KR101806267B1 - automation system for agricultural hydroponics of glasshouse - Google Patents

Abstract

A system for automating a water culture for greenhouse crops according to the present invention is configured to provide a nutrient solution and oxygen at 10 to 20C to a root portion of strawberry from a nutrient supply pipe passing through the inside of a cultivation box. A hair sealing, which supports strawberry seedlings, keeps moisture and controls the floral differentiation, root development, etc. of the strawberry crown, thereby continuously producing strawberries throughout a year, and in addition, separating strawberry leaves and runners by a leaf holder and a runner holder so as to smoothly control the ventilation, thereby increasing an amount of light received and facilitating a harvesting operation.

Description

[0001] The present invention relates to an automation system for agricultural hydroponics of glasshouse,

The present invention relates to a greenhouse crop hydroponic planting automation system, and more particularly, to a greenhouse crop hydroponics planting automation system, and more particularly, to a greenhouse crop hydroponics planting automation system which comprises a leaf- The present invention relates to an automation system for greenhouse crop hydroponic cultivation in which the growth conditions of strawberries are optimized so that the fruit grown in the portion is guided to the outside through a triangular uneven runner stand mounted on the left and right ends of the box cover plate.

Generally, hydroponic cultivation is carried out by planting crops in a solid medium or by dipping or roots in a nutrient culture medium in a crop growing box.

Especially, strawberry among the crops is mostly pragaria ananassa (Scientific name: Fragaria ananassa), and it is an 8-diffuse plant. It is difficult to propagate seeds and it propagates through nutrition reproduction to maintain the characteristics inherent to the variety. The Pragaria ananas species cultivated in farmhouses are also called strawberries to distinguish them from raspberries. The English name is "strawberry" and belongs to Rosaceae, and the horticultural category belongs to cherry fruit.

Strawberry is herbaceous perennial plant. Flowers are planted on the same mothers' abandonment every year. Usually, 5 years is the longest, and 10 years is the same. The abandonment occurs at the end of the runner caused by the abandonment of the mother, the abandonment of the child gives out a few runners again, and the abandonment of the abandoned child also causes a considerable number of blooms and fruitions in one season. In Europe and the US, after two to three years of fruitlessness, the field is renewed and renewed, but in Korea, the newborn abandonment is taken every year and planted in other fields.

In the past strawberry seedlings have been used as nursery seedlings, followed by rainless seedlings, which have been used in a variety of nonrigid seedlings. Rainless nursery refers to all the methods of raising nursery in house, not nogi. Port nursery belongs to rain forest nursery, but generally refers to nurture in soil in house.

The nonrigid nursery is aimed at prevention of anthrax from rainfall, and the rate of drug application and the incidence of anthrax can be significantly lowered than that of the wilderness, and it is easy to manage the wastewater. However, there is a problem that the occurrence of powdery mildew is increased and the seedlings are painted and grown weakly by raising seedlings in house environment. In recent years, there have been a lot of nursery seedlings which mulch the soil by using vinyl or nonwoven fabric, and soil the soil, soil and chaff to cover more than 5cm and attract the runner.

Port nursery is used for planting seedlings by planting saplings in pots. Port nursery of strawberry is more advantageous than seedlings in terms of promotion of flower bud differentiation, increase of yield, and reduction of disease. And port nursery was developed as a kind of nurturing method that can improve the current workability and massive growth of healthy seedlings by improving port type and materials and developing new nursery. In the port nursery, a lot of moxibustion formulas are used for the nutrient bed and the chrysanthemum box, and the moss is formulated on the soil and the runner plant port is also received.

Public seedlings are a method in which a bed is installed at a height of 1.5 m or more above the ground to form an alum, and the generated runner is suspended in the air. The advantages of public seedlings are that they can reduce the effort of weeding and runner induction, reduce seedling space, and produce uniform seedlings. However, since they use artificial soil or cultivate hydroponics, It takes a lot of effort. In recent years, there have been methods in which runners are hanged in harvesting pods, and they are sliced into connecting ports after temporary schedules, and in the case of hydroponic cultivators, runners are immediately cut into formal pods. However, Research is needed.

The above-mentioned strawberry seedling growing systems are highly affected by the external weather environment, and the growth period during the year is limited to about 3 to 4 months. When the external weather environment is bad during the period, the occurrence of pests and degradation of seedling Problems.

DISCLOSURE OF THE INVENTION It is an object of the present invention to provide a strawberry seedling which is transplanted into a growing box through a hair seal and sprayed with a nutrient solution and oxygen in a spraying and mist state And to provide a greenhouse crop automation system for hydroponics.

It is another object of the present invention to provide a greenhouse crop hydroponic cultivation automation system which facilitates harvesting work by providing a leaf holder and a runner holder for separating and guiding leaves and berries of berries, respectively.

According to an aspect of the present invention, there is provided a greenhouse crop hydroponic cultivation automation system including a cage apparatus having a multi-layered structure installed in a greenhouse, a plurality of crop hydroponic cultivation apparatuses stacked on each layer of the cage apparatus, Wherein the cropping apparatus includes a cultivation box having an upper portion opened so as to be continuously stacked on the cage unit in the forward and backward directions, A plurality of seedling insertion holes are dispersed in a zigzag manner at regular intervals in the center while being joined together with a larger area, and each of the runners of the strawberry is erected perpendicularly to the right and left ends, A box cover plate in which a pair of left and right runner rests are integrally formed, A plurality of hair seal rings having a seedling support hole formed at a center thereof so that the seedlings are floatingly supported by the plurality of seedlings insertion holes without touching the bottom of the cultivation box; An upper nutrient solution supply pipe in which a plurality of jet nozzles are dispersed in a zigzag manner at regular intervals along the longitudinal direction so as to spray the nutrient solution in a spraying manner toward the root side of the seedling supported by the seedling of the seedling, A lower nutrient solution supply pipe provided at a lower inner side of the lower side and formed with a plurality of jet holes at regular intervals in the longitudinal direction so as to spray the nutrient solution toward the root of the seedlings supported by the plurality of hair sealers, It is supported by a large number of control rods on the left and right sides of the upper surface of the cover plate to form a net shape It characterized in that it comprises a blade holder consisting of a pair of left and right.
In another embodiment, the plurality of control rods of the present invention are dispersed and fixed on the left and right sides of the upper surface of the box cover plate or the lower surface of the leaf holder, and the lower surface of the upper body and the upper surface of the lower body are screw- Respectively.

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In the greenhouse crop hydroponics planting automation system of the present invention, the nutrient solution and oxygen at 10 to 20 ° C are supplied to the root portion of the strawberry in the nutrient solution supply pipe passing through the inside of the cultivation box, and the hair seal supporting the strawberry seedling is fried, It is also possible to continuously produce strawberry for a year by controlling flower buds and roots development, and also by separating strawberry leaves and fruit by leaf holder and runner holder, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a system for automating the hydroponic cultivation of a greenhouse according to the present invention;
FIG. 2 is a perspective view showing a cultivating box and a cradle according to the present invention,
3 is an exploded perspective view showing a cultivating box and a cradle according to the present invention,
FIG. 4 is a side cross-sectional view illustrating a coupling state of a cultivating box and a cradle according to the present invention,
FIG. 5 is a side cross-sectional view illustrating a state in which strawberry seedlings are supported on a box cover plate according to the present invention through hair sealing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5. FIG.

FIG. 1 is a schematic view showing a system for automating the hydroponics cultivation of a greenhouse according to the present invention, FIGS. 2 and 3 are exploded and combined perspective views showing a cultivating box and a cradle according to the present invention, FIG. 5 is a side cross-sectional view showing a state in which strawberry seedlings are supported on a box cover plate according to the present invention through hair sealing. FIG.

1, the automation system for crop greenhouse cultivation in a greenhouse of the present invention comprises a cage apparatus 20 of a multi-layer structure provided in a greenhouse 10 such as glass or vinyl, A crop harvesting device (30) supported by a cage device (20) for harvesting strawberries cultivated in the crop hydroponic cultivation device (40) and being moved up and down and left and right ).

As shown in Figs. 2 to 4, the crop hydroponic cultivation apparatus 40 includes a cultivation box 42 having an upper portion opened to be continuously mounted on the cage device 20 in the fore-and-aft direction, A box cover plate 44 which is superimposed on an upper opening of the cultivating box 42 to have a larger area than the lateral width of the cultivating box 42 and has a plurality of seedling insertion holes 44a formed at a predetermined distance in the center, A plurality of hair seal rings 50 for supporting the seedlings in the insertion holes 44a so that the seedlings are floated without touching the bottom of the grow box 42; Upper and lower nutrient solution supply pipes 60 and 62 for supplying nutrients to the root of the seedlings supported by the plurality of hair sealings 50, So that the leaf (A) of the strawberry is supported on the upper part by the aid of the adjustment rod (70) And a pair of left and right leaf stands 80 for guiding the left and right leaves.

The upper and lower nutrient solution supply pipes 60 and 62 are respectively installed at upper and lower sides of the cultivation box 42 with a predetermined vertical gap therebetween at the center height with respect to the front and rear surfaces thereof. And a pair of upper and lower through holes 42a and 42b are formed respectively.

The box cover plate 44 covers the upper opening of the cultivation box 42 and protrudes and extends to a width of about 7 cm from the upper side of the cultivation box 42, A pair of right and left fitting portions 44b are formed long in the front and rear direction so that the upper left and right thickness surfaces of the box 42 are respectively fitted and fixed in position and the left and right ends of the box 42 are supported by the hair sealing 50, A pair of left and right runner rests 46 are integrally formed, each of which has a triangular concave-convex shape in which the runners B are erected at right angles so as to be erected one by one and mountains and valleys are repeated along the forward and backward directions.

The plurality of seedling insertion holes 44a are connected to the inside of the cultivation box 42 with respect to the center of the box lid plate 44 so that the outer diameter of the hair sealing 50 is fitted And are dispersedly formed in a zigzag manner at regular intervals along the front-rear direction of the box cover plate 44 so as to be fitted.

The plurality of hair sealings 50 are made of any one selected from wooly or durable clothes having hygroscopicity and durability so as to form a cylindrical shape so as to fit into the inner diameter of the nursery insert hole 44a of the box cover plate 44, And a seedling supporting hole 50a is formed in the center so that the seedling penetrates and the root portion protrudes downward.

The upper nutrient solution supply piping 60 is installed to pass through the inside of the cultivation box 42 through an upper through hole 42a formed at the upper side center of the cultivation box 42, A plurality of spray nozzles 60a are dispersed and installed in a staggered manner at regular intervals along the longitudinal direction so as to spray the nutrient solution toward the side of the hair seal ring 50 supported by the seedling insert hole 44a have.

The lower nutrient solution supply piping 62 is integrally formed by injection molding together with a cultivation box 42 so that a passage is connected to a lower side through hole 42b formed at the center of the lower side of the cultivation box 42, A plurality of spray holes 62a are formed at regular intervals along the longitudinal direction so as to spray the nutrient solution toward the root of the seedlings supported by the hair sealer 50 in a mist manner, And is connected to a connection pipe 64 through a lower through hole 42b from the outside of the cultivation box 42 so as to be connected to the passage.

At this time, the upper and lower nutrient solution supply pipes 60 and 62 are connected to the nutrient solution storage tank (not shown) at one side of the cage device 20 via a pump, And is configured to be sprayed.

The plurality of control rods 70 are dispersed and fixed on the left and right sides of the upper surface of the box cover plate 44 so as to support the lower surfaces of the left and right pair of leaf holders 80. The upper and lower bodies 72, A helical shaft 72a and a screw hole 74a corresponding to each other are formed on the lower surface of the upper body 72 and the upper surface of the lower body 74. The helical shaft 72a and the screw hole 74a 74a adjust the height and tilt angle of the leaf holder 80 seated on the upper body 72 while adjusting the height of the upper body 72 and the lower body 74 according to the depth of engagement with each other do.

The left and right pair of leaf holders 80 are formed in a net shape so that the leaves A of the strawberry grown in the seedlings supported by the hair sealings 50 are directly mounted on the upper portion of the leaf holder 80.

Hereinafter, the operation and effect of the thus constituted automation system for agricultural crops in the greenhouse of the present invention will be described.

In order to grow strawberries using the greenhouse hydroponic cultivation automation system according to the present invention, the cultivation box 42, the box cover plate 44 and the leaf holder 80 are stacked as shown in FIG. 4, The seedlings of the strawberry are supported to be inserted into the interior of the cultivation box 42 through a plurality of hair sealings 50 in a plurality of the seedlings insertion holes 44a formed in the seedlings 44, When the nutrient solution is supplied via the upper and lower nutrient solution supply pipes 60 and 62 in accordance with the programmed pumping control signal in the state of being implanted, the plurality of jet nozzles 60a provided in the upper nutrient solution supply pipe 60 are sprayed the nutrient solution injected at high pressure by the spray method is supplied to the side of the hair sealer 50 and the tubular part of the seedling (crown part) simultaneously or separately so that the seedlings flow in the root part, Root growth of A is absorbed through.

The nutrient solution injected in a mist state from the plurality of injection holes 62a formed in the lower nutrient solution supply pipe 62 at the inner bottom center of the cultivation box 42 is distributed widely to the upper portion of the cultivation box 42 The moisture is controlled so that the tubular portion (crown portion) of the seedlings floating in the air by the hair sealer 50 is not dried, and at the same time, the nutrients and oxygen contained in the nutrient solution are supplied to be absorbed through the growth point of the root portion of the strawberry do.

In particular, the nutrient solution can be supplied uniformly to the roots at a temperature of 10 to 20 ° C and a capacity of 1/4 of that of the conventional hydroponic cultivation method. Therefore, rooting, flower budding, growth of the leaves of the strawberry (A) ), And the nutrient solution is supplied to the crown portion of the seedlings, thereby inducing the differentiation of the flower buds, so that the strawberry can be produced all the year round.

At this time, the leaf (A) of the strawberry grown in the seedlings of the strawberry planted in the hair sealer (50) immediately grows along the leaf holder (80), the runner (B) of the strawberry grows 7 cm, 44 on the left and right ends of the runner rest 46 in a triangular shape. Therefore, the leaves (A) and the berries (C) of the strawberry grow separately from each other with the leaf holder (80) therebetween.

That is, the runner B extending from the hair sealer 50 extends toward the ridge portion of the runner rest 46 provided at the left and right ends of the box cover plate 44, The strawberry leaves A grow on the outside of the box lid plate 44 and grow in a row in the row, So that it can be easily harvested through the crop harvesting device 30.

Therefore, the leaf holder 80, which is in the form of a net, induces the leaves (A) and the fruit (C) of the strawberry to be separated up and down so that the fruit harvesting device (30) There is an automation system available.

The leaf holder 80 is formed by separating the leaves A of the strawberry placed on the net and the berries C of the berries that are placed on the valley of the runner rest 46 formed on the left and right ends of the box cover plate 44 Since the amount of light received is guided well to ventilate, the occurrence of fungi and the like is suppressed.

Since the plurality of control rods 70 are provided horizontally at regular intervals on the left and right upper surfaces of the box cover plate 44, the runners B of the strawberry are guided so as to be mounted one by one for each of the corners of the runner rest 46 can do.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. You must see.

10: glass greenhouse 20: cage device
30: Crop harvesting device 40: Crop hydroponic cultivation device
42: Cultivation box 42a: Upper through hole
42b: lower through hole 44: box cover plate
44a: Sapling insertion hole 44b:
46: runner rest 50: hair seal
50a: Seedling support hole 60: Upper nutrient supply pipe
60a: injection nozzle 62: lower side nutrient supply pipe
62a: injection hole 64: connector
70: adjusting rod 72: upper body
72a: spiral shaft 74: lower body
74a: Spiral hole 80: Leaf holder
A: The leaf of strawberry B: The runner of strawberry
C: Berries berries

Claims (15)

There is provided a greenhouse crop hydroponic cultivation automation system comprising a cage apparatus 20 of a multilayer structure provided in a greenhouse 10 and a plurality of crop hydroponic cultivation apparatuses 40 stacked on each layer of the cage apparatus 20 for growing strawberries As a result,
The crop hydroponic cultivation apparatus (40)
A cultivating box 42 having an upper portion opened to be continuously mounted on the cage device 20 in the forward and backward directions,
A plurality of seedlings insertion holes 44a are dispersedly formed in a zigzag manner at a predetermined interval in the center while being superposed on the upper opening of the cultivation box 42 in an area wider than the width of the cultivation box 42, A box cover plate 44 integrally formed with a pair of left and right runner rests 46, each of which is erected vertically so that the runners B of the strawberries are mounted one by one,
A plurality of seedling supporting holes 50a formed at the center of the plurality of seedling insertion holes 44a so as to support the seedlings in a floating manner without touching the bottom of the growing box 42,
A plurality of seedling rings 50 provided at the inner center of the upper side on the front and rear sides of the cultivation box 42 and spaced at regular intervals along the longitudinal direction so as to spray the nutrient solution toward the root side face of the seedlings supported by the plurality of seedling rings 50 An upper nutrient solution supply pipe 60 in which a plurality of injection nozzles 60a are dispersed in a zigzag manner,
A plurality of seedlings 50 disposed at the inner center of the lower side on the front and rear sides of the cultivation box 42 and spaced at regular intervals along the length direction so as to spray the nutrient solution toward the root of the seedlings supported by the plurality of seedling seals 50 A lower nutrient solution supply pipe 62 having an injection hole 62a formed therein,
And a pair of left and right leaf holders 80 formed in a net shape such that the leaves A of the berries are mounted on the upper part of the upper surface of the box cover plate 44 via a plurality of control rods 70, A greenhouse crop hydroponic cultivation automation system. delete delete delete delete delete delete delete delete delete delete delete The method according to claim 1,
The plurality of control rods 70 are dispersed and fixed on the left and right sides of the upper surface of the box cover plate 44 or the lower surface of the leaf holder 80,
Wherein the lower surface of the upper body (72) and the upper surface of the lower body (74) are formed with a helical axis (72a) and a screw hole (74a), respectively. delete delete

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