KR101400689B1 - Bed for water culture and plant ultivation apparatus for multi-stacking comprised transporting means of bed for water culture - Google Patents

Abstract

The present invention relates to a multi-stacking plant cultivation apparatus capable of moving horizontally and vertically, which has a water culture bed having a spray type bed or a dipping type bed on the lower end of the bed, and a wick irrigation type medium bed on the upper end of the bed to uniformly flow a nutrient solution in overall, and installed in each stage; and one light source installed on the most upper end of the plant cultivation apparatus so that plants are able to grow according to the time period of the morning, afternoon and night by horizontally and vertically moving the water culture bed by a transfer means including a conveyor belt to control the light irradiating hours by a light source. According to the present invention, a multi-stacking plant cultivation apparatus, which comprises a main body vertically and horizontally multi-stacked, having an accommodating space for accommodating a bed sowed with plants on each stage, and a transfer means for horizontally and vertically moving the bed installed under each stage; a lighting means formed on the most upper end of the main body and supplying light from the upper part of the bed; and carriers formed on both sides of the main body, and moving the accommodated bed to another stage after the bed accommodated in each stage horizontally and vertically moves by the transfer means.

Description

Technical Field [0001] The present invention relates to a multi-stage laminated plant cultivation apparatus including a hydroponic bed and a conveying means for hydroponic cultivation bed,

The present invention relates to a multistage laminated plant cultivation apparatus including a hydroponic cultivation bed and a conveying means for hydroponic cultivation bed. More specifically, a bed for hydroponic cultivation is constituted by a spray bed or a soaking liquid bed at the lower end of the bed, and a seed bed bed with a wick irrigation system at the upper end of the bed, And a light source is installed at the upper end of the plant cultivation apparatus and the hydroponic cultivation bed is moved up and down by the conveying means including the conveyor belt to adjust the light irradiation time by the light source, , Daytime, nighttime, and the like, so that the plants can grow in accordance with time periods such as day, night, and night.

Generally, the cultivation system of crops can be broadly divided into non-cultivation and plant cultivation. In the above, cultivation of plants refers to growing of crops using glass greenhouses or vinyl houses. Particularly in recent years, excessive use of chemical fertilizers or agricultural chemicals has resulted in poor quality of soil and poor crops in poor soil condition, which is an obstacle to the growth of crops. I can not expect to get good harvests, whether cultivated or cultivated. Therefore, hydroponic cultivation by nutrient solution is widely performed.

Hydroponic cultivation refers to the cultivation of leaf vegetables and fruit vegetables by filling the cultivation tank with the culture solution in which various nutrients are dissolved and not cultivated in the soil, and the growth rate of the plants is fast and it is possible to grow them in accordance with the necessary time.

Conventional hydroponic cultivation beds are filled with nutrients in each of the beds, and various devices are installed to complicate each nutrient solution. Also, there is a problem that the entire bed needs to be replaced in order to repair each bed itself.

In addition, some crops such as mushrooms among the above cultivated crops are partially used in an integrated cultivation system in which crops are stacked and stacked in a stacking space provided in the facility.

However, the conventional integrated cultivation system as described above has the advantage of efficiently utilizing the cultivation area by cultivating multi-stage crops on a plurality of shelves, and other effects can not be expected. On the other hand, in the case of multi- There is a great waste of electric power to be consumed by installing the lights at the top of the crop, and it is troublesome to turn it on or off periodically according to the light irradiation time by illumination.

Korean Registered Utility Model No. 20-0257906

In order to solve the above problems, the present invention has been devised to grow plants in large quantities without being affected by the soil or other environment. The present invention can provide a uniform nutrient solution flow, It is an object of the present invention to provide a hydroponic cultivation bed in which the lower part of the bed is composed of a spray-bed or the soaking-type bed and the upper part of the bed is composed of a deep-

In the present invention, a light source is not provided on the upper part of the growth bed installed at each stage, but one light source is installed at the upper end of the plant cultivation apparatus, and the hydroponic cultivation bed is vertically, And a conveying means for moving a hydroponic cultivation bed which can move up and down and left and right so that plants can grow in accordance with time periods such as morning, day, and night by controlling light irradiation time by a light source. It has its purpose.

According to the present invention, there is provided a nailing machine comprising: a lower end body having an inner hollow space; a first mesh network formed in a net shape at an upper end of the lower end body; A lower bed comprising a nozzle; And an upper portion of the upper body which is formed in an inner space of the lower bed and has a net shape at the lower end of the upper body and absorbs the nutrient solution injected by the nutrient solution injection nozzle through the first netting And an upper portion formed at the upper portion of the second net and absorbing the nutrient solution absorbed in the second net, wherein the upper portion includes a plurality of upper portions, Wherein the water-swellable bed is covered with a cover.

According to another aspect of the present invention, there is provided a method of manufacturing a medical device, comprising: a lower end body having an inner hollow space; and a lower end bed including a nutrient solution supply pipe for supplying a nutrient solution so that the nutrient solution is filled in the lower end body; An upper body formed of a hollow space and inserted into the lower bed, a mesh network formed in a net shape at a lower end of the upper body to absorb the nutrient solution supplied by the nutrient solution supply pipe, An absorbent part formed in the upper body and sucking the nutrient solution absorbed in the net, and a wheel part installed on the lower side of the upper body and capable of moving the upper body inside the lower body, Wherein a plurality of the upper beds are formed and inserted into the lower bed.

The hydroponic bed includes a nutrient solution sensor installed inside the lower body for sensing the amount of the nutrient solution filled in the lower end body, a nutrient solution recovery tank for recovering the nutrient solution filled in the lower end body, A nutrient solution storage tank for supplying nutrient solution, a nutrient solution sterilizing tank for sterilizing the nutrient solution supplied from the nutrient solution recovery tank in the form of nano bubbles containing ozonated water, a nutrient solution tank for treating the nutrient solution sterilized in the nutrient solution tank at a low temperature Wherein the nutrient liquid which has undergone low-temperature treatment in the nutrient solution low-temperature treatment tank is supplied into the lower-end body through the nutrient solution supply pipe.

In addition, according to the present invention, there is provided a conveying means capable of moving the bed in the left or right direction at a lower portion of each stage, Lt; / RTI > An illuminating means formed at the top of the main body to provide light at the top of the bed; And a carrier which is formed on both sides of the main body and moves the housed bed to the other end after the bed stored in each end of the main body is moved leftward or rightward by the feeding means, A laminated plant cultivation apparatus is provided.

In the meantime, the multi-stage laminated plant cultivation apparatus includes a lower bed having a first mesh network formed at the upper end thereof and a nutrient solution injection nozzle formed inside the hollow space for spraying nutrient solution into the hollow space, Wherein the bed accommodated in each end of the main body is formed as an empty space and has a net shape at the lower end to absorb the nutrient solution injected by the nutrient solution injection nozzle through the first netting, And an absorber formed at an upper end of the second mesh network and sucking the nutrient solution absorbed in the second mesh network. The upper bed is formed with a plurality of upper beds, and is formed at the lower end of the main body at the upper end of the lower bed And is moved while being stretched.

The multi-stage laminated plant cultivation apparatus includes a lower bed including a nutrient solution supply pipe for supplying a nutrient solution so that the nutrient solution is filled in the void space, the lower bed being separately installed at the lower end of the main body, A bed accommodated in the bed comprises an empty space and a net at the bottom to absorb the nutrient solution supplied by the nutrient solution supply pipe and sucking the nutrient solution absorbed in the net formed at the top of the net, The upper bed includes an absorbing portion and a wheel portion which is installed on the lower side of the upper bed and can move the upper bed in the lower bed. A plurality of the upper beds are formed, And is moved in a state of being inserted into the inside of the housing.

The hydroponic bed according to the present invention can uniformly flow the nutrient solution throughout, and is easy to keep warm and cool, and has an effect of facilitating the exchange when the hydroponic bed is broken.

Further, in the multi-layer laminated plant cultivation apparatus according to the present invention, instead of providing a light source on the upper part of the cultivation bed installed at each end, a single light source is installed at the uppermost part of the plant cultivation apparatus, .

Further, in the multi-layer laminated plant cultivation apparatus according to the present invention, the cultivation bed is moved up and down and left and right by the conveying means including the conveyor belt, and the light irradiation time by the light source is controlled to grow plants according to time periods such as morning, So that the plant can be effectively grown in various stages.

1A and 1B are a structural view and a cross-sectional view of a hydroponic cultivation bed according to an embodiment of the present invention.
2 is a block diagram of a hydroponic cultivation bed according to another embodiment of the present invention.
3 is a configuration diagram of a multi-stage laminated plant cultivation apparatus according to an embodiment of the present invention.
4 is an operational state diagram of a multi-stage laminated plant cultivation apparatus according to the embodiment of FIG.
5 is a configuration diagram of a multi-layer laminated plant cultivation apparatus according to another embodiment of the present invention.
6 is an operational state diagram of a multi-stage laminated plant cultivation apparatus according to the embodiment of FIG.
7 is a configuration diagram of a multi-layer laminated plant cultivation apparatus according to another embodiment of the present invention.
8 is an operational state diagram of the multi-stage laminated plant cultivation apparatus according to the embodiment of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a structural view and a cross-sectional view of a hydroponic cultivation bed according to an embodiment of the present invention. FIG. 2 is a structural view of a hydroponic cultivation bed according to another embodiment of the present invention, and FIG. FIG. 4 is an operational state view of a multi-stage laminated plant cultivating apparatus according to the embodiment of FIG. 3, and FIG. 5 is a sectional view of a multi-stage laminated plant cultivating apparatus according to another embodiment of the present invention. FIG. 6 is an operational state view of a multi-stage laminated plant cultivating apparatus according to the embodiment of FIG. 5, FIG. 7 is a configuration diagram of a multi-level laminated plant cultivating apparatus according to another embodiment of the present invention, 7 is an operational state diagram of a multi-layer laminated plant cultivation apparatus according to an embodiment of the present invention.

Referring to FIGS. 1A and 1B, a hydroponic cultivation bed 1000 according to an embodiment of the present invention includes a lower bed 100 and an upper bed 200.

The lower bed 100 includes a lower body 110 having a hollow space therein, a first mesh network 120 having a net shape at an upper end of the lower body 110, And a nutrient solution injection nozzle 130 for injecting the nutrient solution into the first mesh 120 from the inside. Therefore, the lower bed 100 can be called a spray bed since the nutrient solution is injected through the nutrient solution injection nozzle 130.

The upper end of the lower body 110 is covered with the first net 120 so that the nutrient solution is injected through the nutrient solution injection nozzle 130 of the lower bed 100, The nutrient solution is moistened in the first mesh 120. A plurality of the liquid injection nozzles 130 may be installed inside the lower body 110 so as to be injected toward the first mesh 120.

The upper bed 200 is formed as an empty space and includes an upper body 210 extending over the upper end of the lower bed 100 and a nipple spray nozzle A second mesh 220 for absorbing the nutrient solution injected by the first mesh 220 through the first mesh 220 and a second mesh 220 formed at the upper end of the second mesh 220 for absorbing the nutrient solution absorbed by the second mesh 220, And a wick 240 which is immersed in the absorbing part 230 and sucks the nutrient solution absorbed by the absorbing part 230 to supply nutrients to the plant . The nutrient solution injected by the nutrient injection nozzle 130 passes through the first netting network 120 and the second netting net 220 and is impregnated into the absorbing portion 230. The absorbed nutrient solution is sucked through the wicking portion 240 And finally, the nutrient solution is supplied to the plants so that the plants can continue to grow. Therefore, the upper bed 200 can be called a wick irrigation system because the nutrient solution is sucked through the wick 240.

The first mesh network 120 and the second mesh network 220 are preferably configured to prevent the nutrient solution impregnated in the absorption part 230 and the wick part 240 from flowing down. Also, a plurality of the upper beds 200 are formed, and the upper beds 200 are extended over the upper ends of the lower beds 100. Accordingly, the upper bed 200 can be easily moved through an automation facility or the like while being placed on the upper end of the lower bed 100, and the upper net 200 can be easily connected to the nutrient solution injection nozzle 130 It also plays a role of supporting not touching directly.

Referring to FIG. 2, a hydroponic cultivation bed 1000 according to another embodiment of the present invention includes a lower bed 100, an upper bed 200, a nutrient solution sensor 300, a nutrient solution recovery tank 400, A tank 500, a nutrient sterilization tank 600, and a nutrient low temperature treatment tank 700.

The lower bed 100 includes a lower body 110 having a hollow space therein and a nutrient solution supply pipe 130` for supplying the nutrient solution so that the nutrient solution is filled in the lower body 110. Therefore, the nutrient solution is supplied to the inner space of the lower body 110 through the nutrient solution supply pipe 130 '. The inside of the lower body 110 is formed as an empty space so that a plurality of upper bodies 210 to be described later can be inserted. Therefore, the lower bed 100 can be called a soak-type bed because it is a method of filling the nutrient solution therein.

The upper bed 200 includes an upper body 210 and an upper body 210. The upper body 200 has an inner space and is inserted into the lower bed 100. The upper body 200 has a net shape at the lower end of the upper body 210, An absorbing part 230 formed at the upper end of the net 220 'to suck the nutrient liquid absorbed into the net 220' A wick 240 which is immersed in the absorbing part 230 and sucks the nutrient solution absorbed by the absorbing part 230 to supply nutrients to the plant; And a wheel unit 250 that can move the upper body 210 within the lower body 110. A plurality of the upper beds 200 are formed and are inserted into the lower bed 100. Therefore, the upper bed 200 can be called a wick irrigation system because the nutrient solution is sucked through the wick 240.

2, the net 220 'is configured in such a manner as to prevent the nutrient solution impregnated into the absorbent portion 230 and the wick 240 from flowing down desirable. In addition, a plurality of the upper beds 200 are formed and exist in the state of being inserted into the lower bed 100. Therefore, the upper bed 200 can be easily moved through the automatic equipment in a state of being inserted into the lower bed 100, and the wheel part 250 is installed on the lower side of the upper body 210, (200) can be easily moved inside the lower bed (100).

The nutrient solution detecting sensor 300 is installed inside the lower body 110 to detect the amount of the nutrient solution filled in the lower body 110. Therefore, the nutrient solution detecting sensor 300 is installed inside the lower body 110, and determines whether the nutrient solution supplied reaches a predetermined level and detects the amount of the nutrient solution.

The nutrient solution recovery tank 400 serves to recover the nutrient solution filled in the lower end body 110. The nutrient solution recovery tank 400 may serve to recover the nutrient solution filled in the lower end body 110 and to sterilize the nutrient solution recovered from the nutrient solution storage tank 500 and ultraviolet rays . Therefore, the nutrient solution recovery tank 400 is to sterilize the recovered nutrient solution and the collected nutrient solution with ultraviolet rays to supply a clean nutrient solution.

The nutrient solution storage tank 500 serves to supply the nutrient solution to the nutrient solution supply pipe 130 '. Therefore, when the amount of the nutrient solution sensed by the nutrient solution sensor 300 drops below a predetermined level or the nutrient solution is recovered through the nutrient solution recovery tank 400, the nutrient solution storage tank 500 is filled with the nutrient solution . That is, the nutrient solution is supplied from the nutrient solution storage tank 500 in order to keep the amount of the nutrient solution existing in the lower end body 110 equal to the amount absorbed by the plant, except for the amount of the nutrient solution which is naturally evaporated.

The nutrient sterilization tank 600 sterilizes the nutrient solution supplied from the nutrient solution recovery tank 400 in the form of a nano bubble containing ozone water. Accordingly, the nutrient solution sterilization tank 600 can sterilize the ultrafiltered nutrient solution once again in the form of nano bubbles, thereby supplying a clean nutrient solution.

The nutrient solution low-temperature treatment tank 700 serves to treat the nutrient solution sterilized in the nutrient solution sterilization tank 600 at a low temperature of a certain temperature or lower. Therefore, the nutrient liquid which has been low-temperature-treated in the nutrient solution low-temperature treatment tank 700 is supplied into the lower-end body 110 through the nutrient solution supply pipe 130 '.

3 to 8, a multi-layer laminated plant cultivation apparatus 1000 'according to the present invention includes a main body 10, lighting means 20, and a carrier 30.

The main body 10 is multi-tiered longitudinally and laterally to form a water storage space for accommodating beds in which plants are sown at each end, and conveying means 11 ) Is installed. In particular, the conveying means 11 may be formed in the form of a conveyor belt, and the bed of each end is moved to the left and right by the conveying means 11. [

In particular, referring to FIG. 3, it is preferable that the bed 40 is a unitary hydroponic cultivation bed in which the nutrient solution is filled in itself. The bed 40 is not separated into an upper bed and a lower bed but is moved by the conveying means 11 and the carrier 30 in a state of being integrally formed. Such an operation state by the bed 40 is well shown in Fig. That is, the bed 40 is moved leftward or rightward by the conveying means 11, and the bed 40 is moved in the upper or lower direction by the carrier 30 to be described later.

5, a lower end bed 100 is separately installed at the lower end of the main body 10 of the multi-stage laminated plant growing apparatus 1000 ', and the lower end bed 100 is provided with a first And a nutrient solution injection nozzle 130 for injecting the nutrient solution into the empty space. The bed contained in each end of the main body 10 is an upper bed 200 in which the inside is formed as an empty space and is formed in a net shape at the lower end so that the nutrient solution injected by the nutrient solution injection nozzle 130 is divided into the first A second net 220 for absorbing the nutrient solution through the net 120; an absorption part 230 formed at the upper end of the second net 220 to absorb the nutrient solution absorbed in the second net 220; And a wick 240 which is immersed in the absorber 230 and sucks the nutrient solution absorbed by the absorber 230 to supply nutrients to the plant. Particularly, a plurality of the upper beds 200 are formed and moved from the lowermost end of the main body 10 to the upper end of the lower bed 100. Such an operating state by the upper bed 200 is well shown in Fig. 6 (the moving direction of the bed is indicated by the arrow). That is, when the lower bed 100 is positioned at the lowermost end of the main body 10 and when the upper bed 200 moves over the upper end of the lower bed 100, the nutrient solution in the lower bed 100 flows into the upper bed 200, And the upper bed 200 is moved in the upper or lower direction by the carrier 30.

7, the lower bed 100 is separately installed at the lowermost end of the main body 10 of the multi-stage laminated plant cultivation apparatus 1000, and the inside is formed as an empty space so that the empty space is filled with the nutrient solution. And a nutrient solution supply pipe 130 'for supplying a nutrient solution. 2, the lower bed 100 includes a nutrient solution sensor 300 for sensing the amount of the nutrient solution to be filled in the lower bed 100, A nutrient solution recovery tank 400 for recovering the nutrient solution filled in the nutrient solution recovery tank 400, a nutrient solution storage tank 500 for supplying the nutrient solution to the nutrient solution supply pipe 130 ' And a nutrient solution treatment tank 700 for treating the nutrient solution sterilized in the nutrient solution sterilization tank 600 at a low temperature to a predetermined temperature or lower. At this time, the nutrient solution recovery tank 400 is configured to recover the nutrient solution filled in the lower bed 100, sterilize the recovered nutrient solution and the nutrient solution supplied with the nutrient solution in the nutrient solution storage tank 500 with ultraviolet rays desirable. In addition, the nutrient solution that has undergone low temperature treatment in the nutrient solution low temperature treatment tank 700 is supplied into the bottom bed 100 through the nutrient solution supply pipe 130 '. The bed 10 accommodated in each end of the main body 10 is an upper bed 200 having an inner space formed therein as an empty space. The upper bed 200 is formed in a net shape at the lower end of the bed to absorb the nutrient solution supplied by the nutrient solution supply pipe 130 ' An absorbing part 230 formed at the upper end of the mesh 220 and sucking the nutrient solution absorbed in the mesh 220 ' A wick 240 for sucking nutrients absorbed by the absorber 230 and supplying nutrients to the plant; a water supply unit 240 installed below the upper bed 200 to supply nutrients to the upper bed 200, And a wheel part 250 capable of moving the wheel 200. Particularly, a plurality of the upper beds 200 are formed and moved from the lowermost end of the main body 10 to the inside of the lower bed 100. Such an operating state by the upper bed 200 is well shown in Fig. 8 (the moving direction of the bed is indicated by the arrow). That is, the lower bed 100 is located at the lowermost end of the main body 10, and the upper bed 200 is moved in a state of being inserted into the lower bed 100, so that the nutrient solution in the lower bed 100 flows into the upper bed 200, and the upper bed 200 is moved in the upper or lower direction by the carrier 30.

The lighting means 20 is formed at the upper end of the main body 10 to provide light at an upper portion of the bed. Therefore, the lighting means 20 is not provided at each end, but is provided at the uppermost end of the main body 10 as one light source. By moving the bed vertically and horizontally by the conveying means 11, It can be adjusted to allow plants to grow in time periods such as morning, day, and night. The lighting means 20 may be configured in various forms such as a fluorescent lamp, an LED, and solar heat.

Therefore, since the lighting unit 20 is provided at the uppermost end of the main body 10, the bed arriving at the uppermost end is irradiated with light by a light source (illumination), and the bed at the uppermost position is closest to the light source, After a predetermined time has elapsed, the bed located at the lower end is conveyed to the upper end by the conveying means 11, respectively. By doing so, the beds located at each end of each stage correspond to the time of noon, morning, evening, night, etc., and grow the plant suitable for the time.

The carrier 30 is formed on both sides of the main body 10 and a bed accommodated in each end of the main body 10 is moved in the left or right direction by the conveying means 11, To the other end. Therefore, the bed conveyed by the conveying means 11 is seated inside the carrier 30 and moved to the next stage.

In the present invention, the bed may be composed of three types. First, as shown in FIG. 3, the bed itself is a unit for hydroponic cultivation. Second, as shown in FIG. 5, the lower bed is located at the lowermost end of the main body, The bed is a bed in which the bed moves while covering the upper end of the lower bed. Third, as shown in Fig. 7, a bed in which the lower bed is located at the lowermost end of the main body and the upper bed is moved in the state of being inserted into the lower bed can see.

Shielding curtain of a hydrophilic material having transparency over the entire upper surface of the main body 10 or the upper surface of the main body 10 can be installed to maintain a proper level of light shielding and temperature . Thus, the light shielding and the temperature cut-off curtain can appropriately cut off the light or adjust the temperature. It is also possible to provide humidity and temperature control by installing a fog pipe which can discharge fog inside the shading and temperature cut-off curtain.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present specification are intended to illustrate rather than limit the present invention, and the scope and spirit of the present invention are not limited by these embodiments. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of the present invention should be construed as being included in the scope of the present invention.

1000: Hydroponic cultivation bed
100: Lower bed
110: lower body
120: 1st mesh
130, 130`: Fluid injection nozzle
200: Upper bed
210: upper body
220: second mesh
220 ': Network
230: absorber
240:
250:
300: Nitrogen sensor
400: Nitrogen recovery tank
500: Nutrient solution storage tank
600: Nutrient sterilization tank
700: Nitrogen cold treatment tank
1000`: Multistage laminated plant cultivation equipment
10: Body
11: conveying means
20: Lighting means
30: Carrier
40: Hydroponic cultivation bed

Claims (6)

A lower end body having an inner hollow space, a first mesh network formed in a net shape at an upper end of the lower end body, and a lower liquid injection nozzle for injecting a nutrient solution toward the first mesh network from the lower end body, Bed; And
An upper body formed on the upper end of the lower bed and having an inner space formed therein and an upper body formed on the lower end of the upper body and configured to absorb the nutrient solution injected by the nutrient solution injection nozzle through the first net, A second net, and an absorption part formed at the upper end of the second net and sucking the nutrient solution absorbed in the second net,
Wherein a plurality of the upper beds are formed to cover the upper ends of the lower beds.
delete A lower end body including a lower end body having an inner hollow space and a nutrient solution supply pipe for supplying a nutrient solution to fill the nutrient solution in the lower end body;
An upper body inserted into the lower bed and configured to mesh with a lower end of the upper body and configured to absorb the nutrient solution supplied by the nutrient solution supply pipe; An absorbent part formed to absorb the nutrient solution absorbed into the net, and a wheel part installed on the lower side of the upper body and capable of moving the upper body inside the lower body; And
A nutrient solution detection sensor installed inside the lower end body for detecting the amount of the nutrient solution to be filled in the lower end body, a nutrient solution recovery tank for recovering the nutrient solution filled in the lower end body, and a nutrient solution storage tank A nutrient solution sterilization tank for sterilizing the nutrient solution supplied from the nutrient solution recovery tank in the form of a nano bubble containing ozonated water and a nutrient solution treatment tank for treating the nutrient solution sterilized in the nutrient solution tank at a low temperature Including,
Wherein a plurality of the upper beds are formed and inserted into the lower bed, and the nutrient solution which has undergone low temperature treatment in the nutrient solution low temperature treatment tank is supplied into the lower end body through the nutrient solution supply pipe.
delete A main body having a plurality of vertically and horizontally formed multi-stages, forming a space for accommodating beds in which the plants are planted, and transport means for moving the beds in the left or right direction at a lower portion of each stage;
An illuminating means formed at the top of the main body to provide light at the top of the bed; And
And a carrier which is formed on both sides of the main body and moves the accommodated bed to the other end after the bed stored in each end of the main body is moved leftward or rightward by the feeding means,
A lower bed having a first mesh network formed at an upper end thereof and separately provided at a lower end of the main body, and a liquid jet nozzle for injecting a nutrient solution into the empty space, Wherein the bed accommodated in the stage has a hollow space and has a net shape at the lower end to absorb the nutrient solution injected by the nutrient solution injection nozzle through the first netting, And an absorbing portion formed in the second mesh net and sucking the nutrient solution absorbed in the second mesh net. The plurality of upper beds are formed to be moved from the lowermost end of the main body to the upper end of the lower bed, Laminated plant cultivation equipment. delete

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