KR20190041741A - a hydroponic cultivation apparatus - Google Patents

Abstract

The present invention relates to a hydroponic apparatus, and more specifically, to a hydroponic apparatus in which the number of trays constituting the hydroponic apparatus can be suitably adjusted according to an amount of cultivated plants and a size of installation place, and the temperature of a culture medium can be suitably maintained according to growth environment of plants, thereby ensuring secure cultivation of plants. For the purpose, the hydroponic apparatus of the present invention comprises: trays disposed vertically in a multi-stage for accommodating plants for cultivation; a first vertical support stand having fixed one side of each tray; and a second vertical support stand having the fixed other side of each tray, wherein the tray is composed of a tubular cultivation member having an opening in the upper part thereof to receive plants and connection brackets disposed at both sides of the tubular cultivation member to be fastened respectively to the first and the second vertical support stands.

Description

A hydroponic cultivation apparatus,

The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation apparatus capable of appropriately adjusting the number of trays constituting a hydroponic cultivation apparatus according to the amount of plants to be cultivated and the size of a place to be installed, The present invention relates to a hydroponic cultivation apparatus capable of maintaining the temperature of the culture liquid and thereby stably growing the plant.

Hydroponic cultivation is a method of growing plants in a culture medium made of water and water-soluble nutrients without using soil. Unlike general cultivation methods, it is possible to grow plants with a limited number of cultivable plants and to minimize the use of harvesting and pesticides It can be said to be high value-added agriculture.

Further, there is an advantage that more plants can be cultivated in a limited space by a method of vertically arranging the reed boards vertically or circulating the reed depending on the plants cultivated by the hydroponic cultivation method.

In this case, generally, in the case of hydroponic cultivation facility, the nutrient solution is fed into each cultivation barrel (box-shaped waterproof barrel) by using an expensive nutrient supply device and a pumping device which mix water-soluble fertilizer with water, And a water level sensor for maintaining the water level constant in each reed canister, an individual control pump and an electronic control valve are installed to supply and drain a predetermined amount of nutrient solution.

However, the technology of supplying and draining the nutrient solution, adjusting the level of the nutrient solution, mixing the nutrient solution and water, etc. in each cultivation vessel is complicated in structure, resulting in an increase in the failure rate of the facility, an increase in the cost of introducing the facility, In addition, major devices such as nutrient supply devices and sensors have not yet been available in the domestic market and have been importing at a high cost from abroad.

In order to solve such a problem, a technique disclosed in Korean Patent No. 10-1301718 as shown in FIGS. 1 and 2 has been proposed. The technical feature thereof is that four vertically arranged vertical frames 11, A frame (1) constituted by a horizontal frame (12) connecting the vertical frames (11) to form vertically multi - stage mounting spaces; The frame 1 having a rectangular cross-sectional shape opened on its upper surface mounted in a mounting space except for the lowermost end of the frame 1 and projecting inward on the corresponding inner side so that the cultivator can be mounted One or more nutrient solution projecting portions (22) projecting upwardly in the longitudinal direction in the bottom surface to form a nutrient solution receiving portion (23) in which nutrient solution is stored in a space therebetween; And at least one nutrient solution receiving panel (2) composed of a water level control drain pipe (24) for dropping the nutrient solution above the proper level to the bottom and a complete drain hole (25) formed at the other side of the level control drain pipe )and; A water level sensor 31 mounted in a mounting space formed at the lowermost end of the frame 1 and sensing the water level above a certain level and having the shape of a rectangular barrel opened on the top surface thereof and a drain hole 32 formed on the bottom surface thereof, (3); A nutrient solution supply pipe (4) for supplying a nutrient solution to the nutrient solution receiving panel (2) positioned at the uppermost position by a nutrient solution supply pump (41) mounted on the nutrient solution storage tank (3); The upper end of the nutrient solution receiving panel 2 is connected to the level control drain pipe 24 so that a nutrient solution having a predetermined level or higher flows into the nutrient solution receiving panel 2. The first valve 51 is provided at an intermediate portion of the nutrient solution receiving panel 2, (2) or a first drainage pipe (5) located on the upper surface of the nutrient solution storage tank (3); The upper end of the nutrient solution receiving panel 2 is connected to the full drainage hole 25 and the second valve 61 is provided in the middle and the lower end of the nutrient solution receiving panel 2 or the nutrient solution storage tank 3 And a second drain pipe (6) located on the upper surface of the second drain pipe (6).

However, the technology described in Korean Patent No. 10-1301718 has an advantage in that the device for controlling the water level can be minimized, thereby simplifying the facility and making it possible to downsize it. However, once the hydroponic cultivation device is manufactured, It is impossible to adjust the size of the hydroponic cultivation apparatus depending on the kind and amount of the crop to be cultivated. Therefore, there is a problem that it occupies a space of a certain size at all times and it is necessary to maintain the water temperature necessary for growth depending on the type of crop There is a difficult problem.

Korean Patent No. 10-1301718

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a plant by providing first and second vertical supports, Each of the vertical supports is composed of a plurality of first and second unit support members so that each tray and the first and second unit support members can be easily attached and detached and the number of trays can be easily adjusted according to the amount of plants to be cultivated. And to provide a hydroponic cultivation apparatus capable of supplying a culture liquid through first and second vertical supports to which the tray is supported and discharging the culture liquid, thereby simplifying the entire structure.

It is another object of the present invention to provide a method and apparatus for controlling a temperature of a culture medium on one side of a lower tray, wherein a lower tray provided at a lower end of the first and second vertical supports is formed larger than a size of a general tray, The present invention provides a hydroponic cultivation apparatus capable of cultivating a plant more stably by maintaining a suitable temperature according to the growing environment of the plant.

SUMMARY OF THE INVENTION [0006]

And a second vertical support to which the other side of the tray is fixed, wherein the tray is provided with upper and lower multi-stage trays for accommodating plants for cultivation, a first vertical support member to which one side of the tray is fixed, and a second vertical support member to which the other side of the tray is fixed.

Here, the tray includes a tubular growing member having an opening formed at an upper portion thereof to accommodate plants, and a connection bracket provided at both sides of the tubular growing member and coupled to the first and second vertical supports.

In this case, the connection bracket may include a vertical connection portion in which a hollow for receiving the first and second vertical supports is formed, and a horizontal connection portion in which both ends of the tubular growth member are connected to each other.

The horizontal connection portion may include a plurality of second coupling portions formed at both ends of the tubular growth member to receive and fix the first coupling portions, and the second coupling portions may be formed to communicate with each other.

Here, the first and second vertical supports are respectively composed of a plurality of first and second unit support rods, the first and second unit support rods are formed in a pipe shape, a first step is formed at an upper end thereof, And a second step portion is formed so as to correspond to the step portion and connected to each other.

A first communication hole may be formed in the upper end of the first and second vertical supports so as to correspond to the second communication hole formed in the vertical connection.

In this case, a third communication hole corresponding to the second communication hole is formed on the side of the second unit support base, and a supply guide plate is formed on the inner side of the unit support base so as to be inclined downward in the third communication hole direction.

The supply guide plate is formed by vertically dividing the third communication hole and supplying a culture liquid supplied from the upper portion through the second unit support to a tubular growing member by forming a supply hole in the upper portion of the supply guide plate, A drainage hole is formed in the lower part of the plate, and when the level of the culture liquid accommodated in the tubular growing member is higher than the drainage hole, the water level is adjusted.

The base tray is provided at a lower portion of the first and second vertical supports. The base tray is formed in a pipe shape, and includes a base cultivation member having an opening at an upper portion thereof to accommodate plants. And a base connection bracket coupled to the first and second vertical supports.

The base connection bracket includes a base vertical connection portion connected to a lower portion of a lower end support provided at a lower end of the first and second vertical supports, and a third vertical connection portion formed at a side of the base vertical connection portion, And a fourth engaging portion to which the engaging portion is engaged.

At this time, a supply pump is provided on the inner side of the base vertical connection part located below the first vertical support, and the culture solution is supplied to the uppermost tray.

In addition, a temperature regulating device for regulating the temperature of the culture liquid is provided on the inner side of the base vertical connection part located below the second vertical support.

Further, the tubular growing member is provided with a sub illumination light on the bottom surface thereof.

According to the present invention, there are provided first and second vertical supports on which trays are fixedly supported on both sides of a plurality of trays for growing plants, And the first and second unit supports can be easily attached and detached, so that the number of trays can be easily adjusted according to the amount of plants to be cultivated, It is possible to supply the culture liquid through the support and discharge it, thereby simplifying the entire structure.

According to the present invention, the lower tray provided at the lower end of the first and second vertical supports is formed to be larger than the size of the general tray to accommodate more culture liquid, and at one side of the lower tray, So that the plant can be grown more stably by keeping the apparatus at an appropriate temperature according to the growing environment of the plant.

1 is a perspective view of a conventional hydroponic cultivation apparatus.
2 is an exploded perspective view of a conventional hydroponic cultivation apparatus.
3 is a perspective view of a hydroponic cultivation apparatus according to the present invention.
4 is a cross-sectional view of a hydroponic cultivation apparatus according to the present invention.
5 is a bottom perspective view of a hydroponic cultivation apparatus according to the present invention.
6 is an enlarged sectional view of a portion A in Fig.
7 is an enlarged sectional view of a portion B in Fig.
8 is an enlarged cross-sectional view of a portion C in Fig.
9 is an enlarged sectional view of a portion D in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted. It is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 3 is a perspective view of a hydroponic cultivation apparatus according to the present invention, FIG. 4 is a sectional view of a hydroponic cultivation apparatus according to the present invention, FIG. 5 is a bottom perspective view of a hydroponic cultivation apparatus according to the present invention, Fig. 7 is an enlarged cross-sectional view of part B of Fig. 4, Fig. 8 is an enlarged cross-sectional view of part C of Fig. 4, and Fig. 9 is an enlarged cross-sectional view of part D of Fig.

The present invention relates to a hydroponic cultivation apparatus. As shown in FIGS. 3 to 9, the hydroponic cultivation apparatus includes a first vertical support 100 and a second vertical support 200 installed on a floor, And a tray 500 which is provided between the two vertical supports 100 and 200 and has both ends connected to the first and second vertical supports 100 and 200 and accommodates plants for cultivation therein.

The plurality of trays 500 may be provided at upper and lower ends of the tray 500 to increase space utilization, thereby enabling various plants to be cultivated in a narrow room.

The tray 500 includes a tubular growing member 510 for receiving a plant for cultivation and a connection bracket 530 provided on both sides of the tubular growing member 510 and coupled to the first and second vertical supports 100 and 200 .

Here, the tubular growing member 510 is formed in a pipe shape, and a space portion 516 for accommodating plants is formed therein and an opening portion 512 is formed at an upper portion thereof, And supplies it to the space portion 516.

At this time, the auxiliary lighting lamp 520 is provided on the lower surface of the tubular growing member 510. The auxiliary lighting lamp 520 is made of LED to minimize power consumption, and the tubular growing member 510 The length of each of the tubular growing members 510 is formed to be long enough to irradiate the received plants with light so as to form an appropriate growth environment for the plants.

The connecting bracket 530 connects both end portions of the tubular growing member 510 to the first and second vertical supports 100 and 200 and is formed into a pipe shape so that the first and second vertical supports 100 and 200 are inserted And a horizontal connecting portion 560 formed at a side of the vertical connecting portion 540 and having both ends of the tubular growing member 510 connected to each other.

A plurality of second engaging portions 562 are formed in the horizontal connection portion 560. The first engaging portions 514 formed at both ends of the tubular growing member 510 are formed in the second engaging portion 562 And is inserted and fixed.

At this time, the plurality of second engaging portions 562 are formed so as to communicate with each other, so that the amount of the culture solution accommodated in each tubular growing member 510 is equally accommodated.

The first vertical support 100 and the second vertical support 200 each include a first unit support 110 and a second unit support 210. The first and second unit supports 110 and 210 Are formed in the shape of a pipe, respectively. The first stage jaws 112 and 212 are formed at the upper end and the second stage jaws 114 and 214 are formed at the lower end.

The first and second stepped portions 112 and 212 and the second stepped portions 114 and 214 are formed to correspond to each other so that the first and second unit supporting members 110 and 210 are vertically connected to each other.

In this case, O-rings 118 and 218 are provided between the first and second stage jaws 112 and 212 and the second stage jaws 114 and 214 so that the culture liquid moving to the inside of the first and second vertical supports 100 and 200 leaks to the outside .

A top support 300 is further provided on the top of the first and second vertical supports 100 and 200. A second communication hole 544 formed in the vertical connection 540 is formed on the side of the top support 300. [ The first communication hole 310 is formed so as to correspond to the first communication hole.

The vertical connection part 540 and the horizontal connection part 560 are formed to communicate with each other by the second communication hole 544 so that the culture liquid supplied through the inside of the first vertical support part 100 is supplied to the first vertical support part The culture liquid is supplied to the tubular growing member 510 through the first communication hole 510 of the upper support table 300 provided at the upper end of the tubular growth member 100.

The first communication hole 310 of the upper support 300 disposed at the upper end of the second vertical support 200 is located above the bottom of the tubular growing member 510 so that the tubular growing member 510 Is discharged to the second vertical support 200 through the second communication hole 310 when the level of the culture liquid accommodated in the second communication hole 310 is higher than that of the first communication hole 310.

The third stage jaw 320 is formed at the lower end of the upper stage support 300 so as to correspond to the first stage jaws 112 and 212 formed at the upper ends of the first and second unit support rods 110 and 210, do.

At this time, an O-ring is provided between the first stage jaws 112, 212 and the third stage jaws 320 to prevent leakage of the culture liquid.

On the other hand, a main illumination lamp 340 is provided on the upper part of the upper support 300 so that light is irradiated to the uppermost tray 500, so that a proper growth environment is created according to the plant located at the uppermost part.

A third communication hole 220 is formed on the side of the second unit support 210 constituting the second vertical support 200. The third communication hole 220 is formed in the tubular growth member 510 And is formed at a position corresponding to the second communication hole 544 of the connection bracket 530 provided at both ends.

On the other hand, no separate communication hole is formed in the first unit support 110.

A feed guide plate 230 for guiding the culture liquid supplied from the upper portion to be discharged through the third communication hole 220 is formed on the inner side of the second unit support base 210, And is inclined downward in the direction of the third communication hole 220.

At this time, the supply guide plate 230 divides the third communication hole 220 into upper and lower parts. In the third communication hole 220, a supply hole 222 is formed in the upper part of the supply guide plate 230 The culture medium discharged from the upper part through the second unit support table 210 is supplied to the tubular growing member 510 in accordance with the guide of the supply guide plate 230. At the lower portion of the supply guide plate 230, And the culture liquid overflowing from the tubular growing member 510 is discharged through the discharge hole 224.

The third communication hole 220 is formed to communicate with the second communication hole 244 formed in the connection bracket 530. The third communication hole 220 has an exhaust hole 224 formed in the lower portion of the third communication hole 220, When the level of the culture liquid accommodated in the tubular growing member 510 becomes higher than the lower end of the discharge hole 224, the lower end of the tubular growth member 510 is positioned above the bottom of the tubular growth member 510, And is discharged to the second unit support 210.

Accordingly, the position of the discharge hole 224 makes it possible to appropriately adjust the level of the culture liquid accommodated in the tubular growing member 510.

In another embodiment of the present invention, a separate overhole (not shown) may be formed in the tubular growing member 510 without forming the discharge hole 224 and the supply hole 222 in the second unit support 210, (Not shown) so as to be connected to the lower tubular growth member 510. The overflow may be supplied to the tubular cultivation member 510 positioned at the lower part.

A locking protrusion 216 is formed on an outer circumferential surface of the second unit support base 210 and a second protrusion 216 is formed at a lower end of the inner circumferential surface of the vertical connection unit 540 forming the connection bracket 530, The jaws 542 are formed to prevent the connection bracket 530 coupled to the outside of the second vertical support 200 from moving arbitrarily.

In this case, a locking protrusion 116 is formed on the outer peripheral surface of the first unit support 110 to prevent the vertical connection portion 540, which is coupled to the outside of the first vertical support 100, from moving arbitrarily.

A base tray 600 is provided under the first and second vertical supports 100 and 200. The base tray 600 is formed in a pipe shape and has a base forming member And a base connection bracket 620 provided on both sides of the base cultivation member 610 and coupled to the first and second vertical supports 100 and 200.

The base connection bracket 620 includes a base vertical connection portion 630 connected to a lower portion of a lower support 400 provided at a lower end of the first and second vertical supports 100 and 200, And a fourth engaging portion (not shown) formed with the third engaging portions 614 formed at both ends of the base cultivation member 610.

At this time, a fourth stage jaw 410 is formed on the upper end of the lower stage support 400 so as to correspond to the second stage supports 210 and the second stage jaws 114 and 214 formed at the lower ends of the first unit support rods 110 And an extension 420 is formed at a lower portion of the lower support 400 so as to be larger than the diameter of the second unit support 210. The diameter of the base vertical connection portion 630 is larger than the diameter of the extension 420 .

A fifth step portion 430 is formed on the lower end of the extension portion 420 and a sixth step portion 634 is formed on the upper end of the base vertical connection portion 630 to correspond to the fifth step portion 430, And an O-ring for preventing the leakage of the culture liquid is provided therebetween.

An installation space 632 is formed on the inner side of the base vertical connection part 630 so as to accommodate additional equipment. The installation space 632 is formed inside the base vertical connection part 630 located below the first vertical support part 100 A supply pump 810 is provided in the installation space 632 to supply the culture liquid to the tray 500 located at the uppermost position through the first vertical support 100. [

A temperature regulating device 820 for regulating the temperature of the culture liquid is provided in an installation space 632 formed inside the base vertical connection part 630 located below the second vertical support table 200, Is appropriately controlled depending on the growth temperature for plant cultivation.

The temperature control device 820 is electrically controlled by a thermoelectric element or the like and the supply motor 810, the temperature control device 820, the main lighting lamp 340 and the auxiliary lighting lamp 520 are separately provided outside (Not shown).

Therefore, even if the indoor space is not suitable for the growth environment of the plant, it is possible to provide an optimal environment for each plant, and thus the plant can be grown stably.

The pedestal 700 is further provided with a tray supporting part 710 and a leg part 720 formed at a lower portion of the tray supporting part 710 A seating part 712 on which the base cultivation member 610 constituting the base tray 600 is mounted is formed on the upper surface of the tray supporting part 710.

Accordingly, since the pedestal 700 supports the bottom of the base tray 600 together with the first and second vertical supports 100 and 200, the hydroponic cultivation apparatus of the present invention can be prevented from falling over.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the scope of the present invention is not limited to the disclosed embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation apparatus capable of appropriately adjusting the number of trays constituting a hydroponic cultivation apparatus according to the amount of plants to be cultivated and the size of a place to be installed, The present invention relates to a hydroponic cultivation apparatus capable of maintaining the temperature of the culture liquid and thereby stably growing the plant.

100: first vertical support 200: second vertical support
300: upper support 400: lower support
500: Tray 600: Base tray
700: Stand

Claims (13)

A tray having a plurality of upper and lower stages,
A first vertical support to which one side of the tray is fixed,
And a second vertical support to which the other side of the tray is fixed.
The method according to claim 1,
The tray includes a tubular growth member having an open top formed therein to receive the plant,
And a connection bracket provided on both sides of the tubular growing member and coupled to the first and second vertical supports.
3. The method of claim 2,
Wherein the connection bracket includes a vertical connection portion in which a hollow for receiving the first and second vertical supports is formed,
And a horizontal connection portion in which both ends of the tubular growing member are connected to each other.
The method of claim 3,
A plurality of second engaging portions formed at both ends of the tubular growing member and into which the first engaging portions are inserted and fixed,
And the second coupling portion is formed to communicate with each other.
The method of claim 3,
The first and second vertical supports may include a plurality of first and second unit supports,
Wherein the first and second unit support rods are formed in a pipe shape, a first step portion is formed at an upper end thereof, and a second step portion is formed at a lower end portion thereof so as to correspond to the first step portion, .
6. The method of claim 5,
Wherein the first and second vertical supports are further provided with an upper support,
And a first communication hole is formed in a side portion of the upper support so as to correspond to a second communication hole formed in the vertical connection portion.
The method according to claim 6,
A third communication hole corresponding to the second communication hole is formed on a side of the second unit support base,
And a feed guide plate is formed on an inner side of the unit support so as to be inclined downward in a third communication hole direction.
8. The method of claim 7,
Wherein the supply guide plate divides the third communication hole into upper and lower portions,
A supply hole is formed in the upper part of the supply guide plate, a culture liquid supplied from the upper part through the second unit support is supplied to the tubular growing member,
Wherein a drain hole is formed in the lower portion of the supply guide plate to discharge water when the level of the culture liquid accommodated in the tubular growing member is higher than that of the drain hole, thereby adjusting the water level.
The method according to claim 6,
A base tray is provided below the first and second vertical supports,
The base tray may include a base cultivation member formed in a pipe shape,
And a base connection bracket provided on both sides of the base cultivation member and coupled to the first and second vertical supports.
10. The method of claim 9,
The base connection bracket includes a base vertical connection portion connected to a lower portion of a lower end support provided at a lower end of the first and second vertical supports,
And a fourth engaging portion formed at a side of the base vertical connecting portion and coupled to a third engaging portion formed at both ends of the base cultivation member.
11. The method of claim 10,
Wherein a feed pump is provided on the inner side of the base vertical connection part located below the first vertical support so as to supply the culture solution to the uppermost tray.
11. The method of claim 10,
And a temperature regulating device for regulating the temperature of the culture liquid is provided on the inner side of the base vertical connection part located below the second vertical support.
3. The method of claim 2,
And a sub illumination light is provided on a lower surface of the tubular growing member.

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