KR102368820B1 - air conditioner and the method thereof - Google Patents

Abstract

The present invention relates to an air conditioner and a method for controlling the air conditioner, and more particularly, to an air conditioner capable of drying an air introduction part of the air conditioner and preventing the occurrence of condensation inside the air conditioner. It is about the control method.
The air conditioner according to the present invention includes an indoor air flow path, an outdoor air flow path, and at least one air introduction damper for mutually switching the indoor air flow path and the outdoor air flow path, wherein the indoor air flow path is controlled by controlling the air introduction damper. and a control unit configured to communicate with at least a portion of the outdoor air flow path and set an internal drying mode for flowing indoor air or outdoor air along the communicating flow path.
The method for controlling an air conditioner according to the present invention comprises: a) controlling at least one air inlet damper for mutually switching an indoor air flow path and an outdoor air flow path so that at least a part of the indoor air flow path and at least a part of the outdoor air flow path and b) operating a blower to flow the indoor air or outdoor air into the communicating flow path.

Description

An air conditioner and a control method of an air conditioner {air conditioner and the method thereof}

The present invention relates to an air conditioner and a method for controlling the air conditioner, and more particularly, to an air conditioner capable of drying an air introduction part of the air conditioner and preventing the occurrence of condensation inside the air conditioner. It is about the control method.

BACKGROUND ART In general, an air conditioner is a device that controls indoor temperature and humidity or ventilates indoor air to keep the room comfortable according to the user's request.

Recently, by adding various functions such as dehumidification, humidification, cooling, heating, air purification, and ventilation to the air conditioner, technologies are being developed to keep indoor air comfortable according to the change of season according to the user's choice.

In general, in an air conditioner, dew condensation may occur as heat exchange is performed between an indoor air passage through which indoor air flows and an outdoor air passage through which outdoor air flows.

The dew condensation caused an environment in which bacteria and mold grow inside the air conditioner, which adversely affects indoor hygiene using the air conditioner as well as deteriorates the function of the air conditioner and shortens the lifespan. occurred.

According to the prior art, a backflow prevention damper is provided at an outdoor outlet through which the air inside the air conditioner is discharged to the outdoors, or an electric damper is provided at an indoor inlet or outdoor inlet through which indoor air or outdoor air is introduced, so that the air conditioner is operated. It was intended to prevent the occurrence of dew condensation by blocking the inflow of air into the interior when it is not in the state.

However, the above method is an effective method for preventing the occurrence of condensation in the air conditioner in a non-operational state. Couldn't solve the problem.

In addition, although a method of discharging the air inside the air conditioner to the outside using outdoor air has been used according to the prior art, the indoor air concentration is lowered and negative pressure is generated, so that the indoor comfort is reduced as outdoor air flows into the room. There was a problem.

As an example of the air conditioner according to the prior art as described above, there is an air conditioner disclosed in Korean Patent Registration No. 10-1271554.

The present invention has been devised to solve the above problems, and it is to provide an air conditioner and a control method of the air conditioner that can prevent the occurrence of condensation inside the air conditioner by drying the air introduction part of the air conditioner. There is a purpose.

In addition, the purpose is to provide an air conditioner and a control method of the air conditioner that can discharge the air inside the air conditioner but do not generate negative pressure in the room to prevent unnecessary inflow of outdoor air and keep the indoor space comfortable there is.

In the air conditioner of the present invention for realizing the above object, an indoor air flow path formed to allow indoor air to flow, an outdoor air flow path formed to allow outdoor air to flow, and the indoor air flow path and the outdoor air flow path are mutually switched at least one air inlet damper to control the air inlet damper, and to communicate the indoor air flow path and at least a part of the outdoor air flow path by controlling the air introduction damper, and an internal drying mode for flowing indoor air or outdoor air along the communicating flow path is set includes a control unit.

In the air conditioner, a first air flow path and a second air flow path forming one of the indoor air flow path and the outdoor air flow path are formed in the interior space, and the indoor air introduced through the indoor inlet port and the outdoor air flow path are introduced through the outdoor inlet port. The outdoor air may further include an air introduction unit provided to independently flow the first air passage and the second air passage.

In addition, the at least one air introduction damper is provided in the inner space of the air introduction unit, and the control unit controls a driving unit that drives the air introduction damper to cut off between the first air flow path and the second air flow path. Alternatively, by communicating the first air flow path and the second air flow path with each other, the flow direction of the indoor air or the outdoor air may be selectively switched.

In addition, the body part is connected to one side of the air introduction part with a partition wall therebetween, and has an indoor outlet through which the indoor air or the outdoor air is discharged into the room and an outdoor outlet through which the indoor air or the outdoor air is discharged to the outdoors. ; The partition wall may further include a first opening for communicating the first air passage and the indoor exhaust port and a second opening for communicating the second air passage with the outdoor exhaust port may be formed.

In addition, the at least one air inlet damper includes: an indoor air inlet damper for changing a flow direction of the indoor air introduced through the indoor inlet; It may include an outdoor air introduction damper.

In addition, the indoor air inlet damper has a first position for flowing the indoor air introduced through the indoor inlet to the indoor outlet through the first air passage and the first opening, and the indoor air is introduced through the indoor inlet. A second position for flowing the used indoor air to the outdoor outlet through the second air passage and the second opening and a third position for communicating the first air passage and the second air passage may be set. there is.

In addition, the outdoor air inlet damper includes a first position for flowing outdoor air introduced through the outdoor inlet to the outdoor outlet through the second air passage and the second opening, and the outdoor air introduced through the outdoor inlet. A second position for flowing the exhausted outdoor air to the outdoor outlet through the second air passage and the second opening and a third position for communicating the first air passage and the second air passage may be set. there is.

In addition, the control unit may control the driving unit to position the indoor air intake damper and the outdoor air intake damper at any one of the first position, the second position, and the third position, respectively. can

In addition, the indoor air intake damper is configured to rotate between a first rotation angle within a predetermined range, and the first position of the indoor air intake damper is determined by rotating the indoor air intake damper in one direction to determine the first position. The second position is a position located at the boundary of one side of the rotation angle, the second position is a position located at the boundary of the other side of the first rotation angle by rotating in the other direction, and the third position is the boundary of one side and the other side of the first rotation angle. It may consist of a position located between the boundaries.

In addition, the outdoor air inlet damper is configured to rotate between a second rotation angle within a predetermined range, and the second position of the outdoor air inlet damper is the second position of the outdoor air inlet damper by rotating in one direction. a position located at one boundary of the rotation angle, the first position is a position located at the boundary of the other side of the second rotation angle by rotating in the other direction, and the third position is one side boundary and the other side of the second rotation angle. It may consist of a position located between the boundaries.

Also, in the internal drying mode, the indoor air intake damper is set to the first position, and the outdoor air intake damper is set to the third position, so that the indoor air introduced from the indoor inlet is transferred to the second position. It may be configured to sequentially flow through the air passage, the first air passage, and the first opening, and then discharge to the outside through the outdoor outlet.

In addition, a flow path boundary portion forming a boundary between the first air flow passage and the second air flow passage is provided, and the indoor air introduction damper and the outdoor air introduction damper are hinged to both ends of the flow passage boundary portion, respectively. Thus, it can be made to rotate about the rotation shaft of both ends of the flow path boundary portion by the driving of the driving unit, respectively.

In addition, a plurality of air conditioning modes for indoor air conditioning are set in the control unit, and the plurality of air conditioning modes may include the internal drying mode and a ventilation mode in which the indoor air and outdoor air are exchanged. there is.

In this case, the internal drying mode and the ventilation mode may be alternately operated at a predetermined time interval.

In addition, the control unit compares the comparison dew point temperature difference, which is the difference between the dew point temperature of the high air temperature and the air temperature of the low temperature side among indoor air and outdoor air, with a preset reference dew point temperature difference, and the comparison dew point temperature difference is the reference If it is greater than the dew point temperature difference, the internal drying mode may be operated.

In addition, the control unit may be configured to operate the internal drying mode when the comparison air temperature difference, which is a difference between indoor air and outdoor air, is compared with a preset reference air temperature difference, and when the comparison air temperature difference is greater than the reference air temperature difference.

The control method of the air conditioner according to the present invention may include the operation of the internal drying mode for preventing the occurrence of dew condensation inside the air conditioner.

In the internal drying mode, a) at least one air inlet damper for mutually switching the indoor air flow path through which the indoor air flows and the outdoor air flow path through which the outdoor air flows is controlled to control at least a portion of the indoor air flow path and the outdoor air flow path. and b) operating a blower to flow the indoor air or outdoor air into the communicating flow path.

In addition, the step a) further includes the step of controlling the air introduction damper to block the outdoor air from flowing into the air conditioner through the outdoor inlet and to flow the indoor air into the communicating flow path. can be done

In addition, in step b), the air flowing through the communicating flow path may be discharged to the outside through an outdoor outlet.

In addition, the internal drying mode compares the comparative dew point temperature difference, which is the difference between the dew point temperature of the high air temperature and the air temperature of the low temperature side among the indoor air and the outdoor air, and a preset reference dew point temperature difference, and the comparative dew point temperature difference It may be configured to operate when is greater than the reference dew point temperature difference.

In addition, when the comparative dew point temperature difference is less than or equal to the reference dew point temperature difference, the operation of the internal drying mode may be stopped.

In addition, the internal drying mode may be configured to be operated when the comparison air temperature difference, which is a difference between indoor air and outdoor air, is compared with a preset reference air temperature difference, and the comparison air temperature difference is greater than the reference air temperature difference.

In addition, when the comparison air temperature difference is less than or equal to the reference air temperature difference, the operation of the internal drying mode may be stopped.

In addition, a ventilation mode in which the indoor air and outdoor air are exchanged is set in the control unit, and the ventilation mode and the internal drying mode may be alternately operated.

In addition, the internal drying mode compares the comparative dew point temperature difference, which is the difference between the dew point temperature of the high air temperature and the air temperature of the low temperature side among the indoor air and the outdoor air, and a preset reference dew point temperature difference, and the comparative dew point temperature difference is greater than the reference dew point temperature difference, a plurality of dew point reference ranges formed at a predetermined temperature difference interval from the reference dew point temperature difference are set in the control unit, and a dew condensation prevention step is set for each dew point reference range, each of the dew point prevention steps The operating time of the ventilation mode and the operating time of the internal drying mode are respectively set, and the higher the minimum value of the condensation reference range is, the longer the operation time of the internal drying mode is longer than the operation time of the ventilation mode. can be done

In addition, the internal drying mode is operated when the comparison air temperature difference, which is a difference between indoor air and outdoor air, is compared with a preset reference air temperature difference, and the comparison air temperature difference is greater than the reference air temperature difference, and the control unit receives from the reference air temperature difference. A plurality of condensation reference ranges formed at a predetermined temperature difference interval are set, and a condensation prevention step is set for each condensation reference range, and the operation time of the ventilation mode and the operation time of the internal drying mode are respectively set in each of the condensation prevention steps And, as the condensation prevention step having a larger minimum value of the condensation reference range, the operation time of the internal drying mode may be longer than the operation time of the ventilation mode.

In addition, the method may further include a step of determining the current season, and when the determined current season is any one of summer and winter, control may be performed in steps a) and b).

The determination of the season may be made from a comparison between the outdoor air temperature and the indoor air temperature.

In addition, a first air flow path and a second air flow path forming one of the indoor air flow path and the outdoor air flow path are formed in the inner space, so that the indoor air introduced through the indoor inlet and the outdoor air introduced through the outdoor inlet are An air introduction unit provided to flow the first air flow path and the second air flow path independently is provided, and the control unit blocks the first air flow path and the second air flow path by driving the air introduction damper. Alternatively, the first air flow path and the second air flow path may be communicated with each other to form the communicating flow path.

In addition, the air introduction damper may be provided to rotate between rotation angles within a predetermined range, and the air introduction damper may be controlled to be positioned between one boundary and the other boundary of the rotation angle to form the communication path.

According to the air conditioner and the control method of the air conditioner according to the present invention, it is possible to prevent deterioration of indoor hygiene by drying the air introduction part of the air conditioner to prevent condensation.

In addition, by drying the air introduction part of the air conditioner to prevent the occurrence of dew condensation, it is possible to prevent deterioration of the function and shortening of the life of the air conditioner.

In addition, by discharging the air inside the air conditioner to dry the air introduction part of the air conditioner, but not to generate negative pressure in the room, it is possible to prevent an unintentional inflow of outdoor air and to keep the indoor space comfortable.

In addition, the plurality of air flow paths of the air introduction unit of the air conditioner through which indoor air and outdoor air flow, respectively, are communicated with each other, and indoor air flows through the connected plurality of air flow paths, and the plurality of air flow paths are dried at once. Drying efficiency can be improved.

In addition, the operating conditions of the internal drying mode or the anti-condensation conditioning mode are set according to the season, so that drying efficiency can be increased.

In addition, in the operation of the anti-condensation conditioning mode, the operation time of the drying mode and the ventilation mode is appropriately adjusted according to the temperature difference of the comparative dew point, so that it is possible to prevent negative pressure in the room and increase the drying efficiency.

In addition, when the internal drying mode or anti-condensation conditioning mode is operated and the humidity of the air inlet part decreases as the air inlet part of the air conditioner is dried, the operation of the internal drying mode or the anti-condensation conditioning mode is stopped to reduce unnecessary operation and reduce economic efficiency and efficiency can be increased.

1 is a view schematically showing the configuration of an air conditioner according to the present invention;
2 is a perspective view showing an air conditioner according to the present invention;
Figure 3 is a plan view AA of Figure 2
4 is a view showing a driving embodiment of the outdoor air inlet damper and the indoor air inlet damper according to the present invention;
5 is a view showing the flow paths of indoor air and outdoor air flowing into the air introduction unit when the outdoor air inlet damper and the indoor air inlet damper are set to the first position according to the present invention;
6 is a view showing a flow path of indoor air and outdoor air flowing into the air introduction unit when the outdoor air inlet damper and the indoor air inlet damper are set to the second position according to the present invention;
7 is a view showing a flow path of indoor air flowing into the air introduction unit when the outdoor air intake damper is set to the third position and the indoor air intake damper is set to the first position according to the present invention;
8 is a view schematically showing the operation of the ventilation mode according to the present invention
9 is a view schematically showing the operation of the internal drying mode according to the present invention;
10 is a table showing an embodiment of the anti-condensation control mode in summer according to the present invention;
11 is a table showing an embodiment of the anti-condensation control mode in the winter season according to the present invention;
12 is a flowchart illustrating a control method of an air conditioner in which a dew condensation prevention conditioning mode is operated according to the present invention;

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, an air conditioner of the present invention and a control method of the air conditioner using the same will be described in detail with reference to the accompanying drawings.

An embodiment of the air conditioner 100 according to the present invention will be described with reference to FIGS. 1 to 3 .

1 is a schematic configuration diagram of an air conditioner 100 according to the present invention, FIG. 2 is a perspective view of the air conditioner 100, and FIG. 3 is a horizontal cross-sectional view of the air conditioner 100 of FIG. AA cross-section.

The air conditioner 100 according to the present invention includes an indoor air flow path 200 through which indoor air flows, an outdoor air flow path 300 through which outdoor air flows, and the indoor air flow path 200 and the outdoor air flow path. At least one air inlet damper (151a, 151b) for converting (300) to each other.

The indoor air flow path and the outdoor air flow path may be interchanged with each other according to a control mode. That is, various control modes such as ventilation mode, air cleaning mode, dehumidification cooling mode, heating mode, etc. may be set in the air conditioner 100, and as the control mode is changed, the indoor air flow path 200 It may function as a flowing outdoor air flow path, and the outdoor air flow path 300 may function as an indoor air flow path through which indoor air flows.

In addition, the control unit (not shown) of the air conditioner 100 controls the air introduction dampers 151a and 151b to control at least a part of the indoor air flow path 200 and at least a part of the outdoor air flow path 300 . and an internal drying mode configured to flow the indoor air or outdoor air to the communicating passage.

The air conditioner 100 is provided with an indoor inlet 101 and an indoor outlet 102 connected to the room, so that indoor air is introduced into the air conditioner 100 through the indoor inlet 101, The air inside the air conditioner 100 is discharged into the room through the indoor outlet 102 .

In addition, the air conditioner 100 is provided with an outdoor inlet 103 and an outdoor outlet 104 connected to the outdoors, so that outdoor air flows into the air conditioner 100 through the outdoor inlet 103 . and the air inside the air conditioner 100 is discharged into the room through the outdoor outlet 104 .

In the air conditioner 100, the indoor inlet 101 is connected to the indoor side, the outdoor inlet 103 is connected to the outdoor side, and a plurality of air passages 150a and 150b are formed in the interior space. is provided

The plurality of air passages 150a and 150b include a first air passage 150a and a second air passage 150b, and indoor air and outdoor air are separated from the first air passage 150a and the second air passage 150a. Each of the air passages (150b) is made to flow independently.

The first air flow path 150a may be a part of the indoor air flow path or a part of the outdoor air flow path. In addition, the second air flow path 150b may be a part of the outdoor air flow path or a part of the indoor air flow path opposite to the first air flow path 150a.

When the first air flow path 150a functions as an indoor air flow path, it communicates with the indoor inlet 101 , and when it functions as an outdoor air flow path, it communicates with the outdoor inlet 103 . The second air flow path 150b also communicates with the indoor inlet 101 when it functions as an indoor air flow path, and communicates with the outdoor inlet 103 when it functions as an outdoor air flow path.

When operating in the internal drying mode, the first air flow path 150a and the second air flow path 150b communicate with each other, but when operating in other control modes such as ventilation mode and dehumidification cooling mode, the first air flow path (150a) and the second air flow path (150b) are isolated from each other to form an independent flow path.

The air conditioner 100 may further include an indoor inlet damper 101a for opening and closing the indoor inlet 101 and an outdoor inlet damper 103b for opening and closing the outdoor inlet 103 .

The indoor inlet damper 101a and the outdoor inlet damper 103b are driven by an indoor inlet driving unit (not shown) and an outdoor inlet driving unit (not shown), respectively, and in the control unit, the indoor inlet driving unit (not shown) and the By controlling an outdoor inlet driving unit (not shown), the inflow of indoor air through the indoor inlet 101 and the inflow of outdoor air through the outdoor inlet 103 are controlled.

The at least one air introduction damper 151a and 151b may be provided in the inner space of the air introduction unit 150 .

The at least one air introduction damper 151a, 151b is driven by a driving unit (not shown), and blocks between the first air flow path 150a and the second air flow path 150b by the control unit, or The first air passage 150a and the second air passage 150b are controlled to communicate with each other.

That is, the at least one air introduction damper 151a, 151b is driven under the control of the controller to selectively change the flow direction of the indoor air or the outdoor air.

A flow path boundary part 152 forming a boundary between the first air flow path 150a and the second air flow path 150b may be provided in the inner space of the air introduction part 150 .

The flow path boundary part 152 may be provided in a horizontal direction, and the first air flow path 150a and the second air flow path 150b have the flow path boundary part 152 interposed therebetween. It may be formed in the lower inner space and the upper inner space, respectively.

At both ends of the flow path boundary portion 151, an outdoor air inlet damper 151b for changing the flow direction of the outdoor air introduced through the outdoor inlet 103, and the indoor air inlet 101 An indoor air-introduction damper 151a for changing the flow direction of indoor air may be provided.

That is, the outdoor air intake damper 151b and the indoor air intake damper 151a are four-way dampers configured to selectively open and close both sides of the first air passage 150a and the second air passage 150b. (4-way damper) can be configured.

At this time, the indoor air introduction damper 151a rotates between the first rotation angles 151-2a (FIG. 4) of a predetermined range around the rotation shaft 151-1a of the indoor end of the flow path boundary part 151. The outdoor air introduction damper 151b has a second rotation angle 151-2b in a predetermined range around the rotation shaft 151-1b of the outdoor end of the flow path boundary portion 151; It can be made to rotate between.

Further, in the air introduction unit 150, the rotation angles of the indoor air intake damper 151a and the outdoor air intake damper 151b are respectively set at the first rotation angle 151-2a and the second rotation angle. Rotation limiting members (154a, 154b, 155a, 155b) for limiting to (151-2b) may be provided.

The rotation limiting members 154a, 154b, 155a, 155b are provided at one boundary and the other boundary of the first rotation angle 151-2a, and one boundary and the other boundary of the second rotation angle 151-2b, respectively. and may be inclined to match the inclinations of the indoor air induction damper 151a and the outdoor air inlet damper 151b at each boundary.

In addition, the main body 110 is connected to one side of the air introduction part 150 with the partition wall 130 interposed therebetween.

The body part 110 has a dehumidifying rotor 121 configured to alternately pass through the first region 121a and the second region 121b by rotating by driving a rotor driving unit (not shown) about an axis provided in the center. ) is provided

The dehumidification rotor 121 includes an adsorbent for adsorbing moisture, and moisture from the air passing through the dehumidification rotor 121 through either the first region 121a or the second region 121b. It is made to adsorb or release the adsorbed moisture.

The first region 121a and the second region 121b may be respectively formed at a lower portion and an upper portion with respect to the axis of the dehumidifying rotor 121 .

In the inner space of the main body 110 , two space portions 113 , 114 ; 111 and 112 are respectively formed on the indoor side and the outdoor side with the first area 121a and the second area 121b interposed therebetween.

That is, the first space part 111 and the second space part 112 are respectively formed on the indoor side and the outdoor side of the second area 121b, and the indoor side and the first space part 112 of the first area 121a. A third space 113 is formed in a lower layer of the space 111 , and a fourth space 114 is formed on the outdoor side of the first area 121a and below the second space 112 . do.

Accordingly, the first space 111 and the second space 112 communicate with each other through the second region 121b, and the third space 113 and the fourth space 114 communicate with each other. is communicated through the first region 121a.

In addition, the first space part 111 and the third space part 113 , the second space part 112 and the fourth space part 114 , the first space part 111 and the second space part ( 112), separating plates 131, 132, 133, and 134 are provided between the third space 113 and the fourth space 114 to communicate with the first region 121a and the second region 121b. Except for, the flow of air between the first to fourth space portions 113, 114, 111, and 112 may be blocked.

In addition, the indoor outlet 102 is provided in the first space 111 , and the outdoor outlet 104 is provided in the fourth space 114 to flow the first space 111 . air is discharged into the room through the indoor outlet 102 , and the air flowing through the fourth space 114 is discharged to the outside through the indoor outlet 102 .

In addition, in the partition wall 130 , the indoor air or outdoor air flowing through the internal space of the air introducing part 150 by communicating the main body part 110 and the air introducing part 150 is supplied to the main body part 110 . At least one opening (130a, 130b) for flowing into the inner space is formed.

The at least one opening (130a, 130b) is formed on the upper side of the outdoor side of the partition wall (130), the second opening (130b) for communicating the second air passage (150b) and the second space (112). and a first opening 130a formed on the lower indoor side of the partition wall 130 to communicate the first air passage 150a and the third space portion 113 .

In addition, the main body 110 has a first blower 141 for sucking indoor air or outdoor air, flowing it along the inner space of the main body 110 and discharging it to the room, and a second blower for discharging it to the outside. Two blowers 142 are provided.

The first blower 141 may be provided in the first space 111, an inlet through which air is introduced communicates with the first space 111, and an outlet through which air is discharged is connected to the indoor outlet ( 102) may be configured to be connected.

The second blower 142 may be provided in the fourth space 114, an inlet through which air is introduced communicates with the fourth space 114, and an outlet through which air is discharged is connected to the outdoor outlet ( 104).

Accordingly, the indoor air or outdoor air flowing through the first air flow path 150a is sucked by the driving of the second blower 142, and the third space portion ( 113), flows into the fourth space 114 through the first region 121a, and is discharged outdoors through the outdoor outlet 104.

In addition, the indoor air or outdoor air flowing through the second air passage 150b is sucked by the driving of the first blower 141, and the second space portion 112 through the second opening 130b. ), flows into the first space 111 through the second region 121b, and is discharged into the room through the indoor outlet 102 .

In addition, a heat pump for heating and cooling air passing through the first region 121a and the second region 121b may be provided in the main body 110 .

The heat pump includes a compressor 125 for compressing the refrigerant into a high-temperature and high-pressure gas refrigerant, condensers 122; 123 for condensing the refrigerant compressed in the compressor 125 into a medium-temperature and high-pressure liquid refrigerant; It includes an expansion valve 124 for decompressing the refrigerant condensed in 122;123 into a low-temperature and low-pressure refrigerant, and an evaporator 123;122 for evaporating the refrigerant decompressed by the expansion valve 124 into a low-temperature and low-pressure gaseous refrigerant. is done by

At this time, the first heat exchanger 122 provided in the third space 113 to perform heat exchange of the air flowing into the first region 121a, and the second space 112 provided in the A second heat exchanger 123 that performs heat exchange of the air flowing into the second region 121b may alternately serve as the condenser and the evaporator.

In addition, a cooler (not shown) for cooling the air discharged into the room may be further provided in the first space 111 .

In addition, a plurality of filters 126a, 126b, and 126c for filtering foreign substances contained in the air may be provided on the air flow path inside the air conditioner 100 through which the indoor air and the outdoor air flow.

In addition, in the air conditioner 100, an indoor temperature measuring unit (not shown) and an outdoor temperature measuring unit (not shown) for measuring the temperature of the indoor air and the outdoor air, and measuring the relative humidity of the indoor air and the outdoor air An indoor humidity measuring unit (not shown) and an outdoor humidity measuring unit (not shown) may be provided.

The indoor temperature measuring unit and the indoor humidity measuring unit may be provided to measure the indoor temperature and indoor humidity of the air flowing through the air introduction unit 150, and are separately provided in the room so that the control unit includes the indoor temperature measuring unit and It may be configured to receive the temperature and humidity information of the indoor air measured by the indoor humidity measurement unit.

In addition, the outdoor temperature measuring unit and the outdoor humidity measuring unit may be provided to measure the outdoor temperature and outdoor humidity of the air flowing through the air introduction unit 150, and are separately provided outdoors so that the control unit measures the outdoor temperature It may be configured to receive the temperature and humidity information of the outdoor air measured by the unit and the outdoor humidity measuring unit.

In this case, the information on the outdoor temperature and outdoor humidity may be configured to be received from an external server through a wired/wireless communication network.

The control unit may be configured to calculate a dew point temperature of outdoor air and a dew point temperature of indoor air using the outdoor temperature and the outdoor humidity and the indoor temperature and the indoor humidity, respectively.

Next, with reference to FIGS. 4 to 7 , driving embodiments of the outdoor air introduction damper 151b and the indoor air introduction damper 151a of the air conditioner 100 of the present invention and an air introduction unit according to each embodiment A flow path of indoor air and outdoor air flowing through 150 will be described.

4 is a view showing a driving embodiment of the outdoor air inlet damper 151b and the indoor air inlet damper 151a.

The indoor air inlet damper 151a is rotated by driving of the driving unit, and has a first position 151a-1 connected to the lower boundary 101-2 of the indoor inlet 101, and the indoor inlet. The second position 151a-2 connected to the upper boundary 101-1 of 101 is located between the upper boundary 101-1 and the lower boundary 101-2 of the indoor inlet 101. It is made to be located in any one of the third positions (151a-3).

That is, one boundary and the other boundary of the second rotation angle 151 - 2b are formed at the upper boundary 101-1 and the lower boundary 101-2 of the indoor inlet 101 .

At this time, as the indoor air introduction damper 151a is positioned at the first position or the second position, the first air passage 150a and the second air passage 150b are blocked at the same time as the first Any one of the air flow path 150a and the second air flow path 150b communicates with the indoor inlet 101, and as it is positioned at the third position, the first air flow path 150a and the second air flow path 150b is communicated.

In addition, the outdoor air inlet damper 151b rotates by driving of a driving unit, and includes a first position 151b-1 connected to the upper boundary 103-1 of the outdoor inlet 103, and the outdoor inlet. The second position 151b-2 connected to the lower boundary 103-2 of 103, and the third position between the upper boundary 103-1 and the lower boundary 103-2 of the outdoor inlet 103 It is made to be located in any one of the positions 151b-3.

That is, one boundary and the other boundary of the second rotation angle 151 - 2b are formed at the upper boundary 103 - 1 and the lower boundary 103 - 2 of the outdoor inlet 103 .

At this time, as the outdoor air introduction damper 151b is positioned at the first or second position, the first air passage 150a and the second air passage 150b are blocked and the first Any one of the air flow path 150a and the second air flow path 150b communicates with the outdoor inlet 103, and as it is positioned at the third position, the first air flow path 150a and the second air flow path 150b is communicated.

5 to 7 are diagrams illustrating flow paths of indoor air and outdoor air formed in the air introduction unit 150 according to a driving embodiment of the outdoor air inlet damper 151b and the indoor air inlet damper 151a. am.

Referring to FIG. 5 , when the positions of the outdoor air inlet damper 151b and the indoor air inlet damper 151a are set to the first positions 151a-1 and 151b-1, the outdoor inlet 103 ) is guided downward by the outdoor air inlet damper 151b and flows into the first air flow path 150a, and the indoor air introduced through the indoor inlet 101 is It is guided upward by the air introduction damper 151a and flows into the second air passage 150b.

At this time, since the first air flow path 150a is connected to the outdoor outlet 104 and the second air flow path 150b is connected to the indoor outlet 102, the outdoor inlet 103 according to this embodiment The outdoor air introduced through the outlet is discharged to the outside, and the indoor air introduced through the indoor inlet 101 is discharged into the room.

Accordingly, the present embodiment may be applied to a heating mode, a dehumidifying cooling mode, and the like of the air conditioner 100 .

Also, referring to FIG. 6 , when the positions of the outdoor air intake damper 151b and the indoor air intake damper 151a are set to the second positions 151a-2 and 151b-2, the outdoor inlet port The outdoor air introduced through the 103 is guided upward by the outdoor air inlet damper 151b and flows into the second air passage 150b, and the indoor air introduced through the indoor inlet 101 is It is guided downward by the indoor air introduction damper 151a and flows into the first air passage 150a.

Accordingly, the outdoor air flowing in through the outdoor inlet 103 is discharged into the room through the indoor outlet 102 , and the indoor air flowing in through the indoor inlet 101 is discharged to the outside through the outdoor outlet 104 . is emitted

Accordingly, the present embodiment can be applied to the ventilation mode of the air conditioner 100, and the ventilation mode will be described in detail with reference to FIG. 8 to be described later.

Also, referring to FIG. 7 , the outdoor air intake damper 151b is set to the third position 151b-3, and the indoor air intake damper 151a is positioned at the first position 151a- 1), the first air flow path 150a and the second air flow path 150b are opened in both directions by the outdoor air inlet damper 151b to communicate with each other. The indoor air introduced through the indoor air is guided upward by the indoor air inlet damper 151a, flows into the second air passage 150b, and then turns around the outdoor air inlet damper 151b to the first air passage ( 150a) will flow.

Accordingly, the indoor air introduced through the indoor inlet 101 flows through the internal space of the air introduction unit 150 and then is discharged to the outside through the outdoor outlet 104 .

This embodiment can be applied to the internal drying mode of the air conditioner 100, and the internal drying mode will be described in detail with reference to FIG. 9 to be described later.

Next, an air conditioning mode operated by the air conditioner 100 according to the present invention will be described with reference to FIGS. 8 to 11 .

The air conditioning mode by the air conditioner 100 of the present invention includes a dehumidification mode in which the indoor air is dehumidified to lower the indoor humidity, a cooling mode in which the indoor air is cooled to provide cooling to the room, and the indoor humidity is reduced by humidifying the indoor air. The height may include a humidification mode, a heating mode in which indoor air is heated to provide heating to the room, and a ventilation mode in which indoor air is discharged to the outdoors and outdoor air is supplied into the room to ventilate the room, and the like.

In addition, the air conditioning mode includes an internal drying mode for drying at least a part of a flow path through which air flows inside the air introduction unit or inside the air conditioner 100, and the ventilation mode and the internal drying mode at a predetermined time interval. It may be made to further include a dew condensation prevention harmonic mode for cross operation. The internal drying mode and the anti-condensation conditioning mode are collectively referred to as the anti-condensation mode.

The operation of the ventilation mode of the air conditioner 100 having the above configuration will be described with reference to FIG. 8 .

When the ventilation mode is activated, the control unit controls the driving unit to set the positions of the indoor air intake damper 151a and the outdoor air intake damper 151b to the second positions 151a-2 and 151b-2, and the indoor air intake damper 101a and the outdoor inflow damper 103a are opened, and the first blower 141 and the second blower 142 are operated.

Accordingly, outdoor air is introduced into the inner space of the air introduction unit 150 through the outdoor inlet 103, and the outdoor air is guided upward by the outdoor air introduction damper 151b, and thus the second air passage 150b. ), flows into the second space 112 through the second opening 130b, flows into the first space 111 through the second region 121b, and then through the indoor outlet 102 discharged indoors.

In addition, indoor air is introduced into the inner space of the air introduction unit 150 through the indoor inlet 101, and is guided downward by the indoor air introduction damper 151a to flow into the first air passage 150a, It flows into the third space 113 through the first opening 130a, flows into the fourth space 114 through the first region 121a, and then is discharged to the outside through the outdoor outlet 104.

The operation of the internal drying mode of the air conditioner 100 having the above configuration will be described with reference to FIG. 9 .

In the internal drying mode, indoor air and outdoor air are respectively supplied to one and the other of the first air passage 150a and the second air passage 150b, such as the heating mode, dehumidification mode, dehumidification cooling mode, and ventilation mode. It is an air conditioning mode for drying the inner space of the air introduction unit 150 when dew is generated in the inner space of the air introduction unit 150 due to the temperature difference between the indoor air and the outdoor air while flowing.

When the internal drying mode is activated, the controller controls the driving unit to set the position of the indoor air intake damper 151a to the first position 151a-1, and sets the position of the outdoor air intake damper 151b to the third position. (151b-3), the indoor inflow damper 101a is opened, but the outdoor inflow damper 103a is closed, and the first blower 141 is operated.

Accordingly, indoor air is introduced into the inner space of the air introduction unit 150 through the indoor inlet 101, and the indoor air is guided upward by the indoor air inlet damper 151a to be guided upward by the second air passage 150b. ), flows into the first air passage 150b around the outdoor air introduction damper 151b, flows into the third space 113 through the first opening 130a, and flows into the first After being introduced into the fourth space 114 through the region 121a, it is discharged to the outside through the outdoor outlet 104 .

That is, in the internal drying mode, the indoor air flows through both the first air flow path 150b and the second air flow path 150a and then is discharged to the outside, so that the internal space of the air introduction unit 150 is removed. It acts as a drying agent.

At this time, when the first opening 130a is formed at the lower indoor side of the partition wall 130 , the indoor air flows from one end of the first air passage 150b and the second air passage 150a to the other side. Since it is discharged to the outside after passing through the end evenly, the internal space of the air introduction unit 150 can be dried evenly, thereby increasing drying efficiency.

The internal drying mode may be configured to be operated when the comparative air temperature difference, which is the temperature difference between the indoor air and the outdoor air, is large.

The control unit obtains the comparison air temperature difference from the indoor air and the outdoor air measured by the indoor temperature measurement unit and the outdoor temperature measurement unit, respectively, and compares it with a preset reference air temperature difference, and if the comparison air temperature difference is greater than the reference air temperature difference, the inside It may be made to operate the drying mode.

That is, as the comparative air temperature difference increases, heat exchange occurs between the outdoor air and the indoor air flowing inside the air conditioner 100 and the probability of dew condensation increases, so that the internal drying mode is operated according to the comparative air temperature difference Thus, by drying the inside of the air conditioner 100, it is possible to prevent the occurrence of dew condensation.

In addition, the control unit compares the comparison dew point temperature difference, which is the difference between the temperature and the air temperature at the lower side of the dew point temperature of the indoor air and the outdoor air, with a preset reference dew point temperature difference, and the comparison dew point temperature difference is the reference If it is greater than the dew point temperature difference, the internal drying mode may be operated.

At this time, as the comparative dew point temperature difference is larger, the probability of reaching the dew point temperature increases because heat exchange occurs between the outdoor air and the indoor air, so that the temperature of the air having a higher temperature between the outdoor air and the indoor air is lowered.

That is, the dew point temperature is a value obtained by calculating the temperature at which water vapor in the air reaches saturation according to the relative humidity in the air. It decreases and the water vapor becomes saturated and the probability of dew formation increases.

That is, by operating the internal drying mode according to the comparative dew point temperature difference in which the relative humidity in the air is reflected and drying the inside of the air conditioner 100, the occurrence of dew condensation can be more effectively prevented.

In addition, as the inside of the air conditioner 100 is dried, when the temperature difference between the indoor air and the outdoor air decreases below the air temperature difference or the comparative dew point temperature difference decreases below the reference dew point temperature difference, the It is set to stop the operation of the internal drying mode, it is possible to increase the efficiency of the internal drying mode.

Also, the internal drying mode may be configured to be operated in at least one of a summer when the temperature of the outdoor air is high and the temperature of the indoor air is low, and a winter season when the temperature of the outdoor air is low and the temperature of the indoor air is high.

Accordingly, the internal space of the air introduction unit 150 is dried by using indoor air that is drier than the outdoor air in summer, and indoor air that is hotter than the outdoor air in winter is used in the air introduction unit 150. This will dry out the interior space.

In this case, the controller may be configured to determine the summer season when the temperature of the outdoor air is higher than the indoor temperature, and determine the winter season when the temperature of the indoor air is lower than the outdoor air temperature.

In addition, when the temperature of the outdoor air is higher than the indoor temperature, but the temperature difference between the outdoor air and the indoor air is larger than the preset summer temperature difference, the controller determines that it is summer, and the temperature of the indoor air is higher than the temperature of the outdoor air, but the indoor air and the outdoor air When the temperature difference of ' is greater than a preset winter temperature difference, it may be determined as the winter season.

In addition, at least one of a time corresponding to a summer season of a year and a time corresponding to the winter season of the year may be set in the control unit to determine whether it is a summer season or a winter season according to the corresponding time.

In addition, the summer reference air temperature difference applied to the summer season and the winter reference air temperature difference applied to the winter season are respectively set in the control unit, and the summer reference air temperature difference or the winter reference air temperature difference may be operated according to the seasonal determination of the control unit. .

Accordingly, when the control unit determines that the current season is summer, the control unit compares the comparison air temperature difference with the summer reference air temperature difference, and if the comparison air temperature difference is greater than the summer reference air temperature difference, the internal drying mode is operated. can be done

In addition, when the control unit determines that the current season is winter, the control unit compares the comparison air temperature difference with the winter reference air temperature difference, and when the comparison air temperature difference is greater than the winter reference air temperature difference, the internal drying mode is operated. can be done

In addition, the summer standard dew point temperature difference applied to the summer season and the winter standard dew point temperature difference applied to the winter season are respectively set in the control unit, and the summer standard dew point temperature difference or the winter standard dew point temperature difference may be applied according to the seasonal determination of the control unit. .

Accordingly, when the controller determines that the current season is summer, the controller calculates the difference between the outdoor air dew point temperature and the indoor air air temperature to obtain a comparative dew point temperature difference, and the comparative dew point temperature difference is the summer reference dew point temperature difference If larger, it may be made to operate the internal drying mode.

In addition, when the controller determines that the current season is winter, the controller calculates the difference between the indoor air dew point temperature and the outdoor air air temperature to obtain a comparative dew point temperature difference, and the comparative dew point temperature difference is greater than the winter reference dew point temperature difference. If it is large, it may be made to operate the internal drying mode.

In addition, in general, outdoor air in summer has a higher relative humidity than indoor air in winter, so the amount of dew generated when reaching the dew point temperature is large. By making the operating conditions of the mode more easily satisfied in summer than in winter, effective dew condensation prevention effect can be obtained depending on the season.

For example, in the controller, 0° C. may be set as the reference dew point temperature difference in the summer, and 9° C. may be set as the reference dew point temperature difference in the winter season.

The operation of the anti-condensation conditioning mode of the air conditioner 100 having the above configuration will be described with reference to FIGS. 10 and 11 .

The anti-condensation conditioning mode by the air conditioner 100 of the present invention is an air conditioning mode in which the internal drying mode shown in FIG. 9 and the ventilation mode shown in FIG. 8 are alternately operated at regular time intervals.

In order to determine whether the anti-condensation harmonic mode is activated or stopped, an operating condition or an operating stop condition similar to the above-described internal drying mode may be set in the control unit.

In addition, the operation time (td) of the internal drying mode and the operation time (tv) of the ventilation mode, which are cross-operated by the anti-condensation conditioning mode, may be set in the control unit, respectively.

In addition, in the control unit, there is a condensation prevention step (S1, S2, S3) of adjusting the ratio of the operating time (td) of the internal drying mode to the operating time (tv) of the ventilation mode according to the comparative dew point temperature difference (D_Temp) can be set.

The condensation prevention steps S1 , S2 , and S3 may be divided into a plurality of dew point reference ranges R_Temp formed at a predetermined temperature difference interval with the reference dew point temperature difference SD_Temp as a minimum value.

The plurality of condensation reference ranges (R_Temp) are each greater than the minimum value (m) and are smaller than or equal to the maximum value (M). can be done

In addition, when N number of condensation reference steps are set in the control unit, the minimum value (m) of the condensation reference range of the first step condensation reference step is the reference dew point temperature difference (SD_Temp), and the higher the step of the condensation reference step, the higher the minimum value ( m) increases, and the condensation reference range of the final Nth step of the condensation reference step may be made to have only the minimum value (m).

In addition, in the plurality of anti-condensation steps (S1, S2, S3), the operation time (tv) of the ventilation mode and the operation time (td) of the internal drying mode are set, respectively, as the step of the condensation reference step increases, the The ratio of the operation time (td) of the internal drying mode to the operation time (tv) of the ventilation mode may be set large.

That is, as the level of the dew condensation reference step increases, the operating time of the internal drying mode may be set to be longer or the operating time of the ventilation mode may be set to be shorter.

In addition, the condensation prevention step may be divided into a plurality of condensation reference ranges formed at a predetermined temperature difference interval with the reference air temperature difference as the minimum value, and the operation time of the internal drying mode and the operation of the ventilation mode according to the comparative air temperature difference Each time may be set.

10 shows an embodiment of the operation of the anti-condensation control mode in the summer season.

According to this embodiment, when the control unit determines that the current season is summer, when the comparative dew point temperature difference (D_Temp) satisfies a range greater than 0°C set as the summer reference dew point temperature difference (SD_Temp), the anti-condensation harmonic mode is activated .

At this time, the comparative dew point temperature difference (D_Temp) is composed of a difference between the dew point temperature (T_oda_dew) of the outdoor air and the air temperature (T_room) of the indoor air. Depending on which range of the three-stage condensation reference range (R_Temp) formed at a temperature difference interval of 3°C, it operates in any one of the three-stage anti-condensation steps (S1, S2, S3).

Therefore, when the comparative dew point temperature difference (D_Temp) is greater than 0°C and less than or equal to 3°C, it falls within the first-stage dew point reference range, and operates the internal drying mode for 5 minutes and the ventilation mode for 15 minutes. Step condensation prevention step (S1) is performed.

In addition, if the comparative dew point temperature difference (D_Temp) is greater than 3 ℃ and less than or equal to 6 ℃, the second step of operating the internal drying mode for 10 minutes and operating the ventilation mode for 10 minutes because it falls within the 2-step condensation reference range Condensation prevention step (S2) is performed.

In addition, when the comparative dew point temperature difference (D_Temp) is greater than 6°C, the third-step condensation prevention step (S3) of operating the internal drying mode for 20 minutes and operating the ventilation mode for 5 minutes corresponding to the 3-step condensation reference range (S3) ) will be performed.

11 shows an embodiment of the operation of the anti-condensation control mode in the winter season.

According to this embodiment, when the control unit determines that the current season is winter, when the comparative dew point temperature difference (D_Temp) satisfies a range greater than 9°C set as the winter reference dew point temperature difference (SD_Temp), the anti-condensation harmonic mode is activated .

At this time, the comparative dew point temperature difference (D_Temp) is made up of a difference between the indoor air dew point temperature (T_room_dew) and the outdoor air air temperature (T_oda), and in the anti-condensation conditioning mode, the comparative dew point temperature difference (D_Temp) exceeds 9°C 6 It operates in any one of the three steps of preventing condensation (S1, S2, S3) depending on which range it falls under the range of ℃ or less, the range of 15℃ and 20℃ or less, and the range of 20℃ or less. .

Accordingly, when the comparative dew point temperature difference (D_Temp) is greater than 9°C and less than or equal to 15°C, it falls within the first-stage dew point reference range and operates the internal drying mode for 5 minutes and the ventilation mode for 15 minutes. Step condensation prevention step (S1) is performed.

In addition, when the comparative dew point temperature difference (D_Temp) is greater than 15°C and less than or equal to 20°C, the second step of operating the internal drying mode for 10 minutes and operating the ventilation mode for 10 minutes falls within the 2-step condensation reference range Condensation prevention step (S2) is performed.

In addition, when the comparative dew point temperature difference (D_Temp) is greater than 20 ° C., the third step condensation prevention step (S3) of operating the internal drying mode for 20 minutes and operating the ventilation mode for 5 minutes because it falls within the three-step dew condensation standard range (S3) will perform

That is, the greater the difference between the comparative dew point temperature difference (D_Temp) and the reference dew point temperature difference (SD_Temp) is, the greater the probability that dew will occur in the air flow path inside the air introduction unit 150. As the prevention step increases, the drying rate of the air introduction unit 150 is increased by making the operation time of the drying mode longer than the operation time of the ventilation mode.

According to the anti-condensation control mode, the drying mode and the ventilation mode are alternately operated to compensate for the generation of negative pressure in the room during operation of the drying mode, and outdoor air is unintentionally introduced into the room through a gap between the indoor and outdoor structures. can be prevented from occurring.

At this time, since the external air introduced into the room by the ventilation mode passes through at least one of the plurality of filters 126a, 126b, and 126c provided in the air flow path inside the air conditioner 100 and flows into the room, the gap It is possible to maintain a comfortable indoor environment compared to the situation in which outdoor air flows into the room through the

In addition, by appropriately adjusting the operating times of the drying mode and the ventilation mode according to the comparative dew point temperature difference (D_Temp), the drying efficiency of the internal space of the air introduction unit 150 and the indoor negative pressure prevention efficiency can be simultaneously satisfied.

12 is a flowchart illustrating a control method of an air conditioner in which a dew condensation prevention mode is operated according to the present invention.

Step S10 is a step in which the air conditioner is operated, and the controller compares the indoor temperature with the outdoor temperature to determine the current season.

In particular, the control unit may be configured to determine whether the current season corresponds to the winter season or the summer season.

Step S20 is a step of determining whether the condensation prevention mode is activated.

The control unit is configured to operate the dew condensation prevention mode using at least one method of comparing the outdoor temperature and the indoor temperature, comparing the comparative air temperature difference and the reference air temperature difference, or comparing the comparative dew point temperature difference and the reference dew point temperature difference made to judge

When the operating conditions are satisfied according to each method, the control unit activates the condensation prevention mode by performing steps 30 and later to be described later, and returns to step S10 when the operating conditions are not satisfied.

In this case, the control unit may be configured to apply the reference air temperature difference or the reference dew point temperature difference set differently according to the season determined in step S10 according to the season.

Step S30 is a step of determining the anti-condensation step of the anti-condensation mode.

The control unit determines whether the comparison air temperature difference or the comparison dew point temperature difference corresponds to which stage of a plurality of dew condensation prevention steps set in the control unit.

Step S40 is a step of activating the dew condensation prevention mode.

The control unit activates the condensation prevention mode in the condensation prevention step determined in step S30. When the anti-condensation mode is the anti-condensation harmonic mode, The inside of the air conditioner 100 is dried by alternately operating the ventilation mode and the internal drying mode according to the ventilation mode operation time tv and the internal drying mode operation time td set in the corresponding condensation prevention step.

Step S50 is a step of determining whether to stop the operation of the condensation prevention mode.

The process of determining whether to stop the operation of the anti-condensation mode may be the same as the process of determining whether to operate the anti-condensation mode described in step S20.

However, when the operation condition is satisfied according to the method of step S20, the operation stop condition of the condensation prevention mode is not satisfied, and the step S30 is performed again to activate the condensation prevention mode.

In addition, when the operation condition is not satisfied according to the method of step S20, the operation stop condition of the condensation prevention mode is satisfied, and the operation of the condensation prevention mode is stopped by performing step S60 to be described later.

Step S60 is a step of stopping the operation of the condensation prevention mode.

After stopping the operation of the condensation prevention mode, the control unit may return to step S10 and repeat the above process.

As described above, according to the air conditioner 100 and the control method of the air conditioner according to the present invention, the deterioration of indoor hygiene is prevented by drying the air introduction unit 150 to prevent condensation, and the air conditioner ( 100) can be prevented from lowering the function and shortening the lifespan.

In addition, by discharging the internal air of the air conditioner 100 to dry the air introduction unit 150, but not to generate negative pressure in the room, it is possible to prevent an unintentional inflow of outdoor air and to keep the indoor space comfortable. .

In addition, the plurality of air passages 150a and 150b of the air introduction unit 150 through which indoor air and outdoor air flow, respectively, are communicated with each other, and the indoor air is sequentially supplied along the connected plurality of air passages 150a and 150b. and drying the plurality of air passages 150a and 150b at once, thereby increasing drying efficiency.

In addition, the operating conditions of the internal drying mode or the anti-condensation conditioning mode are set according to the season, so that drying efficiency can be increased.

In addition, in the operation of the anti-condensation conditioning mode, the operation time (td) of the drying mode and the operation time (tv) of the ventilation mode are appropriately adjusted according to the comparative dew point temperature difference (D_Temmp), thereby preventing the negative pressure in the room and at the same time Drying efficiency can be improved.

In addition, when the internal drying mode or the anti-condensation control mode is activated and the humidity of the air introduction unit 150 decreases as the air introduction unit 150 is dried, the operation of the internal drying mode or the anti-condensation control mode is stopped. This can reduce unnecessary operation and increase economic efficiency and efficiency.

As described above, the present invention is not limited to the above-described embodiments, and obvious modifications can be made by those of ordinary skill in the art to which the present invention pertains without departing from the technical spirit of the present invention as claimed in the claims. It is possible, and such modifications fall within the scope of the present invention.

100: air conditioner 101: indoor inlet
102: indoor outlet 103: outdoor inlet
104: outdoor outlet 110: body portion
111: first space 112: second space
113: third space 114: fourth space
121: dehumidification rotor 121a: first area
121b: second area 122: first heat exchanger
123: second heat exchanger 130: bulkhead
130a: first opening 130b: second opening
141: first blower 142: second blower
150: air introduction unit 150a: first air flow path
150b: second air flow path 151a: indoor air intake damper
151b: outdoor air intake damper 154a, 154b, 155a, 155b: rotation limiting member D_Temp: comparative dew point temperature difference (D_Temp) SD_Temp: standard dew point temperature difference (SD_Temp)
T_oda: outdoor temperature T_oda_dew: outdoor air dew point temperature
T_room: room temperature T_room_dew: room air dew point temperature

Claims (27)

an indoor air flow path formed to flow indoor air;
an outdoor air passage formed to allow outdoor air to flow;
at least one air introduction damper for mutually switching the indoor air flow path and the outdoor air flow path;
After controlling the air introduction damper to communicate at least a part of the indoor air flow path and at least a part of the outdoor air flow path, a blower is operated to flow the indoor air or the outdoor air along the connected flow path. a control unit in which an internal drying mode is set to prevent the occurrence of dew condensation inside;
An air conditioner comprising a. According to claim 1,
A first air flow path and a second air flow path forming one of the indoor air flow path and the outdoor air flow path are formed in the inner space, so that the indoor air introduced through the indoor inlet and the outdoor air introduced through the outdoor inlet are an air introduction unit provided to independently flow the first air flow path and the second air flow path; Air conditioner, characterized in that it further comprises. 3. The method of claim 2,
the at least one air introduction damper is provided in the inner space of the air introduction unit;
The control unit controls a driving unit that drives the air introduction damper to block between the first air flow path and the second air flow path or to communicate the first air flow path and the second air flow path with each other, so that the indoor air or an air conditioner for selectively changing the flow direction of the outdoor air. 3. The method of claim 2,
a body part connected to one side of the air introduction part with a partition wall interposed therebetween and provided with an indoor outlet through which the indoor air or the outdoor air is discharged to the room and an outdoor outlet through which the indoor air or the outdoor air is discharged to the outdoors; further comprising,
The air conditioner according to claim 1, wherein a first opening for communicating the first air passage and the indoor exhaust port and a second opening for communicating the second air passage and the outdoor exhaust port are formed in the partition wall. 5. The method of claim 4,
The at least one air introduction damper,
an indoor air inlet damper for changing a flow direction of the indoor air introduced through the indoor inlet; Wow
an outdoor air inlet damper for changing a flow direction of outdoor air introduced through the outdoor inlet; An air conditioner comprising a. 6. The method of claim 5,
The indoor air introduction damper includes a first position for flowing the indoor air introduced through the indoor inlet to the indoor outlet through the first air flow path and the first opening, and the indoor air introduced through the indoor inlet. a second position for flowing air to the outdoor outlet through the second air passage and the second opening and a third position for communicating the first air passage and the second air passage are set;
The outdoor air inlet damper includes a first position for flowing outdoor air introduced through the outdoor inlet to the outdoor outlet through the second air passage and the second opening, and the outdoor air introduced through the outdoor inlet. a second position for flowing air to the outdoor outlet through the second air passage and the second opening and a third position for communicating the first air passage and the second air passage are set;
The control unit controls a driving unit for driving the air inlet damper to place the indoor air inlet damper and the outdoor air inlet damper at any one of the first position, the second position, and the third position, respectively. An air conditioner, characterized in that it is positioned. 7. The method of claim 6,
The indoor air introduction damper is made to rotate between the first rotation angle within a predetermined range,
The first position of the indoor air intake damper is a position at which the indoor air intake damper rotates in one direction and is positioned at one boundary of the first rotation angle, and the second position is rotated in the other direction and the second position is the second position. It is a position located at the boundary of the other side of the first rotation angle, and the third position is made of a position located between the boundary of one side and the boundary of the other side of the first rotation angle,
The outdoor air intake damper is configured to rotate between a second rotation angle within a predetermined range,
The second position of the outdoor air intake damper is a position at which the outdoor air intake damper rotates in one direction and is positioned at one boundary of the second rotation angle, and the first position is rotated in the other direction to obtain the second position. The air conditioner according to claim 1, wherein the position is located at the other boundary of the second rotation angle, and the third position is located between the boundary of one side and the other boundary of the second rotation angle. 7. The method of claim 6,
In the internal drying mode, the indoor air intake damper is set to the first position and the outdoor air intake damper is set to the third position, and the indoor air introduced from the indoor inlet is transferred to the second air flow path. and sequentially flowing through the first air passage and the first opening, and then discharging it to the outside through the outdoor outlet. 6. The method of claim 5,
a flow path boundary portion forming a boundary between the first air flow path and the second air flow path is provided;
The indoor air intake damper and the outdoor air intake damper are hinge-coupled to both end portions of the flow passage boundary, respectively, and are respectively rotated about the rotation shafts of both ends of the flow passage boundary portion by driving of a driving unit. air conditioner. According to claim 1,
a plurality of air conditioning modes for indoor air conditioning are set in the control unit;
The plurality of air conditioning modes include the internal drying mode and a ventilation mode in which the indoor air and outdoor air are exchanged. 11. The method of claim 10,
The air conditioner, characterized in that the internal drying mode and the ventilation mode are alternately operated at regular time intervals. According to claim 1,
The control unit compares a comparison dew point temperature difference, which is a difference between a dew point temperature of a high air temperature and an air temperature of a low temperature side among indoor air and outdoor air, and a preset reference dew point temperature difference, and the comparison dew point temperature difference is the reference dew point temperature difference Air conditioner, characterized in that it is configured to operate the internal drying mode if greater than. According to claim 1,
The control unit compares a comparison air temperature difference, which is a difference between indoor air and outdoor air, with a preset reference air temperature difference, and operates the internal drying mode when the comparison air temperature difference is greater than the reference air temperature difference. . In the control method of the air conditioner operated in the internal drying mode to prevent the occurrence of dew condensation inside the air conditioner,
The internal drying mode is,
a) Controlling at least one air introduction damper for mutually switching an indoor air flow path through which indoor air flows and an outdoor air flow path through which outdoor air flows to communicate at least a part of the indoor air flow path and at least a part of the outdoor air flow path step;
b) operating a blower to flow the indoor air or outdoor air into the communicating passage;
Control method of an air conditioner comprising a 15. The method of claim 14,
The step a) may further include controlling the air introduction damper to block the outdoor air from flowing into the air conditioner through the outdoor inlet and to flow the indoor air into the communicating flow path. Control method of air conditioner with 15. The method of claim 14,
In step b), the air flowing through the communicating flow path is discharged to the outdoors through an outdoor outlet. 15. The method of claim 14,
The internal drying mode compares the comparative dew point temperature difference, which is the difference between the dew point temperature of the high air temperature and the air temperature of the low temperature side among indoor air and outdoor air, and a preset reference dew point temperature difference, and the comparative dew point temperature difference is the Control method of an air conditioner, characterized in that it is operated when it is greater than the reference dew point temperature difference 18. The method of claim 17,
The control method of the air conditioner, characterized in that when the comparative dew point temperature difference is less than or equal to the reference dew point temperature difference, the operation of the internal drying mode is stopped. 15. The method of claim 14,
The internal drying mode compares a comparison air temperature difference, which is a difference between the air temperatures of indoor air and outdoor air, with a preset reference air temperature difference, and operates when the comparative air temperature difference is greater than the reference air temperature difference. How to control the device. 20. The method of claim 19,
Control method of an air conditioner, characterized in that when the comparison air temperature difference is less than or equal to the reference air temperature difference, the operation of the internal drying mode is stopped 15. The method of claim 14,
a ventilation mode in which the indoor air and the outdoor air are exchanged is set in the control unit;
Control method of an air conditioner, characterized in that the ventilation mode and the internal drying mode are alternately operated 22. The method of claim 21,
The internal drying mode compares the comparative dew point temperature difference, which is the difference between the dew point temperature of the high air temperature and the air temperature of the low temperature side among indoor air and outdoor air, and a preset reference dew point temperature difference, and the comparative dew point temperature difference is the It is activated when it is greater than the reference dew point temperature difference;
A plurality of condensation reference ranges formed at predetermined temperature difference intervals from the reference dew point temperature difference are set in the control unit, and a condensation prevention step is set for each condensation reference range, and the operation time of the ventilation mode and the internal drying time in each of the condensation prevention steps The operating time of each mode is set;
Control method of an air conditioner, characterized in that the control method of the air conditioner, characterized in that the higher the minimum value of the dew standard range is, the longer the operation time of the internal drying mode is compared to the operation time of the ventilation mode as the condensation prevention step becomes larger. 22. The method of claim 21,
the internal drying mode compares a comparison air temperature difference, which is a difference in air temperature between indoor air and outdoor air, with a preset reference air temperature difference, and is operated when the comparison air temperature difference is greater than the reference air temperature difference;
A plurality of condensation reference ranges formed at a predetermined temperature difference interval from the reference air temperature difference are set in the control unit, and a condensation prevention step is set for each condensation reference range, and the operation time of the ventilation mode and the internal drying time in each of the condensation prevention steps The operating time of each mode is set;
Control method of an air conditioner, characterized in that the control method of the air conditioner, characterized in that the higher the minimum value of the dew standard range is, the longer the operation time of the internal drying mode is compared to the operation time of the ventilation mode as the condensation prevention step becomes larger. 15. The method of claim 14,
further comprising the step of making a determination about the current season;
When the determined current season is any one of summer and winter, the control method of the air conditioner, characterized in that the control in steps a) and b) 25. The method of claim 24,
The determination of the season is a control method of an air conditioner, characterized in that it is made by comparing the outdoor air temperature and the indoor air temperature. 15. The method of claim 14,
A first air flow path and a second air flow path forming any one of the indoor air flow path and the outdoor air flow path are formed in the inner space, so that the indoor air introduced through the indoor inlet and the outdoor air introduced through the outdoor inlet are separated from the first air flow path. an air introduction unit provided to independently flow through the first air flow path and the second air flow path is provided;
The control unit operates the air introduction damper to block between the first air flow path and the second air flow path, or to communicate the first air flow path and the second air flow path with each other to form the connected flow path. A control method of an air conditioner characterized in that. 27. The method of claim 26,
The air-introduction damper is provided to rotate between a rotation angle of a certain range, and the air-introduction damper is controlled to be positioned between one boundary and the other boundary of the rotation angle to form the communication path. how to control the device

Images