KR102307753B1 - Plant cultivation method and plant cultivation system for plant factory using cultivation bed of circulation rotarty type - Google Patents

Abstract

The present invention relates to a plant cultivation method and a plant cultivation system for an urban plant factory using a rotary circulation-type cultivation bed. According to the present invention, the circulation-type cultivation bed is used for space efficiency maximization, the cultivation bed is attachable and detachable to facilitate transplanting and harvesting, and a management barcode is attached to the bed to facilitate management for transplanting, temporary storage, and harvesting. According to the method of the present invention, a circular drive device causes the cultivation bed to perform circular rotation along a closed circuit-type main circulation trajectory in a space or a zone installed with a light source for plant growth. With respect to the bed circulating along the main circulation trajectory, irrigation water is supplied downward from above through a water supply line of a ceiling portion. The cultivation bed is moved to separate spaces or zones respectively provided with branch circulation trajectories branching off and merging with the main circulation trajectory so that a dark environment is provided with respect to the plant of the cultivation bed and the plant is transplanted and harvested.

Description

Urban Plant Factory Plant Cultivation Method and Urban Plant Factory Plant Cultivation System Using a Circulating Rotating Cultivation Bed

The present invention relates to an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotational circulation type cultivation bed, and more particularly, it is possible to grow plants while rotating the cultivation bed in a circulation method, thereby maximizing space efficiency. It is suitable for urban plant factories, and since the cultivation bed is detachable, it is easy to transplant and harvest to improve workability, and by using a vertical cultivation bed, the amount of water can be significantly reduced. It relates to an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotational circulation cultivation bed, which can be easily managed for transplantation, temporary storage, and harvesting.

The plant factory has been actively researched and developed in Europe, the United States, and Japan since the world's first plant factory to automatically produce watercress in a batch at Christen Farm in Denmark in 1957.

The advantages of these plant factories are that planned and stable production is possible throughout the year, high-quality agricultural products can be produced, and early harvest is possible in at least one third or less compared to open-field cultivation, so land productivity can be increased, and daily sowing is possible. And since it can be harvested every day, the labor load can be averaged throughout the year, and people can be freed from hard work.

Recently, plant factories are expected to have an impact on various front and rear industries through plant factories, such as the development of next-generation energy sources and the creation of green environments, as well as for securing food stably. is being done It is an important field in which domestic agriculture and fishery can be developed into cutting-edge agriculture and fishery by grafting cutting-edge convergence technology to the existing agricultural and fishery fields. This is an important field that Korea should focus on nurturing.

In addition, plant factories are recognized as a field that can contribute to solving problems facing the world, such as food security in response to global climate change and the realization of a green environment through energy reduction. In particular, as Korea experienced a vegetable crisis due to bad weather in 2010, it was confirmed that securing a stable food source has a huge impact on the nation and the economy of the common people. are collecting

However, the conventional fully-controlled plant factory has high construction and electric power costs, so it is subject to considerable restrictions on practical use.

On the other hand, the elements that a plant factory must have include facilities and buildings, lighting devices, air conditioning devices, gas control devices, hydroponic cultivation systems, transport devices, and automation facilities. This is accumulating.

The dual lighting device should be mainly composed of a lighting device with low heat and sufficient light. In this case, lighting performance to be considered includes light source, light quality, amount of light, light intensity, and photoperiod. In the early days, plant factories used incandescent lamps, fluorescent lamps, sodium lamps, etc. as light sources, but recently, when light of a selective wavelength is supplied by LED, the effect of promoting plant growth, shortening the cultivation period, controlling dyes or enhancing antioxidants, and controlling diseases and pests. As it is confirmed that it is visible, LED is widely used.

However, since a plant factory needs to use a lot of LED lights to grow plants in vertical multi-stage in a narrow space, the LED lighting equipment cost (30-40% of the plant factory construction cost) is high, and a lot of heat is generated from the LED lighting. Therefore, there is a disadvantage in that the operating cost increases because the air conditioning system is constantly operated.

Here, the photoperiod refers to the response to the growth and flowering of plants for the length of light/dark (day/night) in a day (24 hours). According to the thesis (Lee Hye-in, Chonbuk National University's Department of Biological Industrial Mechanical Engineering Master's thesis, May 11, 2011; Lee Jae-soo, Chonbuk National University's Department of Biological Industrial Mechanical Engineering Master's thesis, 2012. 2. 22) The longer the biomass, the higher the biomass, but the content of anthocyanin, an effective biocomponent, was the highest under the condition of 12/12 photoperiod, and the content of vitamin C was highest when the photoperiod was 16/8. Another thesis (Soonju Kwon, Master's thesis, Department of Agricultural Engineering, Gyeongsang National University, 2012. 8.) showed that, when LED lighting is applied, the live weight (root and leaf), root and leaf number of lettuce are relatively good as the photoperiod increases, but the growth status is relatively good. Leaf length and leaf width [important in terms of product quality] are reported to be relatively good in the photoperiod of 12/12. There is also a report that light inhibits stem growth but promotes leaf growth, and that in lettuce and radish, if the photoperiod is short, the above-ground/underground ratio increases (http://www.cropsreview.com/photoperiodism). .html).

Although studies on the biomass and effective biocomponent content of various crops according to the photoperiod of LED lighting have not been conducted yet, it is clear that the lighting should be controlled according to the unique photoperiod of crops grown in plant factories.

However, the plant factories known so far have a vertical multi-stage shelf structure, a tray or bed for plant cultivation is mounted in the space below each shelf, and a lighting device is installed in the upper space of the shelf. At this time, the capacity of the lighting device (eg, the number of LEDs and light intensity) is irradiated over the entire area of the tray or bed, and is determined to be optimal for the cultivated crop. In addition, when operating a plant factory, the lighting is generally turned on for 12 to 18 hours and the lights are turned off for the remaining 6 to 12 hours so that the photoperiod is appropriate depending on the physiological characteristics and target quality of the crops being grown.

In this way, for example, if a plant factory is operated on 12/12 Gwangju, the reality is that only 50% of the expensive LED lighting devices are inevitably utilized. Insufficient utilization of such LED lighting devices has not been explicitly discussed or raised up to now, but on the one hand, expensive LED lighting devices are wasted, and on the other hand, by reducing the spatial utilization of the plant factory, ultimately plants It is becoming an important factor that reduces the economic feasibility of factories and makes it difficult to activate them.

Republic of Korea Registered Utility Model Publication 20-0489993 (2019.09.05. Announcement) Republic of Korea Patent Publication No. 10-1454198 (2014.11.03. Announcement) Republic of Korea Patent Publication No. 10-1658388 (2016.09.21. Announcement) Republic of Korea Patent Publication No. 10-1571548 (2015.11.24. Announcement)

Therefore, the present invention for solving the above-mentioned problems of the prior art can grow plants while rotating the cultivation bed in a circulation method, thereby maximizing the space efficiency, making it suitable for urban plant factories, and since the cultivation bed is detachable, it is possible to perform transplantation and treatment. To provide an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotating circulation type cultivation bed, which improves workability due to easy harvesting and can significantly reduce the amount of water by using a vertical cultivation bed There is this.

In addition, the present invention can increase work efficiency by dividing a zone for plant transplantation, temporary storage, and harvesting so that the cultivation bed is moved to the corresponding zone, and transplantation, temporary storage and harvesting by attaching a management barcode to the cultivation bed Another object of the present invention is to provide an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotational circulation type cultivation bed, which can be easily managed for.

In addition, the present invention can create an economical and efficient growth environment by minimizing the installation cost and unnecessary cooling because the plant and the light source (LED lighting device) do not need to be installed in a 1:1 ratio as the cultivation bed is implemented in a circular rotation method. Another object of the present invention is to provide an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotational circulation cultivation bed.

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

According to one aspect of the present invention for achieving the objects and other features of the present invention, in the urban plant factory plant cultivation method, the cultivation bed is a closed circuit type through a circulation driving device in a space or area where a light source for plant growth is installed. to rotate cyclically along the main circular trajectory of ; so that irrigation is supplied from the upper side to the lower side through the water supply line of the ceiling part with respect to the cultivation bed circulating along the main circulation track; In order to provide a dark environment for plants in the cultivation bed, plant transplantation, and harvest, the cultivation bed is moved to a plurality of separate spaces or separate areas each equipped with a plurality of branch circulation orbits branching and rejoining from the main circulation orbit. An urban plant factory plant cultivation method using a rotational circulation type cultivation bed is provided, characterized in that

In one aspect of the present invention, the movement of the cultivation bed to a separate space or a separate area drives the circulation driving device in a central control module based on data input with information about a barcode attached to the cultivation bed, , a branching device installed at a branch point of the main circulation orbit and branching circulation orbit may be switched to branch and guide the cultivation bed from the main circulation orbit to the corresponding branch circulation orbit so that the cultivation bed is moved to a corresponding separate space or separate area.

According to another aspect of the present invention, in an urban plant factory plant cultivation system, one or more closed circuit type main circulation orbits configured in a main space provided with a light source for plant growth; a circulation driving device configured to be driven along the main circulation trajectory according to a control signal of the following central control module; a plurality of vertical cultivation beds provided to circulately move along the main circulation track by driving the circulation driving device; an irrigation supply device configured to supply water to the cultivation bed; and a central control module configured to control the operation of the circulation driving device and the irrigation supply device.

In another aspect of the present invention, a plurality of branch circulation orbits which are provided in a separate space or separate area separate from the main space, branched from the main circulation orbit and joined again; and a branching device configured at a branch point of the main circulation orbit and each branch circulation orbit, and operated according to a control signal from the central control module to move the cultivation bed to the main circulation orbit or branch circulation orbit. can

In another aspect of the present invention, the main circulation orbit and the branch circulation orbit are provided opposite to the upper circulation orbit in the upper circulation orbit and the bottom provided in the ceiling, and a plurality of return holes are formed, the cultivation and a lower guide rail for guiding the guide rolling roller provided at the lower end of the bed, wherein the circulation driving device includes a moving roller moving along the upper circulation track, and one side is coupled to the moving roller, and the other side is the cultivation It may include a drive chain connected to the bed, and a drive means that transmits power for rotationally driving the drive chain and is driven by an operation signal of the central control module.

In another aspect of the present invention, the vertical cultivation bed, a bed body is formed in a rectangular shape and a cutout is formed in the longitudinal direction; and a planting filler provided in the bed body and formed of a plantable material.

In another aspect of the present invention, the planting filler is made of a sponge, and is configured between the circulation driving device and the cultivation bed, and a detachable coupling means for removably coupling the cultivation bed to the circulation driving device; further comprising can do.

In another aspect of the present invention, the detachable coupling means, a connection frame connected to the drive chain; a locking ring provided on the connection frame; and a locking groove formed on one surface of the upper end of the cultivation bed to catch the locking ring.

In another aspect of the present invention, the irrigation supply device includes a water supply tank, a water pump for pumping water from the water supply tank, and a water supply provided with a gap on one side of the upper main circulation track of the main circulation track and a water supply line connected between the water pump and the water supply port to supply the water pumped from the water pump to the water supply port, wherein the water supply port has a distance in the longitudinal direction from the water supply line. It may include an extension line that communicates with the water supply line and extends downward, and a swash plate provided at the end of the extension line, so that the supplied water flows down the surface and flows down to the upper end of the cultivation bed.

In another aspect of the present invention, the cultivation bed is provided with a barcode having information on the corresponding cultivation bed and planted plants, and the central control module stores and builds the information of the barcode, and based on the data according to the barcode Thus, it can be made to automatically control the movement of the cultivation bed to a separate area or a separate space for transplantation and harvesting.

According to the urban plant factory plant cultivation method and the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention, the following effects are provided.

First, the present invention has the effect of providing an optimized urban plant factory by maximizing space efficiency by cultivating plants while rotating the cultivation bed in a circulatory manner.

Second, the present invention has the effect of reducing the working space for harvesting and increasing the harvesting space by circulating the cultivation bed, improving the working environment by minimizing the movement of workers for harvesting, and reducing labor.

Third, according to the present invention, since the cultivation bed is configured to be detachable, transplantation and harvesting of plants can be performed in individually separated rebebed, thereby further improving workability.

Fourth, the present invention has the effect of further increasing manageability and work efficiency by dividing a zone for plant transplantation, temporary storage, and harvesting, and allowing the cultivation bed to be moved to the corresponding zone.

Fifth, the present invention has the effect of easily managing for transplantation, temporary storage and harvesting by attaching a management barcode to the cultivation bed.

Sixth, according to the present invention, there is no need to install plants and a light source (LED lighting device) in a 1:1 ratio as the cultivation bed is implemented in a circular rotation method, thereby minimizing installation costs and unnecessary cooling, thereby creating an economical and efficient growth environment. there is an effect

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

1 is a block diagram schematically showing the configuration of a plant cultivation system for an urban plant factory using a rotational circulation type cultivation bed according to the present invention.
2 is a view showing some constituent parts constituting the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention.
3 is a diagram schematically illustrating an embodiment of a main circulation orbit and a branch circulation orbit included in the urban plant factory plant cultivation system using a rotational circulation type cultivation bed according to the present invention.
4 is a view showing a circulation driving device and a cultivation bed constituting the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention.
5 is a diagram schematically illustrating the arrangement relationship of the light source, the cultivation bed, and the irrigation supply device included in the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention.
6 is a view showing embodiments of the irrigation supply device included in the urban plant factory plant cultivation system using the rotational circulation type cultivation bed 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 can make various changes and can have various embodiments, and the examples described below and shown in the drawings are not intended to limit the present invention to specific embodiments. No, it should be understood to include all modifications, 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 the other component may be directly connected or connected to the other component, but other components may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that no other element is present in the middle.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as "comprises" or "have" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

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

In addition, in the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, an urban plant factory plant cultivation method and an urban plant factory plant cultivation system using a rotational circulation type cultivation bed according to a preferred embodiment of the present invention will be described in detail.

First, a method for cultivating a plant in an urban plant factory using a rotational circulation type cultivation bed according to the present invention will be described in detail.

The urban plant factory plant cultivation method using the rotating circulation type cultivation bed according to the present invention, in the urban plant factory plant cultivation method, the vertical cultivation bed through the circulation driving device in the area where the plant growth light source (LED lighting device) is installed to rotate cyclically along the main circular trajectory; so that irrigation is supplied from the upper side to the lower side through the water supply line of the ceiling part with respect to the cultivation bed circulating along the main circulation track; When it is necessary to create a dark environment for plants in the cultivation bed, plant transplantation, and harvest, the cultivation bed is moved to a plurality of separate compartment spaces each equipped with a plurality of branched circulation orbits branching from the main circulation orbit and rejoining again. characterized in that

In the movement of the cultivation bed to the separate compartment space, the central control module drives the circulation driving device based on the input data of the barcode attached to the cultivation bed, and the branching point of the main circulation orbit and the branch circulation orbit. Branching is switched through the branching device installed on the premises to guide the cultivation bed from the main circulation track to the corresponding branch circulation track so that the cultivation bed moves to the corresponding compartment space. Thereafter, the cultivation bed may be returned back to the main circulation orbit from the branch circulation orbit by the circulation driving device.

Next, for the urban plant factory plant cultivation system using the rotation circulation type cultivation bed according to the present invention for implementing the method of cultivation of urban plant factory plants using the rotation circulation type cultivation bed according to the present invention as described above, Figs. 6 will be described in detail.

1 is a block diagram schematically showing the configuration of a plant cultivation system for an urban plant factory using a rotational circulation type cultivation bed according to the present invention, and FIG. 2 is an urban plant factory plant using a rotational circulation type cultivation bed according to the present invention. It is a view showing some components constituting the cultivation system, and FIG. 3 schematically shows an embodiment of the main circulation orbit and the branch circulation orbit included in the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention. It is a drawing. 4 is a view showing a circulation driving device and a cultivation bed constituting a plant cultivation system of an urban plant factory using a rotational circulation type cultivation bed according to the present invention, and FIG. 5 is an urban plant using a rotational circulation type cultivation bed according to the present invention. It is a view schematically showing the arrangement relationship of the light source included in the plant cultivation system, the cultivation bed, and the irrigation supply device, and FIG. 6 is the irrigation supply included in the urban plant factory plant cultivation system using the rotational circulation cultivation bed according to the present invention. It is a figure which shows the embodiment of an apparatus.

The urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention, in the urban plant factory plant cultivation system, as shown in FIGS. 1 to 6, is largely a light source for plant growth (ie, LED lighting device) (10); Closed circuit type main circulation orbit (100); circulation drive device 200; vertical cultivation bed 300; irrigation supply device 400; and a central control module 500; in addition, a branch circulation orbit 600; and a branching device 700; may further include.

Specifically, the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention, in the urban plant factory plant cultivation system, as shown in FIGS. 1 to 6, a light source for plant growth (ie, LED lighting) one or more closed-loop main circulation orbits 100 configured in a main space (or main zone) 101 equipped with an apparatus) 10; a circulation driving device 200 configured to be driven along the main circulation trajectory 100 according to a control signal of the following central control module 500; a plurality of vertical cultivation beds 300 provided to circulately move along the main circulation track 100 by the driving of the circulation driving device 200; an irrigation supply device 400 configured to supply water to the cultivation bed 300; and a central control module 500 configured to control the operation of the circulation driving device 200 and the irrigation supply device 400 .

In addition, the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention is installed in each of the separate spaces (or separate areas) 102 separate from the main space 101, and the main circulation track ( a plurality of branching circulation orbits 600 branching from and rejoining 100); and the main circulation orbit 100 or branch circulation orbit 600 configured at the branching point of the main circulation orbit 100 and each branch circulation orbit 600 , and operates according to the control signal of the central control module 500 . It further includes; a branching device 700 configured to move the cultivation bed 300 to the

The light source for plant growth (ie, LED lighting device) 10 provided in the main space 101 may be an appropriate light source according to the growing plant.

The main circulation track 100 is composed of a closed circuit track (the figure shows an elliptical closed circuit track as an example), and the upper circulation track 110 is installed on the ceiling of the main space 101 and the upper circulation at the bottom It may be composed of a lower guide rail 120 provided to face the track.

The main circulation track 100 serves as a guide rail for guiding the vertical cultivation bed 300 to circulate and rotate by the operation of the circulation driving device 200 to be described in detail below.

In addition, the lower guide rail 120 serves to guide the lower end of the cultivation bed 300 , and at the same time collects the water supplied to the cultivation bed 300 and serves as a return pipe connected to a water exchange tank (not shown). will do To this end, a plurality of exchange holes connected to the exchange tank are formed in the lower guide rail 120 .

The branch circulation orbit 600 has the same structure as that of the main circulation orbit 100 .

In addition, as shown by way of example in FIG. 5 , one or more main circulation orbits 100 may be configured in the main space 101 , and may be formed in different types of circulation orbits according to light sources and plant growth environments.

Subsequently, the circulation driving device 200 includes a moving roller 210 that moves along the upper side main circulation track 100 (ie, the upper circulation track 110 ), and one side is coupled to the moving roller 210 . The other side transmits power for rotationally driving the driving chain 220 connected to the cultivation bed 300 and the driving chain 220 , and driving driven by the operation signal of the central control module 500 . means (not shown).

In the present invention, the circulation driving device 200 is equipped with a cultivation bed (as will be described below, but preferably a vertical cultivation bed is detachably coupled), if it is a device that can be driven to circulately move along a circulation orbit, especially It is not limited.

Meanwhile, although the case where the light source 10 is installed in the center of the main circulation track 100 is illustrated in FIG. 5 , it may be selectively installed on one side of the main circulation track 100 .

Next, the vertical cultivation bed 300 is configured to circulate along the main circulation track 100 by the operation of the plant and the circulation driving device 200, the plant is planted.

Specifically, the vertical cultivation bed 300 is provided in a bed body 310 formed in a rectangular shape and a cutout is formed in the longitudinal direction, and the bed body 310, plants can be planted, and moisture is provided for a certain time. It includes a filler 320 for planting formed of a material that can hold.

The vertical cultivation bed 300 may be configured to be arranged in two rows as shown in FIG. 6 .

In addition, the vertical cultivation bed 300 is provided at its lower end so that the upper end can be stably guided in the lower circulation track 320 when the upper end moves along the upper circulation track 310 by the circulation driving device 200 . It may be configured to further include a guide rolling roller (not shown). The guide rolling roller is provided to be detachable from the lower guide rail 120 .

The planting filler 320 is made of a sponge, preferably made of a sponge made of an eco-friendly material.

In addition, a barcode 301 is provided on one side of the cultivation bed 300 for plant growth management and circulation movement of the cultivation bed.

The barcode 301 may be accommodated in a case that is detachably attached to the cultivation bed 300 and may be provided.

Here, the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention is configured between the circulation driving device 200 and the cultivation bed 300 so that the cultivation bed 300 is a circulation driving device ( It may further include a detachable coupling means 800 to be removably coupled to the 200).

The detachable coupling means 800 includes a connection frame (specifically, a connection frame connected to the driving chain 220 of the circulation driving device 200) 810 configured in the circulation driving device 200, and the connection It includes a locking ring 820 provided in the frame 820, and a locking groove 830 formed on one surface of the upper end of the cultivation bed 300 to catch the locking ring 820.

According to the present invention, the cultivation bed 300 is detachably coupled to the circulation driving device 200 through the detachable coupling means 800 as described above, whereby the cultivation bed 300 is separated from the circulation driving device 200 to separate the plants. to facilitate operations such as transplanting and harvesting of Here, in a state in which the cultivation bed 300 is separated, plant transplantation may be performed by an automated transplantation robot configured to plant transplanted seedlings.

Subsequently, the irrigation supply device 400 is configured to supply water from above the cultivation bed 300 .

Specifically, the irrigation supply device 400 includes a water supply tank (not shown), a water pump 410 for pumping water from the water supply tank, and an upper main circulation track 110 of the main circulation track 100 . ) a water supply port 420 provided with a gap on one side, and the water pump 410 and the water supply port 420 are connected between the water pumped from the water pump 410 to the water supply port 420 It includes a water supply line 430 connected to be supplied.

The water supply port 420 is provided with intervals in the longitudinal direction in the water supply line 430, as shown in FIG. It may be provided at the end of the branch line 421 and may consist of a nozzle port (not shown) for spraying water.

In addition, the water supply port 420 is another embodiment, as shown in FIG. 6B , has a distance in the longitudinal direction from the water supply line 430 , and communicates in the water supply line 450 . Including an extension line 422 extending downward, and an inclined plate 423 provided at the end of the extension line 422 and allowing the supplied water to flow down the surface and flow into the upper end of the cultivation bed 300 . can be configured.

Next, the central control module 500 is configured to control the operation of the circulation driving device 200 and the irrigation supply device 400 .

Here, the central control module 500 is constructed to store information of the barcode 301 as described above, and automatically controls movement for transplantation and harvesting based on the data according to the barcode 301 . can do.

In addition, this central control module 500, for example, when the growth of plants is faster than expected, reads the information read through the barcode reader of the operator, moves it to a separate area or space, stores it for a certain period of time, and then returns it again It can also be controlled to move to the original space.

Of course, the central control module 500 can perform automatic movement control, and receives the operator's manual operation signal and drives the circulation driving device 200 according to the manual operation signal so that the cultivation bed 300 is located in a predetermined area or space. It can also be moved to

In addition, the central control module 500 may receive a detection signal of a distance sensor provided in each of the cultivation beds 300 and control to maintain a predetermined interval between the cultivation beds 300 based on preset data. . In this case, the circulation driving device for driving the cultivation bed 300 is configured for each cultivation bed, and the Jungyang control module 500 individually controls the circulation driving device for each cultivation bed, thereby maintaining a certain interval between the re-bedding beds. can make it

On the other hand, the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention is installed in each separate space (or separate area) 102 separate from the main space 101, and the main circulation orbit ( a plurality of branching circulation orbits 600 branching from and rejoining 100); and the main circulation orbit 100 or branch circulation orbit 600 configured at the branching point of the main circulation orbit 100 and each branch circulation orbit 600 , and operates according to the control signal of the central control module 500 . It further includes; a branching device 700 configured to move the cultivation bed 300 to the

As such, the present invention includes a branching circulation orbital 600 and a branching device 700 . The central control module 500 drives the circulation driving device 200 on the basis of data input with information on the barcode 301 attached to the cultivation bed, and the main circulation orbit 100 and the branch circulation orbit 600 ) by operating the branching device 700 installed at the branch point of ) can be moved to the main circulation orbit (100).

As described above, according to the urban plant factory plant cultivation method and the urban plant factory plant cultivation system using the rotational circulation type cultivation bed according to the present invention, it is possible to grow plants while rotating the cultivation bed in a circulation method, thereby maximizing the space efficiency. This can provide an optimized urban plant factory, reduce the working space for harvesting and increase the harvesting space by circulating the cultivation bed. There are advantages to being able to

In addition, according to the present invention, since the cultivation bed is configured to be detachable, plant transplantation and harvesting work can be carried out in individually separated rebebed beds, so that workability can be further improved, and plant transplantation, temporary storage, and harvesting can be performed. There is an advantage that can further increase manageability and work efficiency by dividing the area for the purpose and allowing the cultivation bed to be moved to the area.

In addition, according to the present invention, management for transplantation, temporary storage, and harvesting can be easily performed by attaching a management barcode to the cultivation bed. Sixth, the present invention implements the cultivation bed in a circular rotation method, so that plants and light sources ( LED lighting device) does not need to be installed in a 1:1 ratio, so it has the advantage of creating an economical and efficient growing environment by minimizing installation costs and unnecessary cooling.

The embodiments described in this specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Therefore, since the embodiments disclosed in the present specification are for explanation rather than limitation of the technical spirit of the present invention, it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. Modifications 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.

10: Light source for plant growth (LED lighting device)
100: closed circuit type main circulation track
101: main space
102: separate space
110: upper circulation orbit
120: lower guide rail
200: circulation drive device
210: moving roller
220: drive chain
300: vertical cultivation bed
301: barcode
310: bed body
320: filling for planting
400: irrigation supply device
410: water pump
420: water supply port
421: branch line
422: extension line
423: swash plate
430: water supply line
500: central control module
600: branch circulation orbit
700: branch device
800: detachable coupling means
810: connection frame
820: catch hook
830: jamming groove

Claims (10)

delete delete In the urban plant factory plant cultivation system,
One or more closed circuit main circulation orbits configured in a main space provided with a light source for plant growth;
a circulation driving device configured to be driven along the main circulation trajectory according to a control signal of the following central control module;
a plurality of vertical cultivation beds provided to circulately move along the main circulation track by driving the circulation driving device;
an irrigation supply device configured to supply water to the cultivation bed;
a central control module configured to control the operation of the circulation driving device and the irrigation supply device;
a plurality of branch circulation orbits which are provided in a separate space or a separate area separate from the main space, branched from the main circulation orbit and rejoined; and
a branching device configured at a branch point of the main circulation orbit and each branch circulation orbit, and operated according to a control signal from the central control module to move the cultivation bed to the main circulation orbit or branch circulation orbit;
The main circulation orbit and the branch circulation orbit are provided opposite the upper circulation orbit in the upper circulation orbit and the floor provided in the ceiling, a plurality of return holes are formed, and guide clouds provided at the lower end of the cultivation bed a lower guide rail for guiding the roller;
The vertical cultivation bed is formed in a rectangular shape and includes a bed body in which an incision is formed in the longitudinal direction, and a planting filler provided in the bed body and formed of a plantable material,
The cultivation bed is provided with a barcode having information on the cultivation bed and planted plants,
The central control module stores and builds the information of the barcode, characterized in that it is configured to automatically control the movement of the cultivation bed to a separate area or a separate space for transplantation and harvesting based on the data according to the barcode
Urban plant factory plant cultivation system.
delete 4. The method of claim 3,
The circulation driving device includes a moving roller moving along the upper circulation track, a driving chain coupled to the moving roller at one end and a driving chain connected to the cultivation bed at the other end, and power for rotationally driving the driving chain. and a driving means driven by an operation signal of the central control module.
Urban plant factory plant cultivation system.
delete 6. The method of claim 5,
The filling for planting is made of a sponge,
Removable coupling means configured between the circulation driving device and the cultivation bed so that the cultivation bed is detachably coupled to the circulation driving device; characterized in that it further comprises
Urban plant factory plant cultivation system.
8. The method of claim 7,
The detachable coupling means,
a connecting frame connected to the drive chain;
a locking ring provided on the connection frame; and
It is characterized in that it comprises;
Urban plant factory plant cultivation system.
4. The method of claim 3,
The irrigation supply device includes a water supply tank, a water pump for pumping water from the water supply tank, a water supply port provided with a gap on one side of an upper main circulation track of the main circulation track, and the water pump and water and a water supply line connected between the supply ports to supply water pumped from the water pump to the water supply port,
The water supply port has an interval in the longitudinal direction from the water supply line, and is provided at the end of an extension line that communicates with the water supply line and extends downward, and the supplied water flows down the surface. Characterized in that it comprises a sloping plate to be lowered to the top of the cultivation bed
Urban plant factory plant cultivation system.
delete

Images