KR102102831B1 - Air conditioning system using indoor garden - Google Patents

Abstract

Disclosed is an air-conditioning system using an indoor garden which can perform indoor ventilation and cooling/heating by using outside air purified and humidity-controlled by air-purifying plants growing in an indoor garden. The air-conditioning system using the indoor garden comprises: an economizer chamber having a plurality of air-purifying plants planted therein to purify and humidify outdoor air supplied from outdoor space through a main outside air inlet; at least one indoor air supply line connected to the economizer chamber to supply purified and humidified air in the economizer chamber into indoor space; at least one outdoor exhaust line to discharge indoor air to outdoor space without passing through the economizer chamber; and at least one air-conditioning unit connected to the indoor air supply line and the outdoor exhaust line to cool or heat air supplied from the economizer chamber through the indoor air supply line to supply the air into indoor space to perform indoor cooling/heating, and exchange heat between air supplied into indoor space and indoor air discharged to outdoor space through the outdoor exhaust line to discharge the air to outdoor space to perform indoor ventilation and reuse discarded waste heat of indoor air.

Description

Air conditioning system using indoor garden {AIR CONDITIONING SYSTEM USING INDOOR GARDEN}

The present invention relates to an air conditioning system using an indoor garden, and more particularly, to an indoor garden capable of indoor ventilation and air conditioning by using outdoor air purified and humidity-controlled by air-purifying plants growing in the indoor garden. It relates to the air conditioning system used.

In general, according to the development of the city, modern people spend 80 to 90% of their time indoors, so as well as fine dust contained in indoor materials or harmful substances generated from synthetic materials and products used in construction, as well as fine Contamination of microorganisms contained in the dust adversely affects the health of residents.

In order to purify the indoor air, if you create a garden in the interior space of a building such as a balcony and a veranda or care for plants, you can feel emotional abundance, and plants such as trees or plants absorb carbon dioxide emitted by the human body and By releasing the necessary oxygen, the side effect of drinking clean air can be expected if a lot of plants are planted in the garden, but there is a limit to expect the indoor air purification effect of a desired degree only with plants planted in the indoor space.

Thus, recently, an air conditioning system combining an air conditioner and a ventilation system with an indoor garden has been developed.

In the case of such an air conditioning system combining the conventional indoor garden, the ventilation system and the air conditioner are separately manufactured and installed in the building, and then the indoor air is placed indoors by placing the indoor garden on the air inlet side of the ventilation device or air conditioner. As a structure that is introduced into the room after passing through the garden, there is a problem in that the indoor air quality is improved to some extent by using plants, but a method of reducing the heating and cooling energy of the building by using plants is not considered at all.

On the other hand, in the case of an air conditioning system combined with a general indoor garden, it is common to separately install the ventilation system and the air conditioner and install each in a building, so there is a problem in that the cost and space for installing them are relatively large. .

In more detail, when both the ventilation system and the air conditioner are installed, the arrangement of the piping is not only very complicated, but also the ventilation system and the air conditioner are respectively installed, since the duct connected to the ventilation system and the duct connected to the air conditioner must be provided separately There was a problem in that space limitations and excessive costs for installing a duct connected to the ventilation device and a duct connected to the air conditioner were consumed.

On the other hand, when the ventilation device and the air conditioner are separately installed as described above, in the case of air flowing into the room from the outside through the ventilation device, it is outdoor air heat exchanged with the indoor air discharged to the outside through the heat exchanger, and through the air conditioner Since the air discharged into the room is the indoor air heat exchanged with the refrigerant, when the ventilation device and the air conditioner are separately installed, the air of different temperatures is discharged into one space, thereby causing the flow of two air having different temperatures in one space. There was a problem that a non-uniform distribution of room temperature was generated.

In addition, in order to simultaneously perform indoor ventilation and air conditioning, the user must purchase the ventilation device and the air conditioner separately, so that the burden on the initial purchase cost is considerable, and in order to simultaneously perform indoor ventilation and indoor air conditioning, the ventilation device and air There is a problem in that the electric energy consumption is very large, so that the burden on the maintenance cost increases due to the simultaneous operation of the conditioner.

Republic of Korea Registered Patent Publication No. 10-0974003 (2010.07.29.) Republic of Korea Registered Patent Publication No. 10-1281110 (2013.06.26.) Republic of Korea Registered Patent Publication No. 10-1557197 (2015.09.24.) Republic of Korea Registered Patent Publication No. 10-1656516 (2016.09.05.)

The object of the present invention is to provide purification and humidity control by passing outdoor air through an economizer chamber in which air-purified plants are planted during indoor ventilation and air conditioning, and can provide air containing components such as phytoncide to the room. In addition, it is to provide an air conditioning system using an indoor garden that can significantly reduce the electric energy consumed when driving.

Another object of the present invention is to minimize the electric energy consumption by enabling indoor ventilation and indoor heating and cooling while selectively operating the compressor according to the outdoor temperature and indoor temperature conditions even when simultaneously performing indoor ventilation and indoor heating and cooling. To provide an air conditioning system using an indoor garden.

Another object of the present invention is that the refrigerant between the evaporator and the condenser is heat exchanged with indoor air in the form of a heat pipe, so that even if the compressor is not operated, the refrigerant between the evaporator and the condenser can be moved by convection, so that it is discarded without compressor operation. Is to provide an air conditioning system using an indoor garden that can further reduce electric energy consumption because indoor ventilation and air conditioning can be performed simultaneously using the thermal energy of indoor air.

Another object of the present invention is to adjust the damper according to the concentration of carbon dioxide in the room after heating and cooling, and can control the pressure difference between indoor and outdoor, further reducing electric energy consumption, dehumidifying and heating and cooling the indoor space quickly. It is to provide an air conditioning system using an indoor garden that can perform.

Other detailed objects of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below.

In order to achieve the above object, the present invention is connected to the economizer chamber and the economizer chamber in which a plurality of air purification plants are planted therein so as to purify and humidify the outdoor air supplied from the outside through the main air inlet. At least one indoor air supply line for supplying the purified and humidified air in the chamber to the room, and at least one outdoor air exhaust line for discharging the indoor air to the outside without going through the economizer chamber, and the indoor air supply line and the outdoor air exhaust line It is connected to cool or heat the air supplied through the indoor air supply line from the economizer chamber to supply it to the room to perform indoor cooling / heating, and the air supplied to the room and the indoor air discharged to the outside through the outdoor exhaust line Heat exchange so that it is discharged outdoors As a result, an air conditioning system using an indoor garden including at least one air conditioning unit that allows indoor ventilation and reuse of waste heat of indoor air is proposed.

Here, the economizer chamber may further include a main damper provided at the main outside air inlet to selectively open or close the main outside air inlet.

Meanwhile, the present invention may further include a condensate supply line capable of supplying condensed water discharged from the air conditioning unit to the air purification plant planted in the economizer chamber when indoor cooling is performed through the air conditioning unit.

In addition to this, the present invention may further include at least one air circulation line provided with a fifth damper capable of recirculating at least a portion of the indoor air into the economizer chamber and controlling opening and closing by the air conditioning unit.

For example, the air conditioning unit is connected to the indoor air supply line and is connected to the outdoor air supply line and the outdoor air inlet port through which the purified and humidified air in the economizer chamber can be introduced into the room. Casings are provided independently for the bet outlets to be discharged to the outside through the outdoor exhaust line, a bet exhaust fan installed at the bet outlet side to discharge indoor air to the outside, and the bet exhaust is installed at the bet outlet side A condenser heat-exchanged with indoor air discharged from the room to the outside by a fan, an outside air inlet fan installed at the outside air inlet side to introduce purified and humidified air in the economizer chamber into the room, and installed at the outside air inlet side Air entering the room from the economizer chamber by the outside air inflow fan An evaporator heat-exchanged with air purified and humidified by purified plants, and a first connection pipe connecting the condenser and the evaporator to supply refrigerant from the condenser side to the evaporator side or to supply refrigerant from the evaporator side to the condenser side; A compressor that is connected to the condenser and the evaporator through a three-way valve and compresses refrigerant when cooling and supplies it to the condenser through the three-way valve, and compresses refrigerant when heating and supplies it to the evaporator through the three-way valve, It may include a control unit for controlling the internal exhaust fan, condenser, external air inlet fan, evaporator, and compressor.

Here, the first connection pipe is disposed on the side of the bet outlet so that the indoor air and the refrigerant inside the air discharged from the room to the outside through the bet outlet may be heat exchanged in the form of a heat pipe as the bet exhaust fan is operated. By connecting the condenser and the evaporator, only the internal exhaust fan and the external air inlet fan are operated, and the air purified and humidified by the indoor air passing through the condenser side and the air purification plant passing through the evaporator side even when the compressor is not operated Refrigeration in the first connection pipe is supplied from the condenser side to the evaporator side by convection depending on the temperature difference of To make this happen.

Meanwhile, the air conditioning unit further includes a first temperature sensor that measures the indoor temperature and transmits it to the control unit, and a second temperature sensor that measures the outdoor temperature and transmits it to the control unit. It is determined that cooling by outside air is possible because it is higher than the outdoor temperature measured by the temperature sensor and lower than the indoor temperature measured by the first temperature measurement sensor, or the set indoor temperature is higher than the outdoor temperature measured by the second temperature sensor. When it is determined that heating by the outside air is possible because it is low and is higher than the room temperature measured by the first temperature measurement sensor, the compressor does not operate and operates only the air exhaust fan and the air inflow fan while simultaneously operating the main damper of the economizer chamber. By opening and ventilating, indoor air-conditioning can be performed using the outside air temperature.

In addition, the air conditioning unit may further include a filter module installed at the outside air inlet to filter ultrafine dust contained in the air entering the room from the economizer chamber by the outside air inlet fan.

In addition, the air conditioning unit is installed at the outside air inlet to be located outside the evaporator and connected to the control unit, and a first damper connected to the control unit and installed at the outside air inlet to be located at the indoor side than the evaporator and connected to the control unit. A second damper, a third damper installed at the bet outlet to be located outside the condenser and connected to the control unit, and a fourth damper installed at the bet outlet to be located at the indoor side than the condenser and connected to the control unit It may further include a damper.

Here, when the indoor dehumidification and rapid heating / cooling signals are input, the control unit closes the first and fourth dampers to prevent air supplied from the economizer chamber from entering the room, and then opens the second and third dampers. The air supplied from the economizer chamber is exchanged with the condenser, and the indoor air is exchanged with the evaporator, so that indoor dehumidification and rapid heating and cooling are possible.

In addition, the air conditioning unit further includes a carbon dioxide concentration measurement sensor for measuring and transmitting indoor carbon dioxide concentration to the control unit, and the control unit measures the carbon dioxide concentration measured from the carbon dioxide concentration measurement sensor after heating and cooling by comparing it with a set carbon dioxide concentration. When the determined indoor carbon dioxide concentration is higher than the set carbon dioxide concentration, the fifth damper provided in the air circulation line is closed and the first to fourth dampers are opened to ventilate the room, and when the measured indoor carbon dioxide concentration is determined to be low, the first , 4 dampers can be closed and 2, 3 dampers can be opened.

In addition, the air conditioning unit further includes an indoor air pressure measurement sensor for measuring and transmitting indoor air pressure to the control unit, and an outdoor air pressure measurement sensor for measuring and transmitting outdoor air pressure to the control unit, and the control unit is configured to control the indoor air pressure. If it is determined that a negative pressure is applied to the room by comparing the indoor air pressure delivered from the air pressure measurement sensor and the outdoor air pressure delivered from the outdoor air pressure measurement sensor, the number of revolutions of the inverter motor operating the internal air exhaust fan or the external air inlet fan. It is also possible to adjust the interior pressure so as not to apply negative pressure.

As described above, the air conditioning system using an indoor garden according to an embodiment of the present invention passes air through an economizer chamber in which a plurality of air purification plants are planted during indoor ventilation and air conditioning, as well as controlling purification and humidity. By supplying air containing components such as phytoncide ejected from purified plants into the room, not only can the indoor comfort be further improved, but also the heating and cooling, humidification, or dehumidification while significantly reducing the electrical energy consumed during heating, cooling, humidification, or dehumidification The efficiency has an effect that can be greatly improved.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention provides at least a portion of the indoor air during heating and cooling to recirculate it by supplying it to the economizer chamber through an air circulation line so that the waste heat of the indoor air can be reused. There is an effect that can improve the energy efficiency.

In addition, in the air conditioning system using an indoor garden according to an embodiment of the present invention, the refrigerant in the first connection pipe connecting the evaporator and the condenser is heat-exchanged in the form of heat pipes with air discharged from the indoor to the outdoor, and the temperature of the evaporator side Electric energy consumed by allowing the refrigerant in the first connector to circulate in a refrigeration cycle or a heating cycle without the operation of the compressor by convection according to the temperature of the and condenser side, thereby allowing indoor ventilation and indoor air conditioning without the operation of the compressor. Since the amount can be greatly reduced, there is an effect that air conditioning and ventilation can be performed at a lower cost.

In addition, in the air conditioning system using an indoor garden according to an embodiment of the present invention, the set indoor temperature is higher than the outdoor temperature measured by the second temperature sensor and lower than the indoor temperature measured by the first temperature measurement sensor. It is judged that cooling by is possible or the set indoor temperature is lower than the outdoor temperature measured by the second temperature sensor and higher than the indoor temperature measured by the first temperature measurement sensor. In the compressor, the indoor air conditioning is performed by using the outside air temperature by ventilating by operating only the internal air exhaust fan and the external air inlet fan without operating, so that the amount of electric energy consumed can be further reduced. There is an effect that ventilation can be performed.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention adjusts the opening and closing of the first to fourth dampers according to the carbon dioxide concentration in the room after air conditioning, and at the same time By controlling the number of revolutions to control the flow rate of air flowing into the room or the flow rate of air discharged to the outside, it is possible to further reduce the amount of electric energy consumed by preventing the negative pressure from being applied to the room. There is an effect that can be carried out.

In addition to this, the air conditioning system using an indoor garden according to an embodiment of the present invention is provided with all functions capable of creating a comfortable indoor environment such as dehumidification, humidification, and air purifier, as well as indoor ventilation and air conditioning functions. There is an effect that can significantly reduce the burden on the purchase cost of products to create a comfortable indoor space.

Ultimately, the air conditioning system using an indoor garden according to an embodiment of the present invention controls the humidity of the air through the air purification plant and purifies the air containing components such as phytoncide beneficial to the human body ejected from the air purification plant. By supplying it indoors to allow indoor air conditioning and ventilation, a more comfortable indoor environment can be created, while minimizing maintenance costs by significantly improving heating and cooling efficiency while minimizing the amount of electric energy consumed. Since indoor ventilation, air conditioning, dehumidification, humidification, and air purifier functions are all provided, it not only greatly reduces the burden on equipment costs to create a pleasant indoor environment, but also enables users to conduct indoor and air conditioning and ventilation without burdening the four seasons costs. More comfortable interior without burden of maintenance cost There is an effect that it is possible to maximize customer satisfaction and to lead the light.

Other effects of the present invention will be clearly understood and understood by experts or researchers in this technical field through specific contents described below or during the process of carrying out the present invention.

1 is a schematic diagram for explaining an air conditioning system using an indoor garden according to an embodiment of the present invention
2 is a view for explaining the air conditioning unit
Figure 3 is a schematic diagram for explaining the refrigerant flow of the air conditioning unit
4 is a view for explaining the process of the air conditioning unit operation in the simultaneous mode of ventilation and cooling
5 is a view for explaining the process of the air conditioning unit operation in the simultaneous mode of ventilation and heating
6 is a view for explaining the process of operating the air conditioning system using an indoor garden according to an embodiment of the invention during dehumidification or rapid heating and cooling mode

The present invention can be applied to various changes and may have various forms, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific disclosure form, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may also be referred to as a first component.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as “include” or “have” are intended to indicate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, or that one or more other features or It should be understood that the existence or addition possibilities of numbers, steps, actions, components, parts or combinations thereof are not excluded in advance.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains.

Terms, such as those defined in a commonly used dictionary, should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic diagram for explaining an air conditioning system using an indoor garden according to an embodiment of the present invention.

1, the air conditioning system using an indoor garden according to an embodiment of the present invention includes an economizer chamber 10, an indoor air supply line 20, an outdoor exhaust line 30, and an air conditioning unit 100 can do.

The economizer chamber 10 is provided with at least one main outside air inlet 11 through which outdoor air flows from outside, and a plurality of air purification plants 12 are planted therein to open the main outside air inlet 11 outdoors. Through this, the outdoor air flowing into the economizer chamber 10 can be purified and humidified by the air purification plant 12.

Here, the air purifying plant 12 planted in the economizer chamber 10 may collect dust, control moisture in the air, and discharge plants such as phytoncide, which have a good effect on the human body.

On the other hand, although not shown in the drawing, the economizer chamber 10 is provided with an external air supply fan capable of supplying outdoor air into the economizer chamber 10 to force outdoor air into the economizer chamber 10.

Meanwhile, the economizer chamber 10 may further include a main damper 13 provided in the main outside air inlet 11 to selectively open or close the main outside air inlet 11.

The main damper 13 is connected to the control unit 180 of the air conditioning unit 100, which will be described later, so that it can be opened or closed by the control unit 180 of the air conditioning unit 100.

At least one of the indoor air supply lines 20 is connected to the economizer chamber 10 to supply purified and humidified air in the economizer chamber 10 to the room.

At least one of the outdoor exhaust lines 30 may be connected to the indoor space so that indoor air can be discharged outdoors without going through the economizer chamber 10.

The air conditioning unit 100 may be connected to at least one of the indoor air supply line 20 and the outdoor exhaust line 30.

The air conditioning unit 100 cools or heats air supplied from the economizer chamber 10 through the indoor air supply line 20 to be supplied to the room, thereby allowing indoor air conditioning / heating.

In addition, the air conditioning unit 100 exchanges indoor air that is supplied to the room and indoor air that is discharged to the outside through the outdoor exhaust line 30 so that it can be discharged to the outside, while at the same time providing indoor ventilation and indoor air. It makes it possible to reuse the wasted waste heat.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention may further include a condensed water supply line 40.

When the condensate supply line 40 is cooled indoors through the air conditioning unit 100, the condensate discharged from the air conditioning unit 100 is transferred to the air purification plant 12 planted in the economizer chamber 10. By allowing it to be supplied, condensate generated and discharged during indoor cooling can also be reused.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention may further include at least one air circulation line 50.

The air circulation line 50 allows at least a portion of indoor air to be recycled to the economizer chamber 10.

Meanwhile, the air circulation line 50 may be provided with a fifth damper 51 whose opening and closing is controlled by the control unit 180 of the air conditioning unit 100.

Here, the fifth damper 51 may be controlled to be closed by the control unit 180 of the air conditioning unit 100 during an intercooling period in which cooling / heating by external air is possible, and at this time, the control unit of the air conditioning unit 100 180 controls the main damper 13 so that the main damper 13 provided at the main outside air inlet 11 of the economizer chamber 10 is opened, so that outdoor air always flows into the economizer chamber 10, thereby intercepting the season. In the air, air / heating can be performed using only outdoor air.

In more detail, the fifth damper 51 has a set indoor temperature higher than the outdoor temperature measured by the second temperature sensor 222 described below of the air conditioning unit, and the first temperature measurement sensor 221. It is determined that cooling by outside air is possible because it is lower than the measured indoor temperature, or the set indoor temperature is lower than the outdoor temperature measured by the second temperature sensor 222 and the indoor measured by the first temperature measurement sensor 221 In the interstitial period when it is determined that heating by outside air is possible because the temperature is higher than the temperature, it is controlled to be closed by the control unit 180 of the air conditioning unit 100 so that indoor air is discharged to the outside without being recirculated into the economizer chamber 10. , The main damper 13 provided at the main outside air inlet 11 of the economizer chamber 10 is controlled by the control unit 180 of the air conditioning unit 100 so that outdoor air is economized. By always flowing into the inner chamber 10, only the outdoor air is used for cooling / heating using only outdoor air.

On the other hand, when the fifth damper 51 operates the air conditioning unit 100 to perform heating and cooling, it is opened by the control unit 180 and cooled or heated by the air conditioning unit 100 to be supplied indoors. By re-supplying at least part of the air to the economizer damper 10 through the air circulation line 50, the waste heat of the indoor air can be reused, thereby significantly reducing the electric energy consumption required for cooling / heating. To make.

The configuration of the air conditioning unit will be described in more detail with reference to FIGS. 2 to 3.

2 is a view for explaining the air conditioning unit, Figure 3 is a schematic diagram for explaining the refrigerant flow of the air conditioning unit.

2 to 3, the air conditioning unit 100 includes a casing 110, an air exhaust fan 120, a condenser 130, an outside air inflow fan 140, an evaporator 150, and a first connector ( 160), a compressor 170, and a control unit 180.

The casing (110) is connected to the indoor air supply line (20) and the outside air inlet (111) that can introduce purified and humidified air in the economizer chamber (10) into the room through the indoor air supply line (20), Be connected to the outdoor exhaust line 30 is provided with a bet outlet 112 for discharging indoor air to the outdoors through the outdoor exhaust line 30, each independently, an economizer chamber through the outside air inlet 111 The purified and humidified air in (10) flows into the room, and indoor air is discharged to the outside through the bet outlet 112 to provide a ventilation passage for indoor ventilation.

The bet exhaust fan 120 is installed on the bet outlet 112 side to allow indoor air to be discharged to the outdoors.

Here, an inverter motor may be used as a driving means for operating the bet exhaust fan 120.

On the other hand, the inverter motor is connected to the controller 180, which will be described later, so that the number of revolutions is controlled by the controller 180 to control the flow rate of air discharged from indoor to outdoor.

The condenser 130 may be installed on the bet outlet 112 side and heat exchanged with indoor air discharged from the indoor to the outdoor by the bet exhaust fan 120.

The outside air inlet fan 140 is installed at the outside air inlet 111 side to allow outdoor air to be introduced into the room.

Here, an inverter motor may be used as a driving means for operating the external exhaust fan 140.

On the other hand, the inverter motor is connected to the controller 180, which will be described later, so that the number of revolutions is controlled by the controller 180 to control the flow rate of air flowing into the room from the outside (the economizer chamber 10).

The evaporator 150 is installed on the outside air inlet 111 side and can be heat exchanged with air purified and humidified by air purification plants introduced into the room from the economizer chamber 10 by the outside air inlet fan 140. have.

The first connection pipe 160 supplies the refrigerant from the condenser 130 side to the evaporator 150 side, or the condenser 130 and the evaporator to supply the refrigerant from the evaporator 150 side to the condenser 130 side. 150 can be connected.

In more detail, the first connection pipe 160 is a heat pipe in which indoor air and refrigerant inside are discharged from the room to the outside through the bet outlet 112 as the bet exhaust fan 120 is operated. The condenser 130 and the evaporator 150 may be connected to the bet outlet 112 so as to be heat-exchanged.

Therefore, in the air conditioning unit 100, only the inner exhaust fan 120 and the outer air inflow fan 140 are operated so that the refrigerant in the first connection pipe 160 is indoors even during ventilation in which the compressor 170 is not operated. Heat exchanged with the indoor air discharged from the outside to be heated or cooled through the wasted waste heat of the indoor air, and at the same time, passing through the air and the evaporator 150 discharged from the room passing through the condenser 130 to the outdoors. As the pressure difference between the refrigerant in the first connection pipe 160 is generated according to the temperature difference of the air flowing into the room from the economizer chamber 10, the refrigerant flows from the condenser 130 side to the evaporator 150 side through the first connection pipe 160. Even if the compressor 170 is not operated by being supplied or supplied from the evaporator 150 side to the condenser 130 side, the air is cooled indoors by reusing the outside air temperature and the wasted waste heat of the indoor air at the same time as ventilation. So this can be achieved.

For example, in the summer, when the outdoor air temperature is higher than the indoor air temperature, when the ventilation is performed by operating only the air exhaust fan 120 and the air intake fan 111 without operating the compressor 170, the temperature is relatively low. The indoor air is discharged to the outside through the bet outlet 112 and the outdoor exhaust line 30, and the outdoor air having a relatively high temperature, that is, the air supplied from the economizer chamber 10, goes indoors through the outside air inlet 111. Inflow.

At this time, the indoor air having a relatively low temperature discharged to the outside through the bet outlet 112 passes through the condenser 130 and simultaneously forms a refrigerant and heat pipe in the first connector 160 on the condenser 130 side. Air is supplied from the relatively high temperature economizer chamber 10 introduced into the room through the outside air inlet 111 by reducing the temperature of the refrigerant in the first connector 160 of the condenser 130 side by heat exchange with As it passes through the evaporator 150 and heat exchanges in the form of a heat pipe with the refrigerant in the first connector 160 on the evaporator 150 side, the refrigerant temperature in the first connector 160 on the evaporator 150 side rises. Order.

Accordingly, the refrigerant in the first connection pipe 160 is moved from the low temperature condenser 130 side to the high temperature evaporator 150 side by convection, and then passes through the compressor 170, and then again the condenser 130 The refrigerant is circulated in a cooling cycle that is circulated to the evaporator 150, the outdoor air whose temperature is lowered is supplied to the outside air inflow fan 140 indoors to allow indoor cooling.

For another example, if the outdoor air temperature is lower than the indoor air temperature, such as in winter, the compressor 170 does not operate, and only the exhaust fan 120 and the outside air inlet fan 111 are operated to ventilate, thereby causing a relatively high temperature. The indoor air is discharged to the outside through the bet outlet 112 and the outdoor air having a relatively low temperature, that is, the air supplied from the economizer chamber 10 is introduced into the room through the outside air inlet 111.

At this time, the indoor air having a relatively high temperature discharged to the outside through the bet outlet 112 passes through the condenser 130 and simultaneously forms a refrigerant and heat pipe in the first connector 160 on the condenser 130 side. Air is supplied from the relatively low temperature economizer chamber 10 flowing into the room through the outside air inlet 111 by raising the temperature of the refrigerant in the first connector 160 of the condenser 130 side by heat exchange with As it passes through the evaporator 150 and heat exchanges in the form of a heat pipe with the refrigerant in the first connector 160 on the evaporator 150 side, the refrigerant temperature in the first connector 160 on the evaporator 150 side decreases. Order.

Therefore, the refrigerant in the first connection pipe 160 is moved from the low temperature evaporator 150 side to the high temperature condenser 130 side by convection, and then passes through the compressor 170, and then evaporator 150 again. Refrigerant is circulated in a heating cycle circulated to to pass through the evaporator 150 so that the outdoor air whose temperature has risen is supplied to the outside air inflow fan 140 indoors to perform indoor heating.

As described above, in the air conditioning unit 100, the waste heat of the discarded indoor air discharged from the indoor to the outdoor is heat exchanged in the form of a heat pipe with the refrigerant in the first connection pipe 160 to operate indoors without operating the compressor 170. It is possible to significantly reduce power consumed in indoor ventilation and indoor heating and cooling by allowing air conditioning to be performed simultaneously with ventilation.

Meanwhile, an expansion valve 190 may be installed on the first connection pipe 160, and the expansion valve 190 does not operate the compressor 170, but the exhaust fan 120 and the external air inflow fan 140 are not operated. Refrigerant in the first connecting pipe 160 is maintained in an open state during ventilation only operated, so that the condenser 130 from the condenser 130 to the evaporator 150 or the evaporator 150 according to a pressure difference according to a temperature difference ).

Therefore, the air conditioning unit 100 is operated from the indoor exhaust air passing through the condenser 130 even during ventilation, in which only the internal exhaust fan 120 and the external air inflow fan 140 are operated and the compressor 170 is not operated. Refrigerant in the first connection pipe 160 from the condenser 130 side to the evaporator 150 side according to the temperature difference between the discharged air and the air passing through the evaporator 150, that is, the air flowing into the room from the economizer chamber 10 It is supplied or supplied from the evaporator 150 side to the condenser 150 side, so that even when the compressor 170 is not operated, indoor air conditioning and air conditioning can be performed simultaneously with indoor ventilation by using the thermal energy of the indoor air that is discharged and discarded outside.

The compressor 170 is connected to the condenser 130 and the evaporator 150 through a three-way valve 200 to compress the refrigerant during cooling and supplies it to the condenser 130 through the three-way valve 200 , When heating, the refrigerant is compressed so that it can be supplied to the evaporator 150 through the three-way valve 200.

In addition, it is compressed by the compressor 170 through the three-way valve 200 through the condenser 130, the expansion valve 190, the evaporator 150 sequentially and then again flows into the three-way valve 200, The refrigerant that is compressed by the compressor 170 through the evaporator 150, the expansion valve 190, and the condenser 130 sequentially through the three-way valve 200, and then flows into the three-way valve 200 again is 3 The way valve 200 may be introduced into the compressor 170 again through the second connector 210 connecting the compressor 170.

Meanwhile, the control unit 180 controls the air exhaust fan 120, the condenser 130, the air inflow fan 140, the evaporator 150, the expansion valve 190, and the compressor 170.

The control unit 180 automatically compresses, condenses, expands, and evaporates refrigerant cycles according to the Molly diagram to fit the indoor load conditions. The compressor 170, the condenser 130, the expansion valve 190, and the evaporator By controlling the 150, the user can efficiently perform heating and cooling desired by the user.

In addition, the air conditioning unit 100 may further include a first temperature sensor 221 and a second temperature sensor 222.

The first temperature sensor 221 may be disposed indoors to measure the indoor temperature and transmit it to the control unit 180.

The second temperature sensor 222 is disposed outdoors to measure the outdoor temperature and transmit it to the controller 180.

Here, the control unit 180 has a set indoor temperature higher than the outdoor temperature measured by the second temperature sensor 222 and lower than the indoor temperature measured by the first temperature measurement sensor 221 to cool by outside air. It is determined that it is possible, or it is determined that the set indoor temperature is lower than the outdoor temperature measured by the second temperature sensor 222 and higher than the indoor temperature measured by the first temperature measurement sensor 221 to allow heating by outside air. When the compressor 170 is not operated, only the internal exhaust fan 120 and the external air inflow fan 140 are operated, and at the same time, the main damper 13 of the economizer chamber 10 is opened to ventilate the outside air temperature. It is possible to significantly reduce the electric energy consumed by allowing indoor air conditioning to be performed.

In addition, the air conditioning unit 100 may further include a filter module 230.

The filter module 230 is installed in the outside air inlet 111 to facilitate separation and replacement, and filters ultra-fine dust contained in air introduced into the room from the economizer chamber 10 by the outside air inlet fan 140. To do it.

For example, as the filter module 230, it is preferable to use a filter module 230 including a HEPA filter capable of removing even ultrafine dust.

In addition, the air conditioning unit 100 may further include a first damper 241, a second damper 242, a third damper 243, and a fourth damper 244.

The first damper 241 is installed in the outside air inlet 111 to be located on the outdoor side than the evaporator 150 and is connected to the control unit 180 so that opening and closing can be controlled by the control unit 180. have.

The second damper 242 is installed in the outside air inlet 111 to be located on the indoor side than the evaporator 150 and is connected to the control unit 180 so that opening and closing can be controlled by the control unit 180. have.

The third damper 243 is installed in the bet outlet 112 so as to be located on the outdoor side than the condenser 130 and is connected to the control unit 180 so that opening and closing can be controlled by the control unit 180. have.

The fourth damper 244 is installed in the bet outlet 112 to be located on the indoor side than the condenser 130 and is connected to the control unit 180 so that opening and closing can be controlled by the control unit 180. have.

Here, when the indoor dehumidification and rapid heating and cooling signals are input to the control unit 180, the control unit 180 closes the first damper 241 and the fourth damper 244 to flow into the room from the economizer channel 10. After being prevented, the second damper 242 and the third damper 243 are opened to allow air supplied from the economizer chamber 10 to heat exchange with the condenser 130 and indoor air to exchange heat with the evaporator 150. Allow indoor dehumidification and rapid heating and cooling.

In addition, the air conditioning unit 100 may further include a carbon dioxide concentration sensor 250.

The carbon dioxide concentration measurement sensor 250 may be disposed indoors to measure indoor carbon dioxide concentration and transmit it to the controller 180.

When the indoor carbon dioxide concentration measured by the carbon dioxide concentration measurement sensor 250 is transmitted to the controller 180, when it is determined that the indoor carbon dioxide concentration is higher than the set carbon dioxide concentration by the controller 180, the controller 180 The first to fourth dampers 241, 242, 243, and 244 are all opened to provide indoor ventilation.

At this time, the controller 180 closes the fifth damper 51 provided in the air circulation line 50 to prevent indoor air from being recirculated to the economizer chamber 100.

The indoor to carbon dioxide concentration measured by the carbon dioxide concentration measurement sensor 250 is set by the controller 180 by opening all of the first to fourth dampers 241, 242, 243, and 244 for indoor ventilation. When it is determined that the concentration is lower than the carbon dioxide concentration, the control unit 180 closes the first and fourth dampers 241 and 244 and opens the second and third dampers 242 and 243 while simultaneously opening the fifth damper 51. By opening it, at least a portion of the indoor air is supplied to the economizer chamber 100 through the air circulation line 50 to be recirculated to improve indoor air conditioning efficiency.

In addition to this, the air conditioning unit 100 may further include an indoor air pressure measurement sensor 261 and an outdoor air pressure measurement sensor 262.

The indoor air pressure measurement sensor 261 may measure the indoor air pressure and transmit it to the controller 180.

The outdoor air pressure measurement sensor 262 may measure the outdoor air pressure and transmit it to the controller 180.

Here, when the controller 180 compares the indoor air pressure delivered from the indoor air pressure measurement sensor 261 with the outdoor air pressure delivered from the outdoor air pressure measurement sensor 262, and determines that a negative pressure is applied to the room, By controlling the number of revolutions of the inverter motor that operates the air exhaust fan 120 or the air intake fan 140, the number of revolutions of the air exhaust fan 120 or the air intake fan 140 is controlled so that no negative internal pressure is applied. You can.

That is, when the indoor negative pressure is applied, hot or cold external air flows directly into the room, and there is a problem in that the temperature of the room rises or falls rapidly, and thus there is a problem in that air-conditioning efficiency decreases. When it is determined that the controller 180 compares the indoor air pressure delivered from the measurement sensor 261 with the outdoor air pressure delivered from the outdoor air pressure measurement sensor 262 and determines that a negative pressure is applied to the room, the bet exhaust fan 120 Alternatively, by controlling the number of revolutions of the inverter motor operating the outside air inlet fan 140 to control the number of revolutions of the bet exhaust fan 120 or the outside air inlet fan 140, the indoor and outdoor pressures are adjusted in parallel, or the indoor static pressure. By controlling this, the outdoor air does not exchange heat with the evaporator 150 and prevents the sudden inflow of air into the room to prevent cold air. Avoid the degradation of the efficiency does not occur.

In addition, although not shown in the drawing, a humidifying unit controlled by the control unit 180 may be installed at the outside air inlet 111, and a humidity sensor for measuring indoor humidity and transmitting it to the control unit 180 is installed indoors. When the indoor humidity measured by the humidity sensor is lower than the set indoor humidity, the control unit 180 may increase the indoor humidity by operating the humidifying unit, and when the measured indoor humidity is higher than the set indoor humidity In the control unit 180, the first damper 241 and the fourth damper 244 are closed to prevent the air supplied from the economizer chamber 10 from flowing into the room, and then the second damper 242 and the third The damper 243 is opened so that air supplied from the economizer chamber 10 is heat exchanged with the condenser 130 and indoor air is heat exchanged with the evaporator 150 to remove moisture in the indoor air. Indoor humidity should be lowered so.

1 to 6 will be described with respect to the operation process and effect of the air conditioning system using an indoor garden according to an embodiment of the present invention.

4 is a view for explaining the process of the air conditioning unit operation in the simultaneous mode of ventilation and cooling.

1 to 4, the air conditioning unit 100 of an air conditioning system using an indoor garden according to an embodiment of the present invention includes first to fourth dampers 241 and 242 in a simultaneous mode of ventilation and cooling. 243) After the first to fourth dampers 241, 242, 243, and 244 are controlled by the controller 180 so that all 244 are kept open, the bet exhaust fan 120 and the outside air The inflow fan 140 is operated.

At this time, the fifth damper 51 provided in the air circulation line 50 is controlled to be closed by the control unit 180 to prevent indoor air from being supplied to the economizer chamber 10 and recirculated, and the main damper ( 13) is opened by the control unit 180 to allow outside air to flow into the economizer chamber 10 through the main outside air inlet 11.

When the bet exhaust fan 120 and the outside air inflow fan 140 are operated, indoor air is discharged to the outside through the bet exhaust port 112 and the outdoor exhaust line 30 by the bet exhaust fan 120, and the main outside air The outside air that has been introduced into the economizer chamber 10 through the inlet 11 and purified and humidified by the air purification plant 12 is connected to the outside air inlet 111 and the indoor air supply line 20 by the outside air inlet fan 140. Through the room.

At this time, the control unit 180 has a set indoor temperature higher than the outdoor temperature measured by the second temperature sensor 222 and lower than the indoor temperature measured by the first temperature measurement sensor 221 to cool by outside air. When it is determined that it is possible to operate the compressor 170 without operating the exhaust fan 120 and the outside air inlet fan 140 to allow indoor cooling to be performed using the outside air temperature introduced into the room.

On the other hand, it is determined that the indoor temperature set by the control unit 180 is lower than the outdoor temperature measured by the second temperature sensor 222 and the indoor temperature measured by the first temperature measurement sensor 221, and the indoor temperature is When it is determined that the temperature is lower than the outdoor temperature, the controller 180 does not operate the compressor 170 for a predetermined period of time, operates only the internal exhaust fan 120 and the external air inflow fan 140 to perform indoor cooling, and then after a predetermined time The compressor 170 is operated.

That is, it is determined that the indoor temperature set by the control unit 180 is lower than the outdoor temperature measured by the second temperature sensor 222 and the indoor temperature measured by the first temperature measurement sensor 221, and at the same time, the indoor temperature is If it is determined that the temperature is lower than the outdoor temperature, the controller 180 does not operate the compressor 170 for a predetermined period of time and operates only the bet exhaust fan 120 and the outside air inlet fan 140 to evaporate through the outside air inlet 111. As the temperature of the air that passes through the 150 and enters the room is higher than the temperature of the air that passes through the condenser 130 through the bet outlet 112 and is discharged outside, the refrigerant in the first connector 160 is Depending on the temperature difference, the refrigerant is circulated through an expansion valve 190, an evaporator 150, and a compressor 170 sequentially from the side of the condenser 130 and then circulated back to the condenser 130 to allow indoor cooling.Without operating the compressors 170 and such that the indoor air-conditioning conducted for a predetermined time.

Thereafter, after a predetermined time, the control unit 180 operates the compressor 170 to compress the refrigerant at high temperature and high pressure, and the control unit 180 is compressed at high temperature and high pressure by the compressor 170 to perform a 3-way valve ( The refrigerant compressed into the high temperature and high pressure by the compressor 170 by controlling the three-way valve 200 so that the refrigerant introduced into the condenser 130 may be supplied to the condenser 130 is condensed through the three-way valve 200. After being supplied to 130, the expansion valve 190 and the evaporator 150 are sequentially passed through, and then the process of entering the compressor through the 3-way valve 200 is repeated.

At this time, the outdoor air passing through the economizer chamber 11 flowing into the room through the outside air inlet 111 and the indoor air supply line 30 by the outside air inflow fan 140 is heat exchanged with the evaporator 150 After the temperature is lowered, it is supplied to the room to cool the room.

In addition, the indoor air discharged from the room to the outside through the bet discharge port 112 by the bet discharge fan 120 is heat exchanged with the refrigerant in the condenser 130 and the first connector 210 and then discharged to the outside It is possible to improve the cooling efficiency by allowing the heat energy of the discarded indoor air to be recycled.

On the other hand, when indoor cooling is performed for a predetermined time and at the same time it is determined that the indoor carbon dioxide concentration measured by the carbon dioxide concentration measuring sensor is lower than the set carbon dioxide concentration, the controller 180 opens the fifth damper 51 to open at least the indoor air. A portion is supplied to the economizer chamber 10 through the air circulation line 50 to be recirculated to improve energy efficiency by reusing wasted waste heat of indoor air.

As described above, when the indoor air is supplied to the economizer chamber 10 through the air circulation line 50 and recirculated, the controller 180 closes the main damper 13 to outdoor through the main outside air inlet 11 Air is not supplied into the economizer chamber 10.

5 is a view for explaining a process of operating the air conditioning unit in the simultaneous mode of ventilation and heating.

1 to 2 and 5, the air conditioning unit 100 of the air conditioning system using an indoor garden according to an embodiment of the present invention includes first to fourth dampers 241 in a simultaneous mode of ventilation and heating. ) (242) (243) (244) all the first to fourth dampers 241, 242, 243 (244) are controlled by the control unit 180 to maintain the open state, exhausting the bet The fan 120 and the outside air inflow fan 140 are operated.

At this time, the fifth damper 51 provided in the air circulation line 50 is controlled to be closed by the control unit 180 to prevent indoor air from being supplied to the economizer chamber 10 and recirculated, and the main damper ( 13) is opened by the control unit 180 to allow outside air to flow into the economizer chamber 10 through the main outside air inlet 11.

When the bet exhaust fan 120 and the outside air inlet fan 140 are operated, indoor air is discharged to the outside through the bet outlet 112 and the outdoor exhaust line 30 by the bet exhaust fan 120, and the main outside air The outside air that has been introduced into the economizer chamber 10 through the inlet 11 and purified and humidified by the air purification plant 12 is connected to the outside air inlet 111 and the indoor air supply line 20 by the outside air inlet fan 140. Through the room.

In this case, the control unit 180 may set the indoor temperature lower than the outdoor temperature measured by the second temperature sensor 222 and higher than the indoor temperature measured by the first temperature measurement sensor 221 to allow heaters by external air. If it is determined that, the compressor 170 does not operate and operates only the internal air exhaust fan 120 and the external air inlet fan 140 to ventilate, so that heating can be performed using external air temperature.

Meanwhile, it is determined that the indoor temperature set by the control unit 180 is higher than the outdoor temperature measured by the second temperature sensor 222 and the indoor temperature measured by the first temperature measurement sensor 221, and at the same time, the indoor temperature If it is determined that it is higher than the outdoor temperature, the control unit 180 does not operate the compressor 170 for a predetermined time and operates only the internal exhaust fan 120 and the external air inlet fan 140, and then starts the compressor 170 after a predetermined time. ).

That is, it is determined that the indoor temperature set by the control unit 180 is higher than the outdoor temperature measured by the second temperature sensor 222 and the indoor temperature measured by the first temperature measurement sensor 221, and at the same time If it is determined that it is higher than the outdoor temperature, the control unit 180 does not operate the compressor 170 for a predetermined period of time, and operates only the bet exhaust fan 120 and the outside air inlet fan 140 to evaporate through the outside air inlet 111. Refrigerant in the first connection pipe 160 as the temperature of the air passing through the 150 and passing into the room is lower than the temperature of the air passing through the condenser 130 through the bet outlet 112 and discharged outside. From the side of the evaporator 150, the expansion valve 190, the condenser 130, and the compressor 170 are sequentially passed through the heating cycle circulated to the evaporator 150 again, so that the indoor heating is performed so that the compressor 170 In operation Not without it so that the indoor heating performed for a predetermined period of time.

Thereafter, after a predetermined time, the control unit 180 operates the compressor 170 to compress the refrigerant at high temperature and high pressure, and the control unit 180 is compressed at high temperature and high pressure by the compressor 170 to perform a 3-way valve ( 200) by controlling the three-way valve 200 so that the refrigerant flowing into the evaporator 150 may be supplied to the refrigerant at high temperature and high pressure by the compressor 170, the evaporator through the three-way valve 200 After being supplied to 150, the expansion valve 190 and the condenser 130 are sequentially passed, and then the process of flowing into the compressor 170 through the 3-way valve 200 is repeated.

At this time, the outdoor air passing through the economizer chamber 11 flowing into the room through the outside air inlet 111 and the indoor air supply line 30 by the outside air inflow fan 140 is heat exchanged with the evaporator 150 After the temperature rises, it is supplied to the room to perform indoor heating.

In addition, the indoor air that is discharged from the room to the outside through the bet discharge port 112 by the bet discharge fan 120 is exchanged with the condenser 130 and then discharged to the outside to recycle the heat energy of the discarded indoor air. By doing so, it is possible to improve the heating efficiency.

On the other hand, if the indoor heating is performed for a predetermined time and it is determined that the indoor carbon dioxide concentration measured by the carbon dioxide concentration measuring sensor is lower than the set carbon dioxide concentration, the control unit 180 opens the fifth damper 51 to at least the indoor air. A portion is supplied to the economizer chamber 10 through the air circulation line 50 to be recirculated to improve energy efficiency by reusing wasted waste heat of indoor air.

As described above, when the indoor air is supplied to the economizer chamber 10 through the air circulation line 50 and recirculated, the controller 180 closes the main damper 13 to outdoor through the main outside air inlet 11 Air is not supplied into the economizer chamber 10.

6 is a view for explaining the process of operating the air conditioning system using an indoor garden according to an embodiment of the invention in the dehumidification or rapid heating and cooling mode.

1 to 2 and 6, the air conditioning unit 100 of the air conditioning system using an indoor garden according to an embodiment of the present invention is first controlled by the controller 180 during dehumidification or rapid heating and cooling mode. The damper 241 and the fourth damper 244 are controlled to be closed, and the second damper 242 and the third damper 243 are controlled by the controller 180 to be opened and then bet by the controller 180 The exhaust fan 120 and the outside air inlet fan 140 are operated.

When the inside air exhaust fan 120 and the outside air inflow fan 140 are operated, the first damper 241 and the fourth damper 244 become closed, so that the first damper 241 and the fourth damper 244 ) To maintain the state that the air supplied from the economizer chamber 10 is blocked and does not flow into the room, and the second damper 242 and the third damper 243 are opened so that the indoor air is the outside air inflow fan. After flowing into the outside air inlet 111 by 140, after heat exchange with the evaporator 150, the air is supplied back into the room by being switched to the first damper 241 to change the direction, and the air supplied from the economizer chamber 10 After being introduced into the bet outlet 112 by the bet discharge fan 120, the heat is exchanged with the condenser 130, and then is turned to the fourth damper 244 to change the direction to be discharged to the economizer chamber 11, thereby dehumidifying the room and Allow rapid heating and cooling.

At this time, the compressor 170 is operated by the controller 180 to compress the refrigerant to high temperature and high pressure, and the refrigerant compressed by the compressor 170 is a 3-way valve controlled by the controller 180 when cooling. After sequentially passing through the condenser 130, the expansion valve 190, and the evaporator 150 through 200, the refrigerant is circulated through a cooling cycle flowing into the compressor 170 again to allow indoor cooling to occur. After passing through the evaporator 150, the expansion valve 190, and the condenser 130 sequentially through the three-way valve 200 controlled by the controller 180, the refrigerant circulates through a heating cycle flowing into the compressor 170 again. To ensure indoor heating.

As described above, the air conditioning system using an indoor garden according to an embodiment of the present invention purifies and passes outdoor air during indoor ventilation and air conditioning through an economizer chamber 10 in which a plurality of air purification plants 12 are planted. By controlling not only humidity, but also supplying air containing components such as phytoncide ejected from air-purifying plants to the room, indoor comfort can be further improved, and electric energy consumed during heating, cooling, humidification or dehumidification is greatly reduced. At the same time, it is possible to significantly improve the air conditioning, humidification, or dehumidification efficiency.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention provides recirculation by supplying at least a portion of the indoor air to the economizer chamber 10 through the air circulation line 50 during air conditioning, thereby reusing the indoor air. Energy efficiency can be improved by allowing reuse.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention includes indoor air and heat from which refrigerant in the first connection pipe 160 connecting the evaporator 150 and the condenser 130 is discharged from indoor to outdoor. It is heat exchanged in the form of a pipe so that it is circulated in a refrigeration cycle or a heating cycle without the operation of the compressor 170 by convection according to the temperature of the evaporator 150 side and the temperature of the condenser 130 side, so that it is indoors without the operation of the compressor 170. It is possible to significantly reduce the amount of electric energy consumed by allowing indoor air conditioning and heating at the same time as ventilation, so there is an advantage of air conditioning and ventilation at a lower cost.

In addition, in one embodiment of the present invention, the air conditioning system using an indoor garden has a set indoor temperature higher than the outdoor temperature measured by the second temperature sensor 222 and measured by the first temperature measurement sensor 221. It is determined that cooling by outside air is possible because it is lower than the indoor temperature, or the set indoor temperature is lower than the outdoor temperature measured by the second temperature sensor 222 and higher than the indoor temperature measured by the first temperature measurement sensor 221 In the intermittent period when it is determined that heating by external air is possible, the indoor air conditioning is performed by using the outdoor air temperature by ventilating by operating only the internal air exhaust fan 120 and the external air inlet fan 140 without operating the compressor 170. By doing so, it is possible to further reduce the amount of electric energy consumed, which has the advantage of being able to perform air conditioning and ventilation at a lower cost.

In addition, the air conditioning system using an indoor garden according to an embodiment of the present invention adjusts the opening and closing of the first to fourth dampers 241, 242, 243, and 244 according to the carbon dioxide concentration in the room after air conditioning. At the same time, by controlling the number of revolutions of the inverter motor of the intake exhaust fan 120 or the outside air intake fan 140 to control the flow rate of the air flowing into the room or the air discharged to the outside, electricity consumed by not applying an indoor negative pressure Since it is possible to further reduce the amount of energy, there is an advantage of efficient indoor air conditioning and ventilation at a lower cost.

In addition to this, the air conditioning system using an indoor garden according to an embodiment of the present invention is provided with all functions capable of creating a comfortable indoor environment such as dehumidification, humidification, and air purifier, as well as indoor ventilation and air conditioning functions. There is an advantage that can significantly reduce the burden on the purchase cost of products to create a comfortable indoor space.

In the detailed description of the present invention described above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those skilled in the art will appreciate the spirit of the present invention as set forth in the claims below. And it will be understood that various modifications and changes can be made to the present invention without departing from the technical scope.

(10): Economizer chamber (20): Indoor air supply line
(30): outdoor exhaust line (40): condensate supply line
(50): Air circulation line (51): 5th damper
(100): Air conditioning unit (110): Casing
120: bet exhaust fan 130: condenser
(140): outside air inlet fan (150): evaporator
160: first connector 170: compressor
(180): Control unit (190): Expansion valve
(200): 3-way valve (210): second connector
221: first temperature sensor 222: second temperature sensor
(230): filter module (241) (242) (243) (244): first to fourth damper
(250): Carbon dioxide concentration sensor

Claims (12)

An economizer chamber in which a plurality of air purification plants are planted therein to purify and humidify the outdoor air supplied from the outside through the main outside air inlet;
At least one indoor air supply line connected to the economizer chamber to supply purified and humidified air in the economizer chamber into the room;
At least one outdoor exhaust line for discharging indoor air to the outside without going through the economizer chamber; And
It is connected to the indoor air supply line and the outdoor exhaust line to cool or heat the air supplied from the economizer chamber through the indoor air supply line to supply it to the room to perform indoor cooling / heating, and the air supplied to the room and the outdoor exhaust line It includes at least one air conditioning unit that enables indoor ventilation by heat-exchanging indoor air that is discharged to the outside through the air, thereby reusing the waste heat of the indoor air.
The air conditioning unit,
An outdoor air inlet connected to the indoor air supply line and capable of introducing purified and humidified air in the economizer chamber into the room through the indoor air supply line, and the indoor air connected to the outdoor air exhaust line to the outdoor through the outdoor air exhaust line A casing in which bet outlets for discharging are respectively provided independently;
A bet exhaust fan installed on the bet outlet side to discharge indoor air to the outside;
A condenser installed on the bet outlet side to exchange heat with indoor air discharged from indoor to outdoor by the bet exhaust fan;
An outside air inlet fan installed at the outside air inlet side to introduce purified and humidified air in the economizer chamber into the room;
An evaporator installed on the outside air inlet side and exchanging heat with air purified and humidified by an air purification plant introduced into the room from the economizer chamber by the outside air inlet fan;
A first connection pipe connecting the condenser and the evaporator so as to supply refrigerant from the condenser side to the evaporator side or to supply the refrigerant from the evaporator side to the condenser side;
A compressor connected to the condenser and the evaporator through a three-way valve to compress the refrigerant during cooling and supplying it to the condenser side through the three-way valve, and compressing the refrigerant during heating to supply it to the evaporator side through the three-way valve;
A control unit for controlling the internal air exhaust fan, condenser, external air inlet fan, evaporator, and compressor;
A first damper installed at the outside air inlet and connected to the control unit so as to be located outside the evaporator;
A second damper installed at the outside air inlet and connected to the control unit so as to be located indoors rather than the evaporator;
A third damper installed at the bet outlet and connected to the control unit to be located on the outdoor side rather than the condenser; And
A fourth damper installed at the bet outlet and connected to the control unit so as to be located indoors rather than the condenser; And
Further comprising a carbon dioxide concentration measurement sensor for measuring and transmitting the indoor carbon dioxide concentration to the control unit,
When the control unit determines that the measured indoor carbon dioxide concentration is higher than the set carbon dioxide concentration by comparing the carbon dioxide concentration measured by the carbon dioxide concentration measurement sensor after heating and cooling, the fifth damper provided in the air circulation line is closed to close indoor air. While preventing recirculation to the economizer chamber, the first to fourth dampers are opened to ventilate the room, and when it is determined that the measured indoor carbon dioxide concentration is low, the first and fourth dampers are closed, and the second and third dampers are At the same time as opening, the fifth damper is opened, and at least a part of the indoor air is supplied to the economizer chamber through an air circulation line to be recirculated, thereby improving indoor air conditioning and heating efficiency. According to claim 1,
The economizer chamber,
An air conditioning system using an indoor garden further comprising a main damper provided in the main outside air inlet to selectively open or close the main outside air inlet. According to claim 1,
When cooling the room through the air conditioning unit, the air conditioning system using an indoor garden further comprising a condensate supply line capable of supplying condensed water discharged from the air conditioning unit to the air purification plant planted in the economizer chamber. According to claim 1,
An air conditioning system using an indoor garden further comprising at least one air circulation line in which at least a portion of indoor air can be recirculated to the economizer chamber and a fifth damper is controlled to be opened and closed by the air conditioning unit. delete According to claim 1,
The first connector,
As the air exhaust fan is operated, the indoor air discharged from the indoor air to the outdoor air through the air exhaust port is disposed on the air exhaust port side to connect the condenser and the evaporator to heat exchange in the form of a heat pipe.
Even if only the internal exhaust fan and the external air inlet fan are operated, and the compressor is not operated, convection occurs depending on the temperature difference between the air purified and humidified by the indoor air passing through the condenser and the air purified plant passing through the evaporator. Refrigerant in the first connection pipe is supplied from the condenser side to the evaporator side, or is supplied from the evaporator side to the condenser side, so that even if the compressor is not operated, the indoor garden can be heated and cooled by using the heat energy of the indoor air that is discarded at the same time as ventilation. Air conditioning system used. According to claim 1,
The air conditioning unit,
A first temperature sensor that measures and transmits the indoor temperature to the control unit;
Further comprising a second temperature sensor for measuring the outdoor temperature and transmitting it to the control unit,
The control unit,
The set indoor temperature is higher than the outdoor temperature measured by the second temperature sensor and lower than the indoor temperature measured by the first temperature measurement sensor, or it is determined that cooling by outside air is possible,
If the set indoor temperature is lower than the outdoor temperature measured by the second temperature sensor and higher than the indoor temperature measured by the first temperature sensor, it is determined that heating by outside air is possible.
The air conditioning system using an indoor garden that enables indoor air conditioning by using the outside air temperature by opening the main damper of the economizer chamber while simultaneously operating only the air exhaust fan and the air inflow fan without operating the compressor. . According to claim 1,
The air conditioning unit,
An air conditioning system using an indoor garden further comprising a filter module installed at the outside air inlet to filter ultra-fine dust contained in air entering the room from the economizer chamber by the outside air inlet fan. delete According to claim 1,
The control unit,
When indoor dehumidification and rapid heating and cooling signals are input, the first damper and the fourth damper are closed to prevent the air supplied from the economizer chamber from entering the room, and then the second damper and the third damper are opened to be supplied from the economizer chamber. An air conditioning system using an indoor garden that allows air to exchange heat with the condenser and indoor air to exchange heat with the evaporator for indoor dehumidification and rapid heating and cooling. delete According to claim 1,
The air conditioning unit,
An indoor air pressure measurement sensor measuring and transmitting indoor air pressure to the control unit; And
Further comprising an outdoor air pressure measurement sensor for measuring and transmitting the outdoor air pressure to the control unit,
The control unit compares the indoor air pressure delivered from the indoor air pressure measurement sensor to the outdoor air pressure delivered from the outdoor air pressure measurement sensor, and when it is determined that a negative pressure is applied to the room, operates the internal air exhaust fan or the external air inlet fan. An air conditioning system using an indoor garden, characterized by controlling the number of revolutions of the inverter motor so as not to apply negative pressure to the room.

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