KR20150064509A - Plant cultivation receptacles and this includes plant cultivation device - Google Patents

Abstract

The present invention relates to a plant cultivation receptacle, which cultivates ginseng or other plants, and a plant cultivation device comprising the same. The plant cultivation receptacle comprises a storage tank for storing water below a plant pot for cultivating ginseng or other plants, not only to continuously supply a predetermined amount of water but also to enable cultivating of ginseng or other plants in any place and provide the optimal growth environment to increase a harvest.

Description

[0001] The present invention relates to a plant cultivation vessel and a plant growing apparatus including the plant cultivation vessel,

The present invention relates to a plant cultivation vessel capable of cultivating ginseng and the like, and more particularly to a plant cultivation vessel containing ginseng and the like, and more particularly, to a plant pot for planting a plant such as ginseng, To a plant cultivation vessel capable of supplying water and capable of cultivating plants such as ginseng regardless of a place, and providing an optimum growth environment to increase water yield, and a plant grower including the same.

Generally, a plant grower can provide a space in which plants can be easily grown in an indoor or outdoor space. Such plant growers include pots in which the plants are planted, and a holder for the pots is formed. The pots placed in the plant growers form a receptive space in which the plants and the soil are contained, and the water is supplied to the plants planted in the receptive space at regular intervals to promote the growth of the plants.

As described above, the conventional plant growing apparatus has a disadvantage that the user has to continuously manage water to periodically supply water to the plant, and when the water supply is stopped due to the absence of the user, the planted plant is dried or not properly grown . Therefore, there is a growing demand for plant growers that can automatically supply water to plants in order to reduce the number of times the plant is managed by the user.

According to this demand, recently, a water tank is formed in the support member of a flowerpot so that the water contained in the water tank is absorbed by the soil in the flowerpot due to the capillary phenomenon, but the problem is that the water located on the side of the flowerpot is not smooth . Also, in the conventional plant growing machine, the absorption member for supplying water to the soil from the water tank has gradually fallen into the water tank, and the water supply amount is gradually decreased, thereby causing a problem of reducing the growth rate of the plant.

Therefore, it is necessary to develop a plant growing machine which can supply water uniformly in the pots placed in the plant growing machine and can supply water automatically so that the user does not need continuous management and can grow a large amount of plants in a narrow space. to be.

1. Registration Practical New Art Bulletin No. 20-0457473 'Flowerpot' (Registration date December 14, 2011) 2. Registered Patent Publication No. 10-1212764 'Self-watering pots supplying water using capillary' (Registration date December 10, 2012) 3. Open Patent Publication No. 10-2012.0122484 'Pollen support for moisture supply' (Disclosure date 2012.11.07)

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a plant cultivation vessel in which a plurality of plant cultivation vessels in which plants such as ginseng can be planted, A water reservoir capable of storing water at the bottom of the water reservoir, and an absorber for absorbing water in the water reservoir, and a plant grower including the same.

The present invention also provides a plant cultivation vessel and a plant grower including the plant cultivation vessel capable of promoting the growth of plants planted with a water supply pipe for supplying water or a nutrient solution from the outside so that drip irrigation water is formed on the upper side of the plant cultivation vessel The purpose.

The plant cultivation vessel of the present invention includes a bottom plate 110 and a side wall 130 protruding upward along the edge of the bottom plate 110 so as to form an accommodation space S capable of receiving the soil therein, And a drain protrusion 130 protruding upward from the upper surface of the bottom plate 110 and having a drain hole 131 passing through the bottom plate 110 at a center thereof. A support table 210 inserted into the accommodation space S so as to divide the accommodation space S into a planting space S1 and a water storage space S2 and mounted on the bottom plate 110 in a downward direction, A partition plate (200) comprising: And a first supplying unit 300 for supplying water stored in the water storage space S2 to the planting space S1 through the partition plate 200 by osmotic pressure.

In the present invention, the partition plate 200 is formed with a through-hole 201 penetrating through the partition plate 200 so that the first feeding means 300 is inserted, and the through- The flange 210 protruding in the upward direction and having a plurality of first guide holes 221 passing through the protruded side is fastened to the first supply means 300.

In the present invention, the first feeding means 300 is opened on the upper side, the absorbing member insertion hole 311 is formed in the lower surface of the first feeding means 300, and the second guide hole 221 (corresponding to the first guide hole 221) 312), and a supporting protrusion (313) protruding from the upper surface of the absorbing member (310) so as to be seated on the upper surface of the flange (220); A suction part 321 inserted into the absorbing member insertion hole 311 and having one side located in the water storage space S2 and a suction part 321 formed on the other side of the suction part 321 and positioned on the upper side of the partition plate 200 An absorbing member (320) including a plurality of supply portions (322) inserted into the first guide hole (221) and the second guide hole (312) so that the first guide hole (221) And a cap 330 which is fastened to the flange 210 to close the upper side of the absorbent member support 310.

In the present invention, a planting material guide plate 400 for guiding the position of a plant to be planted in the planting space S1 is provided at an upper portion of the planting space S1, And a second supplying means (500) for supplying water is provided.

In the present invention, the planting material guide plate 400 includes a feeder receiving part 410 embedded in the downward direction and a side plate 420 formed on both sides of the feeder receiving part 410 and having a plurality of elongated holes 421, Wherein the second supply means 500 includes a storage container 510 for storing the liquid and one side connected to the storage container 510 so as to store the liquid contained in the storage container 510 in the planting space S1 And a supply pipe 520 having a plurality of water holes 521 formed therein for discharging the water in the downward direction of the supply pipe receiving part 410.

The plant cultivator of the present invention includes a plant cultivation vessel, and the plant cultivator includes a plurality of side frames (610) vertically installed; A bottom plate 620 installed between the side frames 610; A top plate 630 spaced apart from the bottom plate 620 by a predetermined distance and fixed to the side frame 610 and having a plurality of LED modules installed on the bottom surface thereof; A roof plate 640 inclined at a predetermined angle to adjust the amount of sunlight irradiated to the upper plate 630 and fixed to the upper surface of the side frame 610 at one side; A first seating plate 650 positioned on the upper side of the upper plate 630 so as to be slid on both sides of the side frame 610; A first drain plate 660 located below the first placement plate 650 and slidably mounted on the side frame 610; A second seating plate 670 disposed on the upper side of the bottom plate 620 and slidably mounted on the side frames 610 on both sides; And a second drain plate 680 disposed below the second placement plate 670 and slidably mounted on the side frame 610 on both sides thereof.

The plant cultivation vessel of the present invention comprises a planting space in which plants are planted, a water storage space for accommodating water, a culture liquid, etc., and a first supply means for supplying water and a culture liquid to upper and lower sides of the planting space, And the second supply means are provided to uniformly supply the water and the culture liquid to the entire dried planting space.

Further, the present invention has a plant growing machine capable of placing a plant cultivation vessel, so that it is possible to cultivate a large amount of plants in a narrow space regardless of a place.

1 is an exploded perspective view showing a main structure of a plant cultivation vessel of the present invention.
FIG. 2 is a side sectional view showing a main structure of a plant cultivation vessel of the present invention. FIG.
3 is a sectional view of the first feeding means of the present invention;
4 is an exploded perspective view showing a main configuration of the first supply means of the present invention;
5 is a perspective view showing a main configuration of a second supply means of the present invention;
6 is a partial perspective view showing an irrigation hole of the supply pipe of the present invention.
7 is a side sectional view showing the use state of the second supply means of the present invention.
8 is a perspective view showing a plant cultivation vessel and a plant growing machine of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Fig. 1 is an exploded perspective view showing a main constitution of the plant cultivation vessel of the present invention, Fig. 2 is a side sectional view showing the main constitution of the plant cultivation vessel of the present invention, Fig. 3 is a sectional view of the first feeding means of the present invention, Fig. 5 is a perspective view showing a main configuration of a second supply means of the present invention, Fig. 6 is a partial perspective view showing an irrigation hole of the supply pipe of the present invention, Fig. 7 is a cross- Fig. 8 is a perspective view showing a plant cultivating vessel and a plant growing machine of the present invention. Fig. 8 is a side sectional view showing the use state of the second supplying means of the present invention.

Referring to FIG. 1, the plant cultivation vessel of the present invention has a body 100 having an upper portion thereof opened and a receiving space S capable of receiving soil therein. The body 100 includes a bottom plate 110. The bottom plate 110 is formed in a plate shape having a predetermined thickness. The body 100 also includes a side wall 120 that protrudes upwardly along the edge of the bottom plate 110. At this time, a drain protrusion 130 protruding upward is formed at the center of the bottom plate 110. The drain protrusion 130 is formed with a drain hole 131 passing through the bottom plate 110 at the center. Also, the drainage protrusion 130 is formed in a conical shape in which the cross-sectional area gradually decreases in the upward direction.

1 and 2, a partition plate 200 for partitioning the accommodation space S into a planting space S1 and a water storage space S2 is formed. That is, the partition plate 200 is inserted into the accommodation space S of the body 100 and is spaced apart from the upper surface of the bottom plate 110 by a predetermined distance to separate the accommodation space S into the planting space S1 and the water storage space S2 ). At this time, a support table 210 protruding downward from the lower surface of the partition plate 200 and seated on the upper surface of the bottom plate 110 is formed. It is preferable that at least two support rods 210 are formed on the lower surface of the partition plate 200. This is for the purpose of enabling the horizontal to be kept constant when the partition plate 200 is seated on the bottom plate 110 and securing the structural safety. Also, a plurality of fine holes may be formed in the partition plate 200 so that the water supplied into the planting space S1 may be discharged to the water storage space S2.

Referring to FIGS. 1 and 2, the partition plate 200 is provided with a first supply unit 300 passing through the partition plate 200. A plurality of first feeding means 300 may be installed in the partition plate 200. The first supplying means 300 supplies the water stored in the water storage space S2 of the body 100 to the planting space S1 by an osmotic pressure phenomenon. That is, the first supplying means 300 is capable of absorbing the water stored in the water storage space S2 and moving the water to the planting space S1 to supply water to plants planted in the planting space S1.

On the other hand, when water is supplied into the planting space S1 through the first supplying means 300, water contained in the water storage space S2 can not be reduced. At this time, the water storage space S2 is connected to an external water supply pipe A certain amount of water can be supplied continuously. Thereafter, when a predetermined amount of water is supplied to the water storage space S2, the overflow water is discharged to the outside through the drain hole 131 of the drainage protrusion 130.

3 and 4, a plurality of through holes 201 through which the first feeding means 300 is inserted are formed in the partition plate 200 through the partition plate 200. A flange 210 protruding upward is formed at the edge of the through hole 201 and the flange 210 is fastened to the first supply means 300. A plurality of first guide holes 221 are formed in the side surface of the flange 210 protruding upwardly along the side surface of the flange 210.

3 and 4, the first feeding means 300 includes an absorbent member support 310, an absorbent member 320, and a cap 330.

The absorbent member support portion 310 is opened on the upper side and the absorbent member insertion hole 311 is formed through the lower surface. A second guide hole 312 corresponding to the first guide hole 221 is formed in the side surface of the absorbent member support 310 along the side surface of the absorbent member support portion 310 in the same number as the first guide hole 221 . The absorbent member support part 310 is inserted from the upper side of the flange 220. The absorbent member support part 310 is supported on the upper surface of the side surface of the flange 220 so that the absorbent member support part 310 can be seated on the upper surface of the flange 210 313 are protruded in the outward direction of the side surface of the absorbent member support 310.

The absorbent member 320 includes a suction portion 321 and a supply portion 322. The suction portion 321 is inserted into the absorption member insertion hole 311 so that one side thereof can be located in the water storage space S2. The supply part 322 is formed on the other side of the suction part 321 and can be integrated with the suction part 321. [ The supply part 322 may be inserted into the first guide hole 221 and the second guide hole 312 and may be positioned above the partition plate 200. At this time, the number of the supply portions 322 may be the same as the number of the first guide holes 221 and the second guide holes 312. When the supply part 322 is inserted into the first guide hole 221 and the second guide hole 312 and inserted into the first guide hole 221 and the second guide hole 312, It is possible to prevent a phenomenon that the first guide hole 221 and the second guide hole 312 are separated from the side surface.

The water stored in the water storage space S2 through the absorption member 320 is absorbed by the suction unit 321 by the osmotic pressure phenomenon and the water absorbed by the suction unit 321 is supplied to the supply unit 322 to penetrate into the roots and soil of planted plants in the planting space S1. At this time, the amount of water flowing into the planting space S1 can be adjusted according to the number of the supply part 322 and the diameter of the suction part 321. [

The cap 330 may be fastened to the flange 210 to open the lower side and close the open upper side of the absorbent member support 310. Therefore, the soil or the like contained in the planting space S1 can be prevented from flowing into the water storage space S2.

4, a guide groove 220-1 is formed on the upper surface of the flange 220. A guide protrusion 313-1 inserted into the guide groove 220-1 is formed on the lower surface of the support protrusion 313, . When the guide protrusion 313-1 is inserted into the guide groove 220-1, the first guide hole 221 and the second guide hole 312 are positioned at the same position and aligned. When the guide groove 220-1 is inserted into the guide protrusion 313-1 when the absorbent member support 310 is inserted into the flange 220, the supply portion 322 of the absorbent member 320 smoothly contacts the first guide Hole 221 and the second guide hole 312, respectively.

5 and 7, at the upper part of the planting space S1, a planting material guide plate 400 for guiding the position of a plant to be planted so as to plant the plants planted in the planting space S1 at regular intervals, A second supplying means 500 for guiding water to the upper portion of the planting space S1 is formed by guiding by the guide plate 400. [ The planting material guide plates 400 may be placed on the upper side of the soil contained in the planting space S1 and spaced apart from each other by a predetermined distance, and a plurality of planting material guide plates 400 may be arranged on the soil.

Referring to FIGS. 5 and 7, the planting material guide plate 400 is formed with a feed pipe seating part 410 which is inserted downward. The supply pipe seat portion 410 is formed in a U shape and is extended in the horizontal direction. A plurality of holes may be formed in the supply pipe seating part 410 along the extending direction of the supply pipe seating part 410. A side plate 420 is formed on both sides of the supply tube seating part 410. In the side plate 420, a plurality of long holes 421 are formed at regular intervals. In addition, the end of the side plate 420 may be formed in a wavy or zigzag shape so as to guide the positions of plants planted in the planting space S1 at regular intervals.

5 and 6, the second supplying means 500 includes a storage container 510 in which a culture liquid, a nutrient solution or the like for promoting the growth of water or plants is stored, a supply pipe 520 connected to the storage container 510 on one side, ). The supply pipe 520 is bent in the left-right direction and inserted into the supply pipe seat 410 of the plurality of food material guide plates 400 to be seated. At this time, a plurality of watering holes 521 are formed on the lower surface of the supply pipe 520 so as to allow the liquid contained in the storage container 510 to be drip-dripped downward in the planting space S1. The liquid contained in the storage container 510 can be supplied from the upper side to the lower side of the planting space S1 through the watering hole 521. [

Referring to FIG. 5, a bending clip 530 in which the supply pipe 520 is inserted to bend the supply pipe 520 is formed. This is to allow the supply pipe 520 to bend excessively when bent so that the flow of the liquid moving inside the supply pipe 520 can be smoothly maintained.

Hereinafter, a plant grower including the plant cultivation vessel will be described with reference to FIG.

The plant grower includes a side frame 610 that is vertically erected. The side frames 610 may be formed as a plurality of side surfaces facing each other and spaced apart at regular intervals. A bottom plate 620 supported on the ground is formed between the side frames 610 and the bottom plate 620 may have a plate shape having a predetermined thickness and both side ends thereof may be firmly fixed to the side frame 610 . On the upper side of the bottom plate 620, a top plate 630 spaced upward from the bottom plate 620 is formed. The upper plate 630 may have the same structure as the bottom plate 620 and may be fixed to the side frame 610 on both sides and a plurality of LED modules may be installed on the lower surface to emit light by receiving power from the outside. A roof plate 640 which is positioned on the upper side of the side frame 610 and has one side fixed to the upper surface of the side frame 610 is formed. The roof plate 640 is formed to be inclined at a predetermined angle, and the amount of sunshine irradiated to the top plate 630 can be adjusted according to the inclined angle. A solar cell panel may be installed on the upper surface of the roof plate 640, and the solar cell panel may be a solar cell panel through which solar light is transmitted by about 10%. At this time, the power generated from the solar cell panel is supplied to the LED module, and the LED module can be turned on according to the amount of sunshine. In other words, when rain or cloudy sunshine is insufficient, the LED is turned on and artificial light is irradiated to the plant cultivation vessel on the lower side.

On the other hand, the first seating plate 650 is installed on the side frame 610 so as to slide in the front-rear direction. The first placement plate 650 is located on the upper side of the upper plate 630 and the plant cultivation vessel can be seated on the upper surface. A first drain plate 660 is formed between the first seating plate 650 and the upper plate 630. The first drain plate 660 is fastened to the side frame 610 so as to slide in the front-rear direction so as to be identical to the first seating plate 650. At this time, a plurality of fine holes may be formed in the first seating plate 650 so that the water drained from the plant cultivation vessel flows into the first drain pan 660.

Referring to FIG. 8, a second seating plate 670 is formed between the bottom plate 620 and the upper plate 630. The second seating plate 670 is installed so that both sides thereof slide on the side frame 610. A plurality of plant cultivation vessels can be placed on the second placement plate 670. Therefore, plants planted on the second placement plate 670 and cultivated in the plant cultivation vessel can be grown by irradiation of artificial light by the LED module installed on the lower surface of the upper plate 630. A second drain plate 680 is formed between the second seating plate 670 and the bottom plate 620. The second drain plate 680 may be installed on both sides of the side frame 610 so as to slide in the front and rear direction. A plurality of fine holes may be formed in the second seating plate 670 so that the water drained from the plant cultivation vessel flows into the second drain pan 680.

As described above, in the plant cultivation vessel of the present invention, the receiving space S defined by the planting space S1 through which the plants are planted and the water storage space S2 by which the water and the culture liquid can be received can be formed through the partition plate 200 And the first and second supply means 300 and 500 capable of supplying water and the culture liquid to the upper and lower sides of the planting space S1 to uniformly supply the water and the culture liquid to the entire planting space S1 There is an advantage.

In addition, the present invention has a plant cultivator capable of placing a plant cultivation vessel, so that a large amount of plants can be cultivated even in a small place, and a plant located under the plant cultivator can also perform a photosynthesis action with an artificial light of an LED module, There is an advantage that the plant cultivation vessel can be easily mounted or transported through the first seating plate 650 and the second seating plate 670 which can be slid without any restriction.

100: body 110: bottom plate
120: side wall 130: drainage projection
131: drain hole 200: partition plate
201: Through hole 210: Support
220: flange 221: first guide hole
300: first feeding means 310: absorbing member supporting portion
311: Absorption member insertion hole 312: Second guide hole
313: support protrusion 320: absorbing member
321: Suction section 321: Supply section
330: cap 400: food material guide plate
410: supply pipe seat part 420: side plate
421: long hole 500: second supply means
510: storage container 520: supply pipe
521: Irrigation hole 610: Side frame
620: bottom plate 630: top plate
640: roof plate 650: first seating plate
660: first drain plate 670: second seating plate
680: second drain plate S: accommodation space
S1: planting space S2: water storage space

Claims (7)

A bottom plate 110 and a side wall 120 protruding upward along the edge of the bottom plate 110 so as to form an accommodation space S capable of receiving the soil therein, And a drain protrusion (130) projecting upward from an upper surface of the bottom plate (110) and having a drain hole (131) penetrating the bottom plate (110) at the center thereof.
A support table 210 inserted into the accommodation space S so as to divide the accommodation space S into a planting space S1 and a water storage space S2 and mounted on the bottom plate 110 in a downward direction, A partition plate (200) comprising:
A first supplying means 300 for supplying water stored in the water storage space S2 through the partition plate 200 to the planting space S1 by osmotic pressure;
≪ / RTI > The method according to claim 1,
A through hole 201 is formed in the partition plate 200 to penetrate the partition plate 200 so that the first supply unit 300 is inserted,
The flange 210 protruding upward in the direction of the through hole 201 and having a plurality of first guide holes 221 passing through the protruded side is fastened to the first supply means 300 Plant cultivation vessel. 3. The method of claim 2,
The first feeding means (300)
A plurality of second guide holes 312 corresponding to the first guide holes 221 are formed on the lower surface of the flange 220 and the absorbing member insertion holes 311 are formed on the lower surface of the flange 220, An absorbent member supporter 310 having a support protrusion 313 protruded on an upper side thereof so as to be seated on an upper surface thereof;
A suction part 321 inserted into the absorbing member insertion hole 311 and having one side located in the water storage space S2 and a suction part 321 formed on the other side of the suction part 321 and positioned on the upper side of the partition plate 200 An absorbing member (320) including a plurality of supply portions (322) inserted into the first guide hole (221) and the second guide hole (312) so that the first guide hole (221) And
A cap 330 which is fastened to the flange 210 to close the upper side of the absorbent member support 310;
≪ / RTI > 4. The method according to any one of claims 1 to 3,
In the upper part of the planting space S1
A planting material guide plate 400 for guiding the position of the plant to be planted in the planting space S1 and a second supplying means 500 for guiding the planting space 400 to the planting space S1 and supplying water to the planting space S1 Wherein the plant cultivation vessel is a plant cultivation vessel. 5. The method of claim 4,
The planting material guide plate 400
And a side plate 420 formed on both sides of the supply pipe seating part 410 and having a plurality of long holes 421 through which the supply pipe seating part 410 is inserted,
The second supply means 500 includes a storage container 510 for storing liquid,
A plurality of water holes 521 are formed so that one side thereof is connected to the storage container 510 and the liquid contained in the storage container 510 is discharged downward in the planting space S1, 410). ≪ RTI ID = 0.0 > 41. < / RTI > A plant grower comprising the plant cultivation vessel according to claim 1. The method according to claim 6,
A plurality of side frames (610) rising in a vertical direction;
A bottom plate 620 installed between the side frames 610;
A top plate 630 spaced apart from the bottom plate 620 by a predetermined distance and fixed to the side frame 610 and having a plurality of LED modules installed on the bottom surface thereof;
A roof plate 640 inclined at a predetermined angle to adjust the amount of sunlight irradiated to the upper plate 630 and fixed to the upper surface of the side frame 610 at one side;
A first seating plate 650 positioned on the upper side of the upper plate 630 so as to be slid on both sides of the side frame 610;
A first drain plate 660 located below the first placement plate 650 and slidably mounted on the side frame 610;
A second seating plate 670 disposed on the upper side of the bottom plate 620 and slidably mounted on the side frames 610 on both sides; And
A second drain plate (680) located below the second placement plate (670) and slidably installed on both sides of the side frame (610);
Characterized in that the plant grows.

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