KR101311210B1 - Farm apparatus for water culture and plate for such water culture - Google Patents

Abstract

PURPOSE: A plant hydroponic facility and a plant hydroponic board are provided to easily transplant plants, and to easily arrange and recollect the plant hydroponic board in which the plants are planted. CONSTITUTION: Plural waterway members are arranged in parallel, and store culture liquid. A plant hydroponic board (20) is mounted on the waterway members to the horizontal direction. A lighting device is located on the upper side of the plant hydroponic board with an interval for emitting light to plants. A plant fixing hole (21) is formed on the plant hydroponic board for roots of the plants to touch the culture liquid. An insertion hole (21c) is for vertically inserting a plant planting member (40). A fitting hole (21a) is for fitting and fixing the plant planting member by compressively transforming. A connection penetration unit (21b) connects the fitting hole and the insertion hole.

Description

Farm Apparatus for Water Culture and Plate for such Water Culture}

The present invention relates to an apparatus for hydroponic cultivation of plants, and to a hydroponic cultivation plate of plants used for hydroponic cultivation of plants by fixing the plants, and specifically, a plant hydroponic system configured to easily fix a plant. The present invention relates to a cultivation plate and a horizontal rail type hydroponic cultivation device which allows the plant hydroponic cultivation plate to be easily moved and installed, and at the same time, the plant hydroponic cultivation plate can be easily recovered and harvested.

Recently, as interest in pesticide-free or organic farm products increases, efforts have been made to grow a large amount of plants safely in a controlled space. As part of this effort, the prior art, as disclosed in Korean Patent Registration No. 10-1034513, installs a plurality of hydroponic cultivation layers in multiple layers so that the roots touch the culture medium, so-called hydroponic plants called "plant plants". A growing device is proposed.

In hydroponic cultivation of plants, it is very important to transplant according to the degree of growth of the plant. As the roots of plants grow, it is necessary to appropriately adjust the type and depth of the culture solution to which the plant roots are in contact.

By the way, in addition to the technology of the Republic of Korea Patent Registration No. 10-1034513 exemplified above, in consideration of the easy transplantation of the plant as well as the consideration of the easy harvesting of the plant, such a situation is very lacking.

See Republic of Korea Patent Publication No. 10-1034513 (2011. 05. 17. notification).

The present invention was developed in order to overcome the limitations of the prior art as described above, specifically in the plant hydroponic cultivation apparatus using a plant hydroponic cultivation to fix the plant so that the root is in contact with the culture, easy to plant the hydroponic cultivation It can be inserted and fixed to facilitate the transplantation of plants, and it is possible to easily arrange and cultivate the planted hydroponic cultivation plant, thereby greatly improving the efficiency of plant transplantation and harvesting. An object is to provide a plant hydroponic cultivation apparatus and a hydroponic cultivation plate used therein.

In order to achieve the above object, in the present invention, the plant planting member is placed on the waterway member in which the culture solution is contained and the plant planting member in which the plant is cultured is fitted into the plant fixing hole to fix the root of the plant cultured in the plant planting member. A hydroponic cultivation plate positioned to contact a culture medium of a waterway member, wherein the plant holding hole of the hydroponic cultivation plate has a larger diameter than the cross section of the planting member so that the planting member can be inserted in a vertical state. ball; A fitting hole having a smaller diameter than a cross section of the plant planting member so that the plant planting member is fitted and fixed in a compression-deformed state; And it is provided with a hydroponic cultivation plate consisting of a connecting portion for communicating the insertion hole and the insertion hole with each other.

In addition, in the present invention, in order to achieve the above object, the above-mentioned hydroponic cultivation plate is transversely transversely on the plurality of waterway members, the upper surface is open and extended to be disposed side by side and arranged in parallel with each other. It is placed on the waterway member across the member, the illumination device for irradiating light at intervals above the hydroponic cultivation plate is arranged to have a configuration for irradiating light to the plant, the hydroponic cultivation plate along the waterway member It is arranged to be movable in the longitudinal direction, so that the worker has a configuration to move the completed hydroponic sequential to the other side of the waterway member after the completion of the transplantation of the plant material member to the hydroponic cultivation plate on one side of the waterway member. A plant hydroponic cultivation apparatus is provided.

In the hydroponic cultivation plate and plant hydroponic cultivation apparatus of the present invention, the plant fixing hole formed in the hydroponic cultivation plate, has a larger diameter than the cross section of the plant planting member can be inserted into the plant planting member in a vertical state ball; A fitting hole having a smaller diameter than the cross section of the planting member to be inserted and fixed while the planting member is compressed and deformed; And it is preferable that the insertion hole and the connection hole for communicating the insertion hole with each other. Further, in the present invention, the lower surface of the hydroponic cultivation plate, when the hydroponic cultivation plate is placed on the waterway member in the longitudinal direction, the plant roots extending below the planting member fixed to the hydroponic cultivation plate It is preferable that a movement guide portion for restricting the movement of the hydroponic cultivation plate in the lateral direction of the water channel member is formed on the bottom surface of the hydroponic cultivation plate so that the deviates from the open upper surface of the water channel member.

According to the plant hydroponic cultivation apparatus according to the present invention, it is possible to transplant the plant to the hydroponic cultivation easily and quickly, it is possible to easily move the cultivation plate transplanted with the plant evenly disposed on the waterway member, The installation work and the recovery work of the hydroponic cultivation can be continuously performed at one position without the operator moving along the waterway member, thereby exhibiting the advantage of greatly improving the work efficiency.

In addition, according to the present invention, it is possible to easily insert and fix the plant in the hydroponic cultivation, it is possible to perform the transplanting operation of the plant very easily and quickly, it is possible to easily arrange the hydroponic cultivation planted plants In addition, since it can be easily recovered, the effect of greatly improving the efficiency of plant transplantation and harvesting is exerted.

Figure 1a is a schematic perspective view of a hydroponic cultivation apparatus according to an embodiment of the present invention.
FIG. 1B is a schematic cross-sectional perspective view taken along line BB of FIG. 1A.
FIG. 2 is a schematic perspective view illustrating a state in which a worker stands in a layer of planting space and transplants a plant to a hydroponic cultivation plate in the hydroponic apparatus shown in FIG. 1A.
FIG. 3 is a schematic perspective view showing a state in which a hydroponic cultivation plant in which plant transplantation is completed is disposed in a layer of planting space by an operation as shown in FIG. 2.
4 is a schematic perspective view showing a state in which a worker harvests a plant by moving a hydroponic cultivation plate in a planting space on a ground floor after the plant grows.
Figure 5 and Figure 6 is a schematic perspective view showing different views of the hydroponic cultivation plate used in the hydroponic cultivation apparatus of the present invention, respectively.
FIG. 7A is a schematic cross-sectional view taken along line CC of FIG. 2.
FIG. 7B is a schematic cross-sectional view along the line AA of FIG. 2.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

Figure 1a is a schematic perspective view showing a configuration in which the plant cultivation space is formed in a double layer as a hydroponic cultivation apparatus according to an embodiment of the present invention, Figure 1b is a schematic cross-sectional perspective view along the line BB of Figure 1a Is shown. In FIG. 1A, the hydroponic cultivation plate 20 is not disposed on the channel member 10. FIG. 2 is a schematic perspective view showing a state in which a worker transplants a plant to a hydroponic cultivation plate at one side of a plant cultivation space of a layer in the hydroponic apparatus of the present invention shown in FIG. 1A, and FIG. FIG. 2 is a schematic perspective view showing a state in which a hydroponic cultivation plant in which plant transplantation is completed is disposed in a plant cultivation space of a layer by an operation as shown in FIG. 2. FIG. 4 is a schematic perspective view showing a state in which a worker harvests a plant by moving a hydroponic cultivation plate in a plant cultivation space on a ground floor after the plant is grown.

As shown in the figure, the hydroponic cultivation apparatus according to the present invention, the upper surface is open and extended to be arranged in parallel with each other a plurality of waterway member 10 and the culture medium is contained, the plant is fixed and in the transverse direction A hydroponic cultivation plate 20 which is spread across the plurality of channel members 10 and placed on the channel member 10 and movable in the longitudinal direction (the longitudinal direction of the channel member 10), and the hydroponic cultivation plate ( 20) is disposed at intervals above and comprises a lighting device 30 for irradiating light to the plant.

As shown in Figure 1a and Figure 1b, the waterway member 10 is formed in a shape in which one side of the circular or polygonal pipe member is open, the plurality of waterway members 10 extending in the longitudinal direction in the transverse direction They are placed side by side at intervals. In the drawing, the member number 16 is a horizontal support member 16 which extends in the horizontal direction to support the lower portions of the plurality of channel members 10 in order to install the plurality of channel members 10. The lighting device 30 is provided above the channel member 10 at intervals from the channel member 10. In the embodiment shown in the figure, the lighting device 30 is installed by hanging the horizontal support member 16 between the waterway member 10.

The plurality of channel members 10 may contain a culture solution, but the culture solution may be continuously contained for a predetermined time without flowing, but it is more preferable to allow the culture solution to flow along the channel member 10. 1A and 1B, in order to continuously supply fresh culture solution to each of the channel members 10 in a state where the plurality of channel members 10 are arranged side by side as described above, the channel member ( The culture liquid supply pipe 11 and the culture liquid recovery pipe 12 are arrange | positioned at the both ends of 10) in the horizontal direction, respectively. One end of the waterway member 10 is in communication with the culture medium supply pipe 11, and the other end of the waterway member 10 is in communication with the culture medium recovery pipe 12. The culture medium supply pipe 11 and the culture medium recovery pipe 12 are connected to the main supply pipe 13 and the main discharge pipe 14, respectively. Therefore, the culture solution supplied from the main supply pipe 13 flows along the culture solution supply pipe 11 and flows into one end of each channel member 10, and the culture solution is along the longitudinal gradient of the channel member 10. At the other end of the water channel member 10, the culture medium flowing into the culture solution recovery pipe 12 is discharged to the main discharge pipe 14.

As such, the plurality of channel members 10 and the lighting device 30 may be installed in a plurality of layers. That is, as shown in the figure, the main supply pipe 13 and the main discharge pipe 14 are arranged vertically, and the culture medium supply pipe 11 and the culture medium recovery pipe 12, respectively, the main supply pipe 13 and the main discharge pipe ( After branching into a plurality of layers from 14), by placing the plurality of channel members 10 in the longitudinal direction at the interval between the culture medium supply pipe 11 and the culture medium recovery tube 12 of each layer, the plant cultivation space for each layer It can be formed. In the drawing, the culture medium supply pipe 11 and the culture medium recovery pipe 12 are branched only in one direction from the main supply pipe 13 and the main discharge pipe 14, but from the main supply pipe 13 and the main discharge pipe 14, respectively. The culture medium supply pipe 11 and the culture medium recovery pipe 12 are also branched in the other direction, so that the channel member 10 may be disposed in a symmetrical direction in both directions of the main supply pipe 13 and the main discharge pipe 14. have.

The present invention comprises a main supply pipe 13, the main discharge pipe 14 and the culture medium supply pipe 11 and the culture medium recovery tube 12 as described above is configured to continuously flow along the plurality of waterway members 10. Therefore, the culture medium to which the root of the plant touches is not accumulated, thereby preventing the decay of the culture medium and the decay of the plant root due to the accumulation of the culture medium, and the root of the plant is always in contact with the fresh culture so that the growth of the plant is further promoted and healthy. It is possible to grow plants.

Hydroponic cultivation plate 20 is placed on the plurality of waterway members 10 in the plant cultivation space of each layer. The hydroponic cultivation plate 20 made of a plate member is disposed across the plurality of channel members 10 in the horizontal direction so as to be laid across the plurality of channel members 10. Figure 5 and Figure 6 is a schematic perspective view of a hydroponic cultivation plate 20 used in the hydroponic cultivation apparatus of the present invention, respectively, Figure 5 shows a view from above, Figure 6 is a view from below Is showing.

As shown in the figure, the hydroponic cultivation plate 20 is formed with a plant fixing hole 21 for fixing the plant, in the present invention, the plant fixing hole 21, the fitting hole 21a of a small diameter ) And the insertion hole 21c of larger diameter are continuous by the connection through part 21b. The hydroponic cultivation plate 20 is formed with a plurality of plant fixing holes 21, the fitting hole 21a in each plant fixing hole 21 is located directly above the waterway member 10. .

When hydroponicly cultivating a plant, the plant is grown on a planting member 40 made of a material that has elasticity, such as a sponge, and is easily deformed and expanded again. That is, by planting the seeds of the plant in the plant material member 40 having a hexahedron, primitive or other three-dimensional shape to germinate, so that the leaves and stems of the plant grow on the upper surface of the plant material member 40 and the plant material member ( The bottom surface of 40) causes the roots to grow, so that the stems and roots of the plant are grown on the top and bottom surfaces of the plant material member 40 to be transplanted to the hydroponic cultivation plate 20 in accordance with the growth conditions. do.

When only one circular through hole is formed in the hydroponic cultivation plate 20, if the circular through hole is larger than the plant plant member 40, the plant plant member 40 may be easily inserted, but the plant plant member is formed in the through hole. 40 is not fixed. On the other hand, if the size of the circular through hole is small, the planting member 40 can be firmly fitted and fixed, but inserting the plant member 40 into the through hole is very difficult and takes a long time. .

In the present invention, by forming the plant fixing hole 21 so that the fitting hole 21a of the small diameter as described above, and the insertion hole 21c of the larger diameter are continuous by the connecting through portion 21b. , Solved the above problem. That is, since the insertion hole 21c has a larger diameter than the cross section of the plant planting member 40, the plant planting member 40 is easily inserted in a vertical state. 5 shows a state in which the planting member 40 is inserted into the plant fixing hole 21. First, as shown by the arrow J and the arrow K of FIG. 5, the planting member 40 is inserted into the insertion hole 21c. Insert it vertically. In the state that the planting member 40 is inserted into the insertion hole (21c) by moving the planting member 40 toward the connecting portion (21b), as indicated by the arrow L in Figure 5, the planting member 40 is fitted To the ball 21a. The connecting through portion 21b and the fitting hole 21a not only have a smaller diameter than the insertion hole 21c but also have a smaller diameter than the cross section of the plant plant member 40. Therefore, the planting member 40 located in the fitting hole 21a passing through the connecting portion 21b is firmly fitted to the fitting hole 21a while being compressed at its side.

That is, in the present invention, after the planting member 40 is easily inserted into the hydroponic cultivation plate 20 through the insertion hole 21c, the planting member 40 is moved laterally to be inserted into the fitting hole 21a. By making the planting member 40 will be able to be firmly fixed to the hydroponic cultivation plate (20). Therefore, according to the hydroponic cultivation plate 20 according to the present invention, the plant grown in the planting member 40 can be easily and quickly transplanted to the hydroponic cultivation plate 20 while being able to firmly maintain the transplanted plant. Has an advantage.

On the other hand, the hydroponic cultivation plate 20 in the present invention has a configuration that can be easily moved in the longitudinal direction along the plurality of channel members (10). To this end, the lower surface of the hydroponic cultivation plate 20 according to the present invention is formed with a movement guide for guiding to move along the waterway member (10). In the embodiment shown in the drawings, as shown in Figure 6, the upper end of the waterway member 10 in the longitudinal direction, that is, in the width direction of the hydroponic cultivation plate 20 is inserted into the lower surface of the hydroponic cultivation plate 20 The moving guide part 25 is formed in the form of a recessed part. 7A and 7B show different schematic cross-sectional views of the line CC and the line AA of FIG. 2, respectively, and as shown in the figure, the hydroponic cultivation plate 20 has a recess shape in accordance with the upper position of the channel member 10. The moving guide portion 25 is formed. When the upper end of the waterway member 10 is located in the movement guide portion 25 as described above, the hydroponic cultivation plate 20 is restricted from moving in the transverse direction of the waterway member 10, and thus the hydroponic cultivation plate 20. The plant roots extending downward from the planting member 40 fitted to the fitting hole 21a by preventing the fitting hole 21a from escaping from the open upper surface of the channel member 10 from the channel member 10. Deviation is inherently prevented. On the other hand, such a movement guide portion 25 is also very useful when moving the hydroponic cultivation plate 20 in the longitudinal direction of the waterway member 10.

As shown in Figure 2, in the hydroponic cultivation apparatus according to the present invention, in carrying out the operation of transplanting the plant to the hydroponic cultivation space in one layer of plant cultivation space, the operation can be continuously performed in one side in the longitudinal direction Will be. That is, as shown in the figure, the worker at one side is to perform the operation for transplanting the plant material member 40 to the hydroponic cultivation 20, the worker planting member 40 to the hydroponic cultivation plate 20 After completion of the implantation, the transplanted hydroponic cultivation plate 20 is sequentially pushed toward the position opposite to the operator position. That is, the transplanted hydroponic cultivation plate 20 is to move along the waterway member 10 on the waterway member 10 to move away from the operator. At this time, as described above, since the movement guide portion 25 is formed on the lower surface of the channel member 10, when the hydroponic cultivation plate 20 moves along the channel member 10 in the transverse direction of the channel member 10. Since the hydroponic cultivation plate 20 is restricted, the fitting hole 21a of the hydroponic cultivation plate 20 is prevented from escaping from the open top surface of the water channel member 10, as described above, and the plant roots are waterways. The effect that the departure from the member 10 is originally prevented is exhibited.

In addition, as described above, in the plant hydroponic cultivation apparatus of the present invention, the operator transplants the hydroponic cultivation plate 20 at one position without having to arrange the hydroponic cultivation plate 20 while moving in the longitudinal direction along the channel member 10. By performing the operation, and by moving the hydroponic cultivation plate 20 is completed in the longitudinal direction sequentially by the transplantation operation, it can be made so that the hydroponic cultivation plate 20 is disposed throughout the waterway member 10 in the longitudinal direction, The work efficiency is greatly increased.

On the other hand, in forming the moving guide portion 25 in the horizontal cultivation plate 20, as illustrated above, it may be made in the form of a concave portion, on the contrary, by moving the projection member from the lower surface of the horizontal cultivation plate 20 You can also make (25). In the present invention, it is also very useful when the plant harvesting the horizontal cultivation plate 20 is moved in the longitudinal direction along the upper surface of the channel member 10 in a state in which the positional variation in the horizontal direction is limited.

4 is a schematic perspective view showing a state in which a worker harvests a plant by moving the hydroponic cultivation plate 20 in a layer of plant cultivation space after the plant is grown.

When harvesting a plant, after one end of the leader line 70 is bound to the hydroponic cultivation plate 20 located farthest from the worker, and the worker on one side pulls the leader line 70, the leader line 70 The hydroponic cultivation plate 20 at the furthest point is moved toward the worker, and the other hydroponic cultivation plate 20 located between the worker and the hydroponic cultivation plate 20 to which the leader line 70 is bound is drawn out. The hydroponic cultivation board with the line bound is pushed toward the worker and moves toward the worker. That is, after the worker harvests the plant from the hydroponic cultivation plate 20 in front of him and removes the hydroponic cultivation plate 20, when the worker pulls the leader line 70, the hydroponic cultivation plate 20 of the farthest place is the worker. As it is pulled to the side, the still unharvested hydroponic cultivator, which is located next to the removed hydroponic tract, is moved in front of the operator. Therefore, the worker can position the hydroponic cultivation where the unharvested plants are continuously placed in front of them, without sticking themselves, and can greatly improve the speed and efficiency of the work. In particular, in this manner, in the process of moving the hydroponic cultivation in the direction of the worker for harvesting the plant, the long-growing plant roots are moved while touching the inner surface of the waterway member 10, thereby adsorbed on the inner surface of the waterway member 10 The cleaning effect on the inner surface of the channel member 10 for scraping off moss and foreign substances, etc., with the plant roots is also exerted.

Thus, according to the plant hydroponic cultivation apparatus according to the present invention, it is possible to easily and quickly transplant the plant to the hydroponic cultivation, it is possible to easily arrange the hydroponic cultivation implanted with plants evenly placed on the waterway member. In addition, the installation work and the recovery work of the hydroponic cultivation can be carried out continuously in one position without the operator moving along the waterway member, the work efficiency is greatly improved.

10: waterway member
20: Hydroponic Cultivation

Claims (5)

A plurality of waterway members 10 having an upper surface open and extending in parallel to each other and containing a culture solution;
A hydroponic cultivation plate 20 spanning the plurality of channel members 10 in a transverse direction and placed on the channel members 10;
The hydroponic cultivation plate 20 is disposed at intervals upwards and comprises a lighting device 30 for irradiating light to the plant;
In the hydroponic cultivation plate 20, the plant fixing hole 21 is placed so that the root of the plant is in contact with the culture solution of the waterway member 10 by inserting and fixing the plant material member 40 in which the plant is cultured. Formed;
The hydroponic cultivation plate 20 is disposed to be movable along the channel member 10 in the longitudinal direction, so that an operator transplants the planting member 40 to the hydroponic cultivation plate 20 on one side of the channel member 10. After the completion of the hydroponic cultivation device, characterized in that the completed hydroponic cultivation plate 20 has a configuration to be moved to the other side of the waterway member 10 in sequence.
The method of claim 1,
Plant fixing hole 21 formed in the hydroponic cultivation plate 20,
An insertion hole 21c having a larger diameter than the cross section of the plant planting member 40 so that the plant planting member 40 can be inserted in a vertical state;
A fitting hole 21a having a smaller diameter than a cross section of the plant planting member 40 so that the plant planting member 40 is compressed and deformed and fixed; And
Plant hydroponic apparatus, characterized in that consisting of the connecting hole (21b) for communicating the fitting hole (21a) and the insertion hole (21c) with each other.
The method according to claim 1 or 2,
On the lower surface of the hydroponic cultivation plate 20, the planting member 40 fixed to the hydroponic cultivation plate 20 when the hydroponic cultivation plate 20 moves in the longitudinal direction while being placed on the channel member 10. Movement guide portion 25 for restricting the movement of the hydroponic cultivation plate 20 in the transverse direction of the waterway member 10 so that the plant roots extending below) do not deviate from the open upper surface of the waterway member 10. Plant hydroponic apparatus, characterized in that formed on the lower surface of the hydroponic cultivation plate (20).
The plant planting member 40, which is placed on the channel member in which the culture solution is contained, is inserted into the plant fixing hole 21 to fix the plant planting member 40, so that the root of the plant cultured in the plant planting member 40 is the channel member. As a hydroponic cultivation plate 20 to be placed in contact with the culture medium of
Plant fixing hole 21 of the hydroponic cultivation plate 20,
An insertion hole 21c having a larger diameter than the cross section of the plant planting member 40 so that the plant planting member 40 can be inserted in a vertical state;
A fitting hole 21a having a smaller diameter than the cross section of the plant planting member 40 so that the plant planting member 40 is fitted and fixed in a compression-deformed state; And
Hydroponic cultivation plate, characterized in that consisting of the connecting hole (21b) for communicating the fitting hole (21a) and the insertion hole (21c) with each other.
5. The method of claim 4,
The hydroponic cultivation plate 20 is fixed to the hydroponic cultivation plate 20 when the hydroponic cultivation plate 20 moves vertically while being placed on the waterway member while moving in the longitudinal direction. Movement guide portion for limiting the movement of the hydroponic cultivation plate 20 in the transverse direction of the waterway member 10 so that the plant roots extending below the planting member 40 is not deviated from the open upper surface of the waterway member Hydroponic cultivation plate, characterized in that 25 is formed on the lower surface of the hydroponic cultivation plate (20).

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