KR20210106589A - Mobile air conditioner for multi-layer crops - Google Patents

Abstract

The present invention relates to a movable air conditioner for multilayer cultivation of crops, and more specifically, to a movable air conditioner for multilayer cultivation of crops, in which a multi-layered cultivation room is provided inside to enable the cultivation of a large number of crops in one container, and the air conditioner is controlled and driven to meet an internal cultivation condition set in advance according to the crops to be grown. Therefore, there are no restrictions on the crops to be grown, and even when different crops are grown in each cultivation room, the cultivation conditions of each cultivation room can be adjusted differently, making it possible to cultivate a variety of crops.

Description

Mobile air conditioner for multi-layer cultivation of crops {Mobile air conditioner for multi-layer crops}

The present invention is a portable air conditioner for multi-layered cultivation of crops, which, if movable, has a multi-layered cultivation room inside, so that various crops of the same or different types _{can be grown according to a preset temperature, humidity, and CO 2 concentration.} it's about

As in other general industrial fields, there have been continuous attempts to grow and supply high-quality crops in large quantities through automation in the agricultural field, and various types of cultivation devices have been developed and used therefrom.

A representative of these cultivation devices is a so-called plant factory, which is equipped with various devices so that crops can be grown with optimum efficiency in a limited space.

Among them, the air conditioning system is used to provide optimum temperature and humidity for growing crops, and is generally configured to include a cooling cycle and a heater. That is, cooling is provided by a cooling cycle and heating is provided by using a heater. In some cases, a heat pump system is used to provide heating and cooling through a single air conditioning system.

However, in the case of these devices, there is a limit in cultivating other plants by adapting the plants grown inside to various conditions such as various temperatures and humidity.

In addition, even in the case of cultivating only one plant, the configuration of a device for constantly maintaining all of the internal conditions at the same level is also insufficient, so the development of a device capable of easily and easily controlling it is urgently emerging.

Republic of Korea Patent Publication No. 10-1813924 (Registered on Dec. 26, 2017)

The present invention has been devised to solve the above problems, and an object of the present invention is to enable cultivation of a large amount of crops or different types of crops in a container consisting of a plurality of growing layers, and Accordingly, an object of the present invention is to provide a portable air conditioner for multi-layered cultivation of crops, which allows easy and easy cultivation of crops by controlling and driving the air conditioner according to the conditions preset by the user.

Other objects and advantages of the present invention will be set forth below and will be learned by way of example of the present invention. Further, the objects and advantages of the present invention may be realized by means and combinations indicated in the claims.

The present invention is a means for solving the above problems,

a container 10 that is movable, has a multi-layered interior, and is provided with a cultivation chamber 20 for cultivating the same or different crops on each floor; Installed on one side of the plurality of cultivation rooms 20 to provide cold/hot air to the inside of the cultivation room 20 , the air discharged from each cultivation room 20 of the container 10 is provided in the container 10 . a is introduced through an exhaust line 30 formed in the outer portions, the cultivation chamber (20) the temperature of the inside air, humidity, CO ₂ concentration, is maintained at a predetermined preset range depending on the cultivated crop, the outside air an air conditioning device 50 that controls whether or not the intake is inhaled and the amount of intake, and allows the air discharged from the cultivation room 20 to be re-supplied to each cultivation room 20 after being mixed with the outside air to be repeated; characterized in that it consists of

As described above, the present invention has the effect that a large amount of crops can be easily and easily cultivated by providing a multi-layered cultivation room in an inner container.

In addition, the present invention can provide an environment suitable for different preset conditions according to the type of crops grown inside the container, thereby having an effective effect in cultivating crops.

In addition, according to the present invention, different plants can be grown for each multi-layered cultivation room of the container, and in this case, the cultivation conditions can be individually adjusted for each layer, thereby facilitating the cultivation of various crops.

In addition, the present invention has the effect that there are no restrictions on installation or use because it is movable.

1 is a block diagram of an embodiment showing a portable air conditioner for multi-layer cultivation of crops according to the present invention.
Figure 2 is a detailed view of part 'A' of Figure 1;

Before describing various embodiments of the present invention in detail, it is to be understood that the application is not limited to the details of the construction and arrangement of components described in the following detailed description or shown in the drawings. The invention is capable of being embodied and practiced in other embodiments and of being carried out in various ways. Also, device or element orientation (eg "front", "back", "up", "down", "top", "bottom") The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are used merely to simplify the description of the invention, and the associated apparatus Or it will be appreciated that it does not simply indicate or imply that an element must have a particular orientation. Also, terms such as “first” and “second” are used in this application and the appended claims for the purpose of description and are not intended to indicate or imply relative importance or spirit.

In order to achieve the above object, the present invention has the following features.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

Looking at an embodiment according to the present invention is as follows.

a container 10 that is movable, has a multi-layered interior, and is provided with a cultivation chamber 20 for cultivating the same or different crops on each floor; Installed on one side of the plurality of cultivation rooms 20 to provide cold/hot air to the inside of the cultivation room 20 , the air discharged from each cultivation room 20 of the container 10 is provided in the container 10 . a is introduced through an exhaust line 30 formed in the outer portions, the cultivation chamber (20) the temperature of the inside air, humidity, CO ₂ concentration, is maintained at a predetermined preset range depending on the cultivated crop, the outside air an air conditioning device 50 that controls whether or not the intake is inhaled and the amount of suction, and allows the air discharged from the cultivation room 20 to be re-supplied to each cultivation room 20 after being mixed with the outside air to be repeated; characterized in that it consists of

In addition, the air conditioner (50) includes first and second dampers (59, 60) for introducing outdoor air into the air conditioner (50), and the outdoor air introduced into the first and second dampers (59, 60). The space introduced inside the air conditioner 50 is partitioned so as not to mix with each other, and the first damper 59 heats the air conditioner 50 when the air temperature inside the container 10 is constant. Separately from the air passing through the part 55 , ON/OFF and the degree of opening are controlled so that outside air is introduced into each cultivation chamber 20 , and the second damper 60 controls the air temperature inside the container 10 . When it is desired to reduce within the preset range, the outside air is mixed with the air introduced through the discharge line 30 and passed through the heat exchange unit 55 , and then turned ON so that the mixed air is introduced into each cultivation chamber 20 . It is characterized in that /OFF and the degree of opening are controlled.

In addition, the air conditioner (50) is installed on one side of the lower end of the air conditioner (50), the communication port (51) communicating with the discharge line (30); a heat exchange unit 55 in which a heater 53 and a cooling coil 54 are installed to heat or cool the outside air introduced into the interior and the air moved from the cultivation chamber 20; a humidifier 56 for maintaining the air introduced from the cultivation chamber 20 at a preset humidity; a transfer fan 57 for providing outside air and air to the container 10; a filter member 58 installed at the front and rear ends of the transfer fan 57, respectively, for filtering outside air and air; It is characterized in that it is composed of

In addition, the air conditioner 50 is a multi-layered cultivation with the air conditioner 50 so that the air outlet at the top of the air conditioner 50 communicates with the inlet 26 formed on one side of the cultivation chamber 20 of each floor. A distribution space 61 is formed between the chambers 20, and the size of the inlet 26 becomes smaller as the inlet 26 of the culture chamber 20 located on the floor close to the air outlet increases. ) of the inlet 26 is formed to be different in size, so that uniform air inflow is possible for each multi-layered cultivation chamber 20 .

In addition, LED lights 21 installed inside for the growth of plants for each cultivation room 20; a filter unit installed on the other side of each cultivation chamber 20 to filter the air discharged to the discharge line 30; a temperature sensor 23 installed for each cultivation room 20 to measure a temperature; a humidity sensor 24 installed in each cultivation room 20 to measure humidity; The provided for each culture chamber (20) CO ₂ sensor 25 for measuring the CO _2; After receiving the measurement information of the temperature sensor 23 , the humidity sensor 24 , and the CO ₂ sensor 25 , the temperature, humidity, and CO ₂ concentration of the air in each cultivation room 20 are maintained within a preset range. , a control unit 40 for controlling whether outside air is introduced and the amount of outside air flowing through the speed control of the transfer fan 57 of the air conditioner 50; It is characterized in that it is provided.

In addition, the control unit 40 controls the inflow of outside air through speed control of the transfer fan 57 of the air conditioner 50, and opens and closes the air inlet 26 formed on one side of the cultivation chamber 20 of each floor. By individually controlling whether or not to open and close, the temperature, humidity, and CO ₂ concentration is characterized in that it can be maintained in a preset range that is different for each cultivation room 20 of each floor.

In addition, the auxiliary heat exchange unit 80 is operated individually or simultaneously with the air conditioner 50 , is disposed between the air conditioner 50 and the multi-layered cultivation room 20 , and enters the cultivation room 20 . an auxiliary heat exchange tube 81 communicating with the upper portion of the distribution space 61 for supplying air of the air conditioner 50 and having both ends horizontally opened and installed in the upper portion of the cultivation chamber 20; a bypass pipe 82 having one end communicating with the distribution space 61 and the other end communicating with the auxiliary heat exchange pipe 81; a control valve 83 installed at a communication portion between the bypass pipe 82 and the auxiliary heat exchange pipe 81 to allow air to move to either side of the auxiliary heat exchange pipe 81; It is installed inside the auxiliary heat exchange pipe 81 located at the upper end of the multi-layered cultivation chamber 20, and after sucking the outside air, heat exchanges the sucked outside air with the air moving in the auxiliary heat exchange pipe 81, and a heat exchanger 84 to be introduced into the cultivation chamber 20; a third damper (85) installed at both ends of the auxiliary heat exchange tube (81) to discharge the heat-exchanged air to the outside; characterized in that it consists of

In addition, a plurality of the heat exchangers 84 are installed to be spaced apart from each other inside the auxiliary heat exchange tube 81 , and are operated simultaneously or individually by the control unit 40 .

Hereinafter, a mobile air conditioner for multi-layer cultivation of crops according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2 .

The portable air conditioner for multi-layer cultivation of crops according to the present invention includes a container 10 , an air conditioner 50 , and an auxiliary heat exchange unit 80 .

The container 10 has an empty housing shape inside, and wheels 11 are formed at the lower end of the outer side to enable movement and transportation.

In addition, the interior of the container 10 is made up of multiple layers and is divided for each layer, so that the multi-layered cultivation room 20 is provided. of crops can be cultivated, or different crops are grown for each layer, so that it is possible to cultivate various kinds of crops in one container 10 .

In addition, on the outside of the container 10 , an 'L' shape is formed on the outer portion of the container 10 so that the air discharged from each cultivation chamber 20 can be introduced into the air conditioner 50 to be described later. It is provided with a discharge line 30 formed of. The discharge line 30 communicates with the other ends of the plurality of cultivation chambers 20 on the left side (the other side) of the container 10 , and then forms an empty space at the bottom of the container 10 , and then the container 10 . It has a structure connected to an air conditioner 50 to be described later installed on one side.

In each cultivation room 20 of the container 10, an LED light 21, a filter unit, a temperature sensor 23, a humidity sensor 24, and a CO ₂ sensor 25 are installed for each cultivation room 20. and a control unit 40 for controlling them is also provided.

The LED light 21 is installed inside each cultivation room 20 for plant growth, and the filter unit 22 filters the air discharged to the discharge line 30, each cultivation room ( 20) Each is installed on the other side. The temperature sensor 23 , the humidity sensor 24 , and the CO ₂ sensor 25 are installed for each cultivation room 20 to measure _{temperature, humidity, and CO 2 .}

In the case of the control unit 40, according to the embodiment of the user, it may be installed inside/outside of the container 10 or in the solidification device, and the temperature sensor 23 and humidity sensor of each cultivation room 20 described above. (24), after receiving the measurement information of the _{CO 2} sensor 25, whether the outside air is introduced and the air conditioner so that _{the temperature, humidity, and CO 2 concentration of the air in each cultivation room 20 are maintained within a preset range} (50) is to control the inflow of outside air through the transfer fan 57 speed control. Of course, in the case of incoming outside air, the control unit 40 determines whether the humidifying unit 56, the heater 53, and the cooling coil 54 configured in the air conditioner 50 in addition to the transfer fan 57 are driven, and By also controlling the driving time, temperature, humidity, and CO ₂ concentration can be controlled.

The air conditioner 50 is installed on one side (one side of the plurality of cultivation chambers 20 ) of the aforementioned container 10 to provide cold/hot air into each of the cultivation chambers 20 .

That is, in the air conditioner 50 , the air discharged from each cultivation chamber 20 of the container 10 is introduced into the inside through the discharge line 30 formed at the outer portion of the container 10 , and thus The temperature, humidity, and CO ₂ concentration of the introduced air inside the cultivation room 20 is maintained in a preset range according to the crops grown in the cultivation room 20 so that it can be introduced back into the cultivation room 20 . did it

Accordingly, the air conditioner 50 mixes the outside air with the air of the cultivation room 20 introduced into the interior in this way and flows it back into the cultivation room 20, but the outside air introduced into the air conditioner 50 for mixing. is to be controlled, and the air discharged from the cultivation room 20 is re-supplied to each cultivation room 20 after the outside air is mixed so that the circulation can be repeated.

The air conditioner 50 for this purpose is made of a rectangular tube, and the lowermost end of the communication port 51 communicating with the discharge line 30 is formed on one side, so that the air moved from the cultivation room 20 is introduced into the inside. A supply port 52 is formed at the uppermost side (direction opposite to the cultivation chamber 20 ), so that air is introduced back into the cultivation chamber 20 to have a circulating structure.

In the air conditioner 50, a heat exchange unit 55 in which a heater 53 and a cooling coil 54 are installed in order to heat or cool the outside air flowing into the inside and the air moved from the cultivation chamber 20. , a humidifier 56 for maintaining the air introduced from the cultivation room 20 at a preset humidity, a transfer fan 57 for providing outside air and air to the container 10, front and rear ends of the transfer fan 57 It is installed in each, so that the filter member 58 for filtering the outside air and air, etc. are provided.

In addition, first and second dampers 59 and 60 for introducing outside air into the air conditioner 50 are provided on the outer peripheral surface of the lower end of the air conditioner 50, and the first and second dampers 59 and 60 are provided. The space introduced into the air conditioner 50 is partitioned so that each outdoor air introduced into the air conditioner 50 is not mixed with each other in the air conditioner 50 .

The first damper 59 is used when the temperature of the air inside the container 10 is constant. Separately from the air that has passed through the heat exchange unit 55 in the air conditioner 50, a new ON/OFF and the degree of opening are controlled by the control unit 40 so that outside air is introduced,

The second damper 60 is used when it is desired to reduce the temperature of the air inside the container 10 within a preset range, and the new outside air is mixed with the air introduced through the discharge line 30 and heat exchanges together. After passing through the part 55 , ON/OFF and the degree of opening are controlled by the controller 40 so that the mixed air is introduced into each cultivation chamber 20 .

In addition, in the case of such an air conditioner 50,

A distribution space 61 is provided between the air conditioner 50 and the multi-layered cultivation room 20 so that the air outlet at the top of the air conditioner 50 communicates with the inlet 26 formed on one side of the cultivation chamber 20 of each floor. ) is formed in the longitudinal direction in the vertical direction, and as the inlet 26 of the culture chamber 20 located on a floor close to the air outlet, the inlet of each culture chamber 20 becomes smaller in size. (26) By forming different sizes, it is possible to uniformly introduce air into each of the multi-layered cultivation chambers 20 .

In addition, in the case of the control unit 40,

If the same crop is grown for each of the multi-layered cultivation rooms 20 (the first case),

Controlling the inflow of outside air through speed control of the transfer fan 57 so that the cultivation room 20 of each floor _{is always maintained at the same preset cultivation conditions (temperature, humidity, CO 2} concentration) (transfer fan) Before controlling the amount of outside air inflow through 57, the control of the heat exchange unit 55 and the humidifier 56 of the air conditioner 50 (whether operation, operating time, temperature control, etc.) is performed in advance by the control unit 40 should be controlled), and

If different crops are grown for each cultivation room 20 on each floor (the second case),

By further individually controlling whether the inlet 26 of the air formed on one side of the cultivation room 20 of each floor opens and closes and the degree of opening and closing, the temperature, humidity, and CO ₂ concentration are different for each cultivation room 20 of each floor, respectively. to keep it within range.

The auxiliary heat exchange unit 80 is installed at the top of the outside of the container 10 or the air conditioner 50 , after exchanging the air provided from the air conditioner 50 to the container 10 with the outside air, the container 10 . This is to additionally supply the heat-exchanged outside air to the inside.

That is, in addition to directly supplying the air heat-exchanged through the air conditioner 50 to the cultivation chamber 20, another outdoor air is supplied to the cultivation chamber 20, It is to increase or decrease the temperature of the new outdoor air by heat exchange so that it can be supplied by connecting it to the cultivation chamber 20 through a separate pipe or the like.

The auxiliary heat exchange unit 80 may be used simultaneously with the above-described air conditioner 50 or may be used separately, and this is done through the control unit 40 .

That is, by using the temperature of the air discharged from the air conditioner 50 and introduced into the cultivation room 20 , the temperature of the newly introduced outside air is lowered or increased, and then the outside air is further reheated into the cultivation room 20 . to allow it to be imported. Accordingly, in order to maintain the temperature, humidity, and CO ₂ concentration of the cultivation room 20 in a preset temperature range, humidity range, and CO ₂ concentration, the air inside the cultivation room 20 is discharged to the outside and outside air is newly introduced. , it is designed so that the temperature of the outside air introduced through heat exchange when discharged is controlled.

Of course, this auxiliary heat exchange unit 80 can also be controlled through the control unit 40, the temperature, humidity, and CO ₂ concentration of which cultivation chamber 20 is to be controlled, and the temperature of the entire interior of the container 10 . , humidity, and _{whether to control the concentration of CO 2} , a blower 62 for introducing freshly introduced outside air into the cultivation room 20 and a blower 62 for discharging the outside air from the cultivation room 20 to the outside of the container 10 . ) must also be controlled through the above-described control unit 40 , and the control valve 83 and control valve 83 of the auxiliary heat exchange unit 80 are used to transfer air to the auxiliary heat exchange pipe 81 . Whether to move, if used, to which side the control valve 83 is developed to open the air to the left or right side of the auxiliary heat exchange pipe 81.) and whether the heat exchanger 84 is operating (all of the heat exchanger 84) Whether to operate all of them or only some of them) must also be controlled. Of course, this control determines the temperature, humidity, and CO ₂ concentration of the cultivation room 20 in a preset temperature range, humidity range, CO ₂ It must be controlled in order to maintain the concentration.

The auxiliary heat exchange unit 80 for this purpose includes an auxiliary heat exchange pipe 81 , a bypass pipe 82 , a control valve 83 , a heat exchanger 84 , and a third damper 85 .

The auxiliary heat exchange pipe 81 is disposed between the air conditioner 50 and the multi-layered cultivation room 20, and is a distribution space 61 for supplying air from the air conditioner 50 to the cultivation room 20. It communicates with the upper part and is installed with both ends horizontally opened on the upper part of the cultivation chamber 20 .

One end of the bypass pipe 82 communicates with the distribution space 61 , and the other end communicates with the auxiliary heat exchange pipe 81 .

The control valve 83 is installed in the communication portion between the bypass pipe path 82 and the auxiliary heat exchange pipe 81 to allow air to move to either side of the auxiliary heat exchange pipe 81 .

The heat exchanger 84 is installed inside the auxiliary heat exchange tube 81 located at the top of the multi-layered cultivation chamber 20, and after sucking the outside air, the air that moves the sucked outside air in the auxiliary heat exchange pipe 81 It is to be introduced into the cultivation chamber 20 of each floor after heat exchange with the .

The third damper 85 is installed at both ends of the auxiliary heat exchange tube 81 to discharge heat-exchanged air to the outside.

A plurality of the heat exchangers 84 are installed to be spaced apart from each other inside the auxiliary heat exchange tube 81 , and are operated simultaneously or individually by the control unit 40 .

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. Of course, various modifications and changes are possible within the scope of equivalents of the claims to be described.

10: Container 11: Wheels
20: cultivation room 22: filter unit
23: temperature sensor 24: humidity sensor
25: CO ₂ sensor 26: inlet
30: discharge line 40: control unit
50: air conditioner 51: communication port
52: supply 53: heater
54: cooling coil 55: heat exchange unit
56: humidifier 57: transfer fan
58: filter member 59: first damper
60: second damper 61: distribution space
62: blower 80: auxiliary heat exchange unit
81: auxiliary heat exchange pipe 82: bypass pipe
83: control valve 84: heat exchanger
85: third damper

Claims (8)

a container 10 that is movable, has a multi-layered interior, and is provided with a cultivation chamber 20 for cultivating the same or different crops on each floor;
Installed on one side of the plurality of cultivation chambers 20 to provide cold/hot air into the cultivation chamber 20,
The air discharged from each cultivation chamber 20 of the container 10 is introduced through the discharge line 30 formed in the outer portion of the container 10, and the temperature of the air inside the cultivation chamber 20; Humidity and CO ₂ concentration is maintained in a preset range set in advance according to the crops to be cultivated, so that the intake and amount of outdoor air is controlled, and the air discharged from the cultivation room 20 is an air conditioner (50) for allowing the circulation to be re-supplied to the chamber (20) to be repeated;
It is installed at the top of the outside of the container 10 or the air conditioner 50 , and after exchanging the air provided from the air conditioner 50 to the container 10 with the outside air, the heat exchanged outside air is added to the inside of the container 10 . Auxiliary heat exchange unit 80 to supply;
A portable air conditioner for multi-layer cultivation of crops, characterized in that it consists of.
The method of claim 1,
The air conditioner (50)
and first and second dampers 59 and 60 for introducing outside air into the air conditioner 50,
The space introduced inside the air conditioner 50 is partitioned so that the outside air flowing into the first and second dampers 59 and 60 is not mixed with each other,
The first damper 59 is configured to allow outside air to flow into each cultivation chamber 20 separately from the air that has passed through the heat exchange unit 55 in the air conditioner 50 when the air temperature inside the container 10 is constant. ON/OFF and opening degree are controlled,
The second damper 60 is configured such that, when the temperature of the air inside the container 10 is reduced within a preset range, the outside air is mixed with the air introduced through the discharge line 30 to pass through the heat exchange unit 55 . After that, the portable air conditioner for multi-layered cultivation of crops, characterized in that ON/OFF and the degree of opening are controlled so that the mixed air is introduced into each cultivation chamber (20).
The method of claim 1,
The air conditioner (50)
a communication port 51 installed on one side of the lower end of the air conditioner 50 and communicating with the discharge line 30;
a heat exchange unit 55 in which a heater 53 and a cooling coil 54 are installed to heat or cool the outside air introduced into the interior and the air moved from the cultivation chamber 20;
a humidifier 56 for maintaining the air introduced from the cultivation chamber 20 at a preset humidity;
a transfer fan 57 for providing outside air and air to the container 10;
a filter member 58 installed at the front and rear ends of the transfer fan 57, respectively, for filtering outside air and air;
A portable air conditioner for multi-layer cultivation of crops, characterized in that it consists of.
3. The method of claim 1 or 2,
The air conditioner (50)
A distribution space 61 is provided between the air conditioner 50 and the multi-layered cultivation room 20 so that the air outlet at the top of the air conditioner 50 communicates with the inlet 26 formed on one side of the cultivation chamber 20 of each floor. ) is formed,
The inlet 26 of each culture chamber 20 is formed to have a different size so that the inlet 26 becomes smaller as the inlet 26 of the culture chamber 20 located on the floor close to the air outlet becomes different. A portable air conditioner for multi-layered cultivation of crops, characterized in that it enables uniform air inflow to each cultivation room (20).
5. The method of claim 4,
LED lights 21 installed inside for the growth of plants for each cultivation room 20;
a filter unit installed on the other side of each cultivation chamber 20 to filter the air discharged to the discharge line 30;
a temperature sensor 23 installed for each cultivation room 20 to measure a temperature;
a humidity sensor 24 installed in each cultivation room 20 to measure humidity;
The provided for each culture chamber (20) CO ₂ sensor 25 for measuring the CO _2;
After receiving the measurement information of the temperature sensor 23 , the humidity sensor 24 , and the CO ₂ sensor 25 , the temperature, humidity, and CO ₂ concentration of the air in each cultivation room 20 are maintained within a preset range. , a control unit 40 for controlling whether outside air is introduced and the amount of outside air flowing through the speed control of the transfer fan 57 of the air conditioner 50;
A portable air conditioner for multi-layer cultivation of crops, characterized in that it is provided.
6. The method of claim 5,
The control unit 40
Together with controlling the inflow of outside air through speed control of the transfer fan 57 of the air conditioner 50,
By individually controlling the opening and closing and the degree of opening and closing of the air inlet 26 formed on one side of the cultivation chamber 20 of each floor, the temperature, humidity, and CO ₂ concentration are different for each cultivation chamber 20 of each floor, respectively, in a preset range A portable air conditioner for multi-layer cultivation of crops, characterized in that it can be maintained as
The method of claim 1,
The auxiliary heat exchange unit 80 is
Simultaneously or individually operated with the air conditioner 50,
It is disposed between the air conditioner 50 and the multi-layered cultivation room 20 and communicates with the upper part of the distribution space 61 for supplying air of the air conditioner 50 to the cultivation room 20, and the cultivation an auxiliary heat exchange tube 81 having both ends horizontally opened and installed on the upper portion of the seal 20;
a bypass pipe 82 having one end communicating with the distribution space 61 and the other end communicating with the auxiliary heat exchange pipe 81;
a control valve 83 installed at a communication portion between the bypass pipe 82 and the auxiliary heat exchange pipe 81 to allow air to move to either side of the auxiliary heat exchange pipe 81;
It is installed inside the auxiliary heat exchange pipe 81 located at the upper end of the multi-layered cultivation chamber 20, and after sucking the outside air, heat exchanges the sucked outside air with the air moving in the auxiliary heat exchange pipe 81, and a heat exchanger 84 to be introduced into the cultivation chamber 20;
a third damper (85) installed at both ends of the auxiliary heat exchange tube (81) to discharge the heat-exchanged air to the outside;
A portable air conditioner for multi-layer cultivation of crops, characterized in that it consists of.
8. The method of claim 7,
The heat exchanger 84 is
A portable air conditioner for multi-layered cultivation of crops, characterized in that a plurality of auxiliary heat exchange tubes (81) are installed spaced apart from each other and operated simultaneously or individually by the control unit (40).

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