KR20200095864A - Small farming apparatus growing from seed to vegetable - Google Patents

Abstract

Disclosed is a plant farming apparatus. The disclosed plant farming apparatus comprises: a nutrient solution storage unit having a storage container, wherein a nutrient solution is stored inside, and first and second legs which respectively support both sides of the storage container; a nutrient solution circulation unit for supplying and circulating the nutrient solution to the nutrient solution storage unit; a support disposed above the nutrient solution storage unit; at least one port unit supported by the support; a water supply pipe supplying water to the port unit; and a light source unit for irradiating light to the port unit.

Description

Small plant farming device that grows from germination to citadel {SMALL FARMING APPARATUS GROWING FROM SEED TO VEGETABLE}

The present invention relates to a plant farming device, and more particularly, to a small plant farming device capable of growing seeds from germinated pots to fortresses without the need to move to another place after germinating.

In general, nutrient solution cultivation is also called solution cultivation as an aqueous solution of nutrients necessary for plant growth.

In the conventional nutrient solution cultivation, seed germination and growth were carried out in separate trays, respectively. Specifically, in the conventional nutrient solution cultivation, a seed insertion member into which plant seeds are inserted into a germination tray is put in, and the plant seeds are germinated, and when the plant seeds germinate, take out the seed insertion member and put it in a separate growth tray. Grow.

However, in the conventional nutrient solution cultivation, since the germination and growth of plant seeds are performed in a separate tray, there is a problem in that the cultivation efficiency is lowered because the seed insertion member must be moved from the germination tray to the growth tray.

It is an object of the present invention to provide a small plant farming device capable of growing seeds from germinated pots to fortresses without the need to be transferred to another place after germination.

In order to achieve the above object, the present invention provides a nutrient solution storage unit having a storage container in which the nutrient solution is stored and first and second legs respectively supporting both sides of the storage container; A nutrient solution circulation unit for supplying and circulating the nutrient solution to the nutrient solution storage unit; A support disposed above the nutrient solution storage unit; At least one port unit supported by the support; A water supply pipe for supplying water to the port unit; And it provides a plant farming apparatus comprising a; and a light source for irradiating light to the port unit.

The port unit may include a body portion detachably coupled to the support and having upper and lower portions open; A seed seating member coupled to the inner side of the body and having a seating groove on which the seed is seated; And a cone-shaped guide portion coupled to the upper portion of the body portion and formed in an upper light lower side.

The seed seating member may form an incision extending from the seating groove to the bottom surface of the seed seating member so that the root of the plant grown after the seed seated in the seating groove is germinated to protrude to the bottom surface of the seed seating member.

The first leg may have a nutrient solution discharge hole communicating with one side of the nutrient solution circulation part, and the second leg may communicate with the other side of the nutrient solution circulation part, and may be formed at a position higher than the height of the nutrient solution discharge hole.

The nutrient solution circulation unit may include a pipe having both ends connected to the nutrient solution discharge hole and the nutrient solution supply hole; A valve, a filter, a nutrient solution supply tank, and a pump that are sequentially installed along the flow direction of the nutrient solution flowing along the pipe may be included.

The water supply pipe is disposed above the port unit at a predetermined distance, and a plurality of water supply holes for supplying water to each of the port units may be formed at a predetermined distance.

The light source unit may be disposed adjacent to the water supply pipe and may be disposed along a longitudinal direction of the support.

As described above, in the present invention, there is an advantage of being able to conveniently grow edible vegetables such as lettuce as well as ornamental plants.

1 is a perspective view showing a small plant farming device according to an embodiment of the present invention.
2 is a side view of a puzzle device according to an embodiment of the present invention, and is a view showing only one part in cross section.
3 is a view showing a structure of a nutrient solution circulation unit connected to a nutrient solution storage unit of a small plant farming device according to an embodiment of the present invention.
4 is a perspective view showing a medicine storage unit of a small plant farming device according to an embodiment of the present invention.
5 is a cross-sectional view showing a state in which a pot unit of a small plant farming device according to an embodiment of the present invention is supported by a support.
6A to 6D are views sequentially showing a process of growing seeds from germination to citadel by a small plant farming device according to an embodiment of the present invention.

Hereinafter, various embodiments will be described in more detail with reference to the accompanying drawings. The embodiments described herein can be variously modified. Certain embodiments may be depicted in the drawings and described in detail in the detailed description. However, the specific embodiments disclosed in the accompanying drawings are only for easy understanding of various embodiments. Therefore, the technical spirit is not limited by the specific embodiments disclosed in the accompanying drawings, and it should be understood that it includes all equivalents or substitutes included in the spirit and technical scope of the invention.

Terms including ordinal numbers such as first and second may be used to describe various components, but these components are not limited by the above-described terms. The above-described terms are used only for the purpose of distinguishing one component from other components.

In this specification, terms such as “comprises” or “have” are intended to indicate that there are features, numbers, steps, operations, elements, parts, or combinations thereof described in the specification, and one or more other features. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance. When an element is said to be "connected" or "connected" to another component, it is understood that other components may be directly connected to or connected to the other component, but there may be other components in between. It should be.

In addition, in describing the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be reduced or omitted.

Hereinafter, with reference to the drawings, a small plant farming device for growing from germination to fortress according to an embodiment of the present invention will be described in detail.

1 is a perspective view showing a small plant farming device according to an embodiment of the present invention, FIG. 2 is a side view of a puzzle device according to an embodiment of the present invention, showing only one part in cross section, and FIG. 3 is a nutrient solution circulation It is a view showing the structure connected to the additional nutrient solution storage unit, Figure 4 is a perspective view showing the Western medicine storage unit, Figure 5 is a cross-sectional view showing a state in which the germination growth unit is supported by a support.

1 to 3, a small plant farming device 1 according to an embodiment of the present invention includes a nutrient solution storage unit 10, a nutrient solution circulation unit 20 for circulating and supplying the nutrient solution, and a nutrient solution storage unit The support 30 disposed on the upper part of the 10, the port unit 50 coupled to the support 30, the water supply unit 60 disposed on the upper side of the port unit 50, and the port unit 50 It may include a light source unit 70 for irradiating light toward the sprout germinated in.

Referring to FIG. 4, the nutrient solution storage unit 10 may include a storage container 11 in which the nutrient solution 80 is stored, and first and second legs 13 and 15 supporting both sides of the storage container 11. .

The storage container 11 has an approximately U-shaped cross section with an upper open and a lower closed. A plurality of port units 50 are provided on the upper portion of the storage container 11 and a support 30 is disposed. Accordingly, the plants growing in the plurality of pot units 50 extend roots into the storage container 11 and absorb the nutrient solution contained in the interior 11a of the storage container 11. Here, as the nutrient solution, a culture solution having a component capable of supplying nutrients to plants may be used.

The storage bin 11 may be opened at a left side and a right side, respectively, and are coupled to the first and second legs 13 and 15, respectively. Specifically, the left end of the storage container 11 is coupled to the first coupling groove 13b formed on one side of the first leg 13, and the right end of the storage container 11 is formed on one side of the second leg 15. 2 is coupled to the coupling groove (15b). It is preferable that the first and second coupling grooves 13b and 15b are formed in the same U-shape as the cross-section of the storage container 11.

In this case, a sealing member (not shown) for preventing water leakage is provided at the coupling portion of the left end of the reservoir 11 and the first leg 13 and the coupling portion of the right end of the reservoir 11 and the second leg 15, respectively. Bonded or viscous leak-proofing agents may be applied.

The first and second legs 13 and 15 support the left and right sides of the storage container 11, respectively.

The first leg 13 has a nutrient solution discharge hole 13a communicating with the inside of the reservoir 11, and the second leg 15 has a nutrient solution supply hole 15a communicating with the inside of the reservoir 11 do.

The nutrient solution discharge hole 13a may be located at a lower height than the nutrient solution supply hole 15a.

When the nutrient solution discharge hole 13a is disposed in a position adjacent to the bottom of the storage container 11, the nutrient solution stored in the storage container 11 can be smoothly discharged from the storage container 11 through the nutrient solution discharge hole 13a by water pressure. have. In addition, the nutrient solution stored in the storage container 11 may be forcibly discharged through the nutrient solution discharge hole 13a by the nutrient solution circulation unit 20.

The nutrient solution supply hole 15a may be disposed at a position adjacent to the upper end of the storage container 11. In this case, the level of the nutrient solution stored in the storage container 11 can be maintained lower than that of the nutrient solution supply hole 15a by adjusting the amount of the nutrient solution 80 supplied to the storage container 11. When the level of the nutrient solution is kept lower than the nutrient solution supply hole 15a, it is possible to fundamentally prevent the nutrient solution from flowing back into the nutrient solution supply hole 15a.

Referring to FIG. 3, the nutrient solution circulation unit 20 includes a pipe 21, a pump 23, and a nutrient solution supply tank 25 having both ends connected to a nutrient solution discharge hole 13a and a nutrient solution supply hole 15a, respectively. , Filter 27, and may include a valve 29. In this case, the pump 23, the nutrient solution supply tank 25, the filter 27, and the valve 29 are sequentially installed in the pipe 21, respectively.

The pump 23 circulates the nutrient solution in the storage container 11 by pumping the nutrient solution from the storage container 11 through the nutrient solution discharge hole 13a and supplying it to the storage container 11 through the nutrient solution supply hole 15a. The nutrient solution supply tank 25 is provided to supplement the nutrient solution supplied to the reservoir 11. The filter 27 filters the nutrient solution supplied to the nutrient solution supply tank 25 and the pump 23 along the pipe 21. The valve 29 may open and close a part of the pipe 21 to control the nutrient solution transferred to the pump 23.

The support 30 is formed with a plurality of insertion holes 31 to which a plurality of port units 10 are detachably coupled, respectively.

The support 30 is seated on the upper portion of the nutrient solution storage unit 10. Specifically, the support 30 is a plurality of fixing protrusions detachably coupled to a plurality of fixing grooves (13c, 15c, see Fig. 4) respectively formed on the upper surfaces of the first and second legs (13, 15) at both ends of the bottom surface (Not shown) is formed.

The support (30) supports a number of pot units (10) until seeds are germinated in the plurality of pot units (10) and grows into a citadel, and after becoming a fortress, the support (30) is separated from the nutrient solution storage (10). Thus, it can be used as a means capable of transferring a plurality of port units 50 at the same time.

Furthermore, if the plants grown in the plurality of pot units 10 are edible vegetables such as lettuce, when the support 30 on which the plurality of pot units 10 are seated is transferred to the table, you can directly pick and eat fresh vegetables. There is an advantage. In the present invention, vegetables can be grown in a non-contaminated environment in a plurality of pot units 10, so they can be consumed directly without washing.

5, the port unit 50 includes a body portion 51, a guide portion 55 coupled to an upper portion of the body portion 51, and a seed support member 57 coupled to the inner side of the body portion 51 It may include.

The body portion 51 has a coupling groove 54 formed along the inner circumferential surface of the body portion 51 so that the seed seating member 57 can be inserted. In addition, the body portion 51 may include an insertion portion 52 at the lower side and an extension portion 53 extending below the insertion portion 52.

The insertion portion 52 is detachably coupled to the insertion hole 31 of the support. In this case, as the outer diameter of the body portion 51 is formed larger than the diameter of the insertion hole 31 of the support, when the insertion portion 52 is inserted into the insertion hole 31 of the support, the body portion 51 is It can be seated in (30a).

The extension part 53 has a space 53a formed inside and a through hole 53b formed at the bottom surface. The upper part of the space 53a is exposed so that the bottom surface of the seed seating member 57 is visible. Accordingly, the root of the plant protruding to the bottom of the seed seating member 57 can be immersed in the nutrient solution 80 in the reservoir 11 through the space 53a and the through hole 53b.

The guide part 55 is detachably coupled to the coupling hole 51b formed at the upper portion of the body 51 with the lower end 55a. The guide part 55 may be formed in the shape of a cone of upper gwang-hahyeop to support the leaves of the fortress. In this case, the open inclination angle of the guide part 55 may be manufactured at various angles according to the type of fortress.

In addition, the guide part 55 may serve to receive water droplets falling from the water supply pipe 60 located on the upper side and transfer them to the seed seating member 57.

The seed seating member 57 may be made of a soft porous material. For example, the seed seating member 57 may be formed of a sponge or a nonwoven fabric.

The seed seating member 57 may have a seating groove 57a on which the seed is seated on the upper surface. In addition, the seed seating member 57 has an incision 57b formed so that the root of the plant germinated in the seating groove 57a penetrates the seed seating member 57 and protrudes to the bottom surface of the seed seating member 57. I can.

1 and 2, a water supply pipe 60 may be disposed above the plurality of port units 50.

The water supply pipe 60 is formed with a plurality of water supply holes 65 for supplying water to each port unit 50 disposed at the lower side.

A plurality of water supply holes 65 may be arranged at regular intervals in each port unit 50. In this case, a plurality of water supply holes 65 may be disposed at intervals corresponding to each port unit 50.

A plurality of water supply holes 65 may be formed in a predetermined size so that water can be supplied to each port unit 50 by drop. A nozzle (not shown) may be coupled to each water supply hole 65.

Some of the water supplied to the one side 61 of the water supply pipe 60 is discharged to the plurality of water supply holes 65 and the rest is discharged to the other side 63 of the water supply pipe 60. Although not shown in the drawing, a pump (not shown) for supplying water to each port unit 50 through the water supply pipe 60 may be provided. In this case, by controlling the pump, the amount of water supplied to each port unit 50 through each water supply hole 65 can be appropriately controlled.

The light source unit 70 irradiates light toward the plants so that the plants growing in the plurality of port units 50 can perform photosynthesis. If the light source unit 70 can be disposed around the water supply pipe 60, it can be supported by a structure not shown.

The light source unit 70 may include a metal substrate 71 having a length substantially corresponding to the length of the support 30, and a plurality of LEDs 73 mounted on one surface of the metal substrate 71.

The small plant growing apparatus 1 according to an embodiment of the present invention configured as described above can grow plants from germination to fortress in each pot unit 50 as shown in FIGS. 6A to 6D.

Referring to FIG. 6A, 1-3 seeds 90 are put in the seating groove 57a of the seed seating member 57. In this state, a certain amount of water is supplied to each pot unit 50 through the water supply pipe 60 for a predetermined time so that the seeds 90 can germinate. In addition, light is irradiated to the seed 90 at a constant amount of light through the light source unit 70.

When a certain amount of water and light are supplied to each port unit 50, the seeds germinate after a certain period of time to take the form of a small plant as shown in FIG. 6B.

After a certain period of time elapses, the more grown plant 91 has a larger stem and leaves as shown in FIG. 6C, and roots are formed. The root protrudes from the bottom surface of the seed seating member 91 through the cutout 57b of the seed seating member 50.

In the plant 92 that has grown continuously, the leaves are guided by the guide part 55, and the root 93a also grows. In this case, the root 93a passes through the through hole 53b of the extension part 53 and enters the nutrient solution of the storage container 11 to absorb the nutrient solution as shown in FIG. 6D.

As described above, the small plant farming device 1 according to an embodiment of the present invention can grow from germination to a citadel in the same pot unit 50 without moving to another place while growing from a seed to a citadel, so that plant cultivation is very It's easy.

In addition, even when growing ornamental plants through the small plant farming device 1, the user can directly water or supply nutrient solution every day.

In the above, although the preferred embodiment of the present invention has been illustrated and described, the present invention is not limited to the above-described specific embodiment, and is generally in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims It is of course possible to perform various modifications by a person having knowledge of, and these modifications should not be individually understood from the technical idea or prospect of the present invention.

10: nutrient solution storage unit 11: storage container
13: first leg 15: second leg
20: nutrient solution circulation unit 21: piping
23: pump 25: nutrient solution supply tank
27: filter 29: valve
30: support 31: insertion hole
50: port unit 51: body
55: guide part 57: seed support member
60: water supply pipe 70: light source unit

Claims (8)

A nutrient solution storage unit including a storage container in which the nutrient solution is stored and first and second legs respectively supporting both sides of the storage container;
A nutrient solution circulation unit for supplying and circulating the nutrient solution to the nutrient solution storage unit;
A support disposed above the nutrient solution storage unit;
At least one port unit supported by the support;
A water supply pipe for supplying water to the port unit; And
Plant farming apparatus comprising a; light source unit for irradiating light to the port unit. The method of claim 1,
The port unit,
A body portion detachably coupled to the support and having upper and lower portions open;
A seed seating member coupled to the inner side of the body and having a seating groove on which the seed is seated; And
A plant farming device comprising: a cone-shaped guide portion coupled to an upper portion of the body portion and formed in a vertical gwanghyeop. According to claim 2,
The seed seating member has an incision extending from the seating groove to the bottom surface of the seed seating member so that the roots of the plant grown after the seeds seated in the seating groove are germinated protrude to the bottom surface of the seed seating member. Plant farming device. The method of claim 3,
Plant farming device, characterized in that the seed seating member is made of a soft porous material. The method of claim 1,
The first leg has a nutrient solution discharge hole communicating with one side of the nutrient solution circulation unit,
The second leg is in communication with the other side of the nutrient solution circulation unit, plant farming apparatus, characterized in that formed at a position higher than the height of the nutrient solution discharge hole. The method of claim 1,
The nutrient solution circulation unit,
A pipe having both ends connected to the nutrient solution discharge hole and the nutrient solution supply hole, respectively;
Plant farming apparatus comprising a valve, a filter, a nutrient solution supply tank, and a pump sequentially installed along the flow direction of the nutrient solution flowing along the pipe. The method of claim 1,
The water supply pipe is disposed at a certain distance above the port unit,
Plant farming apparatus, characterized in that a plurality of water supply holes for supplying water to each of the port units are formed at regular intervals. The method of claim 1,
The light source unit is disposed adjacent to the water supply pipe and is disposed along the longitudinal direction of the support.

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