KR101317371B1 - Nutriculture apparatus - Google Patents

Abstract

The present invention is formed so that the space is provided in the lower side, and the support frame is formed on the rail; A transfer unit installed on the rail so as to be slidable; A loading frame installed at a lower portion of the transfer unit to load a plurality of cultivation beds; A nutrient supply unit connected to each of the cultivation beds and supplying nutrient solution contained in the nutrient solution storage tank to each cultivation bed; A nutrient solution recovery unit for recovering the nutrient solution supplied and connected to each cultivation bed to the nutrient solution storage tank,
The nutrient solution supply unit comprises: an elastic supply pipe which is connected to the nutrient solution storage tank and transfers the stored nutrient solution to the loading frame side, the elastic supply pipe being formed of an elastic material capable of length deformation; A supply pipe installed over an entire area of one side of the loading frame and evenly distributing the nutrient solution transferred in connection with the elastic supply pipe to the entire area of the loading frame; A supply branch pipe branched from the supply pipe to supply nutrient solution to the one side of each cultivation bed; It is characterized in that it further comprises a supply control valve installed on the supply branch pipe to control the amount of nutrient solution supplied.
According to the present invention, by allowing the nutrient solution cultivation apparatus to be transferred by the transfer unit formed in the upper portion, the working space can be secured arbitrarily by the transfer of the nutrient solution cultivation apparatus, and the predetermined work space is not required to be formed in advance. Since more nutrient solution cultivation apparatus can be installed in the nutrient solution supply and recovery from each nutrient solution cultivation device in one nutrient solution storage tank, the efficiency of supply and recovery of nutrient solution is remarkably improved.

Description

{NUTRICULTURE APPARATUS}

The present invention relates to a nutrient solution cultivation apparatus, and more particularly, by allowing the nutrient solution cultivation device to be transferred by a transfer unit formed in the upper part, a working space can be arbitrarily secured by the transfer of the nutrient solution cultivation device. Since it is not necessary to form the nutrient solution in advance, more nutrient solution cultivation apparatuses can be installed in a predetermined installation space, and nutrient solution is supplied and recovered from each nutrient solution cultivation apparatus from one nutrient solution storage tank. It relates to a nutrient solution cultivation device.

Generally, the hydroponic cultivation method using nutrient solution refers to a method of cultivating a crop using a nutrient solution in which essential elements required for the growth of crops are dissolved at an appropriate concentration according to the absorption rate. Nutrient solution cultivation is a scientific farming technology which can optimize the growth conditions of crops by keeping the environment uniformly because artificial and precise control of nutrient solution and roots are possible.

Hydroponic cultivation is a method of cultivating the plant only with nutrient solution dissolving the nutrients necessary for the growth of the plant. Currently, not only general crops but also large crops such as flower crops or fruit trees are grown by this method. Nutrients used for hydroponic cultivation are formulated to keep the EC of the nutrients and the nutrients to help the standard growth of each crop, and are supplied at regular intervals to the cultivation bed on which the crops are placed.

Recently, advanced countries in agriculture have switched from hydroponic farming to hydroponic farming from non-recycling to recycling because the nutrient discharged from the facility acts as a source of water and soil pollutants, Second, it is based on the fact that the crop quantity and quality do not deteriorate even if it is cultivated in a circulating manner.

Conventional nutrient cultivation apparatus is formed to form a set by tying a plurality of cultivation beds into one, the plurality of sets are provided so that the crop can be grown in large quantities.

However, in the related art, a nutrient solution storage tank is provided for each set, and each set independently supplies and recovers nutrient solution, so that the nutrient solution is not evenly supplied and recovered.

In addition, since each of the sets of the conventional nutrient cultivation apparatus is installed in a fixed type, the work space for the planting or harvesting crops must be formed in advance between the sets, so that the work space occupies a predetermined installation space. There was a problem that the nutrient solution cultivation device set is less than the installation space is increased.

The present invention is to solve the above problems, an object of the present invention is to be able to transfer the nutrient solution cultivation device by a transfer unit formed on the upper part to secure a working space arbitrarily by the transfer of the nutrient solution cultivation device, Since the above-mentioned working space does not have to be formed in advance, more nutrient solution cultivation apparatuses can be installed in a predetermined installation space, and nutrient solution is supplied to and recovered from each nutrient solution cultivation device in one nutrient solution storage tank. It is to provide a nutrient solution cultivation device that the efficiency is significantly improved.

According to the present invention, the support frame is formed so that the space is provided in the lower side, the rail is formed on the upper; A transfer unit installed on the rail so as to be slidable; A loading frame installed at a lower portion of the transfer unit to load a plurality of cultivation beds; A nutrient supply unit connected to each of the cultivation beds and supplying nutrient solution contained in the nutrient solution storage tank to each cultivation bed; A nutrient solution recovery unit for recovering the nutrient solution supplied and connected to each cultivation bed to the nutrient solution storage tank,
The nutrient solution supply unit comprises: an elastic supply pipe which is connected to the nutrient solution storage tank and transfers the stored nutrient solution to the loading frame side, the elastic supply pipe being formed of an elastic material capable of length deformation; A supply pipe installed over an entire area of one side of the loading frame and evenly distributing the nutrient solution transferred in connection with the elastic supply pipe to the entire area of the loading frame; A supply branch pipe branched from the supply pipe to supply nutrient solution to the one side of each cultivation bed; It is achieved by further comprising a feed control valve installed on the feed branch pipe to regulate the amount of nutrient solution supplied.

The transfer unit may include a plurality of transfer wheels installed on an upper portion of the rail, a plurality of transfer wheels transported along the rails, a plurality of transfer blocks for rotatably holding the transfer wheels, and a transfer block below the plurality of transfer blocks. It is installed to interconnect the, but may include a transport frame is connected to the loading frame is installed on the lower surface.

In addition, the cultivation bed may be installed to be inclined so that one side is positioned above the other side.

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In addition, the nutrient solution recovery unit is connected to the other side of the cultivation bed recovery branch pipe for recovering the supplied nutrient solution, a recovery control valve for adjusting the amount of nutrient solution installed on the recovery branch pipe and recovered; It is installed over the entire area of the other side of the loading frame, and connected to each of the recovery branch pipe to transfer the recovered nutrient solution, and the recovered pipe and the nutrient solution storage tank are interconnected to transfer the recovered nutrient solution to the nutrient solution storage tank side. However, the length may include an elastic recovery pipe formed of an elastic material capable of deformation.

In addition, the transfer unit, the loading frame, the nutrient solution supply unit and the nutrient solution recovery unit is provided in plurality, each of the nutrient solution supply unit and the nutrient solution recovery unit may be connected to one nutrient solution storage tank, respectively, to supply and recover the nutrient solution.

Thereby, the nutrient solution cultivation apparatus can be transferred by the transfer unit formed in the upper portion, whereby the working space can be secured by the transfer of the nutrient solution cultivation apparatus arbitrarily. Since a large number of nutrient solution cultivation apparatuses can be installed, and the nutrient solution is supplied to and recovered from each nutrient solution cultivation device in one nutrient solution storage tank, the efficiency of supply and recovery of nutrient solution is remarkably improved.

1 is a perspective view of a nutrient solution cultivation apparatus according to the present invention.
2 is a side view of the nutrient solution cultivation apparatus according to the present invention.
3 is a front view of the nutrient solution cultivation apparatus according to the present invention.
4 is a plan view of the nutrient solution cultivation apparatus according to the present invention.
5 is an operation of the nutrient solution cultivation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

The accompanying drawings show exemplary forms of the present invention, which are provided merely to explain the present invention in more detail, thereby not limiting the technical scope of the present invention.

1 to 4, the nutrient solution cultivation apparatus, as shown in Figures 1 to 4, is formed to provide a space in the lower inner side and the support frame 100 and the rail 110 is formed on the upper rail 110, The nutrient solution is connected to the transfer unit 200 is installed so as to be movable slide, the loading frame 300 is installed in the lower portion of the transfer unit 200 to load a plurality of cultivation bed 310, and the cultivation bed 310, respectively Nutrient supply unit 400 for supplying the nutrient solution contained in the storage tank 120 to each cultivation bed 310 and nutrient solution recovery to recover the nutrient solution supplied to the cultivation bed 310 to the nutrient solution storage tank 130 Unit 500.

First, the support frame 100 is a skeleton frame of a substantially rectangular box shape, the receiving space is formed on the lower side for accommodating the various components of the present invention. In addition, a plurality of rails 110 are formed in the horizontal direction on the support frame 100.

On the other hand, the transfer unit 200 is installed on the upper rail 110, a plurality of transport wheels 210 to be transported along the rail 110, and a plurality of transport blocks for holding the transport wheel 210 rotatable ( 220 and a transport frame 230 installed to interconnect the transport block 220 to the lower portion of the plurality of transport block 220.

The conveying wheel 210 is provided as a circular wheel, and is installed so that the circumferential surface is in contact with the upper portion of the rail 110 and is transported along the rail 110 by rotation. The plurality of transfer wheels 210 are provided to be spaced apart from each other on the upper portion of the rail (110).

In addition, the transfer block 220 is connected to hold the above-described transfer wheel 210, but is connected to the transfer block 220 to be rotatable so that the transfer wheel 210 is rotated via the transfer block 220. The transfer block 220 may also be provided in plural number to arbitrarily bundle and connect the plurality of transfer wheels 210.

In addition, the transfer frame 230 is a rectangular plate having a predetermined thickness and is installed below the transfer block 220 to fix the transfer blocks 220 to each other.

On the other hand, the loading frame 300 is a skeleton frame having a loading space therein, the upper end is fixedly coupled to the lower surface of the transfer frame 230 is conveyed by the transfer frame 230. The cultivation bed 310 is installed in the loading space of the loading frame 300.

The cultivation bed 310 is a rectangular box-shaped member having an upper opening and a receiving space formed therein, and is inclined so that one side (right side of FIG. 2) is positioned above the other side (left side of FIG. 2). Crops are accommodated in the inner receiving space of the cultivation bed 310 formed as described above.

The transfer unit 200, the stacking frame 300, and the plurality of cultivation beds 310 described above are provided in one set, and the transfer unit 200 installed on the upper portion of each set is mounted on the rail 110 of the support frame 100. It is installed on the support frame 100 by being installed.

In addition, the nutrient solution storage tank 120 in which the nutrient solution is stored is disposed outside the support frame 100, and the supply main pipe 130 and the recovery main pipe 140 are connected to the nutrient solution storage tank 120, respectively. It is connected to the neighborhood of the set.

Meanwhile, the nutrient solution supply unit 400 includes an elastic supply pipe 410, a supply pipe 420, a supply branch pipe 430, and a supply control pipe 440.

The elastic supply pipe 410 is a pipe formed of a material having elasticity, one side is connected to the supply main pipe 130, the other side is connected to the front portion (right side of FIG. 2) of the loading frame 300. The elastic supply pipe 410 may be provided as a bellows-shaped pipe made of synthetic resin. The reason why the elastic supply pipe 410 is formed as described above is that, when each set is conveyed by the conveying unit 200, it is not subject to the conveying restriction.

And, the supply pipe 420 is installed on the front surface of the loading frame 300, one side is connected to the elastic supply pipe 410 to receive the nutrient solution. The supply pipe 420 is formed over the entire area of the front surface of the loading frame 300 and evenly distributes the supplied nutrient solution to the front surface of the loading frame 300.

In addition, the feed branch pipe 430 is branched from the feed pipe 420 and connected to one side (right side of FIG. 2) of each cultivation bed 310. At this time, a supply control valve 440 is installed on the supply branch pipe 430 to adjust the amount of nutrient solution supplied to the cultivation bed 310.

The nutrient solution supply unit 400 configured as described above is supplied with nutrient solution to the supply main pipe 130 by an operation of a supply pump (not shown) connected to the nutrient solution storage tank 120, and the elastic supply pipe 410 connected thereto. ), The feed pipe 420 and the feed branch pipe 430 is supplied to the one side of the cultivation bed (310). At this time, the supply control valve 440 is adjusted by the user's selection to adjust the amount of nutrient solution supplied to the cultivation bed 310 (see Fig. 5).

Meanwhile, the nutrient solution recovery unit 500 includes a recovery branch pipe 510, a recovery control valve 520, a recovery pipe 530, and an elastic recovery pipe 540.

The recovery branch pipe 510 is a pipe connected to the other side (left side of FIG. 2) of each cultivation bed 310, and recovers and transfers the nutrient solution supplied to the cultivation bed 310.

The nutrient solution recovered as described above is transferred through the recovery pipe 530 connected to the recovery branch pipe 510, whereby the recovery amount of the nutrient solution is controlled by the recovery control valve 520 installed on the recovery branch pipe 510. .

The recovery pipe 530 is formed over the front of the rear portion (left side of FIG. 2) of the loading frame 300 to communicate with each recovery branch pipe 510. An elastic recovery pipe 540 formed in the same shape as the elastic supply pipe 410 is connected to the upper end of the recovery pipe 530, and the elastic recovery pipe 540 is connected to the recovery main pipe 140 to recover the nutrient solution. It is transferred to the nutrient solution storage tank 120. At this time, the nutrient solution is to be transferred to the upper side of the recovery pipe 530, the nutrient solution is transferred by the operation of a separately installed recovery pump (not shown) (see Fig. 5).

Nutrient cultivation apparatus according to the present invention configured as described above can be secured to the working space by the transfer of the nutrient solution cultivation device by allowing the nutrient solution cultivation device to be transported by the transfer unit 200 formed on the upper, Since it is not necessary to form a working space in advance, a larger number of nutrient solution cultivation apparatuses can be installed in a predetermined installation space, and nutrient solution is fed and recovered from one nutrient solution storage tank 120 to each nutrient solution cultivation apparatus. There is an effect that the efficiency of recovery is significantly improved.

The embodiments and drawings attached to this specification are merely to clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. Modifications that can be made and specific embodiments are obviously included in the scope of the technical spirit of the present invention.

100: support frame 110: rail
120: nutrient solution storage tank 130: supply main pipe
140: recovery main pipe 200: transfer unit
210: transfer wheel 220: transfer block
230: transfer frame 300: loading frame
310: cultivation bed 400: nutrient solution supply unit
410: elastic supply pipe 420: supply pipe
430: supply branch pipe 440: supply control valve
500: nutrient solution recovery unit 510: recovery branch pipe
520: recovery control valve 530: recovery pipe
540: elastic recovery pipe

Claims (6)

A support frame formed to have a space in a lower side thereof, and having a rail formed thereon;
A transfer unit installed on the rail so as to be slidable;
A loading frame installed at a lower portion of the transfer unit to load a plurality of cultivation beds;
A nutrient supply unit connected to each of the cultivation beds and supplying nutrient solution contained in the nutrient solution storage tank to each cultivation bed;
A nutrient solution recovery unit for recovering the nutrient solution supplied and connected to each cultivation bed to the nutrient solution storage tank,
The nutrient solution supply unit includes:
An elastic supply pipe which is connected to the nutrient solution storage tank and transfers the stored nutrient solution to a loading frame side, the elastic supply pipe being formed of an elastic material that can be deformed in length;
A supply pipe installed over an entire area of one side of the loading frame and evenly distributing the nutrient solution transferred in connection with the elastic supply pipe to the entire area of the loading frame;
A supply branch pipe branched from the supply pipe to supply nutrient solution to the one side of each cultivation bed;
The nutrient solution cultivation apparatus further comprises a supply control valve installed on the supply branch pipe to control the amount of nutrient solution supplied. The method of claim 1,
The transfer unit
A plurality of transport wheels installed on the rails and transported along the rails;
A plurality of transfer blocks for rotatably holding the transfer wheel;
The nutrient solution cultivation apparatus is installed to interconnect the transport block to the lower portion of the plurality of transport block, the transport frame is connected to the loading frame is installed on the lower surface. The method of claim 1,
Each cultivation bed is a nutrient cultivation device, characterized in that the one side is installed to be inclined so that the upper side than the other side. delete The method of claim 3,
The liquid recovery unit includes:
A recovery branch pipe connected to the other side of each cultivation bed to recover the supplied nutrient solution;
A recovery control valve installed on the recovery branch pipe to adjust an amount of nutrient solution to be recovered;
A recovery pipe installed over the other side of the loading frame and connected to each recovery branch pipe to transfer the recovered nutrient solution;
The nutrient solution cultivation apparatus comprising an elastic recovery pipe is formed of an elastic material capable of transferring the recovered nutrient solution to the nutrient solution storage tank side by interconnecting the recovery pipe and the nutrient solution storage tank. The method of claim 1,
The transfer unit, the loading frame, the nutrient solution supply unit and the nutrient solution recovery unit is provided in plurality
Each of the nutrient solution supply unit and the nutrient solution recovery unit is connected to each of the nutrient solution storage tank for supplying and recovering nutrient solution.

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