KR20210060899A - Small hydroponics cultivation apparatus - Google Patents

Abstract

The present invention relates to a small hydroponics apparatus which can enhance user convenience by autonomously controlling the environment such as temperature, humidity, nutrients, and light conditions required for hydroponics, efficiently execute cooling and heating required for a hydroponics only with a refrigeration cycle, and provide elements necessary for hydroponics by using additionally generated residues. According to the present invention, the small hydroponics apparatus comprises: a plant cultivation body providing a cultivation space; at least one planting support provided in the cultivation space of the plant cultivation body; a lighting unit provided in an upper part of the planting support to provide lighting necessary for plant growth; an air conditioning unit for air conditioning the cultivation space of the plant cultivation body to a predetermined temperature; a humidifying unit for humidifying the cultivation space of the plant cultivation body; a plant growth factor detection unit provided in the cultivation space of the plant cultivation body to detect a growth factor necessary for a growth environment of a cultivation target; and a control unit for controlling the lighting unit, the air conditioning unit, the humidifying unit, and the plant growth factor detection unit.

Description

Small Hydroponic Cultivation Device {SMALL HYDROPONICS CULTIVATION APPARATUS}

The present invention relates to a small hydroponic cultivation device, and more particularly, it is possible to enhance user convenience by self-controlling the environment such as temperature, humidity, nutrients, and light conditions required for hydroponic cultivation, and cooling and cooling required for hydroponic cultivation only with a refrigeration cycle. It relates to a small hydroponic cultivation apparatus capable of efficiently performing heating and providing elements necessary for hydroponic cultivation by using additionally generated residues.

In general, hydroponic cultivation is a method of growing plants in a culture medium with water and water-soluble nutrients without using soil (how to use the land). After installing the cultivation tank on the shelf, a large glass greenhouse is used to cultivate plants.

Heating devices used in conventional glass greenhouses for hydroponic cultivation (hereinafter referred to as'hydroponic cultivation greenhouses') mainly used stoves such as electricity, oil, coal, and firewood. The problem was pointed out that the loss of energy caused energy wasted as well as the problem that it was not possible to maintain the proper temperature at all times. Moreover, the problem that the temperature change due to the difference between the distance from the heating device was severe and carbon monoxide was generated, which had an adverse effect on the plant, was pointed out.

In recent years, there has been suggested a method of configuring an electric heating device with the ceiling of the hydroponic greenhouse to maintain the proper temperature in the hydroponic greenhouse with room temperature air. This method is a stove for electricity, oil, coal, firewood, etc. Compared to that, the convenience and speed of use are expected, and in particular, it has the characteristic that it can always maintain and control the appropriate temperature for plant cultivation.

However, when looking at the facility configuration of the electric heating device, it is often used mounted on the ceiling or wall of the hydroponics greenhouse, and there is a phenomenon in which room temperature air is concentrated in the upper part of the hydroponic greenhouse due to convection, so the heat loss was extreme. Of course, a problem that did not have a major effect on plants located near the ground was pointed out.

In more detail, in winter, the temperature of the hydroponic cultivation greenhouse is sharply decreased due to a decrease in the ground temperature as well as a decrease in the temperature of the air in the winter. When installed and used, the room temperature air emitted from the electric heating device causes convection by the low temperature air generated by the low temperature of the ground and is concentrated to the upper part of the room.

Therefore, if the room temperature air of the electric heating device is concentrated by the convection phenomenon to the interior center or upper part of the hydroponic greenhouse, it has a lower temperature than the upper temperature of the room at the lower part of the room, that is, near the ground where the culture tank is located. There was a problem that many affected plants in the culture vessel could get cold damage, and in particular, there was a problem that caused excessive consumption of energy by causing a lot of heat loss and a large amount of humidity due to the low temperature of the ground.

Agricultural productivity has improved due to the use of chemicals such as pesticides to solve the shortage of food due to the increase of the population due to the recent progress of industrialization, but in the process of cultivation, components harmful to the human body depend on fertilizers such as growth accelerators and indolbi. As it is included, there are increasing cases of people avoiding ingestion and causing side effects to the human body.

Accordingly, the issue of safe food is important, and interest in cultivation of food with no pesticides such as pollution-free vegetables is being turned, and accordingly, a lot of efforts are being made on the development of new agricultural technologies.

On the other hand, since certain farmland is required to grow vegetables, it is practically difficult to cultivate vegetables in cities, and even if they are grown indoors, such as at home, they had to be raised in a shaded place. There was a hassle in terms of maintenance, such as having to water when the time came.

In order to solve these problems, in recent years, many technologies for cultivating plants using artificial lighting and artificial nutrient solutions have been developed in a certain facility.

On the other hand, in the case of conventional home hydroponic cultivation, the heating system used in the existing large hydroponic cultivation cannot be applied to provide the necessary temperature for hydroponic cultivation. There was a problem with that.

Republic of Korea Patent Publication 10-1590808 (2016.02.03. Announcement) Republic of Korea Patent Publication 10-1223763 (2013.01.17. Announcement) Republic of Korea Patent Publication 10-0404389 (announcement on November 12, 2003) Republic of Korea Utility Model Publication 20-0429390 (announced on October 23, 2006) Republic of Korea Patent Publication 10-1045302 (2011.06.30. Announcement)

Accordingly, the present invention for solving the above-described conventional problem is to provide a small hydroponic cultivation device capable of enhancing user convenience by self-controlling the environment such as temperature, humidity, nutrients, and light conditions required for hydroponic cultivation. have.

In addition, the present invention is to provide a small hydroponic cultivation apparatus capable of efficiently performing cooling and heating required for hydroponic cultivation only with a refrigeration cycle, and providing water required for hydroponic cultivation by using additionally generated residues. have.

The problem of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention for achieving the objects and other features of the present invention, a plant cultivation body providing a cultivation space; At least one planting support provided in the cultivation space of the plant cultivation body; A lighting unit provided on an upper portion of the planting support to provide lighting necessary for plant growth; An air conditioning unit for air conditioning the cultivation space of the plant cultivation body at a predetermined temperature; A humidifying unit for humidifying the cultivation space of the plant cultivation body; A plant growth factor detection unit provided in the cultivation space of the plant cultivation body and configured to detect a growth factor required for a growth environment of a cultivation target; And a control unit for controlling the lighting unit, air conditioning unit, humidification unit, and plant growth factor detection unit, wherein the air conditioning unit includes a refrigeration cycle means including a compressor, a condenser, an expansion valve, and an evaporator, and the condenser A blowing fan provided on each side of the evaporator, a blowing duct configured to guide the air blown by the blowing fan to the inside and outside of the plant cultivation body, and a blowing duct provided in the blowing duct to transfer the blowing air of the plant cultivation body. There is provided a small hydroponic cultivation apparatus comprising a flow path changing means configured to selectively change to the inside or outside.

In the present invention, the lighting unit includes blue and red LEDs, and the other end of the ventilation duct is branched in a T-shape, and one side communicates with the inside of the plant cultivation body, and the other side is with the outside of the plant cultivation body. It is configured to be in communication, and the flow path changing means may include a flow path changing member configured in the T-shaped branch and configured to selectively open and close the flow path, and a driving motor for switching the direction of the flow path changing member.

In the present invention, the humidification unit includes a humidifier module for generating humidification, a water tank for supplying water to the humidifier module, and humidification for providing the humidification generated in the humidifier module to the cultivation space of the plant cultivation body. It includes a supply duct, wherein the plant growth factor detection unit includes a temperature detection sensor for detecting a temperature of a cultivation space of the plant cultivation body, a humidity detection sensor for detecting humidity of a cultivation space of the plant cultivation body, and the An oxygen-carbon dioxide detection sensor for detecting the concentration of oxygen and carbon dioxide in the cultivation space of the plant cultivation body, and a plurality of position detection sensors configured in the plant cultivation body to detect the height of plants grown in the cultivation space. I can.

In the present invention, the control unit includes: a memory unit in which data on a growing condition suitable for a plant to be cultivated is built and stored in advance; A control factor determination unit configured to determine a control determination value by comparing the detected value detected by each sensor with the data stored in the memory unit; A control execution unit that controls an operation of a component requiring control with a control value determined by the control factor determination unit; And a display unit for displaying data or processes executed by the control factor determination unit and the control execution unit.

In the present invention, the control execution unit includes a lighting control unit for controlling color light and illuminance of the lighting unit, an air conditioning control unit for controlling the air conditioning unit, a humidification control unit for controlling the humidification unit, and the water tank. A condensate storage tank including a pumping control unit for controlling a pumping operation of a pump for pumping water, and a condensate storage tank in which condensate water generated by heat exchange in the evaporator is collected, and a condensate supply pipe connecting the condensate storage tank and the water tank And, a filter member provided in the condensate supply pipe to filter foreign substances, and a condensate pump for pumping water from the condensate storage tank to the water tank, wherein the control execution unit controls the condensate pump. It characterized in that it further comprises.

According to the small hydroponic cultivation apparatus according to the present invention provides the following effects.

First, the present invention has the effect of enhancing user convenience by controlling the growing environment required for vegetable cultivation.

Second, the present invention has the effect of efficiently executing the cooling and heating required for hydroponic cultivation only by the refrigeration cycle.

Third, the present invention has the effect of increasing the functionality and usability by using the by-products additionally generated by using the refrigeration cycle for hydroponic cultivation.

The effects of the present invention are not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a front view schematically showing the configuration of a small hydroponic cultivation apparatus according to the present invention.
Figure 2 is a side view schematically showing the configuration of a small hydroponic cultivation apparatus according to the present invention.
3 is a plan view schematically showing the configuration of a small hydroponic cultivation apparatus according to the present invention.
Figure 4 is a block diagram showing the configuration of the control unit included in the small hydroponic cultivation apparatus according to the present invention.
5 is a block diagram showing the configuration of a control execution unit constituting a control unit included in the small hydroponic cultivation apparatus according to the present invention.
6 is a conceptual diagram illustrating a first operation example of a temperature control operation by an air conditioning unit included in a small hydroponic cultivation apparatus according to the present invention.
7 is a conceptual diagram showing a second operation example of the temperature control operation by the air conditioning unit included in the small hydroponic cultivation apparatus according to the present invention.

Additional objects, features, and advantages of the present invention may be more clearly understood from the following detailed description and accompanying drawings.

Prior to the detailed description of the present invention, the present invention is capable of various modifications and various embodiments, and the examples described below and shown in the drawings are intended to limit the present invention to specific embodiments. It should be understood as including all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present specification 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 the present specification, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof does not preclude in advance.

In addition, terms such as "... unit", "... unit", "... module" described in the specification mean a unit that processes at least one function or operation, which is hardware, software, or hardware and It can be implemented as a combination of software.

In addition, in the description with reference to the accompanying drawings, the same reference numerals are assigned to the same components regardless of the reference numerals, and redundant descriptions thereof will be omitted. In describing the present invention, when it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, throughout the specification of the present application, when a step is positioned "on" or "before" another step, it is not only the case that the step is in a direct time series relationship with the other step, but also the mixing step after each step and Likewise, the order of the two steps includes the same rights as in the case of an indirect time-series relationship that can change the order of the time series.

Hereinafter, a small hydroponic cultivation apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view schematically showing the configuration of a small hydroponic cultivation device according to the present invention, Figure 2 is a side view schematically showing the configuration of a small hydroponic cultivation device according to the present invention, and Figure 3 is a small hydroponic cultivation according to the present invention It is a plan view schematically showing the configuration of the device. Figure 4 is a block diagram showing the configuration of the control unit included in the small hydroponic cultivation apparatus according to the present invention, Figure 5 is a block showing the configuration of the control execution unit constituting the control unit included in the small hydroponic cultivation apparatus according to the present invention It is a degree. 6 is a conceptual diagram showing a first operation example of the temperature control operation by the air conditioning unit included in the small hydroponic cultivation apparatus according to the present invention, Figure 7 is the temperature by the air conditioning unit included in the small hydroponic cultivation apparatus according to the present invention It is a conceptual diagram showing an example of a second operation of the adjustment operation.

Small hydroponic cultivation apparatus according to the present invention, as shown in Figs. 1 to 7, largely plant cultivation body 110; Planting support 120; Lighting unit 130; An air conditioning unit 200; Humidification unit; Plant growth factor detection unit 400; And a control unit 500;

Specifically, a small hydroponic cultivation apparatus according to the present invention includes a plant cultivation body 110 providing a cultivation space; At least one planting support 120 provided in the cultivation space of the plant cultivation body 100; A lighting unit 130 provided on the upper side of the planting support 120 to provide lighting necessary for plant growth; An air conditioning unit 200 for air conditioning the cultivation space of the plant cultivation body 110 to a predetermined temperature; A humidifying unit for humidifying the cultivation space of the plant cultivation body 110; A plant growth factor detection unit 400 provided in the cultivation space of the plant cultivation body 110 to detect a growth factor required for a growth environment of a cultivation target; And a control unit 500 for controlling the lighting unit 130, the air conditioning unit 200, the humidification unit, and the plant growth factor detection unit 400.

The plant cultivation body 110 is formed in a housing shape of a relatively small structure so that it can be provided in a home, and an opening and closing door that can be opened and closed is configured on one side.

The at least one planting support 120 is not particularly limited as long as it is a shape and configuration capable of growing by planting a plant object, and in the drawing, the planting support 120 is formed with a partition wall 121 in which a circulation hole capable of air flow is formed. At this time, the partition wall 121 is formed to be arranged in the form of a multi-layer in the vertical direction in the plant cultivation body 110, and the planting support 120 may be installed on the upper surface thereof.

Here, the planting support 120 is configured to be inclined to one side, that is, to have an inclined gradient from one side to the other side. Accordingly, the nutrient solution and the like provided on the planting support 120 flow to the downwardly inclined side.

In addition, the lighting unit 130 is preferably configured by employing various LEDs (Light Emitting Diodes) such as blue and red that generate specific color light and wavelength according to the type and growth state of the plant object.

Next, the air conditioning unit 200 includes a refrigeration cycle means including a compressor 210, a condenser 220, an expansion valve 230, and an evaporator 240, and each of the condenser 220 and the evaporator 240 A blowing fan 250 provided on one side to blow heat exchanged heat, and a blowing duct 260 configured to guide the air blown by the blowing fan 250 to the plant cultivation body 110 and the outside, and It is provided in the blowing duct 260 and includes a flow path changing means for selectively guiding the direction of the blowing air to the inside or outside of the plant cultivation body 110.

Since the refrigeration cycle means may employ a known configuration, a detailed description thereof will be omitted. However, in the present invention, condensed water generated by heat exchange in the evaporator 240 is used as water for hydroponic cultivation or water for a humidification unit.

The other end of the blowing duct 260 is branched in a T-shape, and one side communicates with the inside of the plant cultivation body 110 and the other side communicates with the outside (outside) of the plant cultivation body 110.

In addition, the flow path of the blown air is converted by the flow path changing means configured in the T-shaped branch of the blowing duct 260, and the flow path changing means is provided at the other end of the blowing duct 260 to selectively select the flow path. And a valve-type flow path switching member 271 configured to open and close, and a driving motor 272 for switching and driving the direction of the valve-type flow path switching member 271.

In addition, the air conditioning unit 200 is an outside air introduction duct (not shown) communicating to supply outside air, and a valve member for controlling the amount of outside air supplied through the outside air introduction duct controlled by the control unit 500 It may further include (not shown).

Next, the humidification unit is a humidifier module 310 for generating humidification, a water tank 320 for providing water to the humidifier module 310, and the humidification generated in the humidifier module 310 It includes a humidification supply duct 330 for providing the cultivation space of the cultivation body 110.

Here, when the water level sensor is provided in the water tank 320 and the water level falls below a certain amount, a signal is transmitted to the control unit 500 to be described later, and the water generated by the evaporator 240 in the control unit 500 It controls to replenish water from an auxiliary tank (not shown) stored by filtering. Of course, when the water tank 320 is insufficient, the user may directly fill it with water to replenish it.

Subsequently, the plant growth factor detection unit 400 detects the temperature detection sensor 410 for detecting the temperature of the cultivation space of the plant cultivation body 110 and the humidity of the cultivation space of the plant cultivation body 110 And a humidity detection sensor 420 for detecting the concentration of oxygen and carbon dioxide in the cultivation space of the plant cultivation body 110, and an oxygen-carbon dioxide detection sensor 430, and the plant cultivation body 110. It includes a plurality of position detection sensors 440 for detecting the height of plants grown in the cultivation space.

Since specific examples of each of the sensors may employ a known one, a description thereof will be omitted for clarity and simplification of description of the invention.

Next, the control unit 500 receives a detection signal from each detection unit and converts it to a digital control value, with a memory unit 510 in which data on a growth condition suitable for a plant to be grown is previously built and stored. A signal receiving unit 520 such as an AD converter for, and a control factor determining unit 530 for determining a control decision value by comparing the detected value provided by the signal receiving unit 520 with data stored in the memory unit 510; A control execution unit 540 that controls the operation (lighting, humidification, air conditioning, pump, dispenser, etc.) of components that need to be controlled with the control value determined by the control factor determination unit 530, and communicates with an external terminal through wired or wireless communication. It includes a wired/wireless communication unit 550 configured to be capable of, and a display unit 560 for displaying an execution process or data executed by each unit. In addition, the controller 500 may further include an application linking unit 570 capable of interworking with a linked application installed in a user's smart terminal.

The memory unit 510 stores data on conditions suitable for the growing environment according to the plant to be grown, for example, lighting, nutrient solution supply, temperature, humidity, air conditioning (amount of oxygen, amount of carbon dioxide), and so on. It provides a default value for controlling in real time or at a fixed period, and may be configured to store data on a growing environment and a detection value detected in real time. The data includes growing environmental conditions suitable for the growing state (height) of the growing crop sensed by the position sensor.

It is preferable that the memory unit 510 is configured as a replaceable memory device having a data value suitable for a corresponding plant to be grown. When configured as a memory device as described above, the present invention can be applied to a relatively small cultivation system applied to a home or the like by minimizing the operating load, simplifying the equipment, and reducing the cost of the system.

The control factor determination unit 530 omits control execution for these control factors when comparing with pre-stored data, for example, when the detected temperature, humidity, lighting, etc., is the same as or within a predetermined range. It is decided to hold and execute control only for control factors different from the previously stored data value or out of a predetermined range.

The control execution unit 540 includes a lighting control unit 541 for controlling color light, illuminance, etc. of the lighting unit 130, an air conditioning control unit 542 for controlling the air conditioning unit 200, and the humidification unit It includes a humidification control unit 543 for controlling, and a pumping control unit 544 for controlling respective pumping operations, such as a recovery pump and a culture solution pump. In addition, the control execution unit 540 further includes a second pumping control unit 545 for pumping condensed water described below.

The pumping control unit 544 is configured to control irregularly based on a predetermined time period set in advance or a control factor determination value obtained by comparing data previously stored in the memory unit 510 with a detection value.

Next, the wired/wireless communication unit 550 may be configured to communicate with a user terminal device such as a smartphone through short-range wireless communication or an LTE communication network.

The application linkage unit 570 may be configured to execute the control execution unit with a command from an execution unit provided in an application executed in a user terminal device.

Here, the smart terminal device may be configured to display various data and real-time conditions of the system.

On the other hand, the small-sized plant cultivation apparatus according to the present invention includes a condensed water storage tank in which heat exchange water (condensed water) generated by heat exchange in the evaporator 240 constituting the air conditioning unit is collected, the condensed water storage tank and the water tank 320 ), a filter member provided in the condensed water supply pipe to filter foreign substances, and a condensate pump for pumping water from the condensate storage tank to the water tank 320.

The condensate pump is controlled by a second pumping control unit 545 constituting the control execution unit 540 of the control unit 500. For example, the second pumping control unit 545 receives a detection signal from a water level sensor provided in the water tank 320 and controls the water to be supplied from the condensate storage tank.

According to the small hydroponic cultivation apparatus according to the present invention as described above, user convenience can be enhanced by controlling the growing environment required for vegetable cultivation by itself, and cooling and heating required for hydroponic cultivation can be efficiently executed with only a refrigeration cycle. , There is an advantage of increasing functionality and usability by using additional by-products generated by using a refrigeration cycle for hydroponic cultivation.

Although the above-described embodiments have been described by the limited drawings, a person of ordinary skill in the art can apply various technical modifications and variations based on the above. For example, the described techniques are performed in a different order from the described method, and/or components such as systems, structures, devices, circuits, etc. described are combined or combined in a form different from the described method, or other components Alternatively, even if substituted or substituted by an equivalent, an appropriate result can be achieved.

The embodiments described in the present specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Accordingly, it is obvious that the embodiments disclosed in the present specification are not intended to limit the technical idea of the present disclosure, but to explain the technical idea, and thus the scope of the technical idea of the present disclosure is not limited by these embodiments. Modification examples and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical idea included in the specification and drawings of the present invention should be interpreted as being included in the scope of the present invention.

110: plant cultivation body
120: planting support
130: lighting unit
200: air conditioning unit
210: compressor
220: condenser
230: expansion valve
240: evaporator
250: blower fan
260: ventilation duct
271: valve type flow path switching member
272: drive motor
310: humidifier module
320: water tank
330: humidification supply duct
400: plant growth factor detection unit
410: temperature detection sensor
420: humidity detection sensor
430: oxygen-carbon dioxide detection sensor
440: position detection sensor
500: control unit
510: memory unit
520: signal receiver
530: control factor determination unit
540: control execution unit
541: lighting control unit
542: air conditioning control unit
543: humidification control unit
544: pumping control section
545: second pumping control section
550: wired and wireless communication department
560: display unit
570: application linkage unit

Claims (5)

Plant cultivation body providing a cultivation space;
At least one planting support provided in the cultivation space of the plant cultivation body;
A lighting unit provided on an upper portion of the planting support to provide lighting necessary for plant growth;
An air conditioning unit for air conditioning the cultivation space of the plant cultivation body at a predetermined temperature;
A humidifying unit for humidifying the cultivation space of the plant cultivation body;
A plant growth factor detection unit provided in the cultivation space of the plant cultivation body to detect a growth factor required for a growth environment of a cultivation target; And
Includes; a control unit for controlling the lighting unit, the air conditioning unit, the humidification unit, and the plant growth factor detection unit,
The air conditioning unit includes a refrigeration cycle means including a compressor, a condenser, an expansion valve, and an evaporator, a blowing fan provided on one side of each of the condenser and the evaporator, and air blown by the blowing fan into the interior of the plant cultivation body. It characterized in that it comprises a blowing duct configured to guide to the outside, and a flow path changing means provided in the blowing duct and configured to selectively change the blown air to the inside or outside of the plant cultivation body.
Small hydroponic cultivation device.
The method of claim 1,
The lighting unit includes blue and red LEDs,
The blowing duct has the other end branched in a T-shape, and one side is in communication with the inner side of the plant cultivation body and the other side is configured to communicate with the outside of the plant cultivation body,
The flow path changing means comprises a flow path switching member configured in the T-shaped branch portion to selectively open and close the flow path, and a drive motor for switching and driving the direction of the flow path switching member.
Small hydroponic cultivation device.
The method of claim 1,
The humidification unit includes a humidifier module for generating humidification, a water tank for providing water to the humidifier module, and a humidification supply duct for providing humidification generated in the humidifier module to the cultivation space of the plant cultivation body, and ,
The plant growth factor detection unit includes a temperature detection sensor for detecting a temperature of a cultivation space of the plant cultivation main body, a humidity detection sensor for detecting humidity of a cultivation space of the plant cultivation main body, and a cultivation space of the plant cultivation main body. An oxygen-carbon dioxide detection sensor for detecting the concentration of oxygen and carbon dioxide in, and a plurality of position detection sensors configured in the plant cultivation body and configured to detect the height of plants grown in the cultivation space.
Small hydroponic cultivation device.
The method of claim 3,
The control unit,
A memory unit in which data on growth conditions suitable for cultivated plants are built and stored in advance;
A control factor determination unit configured to determine a control determination value by comparing the detected value detected by each sensor with the data stored in the memory unit;
A control execution unit that controls an operation of a component requiring control with a control value determined by the control factor determination unit; And
And a display unit for displaying data or processes executed by the control factor determination unit and the control execution unit.
Small hydroponic cultivation device.
The method of claim 4,
The control execution unit includes a lighting control unit for controlling color light and illuminance of the lighting unit, an air conditioning control unit for controlling the air conditioning unit, a humidification control unit for controlling the humidification unit, and pumping water from the water tank. It includes a pumping control unit for controlling the pumping operation of the pump,
A condensed water storage tank in which condensed water generated by heat exchange in the evaporator is collected, a condensed water supply pipe connecting the condensed water storage tank and the water tank, a filter member provided in the condensed water supply pipe to filter foreign substances, and the condensed water Further comprising a condensate pump for pumping water from the storage tank to the water tank,
The control execution unit further comprises a second pumping control unit for controlling the condensate pump.
Small hydroponic cultivation device.

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