KR200481257Y1 - Multi Layers Cultivation Device of Crop - Google Patents

Abstract

The present invention relates to a multi-layer crop growing apparatus, and more particularly, to a multi-layer crop growing apparatus capable of growing a large amount of crops in a limited area by stacking multi-layered crops, thereby increasing the production amount against a single area, Since it is returned to the origin, the cultivation management and harvesting work of the crop can be done at one point, the labor force is reduced, the energy required to drive the apparatus is low, and the amount of sunshine can be controlled through the lighting means composed of a plurality of LED units The present invention relates to a multi-layered crop cultivation apparatus capable of controlling the growth and release of crops and allowing the crops to grow under uniform conditions, thereby assisting quality control of the crops.
The multi-layer crop growing apparatus according to the present invention includes: a plurality of straight supports coupled longitudinally and laterally; A plurality of guide wheels rotatably installed at both ends of the support unit at predetermined intervals; A plurality of rollers provided at regular intervals between both ends of the support portion; A driving unit installed at one side of the support unit and including a driving motor for transmitting power to the rotation shaft of the guide wheel and a power transmitting unit; A circulation unit including a feed wire installed in a closed loop along the path where the plurality of guide wheels and rollers are installed; And a plurality of cultivation vessels connected to the conveying wire by connection means below the plurality of fixtures provided at regular intervals; .

Description

[0001] The present invention relates to a multi-

The present invention relates to a multi-layer crop growing apparatus, and more particularly, to a multi-layer crop growing apparatus capable of growing a large amount of crops in a limited area by stacking crops in a multi-layered endless track circulation apparatus, Since the crop is returned to the origin as it is circulated to the infinite orbit, the cultivation management and harvesting work of the crop can be performed at a single point, the labor force is reduced, the energy required to drive the device is small, The present invention relates to a multi-layered crop cultivation apparatus that can control the growth and release of crops and can grow crops under uniform conditions by controlling the amount of sunshine.

As the industry develops and urbanization progresses, farming and clean areas are decreasing due to the construction of various factories, housing and industrial facilities, and it is difficult to cultivate the crops in clean and wide farmland as in the past. The need to plant increased.

As a result of such changes in the market, not only farmers who grow special crops but also general farmers are allowed to make facilities such as greenhouses and vinyl houses in order to harvest the crops stably while being less affected by the cultivation environment such as seasonal factors. The number of cultivated farms has been increased, and a number of techniques have been developed for efficiently operating and managing the cultivation facilities.

On the other hand, as the agriculture population continues to decline and the aging of the agriculture population continues, efficient operation of the cultivation facilities as well as efficiency of crop production relative to cultivated area, labor force reduction for effective crop management and harvesting work Of course, have become tasks to be solved.

In order to solve the above problems, Korean Patent No. 10-0226152 and No. 10-0332158 provide an apparatus for cultivating crops in a laminated manner in order to increase production efficiency within a limited cultivation area. However, , It is difficult to control the quality of crops as the cultivation of a large number of crops due to different environments is applied, and thus there is a problem in that the labor force to be managed is not so small. There is a problem in that it is difficult to do.

In order to solve the problems of the prior art, the applicant of the present invention has proposed a multi-layered rail having a multi-layered structure in which a conveying member combined with a chain is provided on a rail having a multi- 20-2013-0005222, which circulates in an infinite orbit. However, since the apparatus is constituted by a chain conveying system, the weight of the structures required for conveying the crop is increased, Not only a lot of energy is required but also the frictional force is large when the conveying member moves on the curved portion of the rail and the roller of the conveying member is worn out and consumed quickly.

Korean Patent No. 10-0226152 Korean Patent No. 10-0332158 Korean Utility Model Application No. 20-2013-0005222

According to the present invention, the multi-layer crop growing apparatus can increase the production amount compared to a single area by cultivating and harvesting a large amount of crops in a limited area and circulating the crops to an infinite orbit so as to return to the origin, It is possible to reduce the labor required for cultivation by making it possible from one point, and it is possible to control the amount of sunshine through lighting means composed of many LED units while consuming less energy to drive the apparatus. And it is possible to control the growth of crops under uniform conditions, thereby making it a major technical task to help the quality control of the crops.

The multi-layer crop growing apparatus according to the present invention includes: a plurality of straight supports coupled longitudinally and laterally; A plurality of guide wheels rotatably installed at both ends of the support unit at predetermined intervals; A plurality of rollers provided at regular intervals between both ends of the support portion; A driving unit installed at one side of the support unit and including a driving motor for transmitting power to the rotation shaft of the guide wheel and a power transmitting unit; A circulation unit including a feed wire installed in a closed loop along the path where the plurality of guide wheels and rollers are installed; And a plurality of cultivation vessels connected to the conveying wire by connection means below the plurality of fixtures provided at regular intervals; Wherein the transporting wire is configured to circulate in an endless track along a path in which the transporting wire is installed by the rotational force of the guide wheel, wherein the transporting wire is configured such that the harvesting container is raised on one side and lowered on the other side, Is connected to a preceding fixture and the other side is connected to a trailing fixture so that the connection means is arranged so as not to catch the crop being cultivated and to prevent the cultivation vessel from slipping during operation of the circulation section .

In addition, at least three connection holes are formed on a lower side of the fixture, and the cultivation container is connected to two connection holes of a fixture, one side of which is preceded by a connection means, and the other side is connected to one connection hole of a following fixture, And the cultivation vessel is configured to be stably connected with support of three connection points.

The apparatus may further include a tension adjusting means installed at one side of the supporting portion and configured to fix at least one of the rollers by moving a predetermined length outwardly, and when the feeding wire is loosened, And the tension of the conveying wire is kept constant by adjusting the entire length of the trajectory through which the conveying wire is circulated.

In addition, an illumination unit including a plurality of LED modules installed at predetermined intervals in the support unit may be further provided to control the amount of sunshine irradiated on the crop.

According to the present invention, a multi-layer crop growing apparatus can grow a large amount of crops in a narrow area by stacking a large amount of crops on a multi-layered cultivation apparatus, thereby increasing the production amount against a single area, , The work required for cultivation of crops such as seedling management, nutrient solution supply, and crop harvesting can be done in one place. Therefore, the labor required for cultivation of crops is greatly reduced, and since the plant has a circulation transport structure by transfer wire, The weight of the apparatus and the energy required to circulate the crop are reduced, and the idle space in the cultivation facility can be reduced, thereby reducing the cost of cooling and heating fuel consumed in growing the crop.

In addition, since the crops are cultivated while circulating in the air, the lightness of the whole crop is uniformly supplied, the coloring defects are reduced, the uniform growth condition is attained and high quality crops can be produced, and the carbon produced by the crops The air forced circulation device used in the existing cultivation facility is not necessary.

In addition, the amount of sunlight applied to crops can be controlled through lighting means composed of a plurality of LED units, so that the crops can be grown early or the growth can be suppressed.

1 is a perspective view of a multi-layer crop growing apparatus according to an embodiment of the present invention;
FIG. 2 is a perspective view illustrating a driving unit of a multi-layer crop growing apparatus according to an embodiment of the present invention; FIG.
FIG. 3 is a perspective view showing a state where a feed wire of a multi-layer crop growing apparatus according to an embodiment of the present invention forms a closed loop along an installation path of a guide wheel and a roller.
FIG. 4 is a partial perspective view illustrating a connection structure between a fixture and a cultivating container of a multi-layered crop cultivation apparatus according to an embodiment of the present invention; FIG.
FIG. 5 is an exploded perspective view showing different angles of a fixture and a cultivating container of a multi-layered crop cultivation apparatus according to an embodiment of the present invention; FIG.
FIG. 6 is a perspective view illustrating a tension adjusting means of the multi-layer crop growing apparatus according to an embodiment of the present invention; FIG.
FIG. 7 is a side view showing a state where a lighting unit is installed in a multi-layer crop growing apparatus according to another embodiment of the present invention; FIG.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, when any element in the detailed description of the design or the utility model registration claim is referred to as "including" another element, it is not construed that the element is limited to being made of the element unless otherwise specified, But it should be understood that other components may be further included.

Referring to FIGS. 1 to 4, a multi-layer crop growing apparatus according to an embodiment of the present invention includes a support 100 having a plurality of support bars; A plurality of guide wheels 200 rotatably provided at both ends of the support 100; A plurality of rollers 300 disposed at regular intervals between both ends of the support portion 100; A driving unit 400 for transmitting a driving force to the rotation axis 210 of the guide wheel 200; A circulation part 500 including a feed wire 510 installed in a closed loop structure along the installation path of the guide wheels 200 and the rollers 300; And a plurality of cultivation vessels (600) connected to a plurality of fixtures (520) installed at regular intervals on the transfer wire (510); .

The supporting part 100 is configured such that a plurality of support bars are vertically and horizontally coupled to support other configurations of the cultivation apparatus and is formed so as to disperse the entire center of gravity. An angle, a polygonal pipe, a medium / light rack, or the like can be used. At this time, the portion of the support portion 100 contacting the ground surface must be firmly fixed to the ground, and a reinforcing bar such as a reinforcing bar may be provided at a portion where the support bar intersects, so that the support portion 100 may have a stronger structure.

A plurality of guide wheels 200 are installed at both ends of the support part 100 so as to be rotatable at a predetermined height interval and a rotary shaft 210 is coupled to the center of the guide wheel 200. The guide wheels 200 are provided with grooves such as V-shaped grooves formed on the outer circumferential surface of the guide wheel 200 so as to allow a feed wire 510 to be inserted therein. It is preferable that the guide wheel 200 at the same point is rotated by the same driving force by being coupled with the same rotary shaft 210 so that the elongation of the conveying wire 510 circulated and transported is reduced.

A plurality of rollers 300 are installed at regular intervals between both ends of the supporting part 100 and are installed to guide a path for circulating the conveying wire 510 to be described later. The rollers 300 and the roller mounting unit 110 may be installed in the supporting unit 100 to receive the transfer wire 510 and the cultivation container 600 Is not to be caught when it is circulated.

The driving unit 400 is installed at one side of the supporting unit 100 and is configured to transmit power to the rotating shaft 210 of the guide wheel 200. The driving unit 400 includes a driving motor 410 and a driving motor A power transmission means 420 such as a chain, a sprocket, or the like for transmitting the driving force generated by the driving motor 410 to the rotary shaft 210, a switch for operating the driving motor, a reduction gear for reducing the speed of the driving motor, . ≪ / RTI >

In one embodiment of the present invention, the power transmitting means 420 includes a driving sprocket 421 coupled to a driving shaft of the driving motor 410 via a reduction gear and receiving power, And the driven sprocket 423 is coupled to one side of the rotary shaft 210 to transmit the power. However, the present invention is not limited to this, The power transmission structure can be changed. In this case, when the apparatus is operated, the power is transmitted by the transfer wire 510. Therefore, when a plurality of rotation shafts 210 are installed according to the position where the guide wheel 200 is installed as in the embodiment of the present invention, The driving force may be transmitted to only one of the rotating shafts 210 of the first and second driving shafts 210 and 210.

The circulation part 500 is provided with a plurality of guide wires 200 and rollers 300 along the installation path of the guide wire 200 and the rollers 300, And is thus configured to circulate in an infinite orbit. In one embodiment of the present invention, the feed wire 510 is formed in a spiral structure symmetrically to the left and right, and the upper and lower portions of the spirals are connected to each other to constitute a closed loop, and the cultivation vessel 600 rises along one side But the closed loop structure may be deformed.

A plurality of fasteners 520 are installed at a predetermined interval in the conveying wire 510 so that the fasteners 520 are circulated and transferred together with the circulation of the conveying wires 510. In the lower portion of the fastener 520, Are connected by the connecting means 530 so that they can be circulated and transferred along the trajectory of the circulation unit 500. One side of the cultivation vessel 600 is connected to a preceding fixture 520 and the other side of the cultivation vessel 600 is connected to a downstream fixture 520 so as to secure a space of a vertical length from the upper end of the cultivation vessel 600 to the conveying wire 510 so that the crop grows so that the connecting means 530 does not interfere with the operation of the circulation part 500 It is preferable that one cultivation vessel 600 is connected to one fixture 520. In this case,

In one embodiment of the present invention, the fixture 520 includes a first member 522 having at least one connection hole 521 for connecting to the cultivation container 600 by a connection means 530 such as a wire, ; A second member 523 extending from the one end of the first member 522 to a predetermined length in the vertical direction; And a coupling groove 525 formed at one side of the coupling member 525 so that a fastening means such as a bolt can be fastened to the coupling member 525. One end of the coupling member 525 is coupled to the transfer wire 510 And a third member (524) configured to be movable between a first position and a second position. At this time, a coupling member 526 formed so as to be fastened with one end of the third member 524 and the conveying wire 510 by inserting the conveying wire 510 inside by bolts or the like is further provided, and the conveying wire 510 and the fixing member 520 The portion of the outer surface of the engaging member 526 contacting the guide wheel 200 and the roller 300 is formed as a curved surface so as to reduce frictional force, So as not to interfere with the circulation movement of the cap 510.

The first member 522 includes three or more connection holes 521 so that two connection holes 521 are connected to one side of the preceding cultivation container 600 and one connection hole 521 is connected to the rear side One connecting hole 521 is connected to one side of the preceding cultivating container 600 and two connecting holes 521 are connected to the other side of the rear cultivating container 600, The one cultivation vessel 600 is connected to the two anchors 520 so as to be supported by three connection points so that the support can be stably supported while dispersing the center of gravity. And may be connected by three or more connection points according to the shape and structure of the fixture 520.

Meanwhile, in the multi-layer crop growing apparatus according to one embodiment of the present invention, a tension adjusting means 700 configured to adjust the tension when the feed wire 510 is loosened can be installed at one side of the support portion 100. The tension adjusting means 700 according to an embodiment of the present invention includes an inner tube 710 having a coupling groove 721 to which a roller 300 is coupled at one side and a fixing means 730 is fitted and fixed to an outer circumferential surface thereof, And a fastening means 730 for fastening the inner pot 710 to the inner pot 710. The inner pot 710 is inserted into the inner pot 710 so that the inner pot 710 can be moved inside, And the outer sphere 720 provided with the tension adjusting means 721. However, the tension adjusting means 700 may be formed in another structure.

In other words, the tension adjusting means 700 according to the embodiment of the present invention moves one of the rollers 300 outward by a certain length when the entire length of the conveying wire 510 increases due to an increase in temperature or the like and loosens The length of the trajectory formed by the conveying wire 510 is increased to adjust the tension, and if necessary, the position of the roller 300 can be restored to its original position to correct the length of the trajectory. However, May be used.

In addition, in a preferred embodiment of the present invention, the illumination unit 800 may further include a plurality of LED units arranged at predetermined intervals so that light irradiated on the crops cultivated in the support unit 100 may be irradiated. The illumination unit 800 may include an LED unit of a red wavelength known to affect the promotion of photosynthesis, an LED unit of a blue wavelength known to affect the formation of leaves, and the like so that the amount of sunshine applied to the crop can be controlled A LED unit having a yellow wavelength which is known to help reduce the damage caused by pests, an LED unit having a green wavelength which is known to help reduce the damage of germs or fungi, and an ultraviolet LED unit, It is more desirable to be able to help quality control.

The operation and operation of the multi-layer crop cultivation apparatus according to one embodiment of the present invention according to the above-described configuration will be summarized as follows.

First, when the driving motor 410 of the driving unit is operated, the driving force is transmitted to the rotating shaft 210 by the power transmitting unit 420 to rotate the guide wheels 200.

The conveyance wire 510 installed along the path guided by the roller 300 and the guide wheel 200 is circulated by the rotational force of the guide wheel 200 and connected to the fixtures 520 fixed to the conveyance wire 510 The cultivation vessels 600 which have been raised up on the one side of the circulation unit 500 are returned to the origin while being transferred to the endless circulation system in a descending manner on the other side and thus the operations necessary for growing the crops such as sowing, Can be done in one place.

In the multi-layer crop growing apparatus according to one embodiment of the present invention, a large amount of crops are stacked on a multi-layered cultivation apparatus, and the yield is increased compared with a single area. The crops cultivated in the cultivation vessel 600 are circulated in a closed- And circulates in an infinite orbit in the unit 500, and returns to the origin, thereby greatly reducing labor required for growing the crop.

In addition, since the cultivating vessel 600 is configured to be circulated by the conveying wire 510, not only the weight of the structure required for circulation conveyance is reduced but also the friction force is hardly generated even when the curved portion is moved, .

Also, by controlling the amount of sunshine applied to the crop through the lighting unit 800 composed of a plurality of LED units, the crop can be grown early or the growth can be suppressed, and the crop can be customized according to market changes.

While the present invention has been described in connection with what is presently considered to be the preferred 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. The present invention is not limited to the above-described embodiment and the accompanying drawings.

100: Support part 110: Roller installation part
200: guide wheel 210: rotating shaft
300: roller 400:
410: drive motor 420: power transmission means
500: circulating part 510: conveying wire
520: fixture 521: connection hole
522: first member 523: second member
524: third member 525: fastening groove
526: coupling member 530: coupling means
600: cultivation vessel 700: tension adjusting means
710: inner sphere 720: outer sphere
730: fixing means 800: illuminating unit

Claims (4)

A plurality of directly formed supports longitudinally and laterally coupled;
A plurality of guide wheels rotatably installed at both ends of the support unit at predetermined intervals;
A plurality of rollers provided at regular intervals between both ends of the support portion;
A driving unit installed at one side of the support unit and including a driving motor for transmitting power to the rotation shaft of the guide wheel and a power transmitting unit;
A circulation unit including a feed wire installed in a closed loop along the path where the plurality of guide wheels and rollers are installed; And
A plurality of harvesting vessels connected to the conveying wire by connecting means below a plurality of fixing means provided at regular intervals; Lt; / RTI >
Wherein the transporting wire is circulated in an infinite orbit along a path in which the transporting wire is installed by the rotational force of the guide wheel, the transporting wire is configured to rise on the one side of the transporting wire and to descend on the other side,
One side of the cultivation vessel is connected to a preceding fixture and the other side is connected to a trailing fixture so that the connection means is not caught by the crop being cultivated and is configured to prevent the cultivation vessel from slipping during operation of the circulation unit Wherein the multi-layered crop cultivation apparatus comprises: The method according to claim 1,
At least three connection holes are formed on a lower side of the fixture,
The cultivating vessel is connected to one of the connection holes of the preceding fixture by the connection means and the other side is connected by one connection hole of the following fixing fixture and the connection means or one side is connected to one connection hole of the preceding fixture, Wherein the harvesting container is connected to two connection holes of the fixture so that the harvesting container is stably connected to the three connection points supported by the connecting points. 3. The method according to claim 1 or 2,
Further comprising a tension adjusting means installed at one side of the supporting portion and configured to fix at least one of the plurality of rollers by moving a predetermined length outwardly,
Wherein the tension adjusting means adjusts the entire length of the trajectory through which the feed wire is circulated when the feed wire is loosened so that the tension of the feed wire is kept constant. The method of claim 3,
Further comprising an illumination unit including a plurality of LED modules installed at predetermined intervals in the support unit to adjust the amount of sunshine irradiated to the crops.

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