KR102325390B1 - Wasabi indoor cultivation system - Google Patents

Abstract

The present invention relates to a wasabi indoor cultivation device comprising: a cultivation tank body (121) formed in the form of an enclosure; cultivation tanks (120) covering the upper portion of the cultivation tank body (121), and having a pot insertion cover (123) in which pot insertion holes (123a) into which wasabi planted pots (20) are inserted are formed at regular intervals; a frame part (110) supporting the cultivation tanks (120) so that the cultivation tanks (120) are arranged in multiple layers along the height direction; a nutritional solution supply part (130) having a lower nozzle pipe (131) and an upper nozzle pipe (133) which are disposed at the lower and upper portions of the pots (20) at the frame part (110) and supply a nutritional solution to roots and leaves of wasabi planted in the pots (20); and a lighting part (140) provided on each of the cultivation tanks (120) arranged in multiple layers and irradiating light toward the pots (20). Wasabi can be grown in large quantities indoors.

Description

Wasabi indoor cultivation system

The present invention relates to a wasabi indoor cultivation apparatus, and more particularly, to a wasabi indoor cultivation apparatus capable of cultivating wasabi in a large amount and with high quality indoors.

In general, wasabi is a perennial, succulent plant that grows wild in Japan and on Ulleungdo in Korea, and grows wild in semi-shade areas of mountain valleys where cool and clear water flows. Wasabi has a spicy, sweet and fragrant taste, so it is mainly used as a spice for sashimi, sushi, and noodles.

Allyl isothiocyanate, which is abundantly present in the roots of wasabi, promotes digestion, promotes the synthesis of vitamin B1, inhibits the oxidation of vitamin C, inhibits abnormal fermentation in the body after eating, as an anthelmintic, antibacterial, antifungal, anticancer, insecticide, etc. is known to have the effect of

Recently, due to an increase in consumers' health needs, interest in natural preservatives instead of artificial food preservatives, which have safety problems such as residual toxicity or mutagenesis, is increasing, and wasabi or its active ingredients are receiving more attention.

In addition to the above-mentioned uses, natural pesticides, antibacterial soaps, air fresheners, room cleaners, and deodorants using wasabi or its active ingredients have been developed in Korea, and in Japan, alcohol, tea, laundry tub cleaner, paper, label, film, etc. is also being used.

As described above, wasabi has high utilization and consumption is increasing, but it is difficult to cultivate and is only grown in limited places, so it cannot meet the domestic demand.

Even, the amount used in restaurants is insufficient, so imitations of wasabi imported from Japan or made by mixing colors are mainly used.

Wasabi is a very sensitive crop to the environment, and its growth range is quite narrow, making it difficult to cultivate. In addition, wasabi must be cultivated for nearly two years to become a commodity, and cultivation is difficult and difficult due to the fact that it can only be cultivated in areas where the climate is cool all year round, there is little temperature difference, and there is always clear water. Therefore, there is an urgent need for a cultivation technology capable of supplying high-quality wasabi at a lower cost and in a large amount.

Korean Patent Publication No. 2006-0113156

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems, and to provide a wasabi indoor cultivation apparatus capable of cultivating wasabi in a large amount indoors.

The above objects and various advantages of the present invention will become more apparent from preferred embodiments of the present invention by those skilled in the art.

The object of the present invention can be achieved by a wasabi indoor cultivation apparatus. The wasabi indoor cultivation apparatus of the present invention includes a cultivation tank body 121 formed in a housing shape, and a pot insertion hole 123a that covers the upper portion of the cultivation tank body 121 and into which the wasabi-planted port 20 is inserted. ) a culture tank 120 having a port insertion cover 123 formed at regular intervals; a frame part 110 for supporting the culture tank 120 so that the culture tank 120 is arranged in multiple layers along the height direction; A lower nozzle pipe 131 and an upper nozzle pipe 133 that are disposed on the lower and upper portions of the port 20 in the frame unit 110 and supply nutrient solution to the roots and leaves of wasabi planted in the port 20. A nutrient solution supply unit 130 having a; It is characterized in that it comprises a lighting unit 140 provided on the upper portion of the plurality of cultivation tanks 120 arranged in the multi-layer, respectively, irradiating light toward the port (20).

According to one embodiment, the frame part 110 is disposed in parallel along the longitudinal direction of the culture tank 120 at the lower portion of the culture tank 120 to support the culture tank 120 in a plurality of horizontally horizontally. a frame 115; a plurality of vertical frames 111 disposed in a vertical direction along the longitudinal direction of the plurality of horizontal horizontal frames 115; a horizontal vertical frame 113 disposed in the horizontal direction under the plurality of horizontal horizontal frames 115 and connecting the horizontal horizontal frame 115 and the vertical frame 111; A wire support frame 117 disposed on the horizontal vertical frame 113 at a height corresponding to the cultivation tank body 121 and coupled to the vertical frame 111 may be included.

According to one embodiment, the cultivation tank body 121 is loaded on the plurality of horizontal horizontal frames 115 and is formed to be higher than the height of the port 20 , and the upper end of the cultivation tank body 121 . a plurality of cover support horizontal wires 125 disposed in the longitudinal direction to support the lower portion of the port insertion cover 123 and both ends are coupled to the wire support frame 117; A plurality of cover support vertical wires 127 disposed in the vertical direction on the plurality of cover support horizontal wires 125 and both ends are coupled to the vertical frame 111 to hold the deformation of the plurality of cover support horizontal wires 125 . may include.

According to an embodiment, a plurality of the lower nozzle tubes 131 are arranged in the inner side of the culture tank body 121 in the longitudinal direction of the culture tank body 121, and the upper nozzle tube 133 is provided. A plurality of are arranged side by side along the longitudinal direction of the port insertion cover 123 on the upper portion of the port insertion cover 123, and the lower nozzle tube 131 is inserted into the cultivation tank body 121 on the upper surface. A plurality of lower nozzles 131a for spraying the root nutrient solution toward the port 20 are formed at regular intervals, and the upper nozzle tube 133 has a lower surface of the wasabi 10 planted in the port 20. A plurality of upper nozzles 133a for spraying leaf nutrient solution toward the leaves are formed at regular intervals, and the leaf nutrient solution and root nutrient solution sprayed from the upper nozzle 133a and the lower nozzle 131a are collected in the lowermost culturing tank body. and a mixed nutrient solution recovery tank 137 provided at one end of the lowermost culturing tank body to recover the collected mixed nutrient solution; A supplementary solution is replenished to the mixed nutrient solution recovered in the mixed nutrient solution recovery tank 137 and a preset root nutrient solution It may further include a control unit 139 to maintain the component and concentration of.

The wasabi indoor cultivation apparatus according to the present invention makes it possible to grow wasabi through hydroponics indoors according to the strict cultivation conditions of wasabi.

In particular, the production of wasabi per unit area can be maximized by arranging the cultivation tank in which wasabi is grown in multiple layers.

In addition, it is possible to increase the growth rate of wasabi and produce high quality wasabi by supplying the leaf nutrient solution and the root nutrient solution separately.

In addition, it is possible to reduce the cost of wasabi cultivation by adopting a circulation method in which the root nutrient solution is recovered and then re-supplied.

1 is a perspective view showing the configuration of a wasabi indoor cultivation apparatus according to the present invention;
2 is an exploded perspective view showing the disassembled configuration of the wasabi indoor cultivation apparatus according to the present invention;
3 is a cross-sectional view showing a lateral cross-sectional structure of the wasabi indoor cultivation apparatus according to the present invention;
4 is a front cross-sectional view illustrating a structure in which wasabi is grown in the indoor wasabi cultivation apparatus according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

1 is a perspective view showing the configuration of an indoor wasabi cultivation apparatus 100 according to the present invention, and FIG. 2 is an exploded perspective view showing the disassembled configuration of the wasabi indoor cultivation apparatus 100. As shown in FIG.

The wasabi indoor cultivation apparatus 100 according to the present invention is installed indoors and supports a plurality of ports 20 in which wasabi is planted so that wasabi can be grown indoors in large quantities. The wasabi indoor cultivation apparatus 100 includes a cultivation tank 120 supporting a plurality of ports 20 to be able to grow hydroponically, a frame unit 110 supporting the cultivation tank 120 in multiple layers along the height direction, and a port. A nutrient solution supply unit 130 coupled to the frame unit 110 to supply the nutrient solution to the lower and upper portions of the 20, and a lighting unit 140 for supplying light to the wasabi 10 from the upper portion of the port 20 .

In the wasabi indoor cultivation apparatus 100 of the present invention, the wasabi 10 is planted in the pot 20 in which the sponge 30 is built in, and the pot 20 is accommodated in the cultivation tank 120 . Then, after mounting the culture tank 120 on the frame unit 110 in multiple layers, the nutrient solution is sprayed to the lower and upper portions of the pot 20 and light is irradiated through the lighting unit 140 to produce the wasabi 10 hydroponically cultivated. make it

Accordingly, it is possible to grow wasabi (10) of good quality indoors in large quantities using a nutrient solution without using soil.

The frame unit 110 supports the planting tank 120 in which the pot 20 is accommodated so that the wasabi 10 can be grown in a state of being planted in the pot 20 in the air. The frame unit 110 mounts the cultivation tank 120 in multiple layers along the height direction to increase the cultivation ratio of the wasabi 10 per unit area.

As shown in FIG. 2 , the frame unit 110 includes a plurality of horizontal horizontal frames 115 disposed in parallel along the longitudinal direction of the culture tank 120 under the culture tank 120 , and the culture tank 120 . ) disposed vertically along the longitudinal direction of the vertical frame 111 for supporting the horizontal horizontal frame 115, and the horizontal vertical frame 113 for connecting the vertical frame 111 and the horizontal horizontal frame 115 and , and a wire support frame 117 provided on the horizontal horizontal frame 115 to support the cover supporting horizontal wire 125 .

The vertical frames 111 are arranged at regular intervals along the longitudinal direction of the culture tank 120 in pairs to correspond to the width of the culture tank 120 . The vertical frame 111 is coupled to the horizontal vertical frame 113 such that the horizontal horizontal frame 115 is loaded on the upper portion of the horizontal vertical frame 113 .

That is, in the frame unit 110 of the present invention, a vertical frame 111 and a horizontal vertical frame 113 are disposed orthogonally, and a plurality of horizontal horizontal frames 115 are disposed side by side on the horizontal vertical frame 113 . do. In the frame unit 110 according to a preferred embodiment of the present invention, four horizontal horizontal frames 115 are arranged side by side on the horizontal vertical frame 113 , and cultivated on top of the four horizontal horizontal frames 115 . Jaw 120 is loaded.

Here, as shown in FIG. 2 , the horizontal vertical frame 113 and the horizontal horizontal frame 115 are arranged in multiple layers along the height direction of the vertical frame 111 so that the culture tank 120 is stacked in multiple layers.

The frame unit 110 according to the preferred embodiment of the present invention is provided such that the two cultivation tanks 120 are disposed vertically along the height direction of the vertical frame 111, but this is only an example and is an indoor space in which wasabi is grown. The number of arrangement of the culture tank 120 may be increased or decreased according to the height.

The wire support frame 117 is positioned on the upper portion of the horizontal vertical frame 113 to correspond to the height of the cultivation tank 120 , and both ends of the cover supporting horizontal wire 125 are coupled to each other.

Here, the vertical frame 111 , the horizontal vertical frame 113 , the horizontal horizontal frame 115 , and the wire support frame 117 may be formed of a metal pipe.

The cultivation tank 120 supports the pot 20 so that the wasabi 10 is hydroponically cultivated by the nutrient solution. The culture tank 120 includes a culture tank body 121 in which the port 20 is accommodated, and a port insertion cover 123 that covers the upper portion of the culture tank body 121 and the port 20 is inserted and supported therein. do.

The cultivation tank body 121 is formed in the form of a housing having a height higher than the height of the port 20 and is loaded on the upper part of the horizontal horizontal frame 115 . The upper surface of the culture tank body 121 is opened and covered by the port insertion cover 123 .

The port insertion cover 123 is covered on the open top of the cultivation tank body 121 and supports the plurality of ports 20 to be accommodated in a state of floating at a predetermined height with respect to the bottom of the cultivation tank body 121 . A plurality of port insertion holes 123a into which the port 20 is inserted are formed on the plate surface of the port insertion cover 123 at regular intervals.

As shown in FIG. 4 , the port insertion cover 123 is covered on the upper portion of the cultivation tank body 121 . The port insertion cover 123 is formed to have a larger area than the upper end of the culture tank body 121 , and is mounted on the upper edge of the culture tank body 121 so that the position is fixed.

A plurality of port insertion holes 123a into which the port 20 is inserted are formed in a plurality of rows and columns on the plate surface of the port insertion cover 123 . The port 20 is formed to gradually decrease in diameter from the top to the bottom as shown, and is inserted into the port insertion hole 123a to fix the position.

When the port 20 is inserted into the port insertion hole 123a, the height of the port 20 inserted into the lower portion of the port insertion cover 123 is lower than the overall height of the cultivation tank body 121 . Accordingly, the port 20 is positioned to float at a predetermined height from the bottom of the culture tank body 121 .

A plurality of through holes 21 are formed in the plate surface of the port 20 . The sponge 30 is accommodated inside the pot 20 , and the wasabi 10 is planted on the sponge 30 . The root of the wasabi (10) grows inside the sponge (30) and extends to the outside of the port (20) through the through hole (21).

In this state, the root nutrient solution (B) sprayed from the lower nozzle (131a) of the lower nozzle tube (131) is supplied to the root (11) of the wasabi (10) through the port (20), and the wasabi (10) is allowed to grow. do.

On the other hand, the stem 15 and leaf 13 of the wasabi 10 grow to the upper part of the pot 20, and the leaf from the upper nozzle 133a of the upper nozzle tube 133 located in the upper part of the port 20 Nutrient solution (A) is supplied so that leaves 13 and stems grow.

Here, when the wasabi 10 is grown after the plurality of ports 20 are inserted into the port insertion cover 123 , the weight of the port 20 is increased, and thus the pot 20 is hit inside the cultivation tank body 121 . In order to prevent the bending deformation of the pot insertion cover 123, a cover supporting horizontal wire 125 and a cover supporting vertical wire 127 for supporting the pot insertion cover 123 are provided at the upper end of the cultivation tank main body 121. .

As shown in FIG. 2 , the horizontal cover wire 125 is disposed on the upper end of the cultivation tank body 121 in the longitudinal direction, and both ends are coupled to the wire support frame 117 . The cover supporting vertical wire 127 is disposed orthogonally at regular intervals along the longitudinal direction of the cover supporting horizontal wire 125 to prevent sagging of the cover supporting horizontal wire 125 .

Both ends of the cover supporting vertical wire 127 are coupled to the vertical frame 111 disposed along the longitudinal direction of the cultivation tank body 121 .

Accordingly, even if the wasabi 10 is grown in a state in which the port insert cover 123 into which the plurality of ports 20 are inserted is covered on the upper part of the cultivation tank body 121, the pot insert cover 123 is stably plural without sagging. It can support the ports 20 of dogs.

Here, it is preferable that the culture tank body 121 and the pot insert cover 123 forming the culture tank 120 are made of a material having a light weight and durability. For this purpose, it is preferable that the culture tank body 121 and the port insertion cover 123 are made of FRP (Fiber Reinforced Plastics).

The nutrient solution supply unit 130 sprays the nutrient solution with the wasabi 10 grown in the pot 20 so that the wasabi 10 can grow through hydroponics. In particular, the nutrient solution supply unit 130 of the present invention differentially supplies the root nutrient solution (B) and the leaf nutrient solution (A), each having different components and concentrations, to the root 11 and the leaf 13, so that the wasabi 10 is optimal. Allow it to be grown in a growing environment. Thereby, it can grow into high-quality wasabi.

As shown in FIG. 3 , the nutrient solution supply unit 130 is disposed at the lower portion of the cultivation tank body 121 to supply the root nutrient solution B to the lower portion of the port 20 , the lower nozzle tube 131 , and the port 20 ), the upper nozzle tube 133 for supplying the leaf nutrient solution (A) toward the leaves 13 of the wasabi 10, and the root nutrient solution for supplying the root nutrient solution (B) to the lower nozzle tube 131 The supply tank 134, the leaf nutrient solution supply tank 135 for supplying the leaf nutrient solution to the upper nozzle pipe 133, the supplement tank 136 for controlling the concentration of the root nutrient solution supply tank 134, and wasabi (10) ), a mixed nutrient solution recovery tank 137 in which the mixed nutrient solution (B') in which the root nutrient solution (B) and the leaf nutrient solution (A) are mixed, and the mixed nutrient solution recovery tank and a control unit 139 for constantly adjusting the concentration of the root nutrient solution (B) by sensing the concentration of the mixed nutrient solution at (137) and replenishing the replenishment solution.

As shown in FIG. 2 , a plurality of lower nozzle tubes 131 are arranged side by side on the bottom surface of the cultivation tank body 121 in the longitudinal direction. One end of the lower nozzle tube 131 is connected to the root nutrient solution supply tank 134 to receive the root nutrient solution B. The lower nozzles 131a are provided on the upper surface of the lower nozzle tube 131 at regular intervals to supply the root nutrient solution B toward the upper side.

Here, the arrangement position of the lower nozzle 131a may be provided to correspond to each port 20 as shown in FIG. 3 , or may be deviated from the port 20 . Even if the position of the lower nozzle (131a) is displaced from the port (20), the root nutrient solution (B) sprayed from the plurality of lower nozzles (131a) is supplied to the port (20) to the inner sponge (30) and the root (11). is supplied

A plurality of upper nozzle tubes 133 are disposed on the upper portion of the culture tank 120 in the longitudinal direction of the culture tank 120 . The upper nozzle tube 133 is fixed to the horizontal horizontal frame 115 supporting the upper culture tank 120 through a coupling bracket (not shown) when the culture tank 120 is arranged in multiple layers. One end of the upper nozzle tube 133 is connected to the leaf nutrient solution supply tank 135 to receive the leaf nutrient solution.

The upper nozzle tube 133 is disposed between the lower layer culture tank and the upper layer culture tank and sprays the leaf nutrient solution (A) to the leaves 13 of the wasabi (10) planted in the lower layer culture tank 120 to produce the leaf nutrient solution (A). to be properly cultivated.

Here, the root nutrient solution (B) and the leaf nutrient solution (A) sprayed from the lower nozzle tube 131 and the upper nozzle tube 133, respectively, are absorbed by the root 11 and the leaf 13, and then the culture tank body 121. falls to the bottom of

The cultivation tank body 121 is disposed to be inclined at a predetermined angle toward the mixed nutrient solution recovery tank 137 side. The mixed nutrient solution (B') in which the root nutrient solution (B) and leaf nutrient solution (A) are diluted to the bottom of the cultivation tank body 121 is one end of the cultivation tank body 121 by the inclination angle of the cultivation tank body 121 . is collected, and is recovered to the mixed nutrient solution recovery tank 137 through the recovery pipe 138 .

Here, when the culture tank 120 is formed in multiple layers, a mixed nutrient solution discharge hole 121a for discharging the mixed nutrient solution B ′ to the lower layer culture tank 120 on the bottom surface of the culture tank body 121 disposed on the upper layer (121a) This penetration is formed. As a result, the mixed nutrient solution B' of the multi-layered culture tank 120 is collected in the mixed nutrient solution recovery tank 137 after falling into the lowermost culture tank 120 .

The mixed nutrient solution recovery tank 137 is provided with a second concentration sensor 137a. The mixed nutrient solution (B'), in which the root nutrient solution (B) supplied to the root (11) of the port (20) and the leaf nutrient solution (A) discharged after being supplied to the leaves (13) are mixed, first A change occurs in the root nutrient solution (B) supplied through the tube 131 and the concentration and composition.

The second concentration sensor 137a detects the current concentration and component of the mixed nutrient solution B' and transmits it to the control unit 139. The control unit 139 causes the replenishment solution to be supplied from the replenishment tank 136 to be the same as the preset concentration and component of the root nutrient solution B based on the current concentration and component detected by the second concentration sensor 137a.

Although not shown in the drawing, the replenishment tank 136, the root nutrient solution supply tank 134, and the leaf nutrient solution supply tank 135 are equipped with pumps, respectively, and are operated under the control of the control unit 139. to be supplied

The root nutrient solution supply tank 134 is provided with a first concentration detection sensor 134a to detect whether the replenishment solution is mixed with the mixed nutrient solution (B') and the root nutrient solution (B) is formed to match a preset concentration and component.

In this way, the root nutrient solution (B) is recycled by mixing the mixed nutrient solution (B') and the replenishment solution.

Here, the ingredients and supply cycle of the leaf nutrient solution (A) and the root nutrient solution (B) may be changed according to the growth rate of the wasabi (10).

Thereby, it is possible to increase the growth rate of wasabi, and to improve the nutritional components, size, texture, storability, and taste of wasabi.

The nutrient solution supply unit 130 according to a preferred embodiment of the present invention circulates and re-supplys the root nutrient solution (B) using a mixed nutrient solution in which the root nutrient solution (B) and the leaf nutrient solution (A) are mixed, but this is only an example. Accordingly, each of the root nutrient solution (B) and leaf nutrient solution (A) can be independently recycled and recycled.

The lighting unit 140 is provided on the culture tank 120 and irradiates the light L with the wasabi 10 planted in the pot 20 . The lighting unit 140 may be provided with an LED lamp. As shown in FIG. 2 , the lighting unit 140 is fixed to the horizontal horizontal frame 115 located on the upper portion of the culture tank 120 using a fixing bracket 141 .

The manager controls the power supply of the lighting unit 140 so that the amount of light suitable for the growth of the wasabi 10 is irradiated to the wasabi 10 .

An assembly process and a wasabi cultivation process of the indoor wasabi cultivation apparatus 100 according to the present invention having such a configuration will be described with reference to FIGS. 1 to 4 .

As shown in FIG. 2 for assembling the wasabi indoor cultivation apparatus 100, a pair of vertical frames 111 are arranged to correspond to the width of the cultivation tank 120, and the horizontal vertical frames 113 are combined. In this case, when the culture tank 120 is arranged in multiple layers, a plurality of horizontal vertical frames 113 are disposed in the height direction of the vertical frame 111 at each arrangement position of the culture tank 120 .

One end of the plurality of horizontal horizontal frames 115 is coupled to the horizontal vertical frame 113 coupled to the vertical frame 111 using a bracket or the like. The horizontal vertical frame 113 coupled to the vertical frame 111 is coupled to the other end of the plurality of horizontal horizontal frames 115 in the same manner.

Then, the vertical frame 111 is coupled at regular intervals along the longitudinal direction of the horizontal horizontal frame 115 to place the vertical frame 111 upright on the ground.

A wire support frame 117 is coupled to the upper portion of the horizontal vertical frame 113 to correspond to the height of the cultivation tank 120 .

When the assembly of the frame part 110 is completed in this way, the cultivation tank body 121 is loaded on the horizontal horizontal frame 115 . Then, the lower nozzle tube 131 is arranged side by side on the inner bottom surface of the cultivation tank body 121 , and the leaf nutrient solution supply tank 135 is connected to one end of the lower nozzle tube 131 .

The upper nozzle tube 133 is coupled to the upper horizontal horizontal frame 115 of the culture tank 120 , and the lighting unit 140 is also coupled.

A plurality of cultivation tank bodies 121 are disposed along the height direction of the vertical frame 111 in the same form.

On the upper portion of each cultivation tank body 121 , the cover supporting horizontal wire 125 and the cover supporting vertical wire 127 are coupled to the wire supporting frame 117 and the vertical frame 111 and disposed. Then, the pot insertion cover 123 is covered on the upper portion of the cultivation tank body 121 .

When the assembly of the wasabi indoor cultivation apparatus 100 is completed in this way, the pot 20 in which the wasabi 10 is planted is inserted into the pot insertion cover 123 .

The sponge 30 is accommodated in the pot 20 , and the wasabi 10 is planted in the sponge 30 .

After the port 20 is inserted with the port insertion cover 123, when the administrator applies power, the nutrient solution supply unit 130 supplies the root nutrient solution (B) and the leaf nutrient solution (A) to the wasabi (10) as shown in FIG. ) is supplied. After the root nutrient solution (B) is moved along the lower nozzle tube (131), the port (20) is sprayed downward through the lower nozzle (131a) and absorbed into the root (11) of the wasabi (10).

After the leaf nutrient solution (A) is moved along the upper nozzle tube 133, it is supplied to the leaves 13 of the wasabi 10 planted in the pot 20 through the upper nozzle 133a.

Wasabi 10 is irradiated with light (L) from the lighting unit 140 as shown in Fig. 4, and periodically from the upper nozzle (133a) and the lower nozzle (131a) from the leaf nutrient solution (A) and the root nutrient solution (B) supplied and grown.

As described above, the wasabi indoor cultivation apparatus according to the present invention enables wasabi to be cultivated through hydroponics indoors according to the strict cultivation conditions of wasabi.

The production of wasabi per unit area can be maximized by arranging the cultivation tanks where wasabi is grown in multiple layers.

In addition, it is possible to increase the growth rate of wasabi and produce high quality wasabi by supplying the leaf nutrient solution and the root nutrient solution separately.

The embodiments of the wasabi indoor cultivation apparatus of the present invention described above are merely exemplary, and those of ordinary skill in the art to which the present invention pertains are aware that various modifications and equivalent other embodiments are possible therefrom. you will know Therefore, it will be well understood that the present invention is not limited to the form mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. Moreover, it is to be understood that the present invention covers all modifications, equivalents and substitutions falling within the spirit and scope of the invention as defined by the appended claims.

10: Wasabi 11: Root
13: leaf 15: stem
20: port 21: through hole
30: sponge 100: wasabi indoor cultivation device
110: frame part 111: vertical frame
113: horizontal vertical frame 115: horizontal horizontal frame
117: wire support frame 120: cultivation tank
121: cultivation tank body 121a: mixed nutrient solution discharge hole
123: port insertion cover 123a: port insertion hole
125: cover support horizontal wire 127: cover support vertical wire
130: nutrient solution supply unit 131: lower nozzle pipe
131a: lower nozzle 133: upper nozzle tube
133a: upper nozzle 134: root nutrient solution supply tank
134a: first concentration sensor 135: leaf nutrient solution supply tank
136: supplement tank 137: mixed nutrient solution recovery tank
137a: second concentration sensor 138: recovery pipe
139: control unit 140: lighting unit
141: fixing bracket
A: Leaf nutrient solution
B: Root nutrient solution
B': mixed nutrient solution
L: light

Claims (4)

The pot insertion cover is formed at regular intervals with the cultivation tank body 121 formed in the form of an enclosure, and the pot insertion holes 123a, which cover the upper portion of the cultivation tank body 121 and into which the pot 20 planted with wasabi is inserted. a culture tank 120 having a 123;
a frame part 110 for supporting the culture tank 120 so that the culture tank 120 is arranged in multiple layers along the height direction;
A lower nozzle pipe 131 and an upper nozzle pipe 133 that are disposed on the lower and upper portions of the port 20 in the frame unit 110 and supply nutrient solution to the roots and leaves of wasabi planted in the port 20. A nutrient solution supply unit 130 having a;
and a lighting unit 140 provided on each of the plurality of cultivation tanks 120 arranged in multi-layered layers to irradiate light toward the port 20,
The frame part 110,
a plurality of horizontal horizontal frames 115 disposed side by side in the longitudinal direction of the culture tank 120 under the culture tank 120 to support the culture tank 120;
a plurality of vertical frames 111 disposed in a vertical direction along the longitudinal direction of the plurality of horizontal horizontal frames 115;
a horizontal vertical frame 113 disposed in the horizontal direction under the plurality of horizontal horizontal frames 115 and connecting the horizontal horizontal frame 115 and the vertical frame 111;
and a wire support frame 117 disposed on the upper portion of the horizontal vertical frame 113 at a height corresponding to the cultivation tank body 121 and coupled to the vertical frame 111,
The cultivation tank 120,
A plurality of cover support transverse wires 125 disposed along the longitudinal direction at the upper end of the cultivation tank body 121 to support the lower portion of the port insertion cover 123 and both ends coupled to the wire support frame 117 and ;
A plurality of cover supporting vertical wires 127 disposed in the vertical direction on the plurality of cover supporting horizontal wires 125 and having both ends coupled to the vertical frame 111 to hold the deformation of the plurality of cover supporting horizontal wires 125 . ), including
The nutrient solution supply unit 130,
a root nutrient solution supply tank 134 for supplying the root nutrient solution (B) to the lower nozzle tube 131 and having a first concentration sensor;
a leaf nutrient solution supply tank 135 for supplying the leaf nutrient solution A to the upper nozzle tube 133;
a supplement tank 136 for controlling the concentration of the root nutrient solution supply tank 134;
The mixed nutrient solution (B') in which the root nutrient solution (B) and the leaf nutrient solution (A) are mixed is recovered after being supplied to the wasabi (10) and dropped to the cultivation tank body (121), a second concentration sensor is provided a mixed nutrient solution recovery tank 137;
Wasabi indoor cultivation apparatus, characterized in that it comprises a control unit 139 for replenishing the replenishment solution to the mixed nutrient solution (B ') recovered in the mixed nutrient solution recovery tank (137) to maintain a predetermined component and concentration of the root nutrient solution.

delete According to claim 1,
The cultivation tank body (121) is mounted on the plurality of horizontal horizontal frames (115), wasabi indoor cultivation apparatus, characterized in that formed higher than the height of the pot (20).
According to claim 1,
A plurality of the lower nozzle tubes 131 are arranged side by side inside the culture tank body 121 in the longitudinal direction of the culture tank body 121,
A plurality of the upper nozzle tube 133 is arranged side by side along the longitudinal direction of the port insertion cover 123 on the upper portion of the port insertion cover 123,
The lower nozzle tube 131 has a plurality of lower nozzles 131a spraying the root nutrient solution toward the port 20 inserted into the cultivation tank body 121 on the upper surface at regular intervals,
The upper nozzle tube 133 has a plurality of upper nozzles 133a on its lower surface for spraying the leaf nutrient solution toward the leaves of the wasabi 10 planted in the port 20 at regular intervals,
The leaf nutrient solution and the root nutrient solution sprayed from the upper nozzle 133a and the lower nozzle 131a are collected in the lowermost culturing tank body,
The mixed nutrient solution recovery tank 137 is provided at one end of the lowermost culture tank body to recover the collected mixed nutrient solution (B').

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