KR20180003315U - The plant cultivation device - Google Patents

Abstract

The present invention relates to a plant cultivation apparatus for cultivating a plant by vertically circulating a cultivation bed, the plant cultivation apparatus comprising: an installation frame (100); A cultivation frame 200 in which a cultivation bed is stacked; A pair of driving units 300 and 300 'for forming a turning path through the plurality of gears 311, 312, 313, 314, 315 and 316 and the moving chains 320 and 320' and turning the plurality of the cultivation frames 200; An environment adjusting unit 400 installed inside the installation frame 100 to provide air, light, and nutrients required for plant growth; And an outer frame 500 that forms a skeleton with a structure that surrounds the outside of the installation frame 100 and provides air, light, and nutrients required for plant growth.
The driving units 300 and 300 'include a pair of first gears 311 and 311' and second gears 312 and 312 'symmetrically installed on both sides of the upper end of the mounting frame 100, A pair of third gears 313 and 313 'and fourth gears 314 and 314' symmetrically disposed on both sides of the lower end of the frame 100 and a pair of the first gears 311 and 311 ' A pair of fifth gears 315 and 315 'provided at the upper center of the first gears 312 and 312' and a pair of third gears 313 and 313 'and fourth gears 314 and 314' And a pair of gears 316 to form a hexagonal arrangement structure. According to the present invention, the distance between the cultivating frames and the horizontal interval can be minimized, and space utilization is maximized.

Description

TECHNICAL FIELD The present invention relates to a plant cultivation apparatus,

The present invention relates to a plant cultivation apparatus, and more particularly, to an apparatus and a method for automatically cultivating a plant by providing an environment suitable for plant growth while circulating a cultivation bed vertically, And to a plant cultivation apparatus according to a new form capable of achieving maximum space utilization.

Generally, a plant plant refers to a plant cultivation system capable of planned production by artificially controlling the growth environment (light, temperature, humidity, nutrients) of a plant indoors.

Such a plant growing system replaces sunlight with artificial light such as highly efficient electrodeless fluorescent lamp, fluorescent lamp, LED, etc., and carbon dioxide necessary for plant growth makes a growth environment with carbon dioxide gas generating device. And the nutrient solution is supplied to the crops to be cultivated by preparing various substances similar to the soil components.

These plant factories include a horizontal cultivation system for cultivating plants with cultivation beds as a single layer, a multi-stage cultivation system for cultivating cultivated beds in multiple layers, crops for cultivating crops while moving crop cultivation tanks vertically And vertical transfer culture systems.

Particularly, the crop vertical transportation system such as the Korean Patent Registration Nos. 1219787, 1213571, 1275976 and 2016-010303 can most effectively utilize the area for growing crops, There is an advantage that the growth environment can be provided evenly on the bed.

However, in the conventional crop vertical transportation and cultivation system as described above, there is a problem that the moving structure of the cultivation bed is very complicated, or the turning radius of the cultivation bed is large, and the installation space of the crop is limited.

Specifically, Korean Patent Registration No. 1219787, which is one of the above-mentioned prior arts, has a complicated moving structure, which results in an increase in the installation width of the apparatus. In addition, Korean Patent Registration Nos. 1213571 and 1275976 and Korean Patent Laid- 010303, the installation width of the apparatus is inevitably enlarged in order to secure the space between the growing beds so that neighboring growth beds do not hit each other, and the size and installation cost of the apparatus increase as the size of the sprocket installed at the turning point increases .

In addition, in the prior art, the path of the redirecting section of the growing bed is formed in a rounded shape. In this structure, the growing bed, which is followed by the growing bed that has passed the turning point ahead along the round path, gradually approaches, Can occur. That is, when two points on a straight line are arranged along a curvature, the distance between the two points becomes close to each other.

Therefore, it is necessary to increase the interval between the growing beds or to lower the height of the stacking of the growing bed, and thus there is a problem in that the cultivation efficiency relative to the space can not be maximized.

Korean Registered Patent No. 1219787 Korean Patent Registration No. 1213571 Korean Patent Registration No. 1275976 Korean Patent Laid-Open Publication No. 2016-010303

The present invention has been devised to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method of automatically cultivating a plant by providing a suitable environment for plant growth while circulating a cultivation bed vertically, And to provide a plant cultivating apparatus according to a new form that can achieve maximum space utilization by improving the moving structure.

According to an aspect of the present invention, there is provided a plant cultivation apparatus comprising: an installation frame including a plurality of vertical bars installed vertically to a ground and a plurality of horizontal bars connecting the vertical bars; A growing frame in which a growing bed is stacked; A plurality of gears, a plurality of gears, a plurality of gears, a plurality of gears, a plurality of gears, a plurality of gears, A driving unit; An environment adjusting unit provided inside the installation frame and provided with a first air supply pipe, a first lighting unit, and a first nutrient solution supply pipe on one side and providing air, light, nutrient solution necessary for plant growth; An outer frame for providing air, light, and nutrients necessary for growing a plant, and a second air supply pipe, a second lighting means, and a second nutrient solution supply pipe on one side of the frame, ; A side door installed on each side of the outer frame, and a ceiling door installed on the upper surface.

The driving unit may include a pair of first and second gears symmetrically disposed on both sides of the upper end of the installation frame, a pair of third and fourth gears symmetrically disposed on both sides of the lower end of the installation frame, A pair of fifth gears provided at the upper center of the first gear and the second gear, and a pair of driving gears provided at the lower center of the third gear and the fourth gear.

And a horizontal adjustment bar for supporting the driving gear and adjusting the tension of the moving chain by adjusting a height of the driving gear, Wherein the horizontal adjustment bar comprises: a pair of brackets fixed to both sides of the installation frame; A support bar on which both ends are supported by the pair of brackets; And an adjustment bolt installed on one side of the bracket for pressing the support bar.

And the bending angle of the moving chain sandwiched between the driving gears is 50 to 80 degrees.

In the plant cultivation apparatus according to the present invention, a plurality of gears and a moving chain of the driving unit for pivotally moving the cultivation frame form a hexagonal structure.

Due to the hexagonal movement path structure of such a driving portion, while one of the cultivation frames rises through the driving gear, the subsequent cultivation frame is lowered toward the driving gear, so that collision between two consecutive cultivation frames moving in different directions is prevented .

Therefore, the interval between subsequent cultivation frames can be minimized, and a maximum number of cultivation frames can be arranged within the same scale.

Further, since the moving chain having the driving gear therebetween is bent at an angle of 50 to 80 degrees, the horizontal spacing between successive frames can be minimized, so that the width of the frame can be minimized.

Therefore, according to the present invention, space utilization can be maximized.

In addition, in the present invention, an outer frame separately installed outside the installation frame, and a side door and a ceiling door installed on each side of the outer frame to block the external environment are provided.

Therefore, since the plant cultivation space is shielded from the external environment, the cultivation environment necessary for plants can be established, and the optimum cultivation environment can be applied to each plant cultivation space, thereby increasing the plant yield compared to the same space It is possible to cultivate various kinds of crops.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a configuration of a plant cultivation apparatus according to an embodiment of the present invention; FIG.
FIG. 2 is a side view showing a configuration of a plant cultivation apparatus according to an embodiment of the present invention; FIG.
3 is a partial perspective view showing a configuration of a driving gear support bar and a level adjusting means constituting a plant cultivation apparatus according to an embodiment of the present invention;
4 is an external perspective view of an outer frame constituting one embodiment of the present invention;
FIG. 5 and FIG. 6 are side views of a plant cultivation apparatus according to an embodiment of the present invention and an outer frame joined together. FIG.
FIG. 7 is an external perspective view showing a state in which a door is installed in an outer frame constituting one embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of a plant cultivation apparatus according to the present invention will be described with reference to the accompanying drawings.

1 to 6 schematically show a general configuration of a preferred embodiment of the plant cultivation apparatus according to the present invention. 1 and 2 are respectively a front view and a side view showing the structure of a plant cultivation apparatus according to an embodiment of the present invention. FIG. 3 shows a plant cultivation apparatus according to an embodiment of the present invention Fig. 4 is an external perspective view of an outer frame constituting one embodiment of the present invention, and Figs. 5 and 6 show one embodiment of the present invention And FIG. 7 is an external perspective view showing a state in which a door is installed in an outer frame constituting one embodiment of the present invention. FIG. 7 is a side view showing a state in which a plant cultivation apparatus according to an embodiment of the present invention is combined with an outer frame.

As shown in these drawings, the plant cultivating apparatus according to the present invention includes an installation frame 100, a cultivation frame 200, driving units 300 and 300 ', an environment adjustment unit 400, an outer frame 500, And the ceiling door 554. The driving units 300 and 300 'move the cultivation frame 200 in a hexagonal arrangement so that a plurality of cultivation frames 200 can be minimized.

This will be described in more detail below for each configuration.

First, the installation frame 100 is provided to support the driving units 300 and 300 'and the cultivation frame 200, and is erected perpendicular to the ground.

The mounting frame 100 has a rectangular parallelepiped frame structure by combining a plurality of vertical bars 110 installed perpendicular to the paper surface and a plurality of horizontal bars 120 connecting between the vertical bars 110. The vertical bar 110 includes at least four vertical bars 110 arranged in a rectangular shape, and the horizontal bar 120 is installed between adjacent vertical bars 110.

Next, the cultivation frame 200 is for laminating a plurality of cultivation beds, and is disposed inside the installation frame 100.

The plurality of the cultivation frames 200 are arranged in the inner space of the installation frame 100 along the driving units 300 and 300 ' So as to circulate.

The driving units 300 and 300 'are provided to move the cultivation frame 200 along a predetermined path. The driving units 300 and 300' are provided symmetrically on the front and rear surfaces of the installation frame 100, , And supports the rear end.

The driving units 300 and 300 'include a plurality of gears 311, 312, 313, 314, 315 and 316 rotatably mounted on the mounting frame 100 and moving chains 320 and 320 engaged with the plurality of gears 311, 312, 313, 314, 'To form a turning path.

As shown in FIG. 1, the gears 311, 312, 313, 315, and 316 of the driving units 300 and 300 'include first gears 311 and 311' symmetrically disposed on both sides of the upper end of the mounting frame 100, Third gears 313 and 313 'and fourth gears 314 and 314' symmetrically disposed on both sides of the lower end of the mounting frame 100, second gears 312 and 312 ' Fifth gears 315 and 315 'provided at the upper center of gears 311 and 311' and second gears 312 and 312 'and third and fourth gears 313 and 313' And a driving gear 316 installed at the center of the lower side of the driving gear 314 '.

The moving chains 320 and 320 'are engaged with the gears 311, 312, 313, 314, 315 and 316 so as to rotate in conjunction with the hexagonal gears 311, 312, 313, 314, 315 and 316.

As shown in FIG. 2, the driving units combined with the six gears 311, 312, 313, 314, 315 and 316 and the moving chains 320 and 320 'are symmetrically installed on the front and rear surfaces of the mounting frame 100 . That is, the gears 311, 312, 313, 314, 315 and 316 of the driving units 300 and 300 'are respectively provided with a pair of first gears 311 and 311' symmetrical to the front and rear of the mounting frame 100, Third gears 313 and 313 ', fourth gears 314 and 314', fifth gears 315 and 315 ', and a driving gear 316.

The center axis of the pair of driving gears 316 is connected to the transmission shaft 330.

One of the pair of drive gears 316 receives power through a drive chain C connected to the deceleration motor M and the rotation of the drive gear 316 is transmitted through the transmission shaft 330 And is transmitted to one drive gear 316.

Also, a connecting rod 340 is installed between a pair of the moving chains 320 and 320 'arranged before and after.

The connecting rod 340 is for supporting the cultivation frame 200 and is horizontal to the ground and both ends thereof are coupled to the pair of moving chains 320 and 320 ', respectively.

A plurality of the connecting rods 340 are arranged at predetermined intervals along the moving chains 320 and 320 'and the upper ends of the culturing frames 200 are rotatably coupled to the connecting rods 340.

It is most preferable that the bending angle of the moving chains 320 and 320 'with the driving gear 316 therebetween is 50 ° to 80 °.

When the folding angle of the moving chains 320 and 320 'exceeds 50 ° to 80 °, the amount of change of the rising height of the cultivating frame 200 rising along the moving chains 320 and 320' A collision with the following cultivation frame 200 may occur. In order to prevent such collision, the distance between the cultivation frames 200 should be widened, so that the number of cultivation frames 200 disposed along the movement chains 320 and 320 'must be reduced.

Therefore, in the present invention, it is possible to minimize the interval between successive cultivation frames 200 by setting the angle of flexure of the moving chains 320 and 320 'with the driving gear 316 therebetween to 50 ° to 80 ° And the maximum number of cultivation frames 200 within the same scale can be arranged.

Meanwhile, the driving gear 316 is installed on the horizontal adjustment bar 350 installed between the vertical bars 110.

The horizontal adjustment bar 350 adjusts the tension of the moving chains 320 and 320 'by adjusting the height of the driving gear 316. The horizontal adjustment bar 350 is fixed to each of the pair of vertical bars 110 A supporting bar 354 having both ends supported by the pair of brackets 352 and a supporting bar 354 provided at one side of the bracket 352 to press the supporting bar 354 And an adjusting bolt 356.

The bracket 352 is formed with a long hole 358 for bolting the support bar 354 vertically and a fixing bolt 359 penetrating the support bar 354 is formed in the long hole 358, .

A through hole is formed in the upper surface of the bracket 352 to connect the adjusting bolt 356. The end of the through hole adjusting bolt 356 is in contact with the upper surface of the supporting bar 354. Therefore, the installation height and the horizontal of the support bar 354 can be adjusted by operating the adjustment bolts 356.

Next, the environment adjusting unit 400 provides the air, light, and nutrient solution necessary for growing the plant, and is installed inside the installation frame 100 and is selectively removable.

The environment adjusting unit 400 may include a first air supply pipe 420 vertically installed at one side of the rectangular frame 410 and a first lighting unit 430 And a first nutrient solution supply pipe 440.

The first illuminating unit 430 includes illuminating lamps for emitting blue light, red light, white light, and green light. An illuminating lamp previously set according to the type of the plant and the growing process is turned on for a set period of time .

Next, the outer frame 500 provides the air, light, nutrient solution necessary for plant growth, and forms a skeleton with a structure surrounding the outer side of the installation frame 100.

The outer frame 500 has a rectangular parallelepiped frame structure by combining a plurality of vertical bars 512 vertically installed on the ground and a plurality of horizontal bars 514 connecting between the vertical bars 512.

The outer frame 500 includes a second air supply pipe 520 vertically installed on one side thereof, a second illuminating means 530 disposed horizontally at a predetermined interval on one side of the outer frame 500, And a supply pipe 540.

Here, the second illuminating unit 530 includes respective illuminating lamps for emitting blue light, red light, white light, and green light, and the illuminating lamp previously set according to the type of the plant and the growing process is turned on for a predetermined period of time .

The second illuminating unit 530 further includes an ultraviolet lamp to sterilize and clean the outer frame 500, the second air supply pipe 520, the second nutrient solution supply pipe 540, and the like.

Meanwhile, the outer frame 500 has a double structure in which the rectangular parallelepiped frame structure is spaced inward and outward.

A side door 552 is provided on each side of the outer frame 500 and a ceiling door 554 is provided on the upper side of the outer frame 500.

In addition, the side door 552 is provided with an observation window 556 which can look inside.

The outer frame 500 may be selectively installed on the outer side of the installation frame 100 and the movement wheel 562 may be provided on the bottom of the outer frame 500.

A guide roller 564 rotatable along the moving direction of the outer frame 500 is installed on one side of the mounting frame 100 to guide the outer frame 500 when the outer frame 500 is moved toward the mounting frame 100. [ And a guide rail 566 corresponding to the guide roller 564 is provided on the inner side of the outer frame 500.

Hereinafter, the operation of the plant cultivation apparatus according to the embodiment of the present invention having the above-described configuration will be described with reference to the accompanying drawings.

1 and 2, a plant cultivation apparatus according to the present invention includes a plurality of cultivation frames 200 installed on an installation frame 100 and includes gears 311, 312, 313, 314, 315 and 316 and moving chains 320 and 320 ' The plurality of cultivation frames 200 are circulated by a predetermined path while being moved by the driving units 300 and 300 '.

First, when the decelerating motor M is operated in the initial state as shown in FIG. 1, the driving force of the decelerating motor M is transmitted to the driving gear 316 through the driving chain C. The first to fifth gears 315 and 315 'rotate together with the moving chains 320 and 320' which are moved by the rotation of the driving gear 316.

And the cultivating frame 200 coupled to the traveling chains 320, 320 'pivots within the mounting frame 100 along the traveling chains 320, 320'.

At this time, since the upper end of the cultivation frame 200 is rotatably installed on the connecting rod 340 coupled to the moving chains 320 and 320 ', the cultivation frame 200 is always kept horizontal by self weight during the rotation of the cultivation frame 200 . That is, the growth bed installed in the cultivation frame 200 can always be kept horizontal.

The cultivating frame 200 is moved up through the driving gear 316 while passing through the fourth gear 314, 314 ', the second gear 312, 312' and the fifth gear 315, 315 ' And descends while passing through the fifth gears 315 and 315 'and then through the first gears 311 and 311', the third gears 313 and 313 'and the drive gear 316 in this order.

The driving unit 300 and 300 'have a hexagonal structure. One of the cultivation frames 200 passes through the driving gear 316 while the succeeding cultivation frame 200 drives the driving gear 316 So that collision between two successive cultivation frames 200 moving in different directions is prevented.

The height of the driving gear 316 may be adjusted through a horizontal adjustment bar 350 supporting the driving gear 316.

3, the height of the horizontal adjustment bar 350 can be adjusted through a slot and a fixing bolt 359 provided in the bracket 352. Next, the height of the adjustment bolt 356 So that the height and the horizontal of the horizontal adjusting bar 350 can be finely adjusted.

By adjusting the height of the driving gear 316 through the horizontal adjustment bar 350, the tension of the moving chains 320 and 320 'can be adjusted.

In addition, the environment adjusting unit 400 can be selectively installed inside the mounting frame 100. The environment adjusting unit 400 includes a first air supply pipe 420, a first illuminating unit 430 and a first nutrient solution supply pipe 440. The environment adjusting unit 400 automatically supplies air, nutrient solution, Thereby creating an optimal cultivation environment for the plants.

The cultivation frame 200 is rotated around the environment adjustment unit 400 to provide an even cultivation environment to the plants cultivated in the cultivation frame 200.

The outer frame 500 may be selectively installed on the outer side of the installation frame 100. 5 and 6, the outer frame 500 is installed by moving the outer frame 500 to the installation frame 100 side.

The outer frame 500 is provided with a second air supply pipe 520, a second illumination means 530 and a second liquid supply pipe 540 so that air, nutrient solution, and light source are automatically supplied to the inside , And the optimal cultivation environment of the plant is established.

In addition, a side door 552 and a ceiling door 554 are provided on each side surface and the upper surface of the outer frame 500, respectively, so that the inner space of the outer frame 500 can be blocked from the external environment.

In addition, the outer frame 500 is provided with an ultraviolet lamp to sterilize and clean the outer frame 500 and the respective components installed therein.

Therefore, according to the present invention, the folding angle of the moving chains 320 and 320 'with the driving gear 316 therebetween is set to 50 ° to 80 °, thereby minimizing the interval between successive cultivation frames 200 And the maximum number of cultivation frames 200 within the same scale can be arranged.

In addition, the horizontal spacing between successive cultivation frames 200 can be minimized, the width of the installation frame 100 can be minimized, and space utilization can be maximized.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications will be possible to those skilled in the art based on the present invention.

Installation Frame: 100 Vertical Bar: 110
Horizontal bar: 120 Cultivation frame: 200
Driving unit: 300, 300 'First gear: 311, 311'
Second gear: 312, 312 Third gear: 313, 313 '
Fourth gear: 314, 314 'fifth gear: 315, 315'
Driving gear: 316 Moving chain: 320, 320 '
Transmission axis: 330 Connecting rod: 340
Leveling bar: 350 Bracket: 352
Supporting bar: 354 Adjusting bolt: 356
Slot: 358 Fixed bolts: 359
Environment adjustment unit: 400 frames: 410
First air supply pipe: 420 First lighting means: 430
First fluid supply pipe: 440 Outer frame: 500
Vertical bar: 512 Horizontal bar: 514
Second air supply pipe: 520 Second lighting means: 530
2nd fluid supply pipe: 540 side door: 552
Ceiling doors: 554 Observation windows: 556
Moving wheels: 562 Guide rollers: 564
Guide rail: 566

Claims (3)

An installation frame 100 comprising a plurality of vertical bars 110 installed vertically to the ground and a plurality of horizontal bars 120 connecting between the vertical bars 110;
A cultivation frame 200 in which a cultivation bed is stacked;
311, 313, 315, and 316 and a plurality of gears 311, 312, 313, 314, 315, 316. The gears 311, 312, 313, 314, 315, 316 are disposed symmetrically on the front and rear surfaces of the mounting frame 100, A pair of driving units 300 and 300 'for pivotally moving a plurality of the cultivation frames 200;
The first air supply pipe 420, the first illuminating unit 430 and the first nutrient solution supply pipe 440 are provided on one side of the installation frame 100 and air, light, An environment adjustment unit 400 for providing nutrient solution;
A second air supply pipe 530 and a second nutrient solution supply pipe 540 are provided on one side of the frame 100 to surround the outer side of the installation frame 100 and the second air supply pipe 520, An outer frame (500) for providing necessary air, light, nutrient solution;
A side door 552 installed on each side of the outer frame 500 and a ceiling door 554 installed on the upper surface;
The driving units 300 and 300 '
A pair of first gears 311 and 311 'and second gears 312 and 312' symmetrically disposed on both sides of the upper end of the mounting frame 100 are arranged symmetrically on both sides of the lower end of the mounting frame 100, And a pair of third gears 313 and 313 'and fourth gears 314 and 314' installed in the center of the upper portion of the first gears 311 and 311 'and the second gears 312 and 312' A pair of fifth gears 315 and 315 'and a pair of driving gears 316 provided at the lower center of the third gears 313 and 313' and the fourth gears 314 and 314 ' Wherein the planting apparatus comprises: The method according to claim 1,
A horizontal adjusting bar 350 for supporting the driving gear 316 and adjusting the tension of the moving chains 320 and 320 'by adjusting the height of the driving gear 316 is provided at the lower end of the mounting frame 100, Respectively;
The horizontal adjustment bar (350)
A pair of brackets 352 fixed to both sides of the mounting frame 100;
A support bar 354 having both ends supported by the pair of brackets 352;
And an adjustment bolt (356) provided at one side of the bracket (352) for pressing the support bar (354). 3. The method of claim 2,
Wherein the angle of bending of the moving chain (320, 320 ') with the driving gear (316) therebetween is in the range of 50 ° to 80 °.

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