KR101423992B1 - Water cultivation plate and water cultivation system using the same - Google Patents

Abstract

The present invention relates to a water cultivation device comprising a water cultivation plate including a body consisting of a rectangular plate and having multiple cultivation holes penetrating up and down through a plane, guide units formed on both ends of the body having a step pulley between them, a hanging projection downwardly protruding on the front end of the body, and a hanging groove formed on the rear end in order to be opened to the top and consist of a groove which is coupled with the hanging projection; and a moving conveyor having a bottom plate, a side plate which is extended and bended to the top from both ends of the bottom plate, a guide plate which is integrally formed on the top end of the side plate so that the guide units of the water cultivation plate are hung in order to horizontally move, a support housing which can support multiple water cultivation plates, and a moving conveyor which is installed on the front end of the support housing and which is separated and discharged one by one from the support housing by forcibly moving the water cultivation plate put on the guide plate. Accordingly, provided are water cultivation plates which can be connected with each other and a water cultivation system which is appropriate for mass production using the same.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroponic cultivation system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroponic cultivation apparatus, and more particularly, to a hydroponic cultivation plate suitable for mass production by providing a hydroponic cultivation plate having a structure that can be interconnected, and a hydroponic cultivation system using the same.

Generally, in order to cope with seasonal consumption tendency regardless of the season of crops production and the decrease of agricultural land due to industrial development, hydroponic cultivation which can produce mass production of agricultural products by four seasons, pollution-free cultivation, Farming methods are spreading.

In hydroponic cultivation method of agricultural products, hydroponic cultivation, in which plants are grown using only water in which various necessary nutrients are dissolved without using soil, grows seedlings in an appropriate size, and cultivates nutrient solution Wherein the reed plate is formed by molding an absorbent material such as a general hard synthetic resin or glass wool into a plate shape and forming a cup-shaped reed ball so that the roots of the plant can be inserted and fixed on the reed plate, Can be fixed.

Therefore, by using a separate support frame, the reed plate is fixed on the upper side of the ground and at a predetermined height, and the plant is planted on the reed plate, and then the nutrient solution is fed to the lower side of the reed plate. Conventional hydroponic cultivation equipment used for hydroponics cultivation is a system in which plants are actually accommodated and cultured and a nutrient solution is supplied through a nutrient supply pipe on a substrate of a predetermined standard equipped with drainage means to slowly flow in a full state, The reed ball is placed close to the reeded grafted plant so that the root of the crop can absorb the nutrients of the nutrient.

However, the hydroponic cultivation apparatus has the following problems.

There is a problem in that the productivity of the mass production is deteriorated due to the independent construction of the hydroponic cultivation plate. In other words, when crops are harvested after cultivation, they need to move the reed plates one by one, so that a lot of manpower is needed and productivity is lowered. This problem is a major factor in staying hydroponics at a small scale at home.

Further, since the re-array plates are arranged independently, there is a problem that automation thereof is difficult. In other words, in order to enable automation, the connectivity of the reed board is secured, and a means for simultaneously moving a plurality of reed boards by a series of operations is required.

Korean Patent Publication No. 10-2011-0126917 Korean Patent Registration No. 10-1350394

Accordingly, it is an object of the present invention to provide a hydroponic cultivation apparatus capable of moving a reed board by a series of operations by allowing mutual connection of reed boards.

It is still another object of the present invention to provide a hydroponic cultivation apparatus capable of increasing productivity by automating the movement of a reed plate upon harvest.

The present invention provides a hydroponic reed for constructing a reed for hydroponic cultivation. The hydropuptive reed plate includes a plurality of reed holes formed in a rectangular plate shape and vertically penetrating the surface, And a hooking protrusion protruding downward is formed at a front end of the main body and a hooking groove formed by a groove engaging with the engaging protrusion is formed at the rear end of the hooking protrusion, The present invention has been made in view of the above problems.

It is preferable that a reflector for reflecting light is provided on the upper surface and the lower surface of the main body, respectively.

The upper end of the reaming hole is formed with an upper expanding portion that widens upward and the lower end thereof is formed with a lower expanding portion that widens downward.

The engaging groove and the engaging jaw are preferably provided with a reinforcing portion projecting in the front-rear direction to reinforce the strength.

According to another aspect of the present invention, there is provided a hydroponic cultivation system comprising: a main body having a rectangular plate shape and having a plurality of reaming holes vertically penetrating the surface thereof, a guide portion formed at both ends of the main body with a step, And a rear end of which is open to the upper end to form an engaging groove having a shape engaging with the engaging jaw so that two adjoining jerseys are interconnected; A side plate extending upward from both ends of the bottom plate, and a guide rail bent in a horizontal direction from the side plate so as to movably support the hydroplane rear plate are integrally formed at an upper end of the side plate, A support housing capable of supporting the plate; And a moving conveyor installed at a front end of the receiving housing for separating and discharging the receiving unit from the receiving housing by forcibly moving the receiving plate mounted on the guide rail.

It is preferable that a supporting means for elastically pressing the upper surface of the hydraulic gage plate mounted on the moving conveyor against the moving conveyor is provided on the moving conveyor. By this supporting means, when the moving conveyor is operated, the frictional force with the hydraulic regrowth plate is increased, and slippage during initial driving can be minimized.

The two hydraulic grapevine plates are connected by the engagement jaws and the engaging grooves so that all the hydraulic graining boards on the graft housing are integrally connected and are simultaneously moved by the operation of the moving conveyor.

The elevating conveyor is installed at the lower end of the moving conveyor to support the elevating conveying plate which is located at a position lower than the moving conveyor and escapes from the supporting housing by the moving conveyor. The elevating conveyor is capable of ascending and descending in a multi-stage manner. The elevating conveyor is elevated in accordance with the height of the conveying carrier which is disposed adjacent to the conveying carrier and has a plurality of reed board receiving portions, and inserts the hydraulic regrowth board into the receiving portion of the conveying carrier.

Preferably, a plurality of bearings 240 are provided on the upper surface of the guide rail in a rolling manner on the bottom surface of the guide part of the reed plate. The bearing 240 minimizes frictional force when moving the reed plate and enables smooth harvesting.

The present invention provides a hydroponic rear plate having a structure in which a plurality of linear plates are connected in a back and forth direction so that a plurality of plates can be simultaneously moved at the time of movement.

In addition, since the hydroponic re-arranging plate connected in series can be mounted on the rails and can be moved to the conveyor, it is possible to automate the harvesting, so that the productivity can be greatly improved.

1 is a perspective view showing the construction of a hydroponic reed plate of the present invention;
Fig. 2 is a sectional view showing the construction of the hydroponic reed plate of the present invention
3 is a view schematically showing the construction of a hydroponic cultivation system according to the present invention.
4 is a perspective view showing the structure of a supporting housing according to the present invention.
Fig. 5 is a side sectional view showing the state of engagement between the hydroponic rear plate and the receiving housing according to the present invention.
6 is a view showing the action of harvesting the hydroponic cultivation system according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the present invention mainly includes a hydroponic rearrangement plate 100, a support housing 200 for supporting the hydroponic rearrangement plate 100, and a moving conveyor for moving the hydroponic rearrangement plate 100 supported by the night- 300 and support means 400, 402.

As shown in FIGS. 1 and 2, the hydroponic reed plate 100 includes a main body 110 formed of a square plate and having a plurality of reed holes 120 passing through on a plane. At both ends of the main body 110, a guide portion 112 formed with a step is formed. A locking protrusion 130 protruding downward is formed at a front end of the main body 110 and a locking protrusion 140 having a structure opened at an upper end to engage with the locking protrusion 130 is formed. Due to the structure of the latching jaw 130 and the latching groove 140, two adjoining juxtaposed plates can be interconnected.

Reflectors 150 and 152 for reflecting light are provided on the upper and lower surfaces of the main body 110, respectively. The reflector reflects light supplied from the outside, and a material having high light reflection efficiency such as a silver foil or the like is sufficient.

An upper expansion part 122 is formed at an upper end of the reaming hole 120, and a lower extension part 124 is formed at a lower end of the upper expansion part 124.

The engaging jaws 130 and the engaging grooves 140 are formed with reinforcing portions 132 and 142 which are projected in the forward and backward directions to reinforce the strength.

4 and 5, the support housing 200 is elongated in the lengthwise direction, and extends from the both ends of the bottom plate 210 and the bottom plate 210 constituting the bottom, As shown in FIG. A guide rail 230 is integrally formed at an upper end of the side plate 220 and is bent in a horizontal direction from the side plate 220 to movably support the guide portion 112 of the hydraulic levitation plate 100.

On the upper surface of the guide rail 230, a plurality of bearings 240 rolling on the bottom surface of the guide portion 112 of the hydraulic gage 100 are installed. These bearings 240 minimize the frictional force when moving the hydroponic reed plate 100 to facilitate movement.

The bottom plate 210 is provided with one or more spray tubes 500 for spraying a nutrient solution and supplying the nutrients as crops.

The moving conveyor 300 is installed at the front end of the receiving housing and forcibly moves the receiving plate 100 mounted on the guide rail 230 to separate the receiving housing 200 and the receiving housing 200 one by one.

Supporting means 400 and 402 for elastically pressing the upper surface of the hydraulic gage 100 mounted on the moving conveyor 300 against the moving conveyor 300 are installed on the moving conveyor 300. It is preferable that the support means 400 and 402 press the upper surface of the guide portion 112 of the hydraulic regrowth plate 100. When the movable conveyor 300 is operated by the support means 400 and 402 It is possible to minimize the slip at the initial stage of driving by increasing the frictional force with the hydraulic regrowth plate 100.

The hydraulic grape reeling plate 100 is joined by two adjacent engaging jaws 130 and an engaging groove 140 so that all the hydroponic reed plates 100 on the receiving housing 200 are integrally connected to each other, 300). ≪ / RTI >

The elevator conveyor 300 is installed at the lower end of the moving conveyor 300 to support the elevator conveyor 300 and move the elevator conveyor 300 out of the elevator housing 200. [ (600) is additionally provided. The elevating conveyor 600 is capable of ascending and descending at various heights and elevating the elevating conveyor 600 in accordance with the height of a conveying carrier (not shown) having a plurality of reed plate receiving portions, do.

In the hydroponic cultivation system according to the present invention having the above-described structure, the seedlings are first grown in the grapevine and then transferred to the hydroponic cultivation plate (100). At this time, the trunk plate is filled with a plurality of small grooves, the seeds are sown, and then the seedlings are transferred until they grow to an appropriate size for planting. The thus grown seedlings are inserted into the cultivation hole 120 of the hydroponic reed plate 100 of the present invention. At this time, since the upper part of the planting seedlings is made wide by the upper extension part 122 of the cultivation hole 120, it is easily seated without finely adjusting it, so that the seedlings can be easily inserted.

The plurality of hydroponic cultivation boards 100 to which the seedling is implanted is mounted on the support housing 200. At this time, the adjoining hydraulic regrowth plates 100 are connected with each other using the coupling protrusions 130 and the coupling grooves 140 to be connected to each other. As a result, all the hydroponic reed plates 100 mounted on the support housing 200 are connected to one long line.

In this state, the nutrient solution is injected through the injection tube 500 and the crop is grown for a certain period of time. At this time, since light is supplied to the crop, the supplied light is directly supplied to the crop and is reflected through the reflector 150 to be supplied, so that sufficient light quantity is ensured and the photosynthesis is more effectively achieved. Therefore, the growth of crops can be promoted.

In the case where the crop grows and harvests, when the moving conveyor 300 is operated, the reed board 100 located at the top of the moving conveyor 300 moves. Accordingly, at the same time, the juxtaposed grooves 140 and the juxtaposed jaws 130 are connected to each other and the juxtaposed boards 100 are sequentially moved. At this time, since the plurality of reed boards 100 are integrally connected to each other, the weight is increased, and there is a fear that slipping occurs between the reed boards 100 and the moving conveyor 300. Therefore, since the reed plate 100 is pressed toward the moving conveyor 300 by the supporting means 400 and 402 installed on the reed plate, the frictional force between the reed plate 100 and the moving conveyor 300 is increased Therefore, it is easy to initialize the reed board. On the other hand, after the initial drive is performed, the movement can be performed with less force due to inertia, so that smooth movement can be achieved. The repositioning plates 100 can be moved more easily since the guide portion 112 is rested on the roller bearing 240 provided on the guide rail 230.

When the reed board 100 at the front end is moved out of the moving conveyor 300 as described above, the leading end of the reed board 100 is raised and lowered at the front side of the moving conveyor 300 with a height difference 6, when the reed board 100 at the leading end is completely removed from the moving conveyor 300, the gravity of the reed board 100 is lowered The engaging groove 140 and the engaging jaw 130 are disengaged from each other and the reed board 100 at the leading end is moved to the upper part of the elevating conveyor 600 in a completely independent state. It is preferable that the conveying speed of the elevating conveyor 600 and the conveying speed of the moving conveyor 300 are synchronized to smoothly move the hydrologic reed plate 100.

In this state, the elevator conveyor 600 inserts the reed board 100 into a carrier (not shown). This operation is repeated so that the entire reeding plate 100 is automatically moved and can be easily harvested.

On the other hand, since the carrier has several stages of storage sections, the rear plate which is moved next inserts the rear plate into the storage section at a different height.

As described above, the hydroponic cultivating plate and the hydroponic cultivation system according to the present invention are merely preferred embodiments, and the present invention is not limited thereto. The present invention can be applied to a simple design change, But includes various embodiments.

The present invention having such a configuration enables a large amount of hydroponic cultivation, and thus can be applied to an agricultural field in the future to greatly contribute to improvement of productivity. Especially, the increasing value of hydroponic cultivated crops is expected to increase further.

100: hydroponic reed plate 110: main body
112: Guide part 120: Cultivator
122: upper extension hole 124: lower extension hole
130: latching jaw 132: reinforcing portion
140: Retaining groove 142:
150, 152: reflector
200: support housing 210: bottom plate
220: side plate 230: guide rail
240: Bearing 300: Moving conveyor
400, 402: Support means
500: Dispenser 600: Lift conveyor

Claims (9)

delete delete delete delete And a guide portion formed at both ends of the main body so as to form a stepped portion is formed, and a stopping protrusion protruding downward is formed at the tip of the main body. And a rear end of which is open at an upper portion to form an engaging groove having a shape engaging with the engaging jaw so as to connect the two adjoining jersey plates to each other;
A side plate extending upward from both ends of the bottom plate, and a guide rail bent in a horizontal direction from the side plate so as to movably support the hydroplane rear plate are integrally formed at an upper end of the side plate, A support housing capable of supporting the plate,
And a moving conveyor installed at a front end of the receiving housing for separating and discharging the receiving unit from the receiving housing by forcibly moving the receiving plate mounted on the guide rail.
6. The hydroponic cultivation system according to claim 5, wherein a supporting means for elastically pressing the upper surface of the hydroponic reed plate mounted on the moving conveyor against the moving conveyor is provided on the moving conveyor.
[6] The apparatus as claimed in claim 5, wherein the water jugging plate is coupled by two adjacent jaws and the catching grooves, and all the water jugging plates on the receiving housing are integrally connected and simultaneously moved by the operation of the moving conveyor Hydroponic cultivation system.
6. The hydroponic cultivation system according to claim 5, wherein a lift conveyor is installed at a tip of the moving conveyor to support a hydroponic reed plate which is installed at a position lower than the moving conveyor and escapes from the receiving housing by a moving conveyor.
6. The hydroponic cultivation system according to claim 5, wherein a plurality of roller bearings (240) are provided on the upper surface of the guide rail in rolling contact with the bottom surface of the guide part of the re-distribution plate.

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