteria, and operating in the humidity control mode until the final setting criteria are satisfied after the primary setting criteria are satisfied. Air conditioner characterized in that provided a) receiving information on the indoor humidity to the controller;
b) determining, by the controller, whether the indoor humidity satisfies a setting criterion;
c) selecting, by the controller, one of a ventilation mode in which indoor air and outdoor air are exchanged and a humidity control mode for controlling indoor humidity in order to satisfy the setting criterion when the indoor humidity is out of the setting criterion; ;
d) controlling the controller to operate in the selected mode;
Control method of the air conditioner including The method of claim 12,
In step c), when the control unit operates in the ventilation mode, the controller determines whether the indoor humidity can satisfy the setting criteria, and selects the ventilation mode when it is determined that the setting criteria can be satisfied. Air Conditioner Control Method The method of claim 13,
The control method of the air conditioner in step c) is characterized in that the control unit after operating the ventilation mode for a set time and determines that the set criteria can be met if the amount of change in the indoor humidity is more than the set value. The method of claim 12,
In the step c), the control unit calculates the time required for the indoor humidity to meet the setting criteria when operating in the ventilation mode, and selects the ventilation mode when the calculated time is less than the set time. Control method of air conditioner The method of claim 12,
In the step c), the controller selects the ventilation mode when the difference between the outdoor humidity and the indoor humidity is equal to or greater than a set value. The method of claim 12,
In step c), the control unit compares the energy required when operating in the ventilation mode with the energy required when operating in the humidity control mode, and selects a mode that requires less energy. Harmonic Control Method The method of claim 12,
The control unit controls the air conditioner, characterized in that for operating the heat pump for dehumidification of the room when the humidity control mode is selected. The method of claim 12,
The control unit is set to operate in the order of the air cleaning mode in which the ventilation mode, the humidity control mode and the indoor air is filtered using a filter and then discharged back to the room when the automatic operation signal is received;
The control unit controls the air conditioner to select one of the ventilation mode and the humidity control mode when it is determined that the humidity control of the room is necessary after the operation of the air cleaning mode. The method of claim 12,
Whether the indoor humidity is outside the setting criteria is determined by whether the indoor humidity is outside the range of the optimum control region defined by the temperature in the predetermined range and the humidity in the predetermined range;
In step c), the control unit selects the ventilation mode when it is determined that the indoor humidity can enter the optimum control region by operating the ventilation mode. The method of claim 20,
The controller calculates an optimum humidity zone defined by a range between a minimum humidity and a maximum humidity in the optimum control region so as to correspond to the indoor temperature;
If the indoor humidity is lower than the minimum humidity operating in the humidification mode until the set humidity within the optimum humidity tool, if the indoor humidity is higher than the highest humidity dehumidification mode until the set humidity between the optimum humidity tool Control method of the air conditioner, characterized in that operating in The method of claim 20,
The control unit, in step c) determines the degree of the indoor humidity outside the optimum control region, and if the deviation is within the set range control method of the air conditioner, characterized in that for selecting The method of claim 12,
And a mode for operating the ventilation mode and the humidity control mode in combination until the indoor humidity satisfies the setting criteria.
The setting criterion comprises a first setting criterion and a final setting criterion;
Controlling the air conditioner first to operate in the ventilation mode so that the indoor humidity satisfies the primary setting criterion, and then operate in the humidity control mode to satisfy the final setting criterion after the primary setting criterion is satisfied. Way

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