KR101644178B1 - apparatus for growing sprouts - Google Patents

Abstract

The present invention relates to a sprout germination and cultivation apparatus including: a case body providing a germination space partitioned from an external environment; a rotation frame disposed in a state of being perpendicularly upright in a rear side space in the case body and disposed to be capable of rotating about its own center; a plurality of rotation container bodies formed as container bodies open forward and laid horizontally and disposed to be capable of rotating on a front surface of the rotation frame; a cultivation container body formed to be accommodated in each of the rotation container bodies, provided with a sprout seed, and providing a space for germination of the sprout seed; and a water storage container provided in a bottom portion space in the case body, storing water for germination of the sprout seed, and causing parts of the rotation container bodies to be immersed in sequence as a result of rotation of the rotation frame. According to the present invention, germination of a large quantity of sprouts can be facilitated, a rate of sprout germination success can be maximized, and moisture use can be minimized so that germination costs can be reduced.

Description

Apparatus for growing sprouts

The present invention relates to a sprout germination plant, and more particularly, to a germination plant capable of germinating a large amount of sprouts smoothly, maximizing the success rate of sprout germination, The present invention relates to a new type of sprout germination plant.

Generally, a sprout germination plant is a device for mass germination of sprout vegetables, which is used to germinate seeds and cultivate the germinated sprouts to a certain size.

In the conventional sprout germinating and growing machine, water is stored in a germicidal container having a tray structure, and seeds are placed in the germicidal container so that germination conditions such as an appropriate temperature and ventilation are formed to germinate smoothly. However, The germination rate was slow or the germination state was not good.

Recently, the germination container is constructed in a cylindrical shape as disclosed in the registered patent No. 10-0522032, the registered patent No. 10-0996410, the registration practice No. 20-0322383, the registration practice No. 20-0373832, etc., There is provided a technique for enabling continuous water supply through rotation and spraying into the germicidal container.

However, in the above-described conventional techniques, a considerable amount of water has to be consumed as the water sprinkled with the germicidal container flows straight down, resulting in an increase in the cost of germination.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a germicidal composition which can smoothly germinate a large amount of sprouts, maximize the success rate of sprout germination, To thereby reduce the cost of germination, and to provide a new type of sprout germination plant.

According to an aspect of the present invention, there is provided a sprout germinating and growing machine comprising: a case body configured to provide germination space partitioned from an external environment; A rotary frame installed so as to be vertically erected in the space on the rear side in the case body and rotatably mounted on the center of the rear side space; A plurality of rotary cylinders formed in a horizontally laid-open tubular body and provided rotatably on the front surface of the rotary frame while being provided in a plurality; A cultivation cylinder formed so as to be housed in each rotary cylinder and provided with bud seeds to provide space for germination of the bud seeds; And a water reservoir provided in the bottom space of the case for storing water for germination of the bud seeds and a part of the rotating cylinders being sequentially locked by rotation of the rotating frame.

Here, the front of the cultivation cylinder is provided with a lid for closing the open front of each rotary cylinder, and the lid is formed in a filter net structure.

In addition, the water reservoir is provided so as to be movable up and down from a bottom space in the casing.

In addition, an air supply pipe for supplying air is provided in the water reservoir, and a plurality of air discharge holes are formed around the air supply pipe.

In addition, a heater for controlling the temperature of water stored in the water reservoir is further provided in the bottom space of the water reservoir.

As described above, the sprout germination plant of the present invention is characterized in that all the spinning tubules are partially immersed in water in the water reservoir for a certain period of time, and the bud seeds in each cultivation tub can be continuously supplied with water, It is possible to remarkably increase the germination success rate of the seed of the sprout even when the water consumption is drastically reduced as compared with the supply method.

In particular, considering that the sprout germination plant of the present invention is structured such that the water reservoir is lifted and lowered, it is possible to take out the cultivation tubular body located at the lowest position. Therefore, compared to when extracting the cultivating tubular body at a relatively high position, It is possible to reduce the fatigue of the worker.

In addition, the sprout germination plant of the present invention is capable of germinating the sprout in an optimal temperature and humidity conditions without being influenced by the surrounding environment in a closed environment in the case body, and air is bubbled into the water reservoir It is possible to further improve the germination success rate by supplying the seed directly to the seed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view for explaining a sprouting germinating plant according to an embodiment of the present invention; FIG.
2 is a front view showing the sprout germinating and growing machine according to the embodiment of the present invention.
3 is a plan view for explaining a sprout germinating and growing machine according to an embodiment of the present invention.
FIG. 4 is a front view showing an internal structure of a sprout germinating and growing machine according to an embodiment of the present invention,
FIG. 5 is a front view showing the internal structure of the sprout germinating and growing machine according to the embodiment of the present invention,
FIG. 6 is an enlarged view of a part of a sprout germination / reaping apparatus according to an embodiment of the present invention,
FIG. 7 is an enlarged view of a part of a sprout germination / reapplicator according to an embodiment of the present invention,
FIG. 8 is an enlarged view showing the internal state of the lifting mouth part and the water reservoir in the sprout germination growing machine according to the embodiment of the present invention.
FIG. 9 is a side view for explaining a state in which the water reservoir is lifted by the operation of the lifting driver in the sprout germination growing machine according to the embodiment of the present invention
FIG. 10 is a front view showing a state in which the water reservoir is lifted by the operation of the lifting drive part of the sprout germination growing machine according to the embodiment of the present invention. FIG.

Hereinafter, preferred embodiments of the sprout germinating plant of the present invention will be described with reference to Figs. 1 to 10 attached hereto.

FIG. 1 is a side view of a sprout germinating and growing machine according to an embodiment of the present invention. FIG. 2 is a front view of a sprout germinating and growing machine according to an embodiment of the present invention. Fig. 6 is a plan view for explaining a sprouting germination plant according to an embodiment.

As shown in these drawings, the sprout germinating and growing machine according to the embodiment of the present invention includes a case body 100, a rotating frame 200, a plurality of rotating cylinders 300, a cultivation cylinder 400, It is suggested that the cultivation cabinet 400 is rotated in a state where a part of the cultivation cabinet 400 is partially submerged in the water reservoir 500 to germinate the seeds according to the structure of the reservoir 500 and the driving units 610 and 620 Thereby improving the germination success rate and reducing the germination cost by minimizing the use of moisture.

This will be described in detail by each configuration as follows.

First, the case body 100 is a site for forming an appearance of the sprout germinating and growing apparatus according to the embodiment of the present invention.

The case body 100 is configured to provide germination space partitioned from the external environment, and to incorporate the rotary frame 200 and the rotary cylinders 300 to be described later. At this time, an opening / closing door (not shown) is provided on the front surface of the case body 100 so that the case body 100 can be selectively opened and closed. An air inlet pipe 110 and an air outlet pipe (120) so that the inflow of the outside air and the inflow of the inside air can be performed.

In addition, LED lamps 130 are further provided on both sides of the upper portion of the case body 100. The LED lamps 130 serve to compensate for the lack of sunlight in the seeds in the culture cabinet 400 do.

Next, the rotating frame 200 is a portion for rotating each rotating cylinder 300 to be described later.

As shown in FIGS. 1 and 4, the rotary frame 200 is installed vertically in a space on the rear side in the case body 100, and rotatably mounted on the center of the rotary frame 200.

At this time, the rotating frame 200 may be formed in a disk shape, and as shown in the embodiment of the present invention, a plurality of unit frames 210 may be formed to protrude toward the radial direction with respect to the rotation center It is possible.

Next, each rotary cylinder 300 is a portion for accommodating the cultivation cylinder 400 to be described later.

The rotary cylinder 300 is formed as a cylinder that opens horizontally while being horizontally laid, and is rotatably installed on the front surface of the rotary frame 200 while being provided in plural.

At this time, each of the rotary cylinders 300 is formed with a plurality of communication holes on the circumferential surface or a mesh-like structure, a lattice-like structure, or the like so that water can pass therethrough and air can pass therethrough.

Next, the cultivation cabinet 400 is provided with a bud seed to provide space for germination of the bud seed.

The culture cabinet 400 may be formed of a mesh-like cylinder having a mesh smaller than the size of the bud seed, so that the bud seed can be prevented from being unwantedly discharged, .

The cultivation cylinder 400 can be rotated together with the rotary cylinder 300 while being housed in the rotary cylinder 300 through the opened front face of the rotary cylinder 300.

That is, in the embodiment of the present invention, unlike a conventional sprout germination plant (sprout grower), the rotary cylinder 300 and the cultivation cylinder 400 are separately provided, and the cultivation cylinder 400 is provided with the rotary cylinder 300 300 so that the sprouts can be smoothly discharged by removing only the cultivation cylinder 400 when the germinated sprouts are discharged.

Particularly, in the front surface of the cultivation cylinder 400, a lid part 410 for closing the open front of each rotary cylinder 300 is provided, and the lid part 410 is formed in a filter net structure Such a structure prevents the seed seed from being discharged to the front of the cultivation cabinet 400, and also allows smooth supply of air and moisture through the front of the cultivation cabinet 400. [

Next, the water reservoir 500 is a portion where water for germination of the bud seed is stored.

Such a water reservoir 500 is formed in the bottom space of the case body 100 to have a size enough to accommodate at least a part of the rotating cylinder 300, As shown in Figs. 8 to 10. That is, by rotating the rotary frame 200, a lower end portion of each rotary cylinder 300 can be submerged in the water stored in the water reservoir 500, thereby germinating the seed of the sprout and cultivating the germinated sprout The water supplied to the water is not continuously sprayed, but it is possible to minimize the use of water by making it possible to supply only a shortage in a pre-stored state.

8, an air supply pipe 510 for supplying air is installed in the water reservoir 500, and a plurality of air outflow holes 511 are formed around the air supply pipe 510, The supply of air to the seed seeds in the cultivation cabinet 400 can be continuously performed even when the cultivation cabinet 400 is immersed in the water in the water reservoir 500. [

In addition, a heater 520 for controlling the temperature of water stored in the water reservoir 500 is further provided in the bottom space of the water reservoir 500, so that proper temperature can be maintained at all times.

In addition, in the embodiment of the present invention, the water reservoir 500 is installed to be lifted and lowered by receiving the driving force of the lifting and lowering driving unit 700 in the bottom space of the case body 100.

That is, if the reservoir 500 is fixedly installed, if the reservoir 400 in the rotary cylinder 300 is to be taken out, the front end of the reservoir 400 is blocked by the front surface of the reservoir 500, So that the water storage container 500 can be moved downward when the cultivation cabinet 400 is taken out, so that interference with the take-out of the cultivation cabinet 400 can be prevented.

2, when the cultivation cylinder 400 located on the upper side or the cultivation cylinder 400 located on both sides are configured to be discharged, the water reservoir 500 need not be constructed as a lifting structure . However, in the case of the cultivation cabinet 400 positioned on the upper side or the cultivation cabinet 400 located on both sides, the height of the cultivation cabinet 400 is higher than the height of the operator in reference to FIG. 1, It is possible to take out the cultivating cylinder 400 located at the lowest position through the lifting structure of the water reservoir 500 as in the embodiment of the present invention It is most advantageous in workability.

The elevation driving unit 700 includes an elevation guide 710 vertically installed on the bottom of the water reservoir 500 and a lifting motor 720 for providing a driving force to lift the elevation guide 710 .

The elevating guide 710 may be configured to receive the driving force of the elevating motor 720 through a ball screw method, a rack and pinion method, or a gear (for example, a bevel gear) A lift tooth 711 is formed on the surface of the elevation guide 710 and the elevation motor 720 is fixed to the pinion box 730 by a pinion installed to penetrate the elevation guide 710 (Omitted) is connected to rotate.

Next, the driving units 610 and 620 provide driving force for the respective operating parts of the sprout germinating and growing machine according to the embodiment of the present invention.

The driving units 610 and 620 include a frame driving unit 610 for providing a driving force for rotating the rotating frame 200 and a driving unit 620 for providing a driving force for rotating the rotating cylinders 300 .

6, the frame driving unit 610 includes a frame driving motor 611, a first driving shaft 612, and power transmission units 613, 614 and 615. In this case, 2 and 4, the motor 611 is fixed to one side of the rear side bottom surface of the case body 100, and the first driving shaft 612 is fixed to the rear side of the rotating frame 200 The power transmission means includes pulleys 613 and 614 provided respectively on the axes of the first drive shaft 612 and the frame drive motor 611 and a chain connecting the pulleys 613 and 614, (615). Of course, although not shown as an embodiment, the frame driving motor 611 may be directly connected to the first driving shaft 612.

7, the cylinder driving unit 620 includes a cylinder driving motor 621, a second driving shaft 622, and power transmission units 623, 624, and 625. In this case, 2 and 4, the second driving shaft 622 is fixed to the other side of the rear side bottom of the case body 100, and the second driving shaft 622 is fixed to the other side of the rotating cylinder 300 And the power transmission means 623, 624 and 625 are respectively provided with pulleys 623 and 624 provided on the shafts of the second driving shaft 622 and the cylinder driving motor 621 and the pulleys 623 and 624 And a chain 625 for connecting. Of course, the tubular driving motor 621 may be provided to be directly connected to each of the second driving shafts 622 formed in the rotary cylinders 300 while being provided in plural.

Hereinafter, the process of germinating bud seeds with the bud sprouting grower according to the embodiment of the present invention described above will be described in more detail.

First, seed seeds to be germinated are supplied to the cultivation cabinets 400, respectively. At this time, when supplying the seeds into the cultivation cabinet 400, the cultivation cabinet 400 to which the seeds are to be supplied is placed at the lowest position when viewed from the front, and the opening and closing doors of the cabinet 100 are opened, After the tubular body 400 is taken out of the rotary cylinder 300, the bud seed is supplied and then the cultivation cylinder 400 is housed in the rotary cylinder 300.

At this time, the water reservoir 500 is moved downward, thereby preventing the withdrawal and storage of the reservoir 500 by the water reservoir 500 from being interfered with.

The above process is repeatedly performed until the supply of the bud seeds is completed in all the cultivation cabinets 400.

Then, after the supply of the seed to the bud is completed, the operation of the sprout germinating and growing machine is controlled in a state in which the opening and closing door is closed so that germination operation can be performed.

When the germination operation is performed, the LED lamp 130 in the case body 100 is repeatedly turned on and off at predetermined intervals, and the operation of the elevation driving unit 700 is performed to move the water reservoir 500 upward And the frame driving unit 610 and the cylinder driving unit 620 are operated to rotate the rotary frame 200 and rotate the rotary cylinder 300 respectively.

At this time, the frame driving unit 610 may operate slowly or continuously, and may be operated so that the position of each rotary cylinder 300 is changed once every set time by the interval between the rotary cylinders 300.

Of course, it is preferable that the cylinder driving unit 620 also operate slowly so that the seed seeds in the cultivation cabinet 400 do not excessively flow. The operation time and the operation period of each of the driving units 610 and 620 at this time are determined depending on the type And is set differently depending on the external influences such as the temperature in the case body 100.

When the operation of each of the driving units 610 and 620 is performed, any rotating cylinder of each rotary cylinder 300 is positioned in the water reservoir 500, The bud seed in the cultivation cabinet 400 is immersed in the water stored in the water reservoir 500 and is continuously supplied with water.

Particularly, in the above process, the air is supplied through the air supply pipe 510 installed in the water reservoir 500, and the air thus supplied is supplied to the water reservoir 500 through the air outlet holes 511, The supply of air to the sprouted seeds immersed in the water is continued.

At the same time, the heater 520 installed in the bottom space of the water reservoir 500 keeps the water in the water reservoir 500 at a proper water temperature suitable for germination of the sprouts by repeating the on-off operation.

All of the rotary cylinders 300 are partially accommodated in the water reservoir 500 for a certain period of time so that the liquid crystal cylinder 400 in the rotary cylinder 300 is separated from the water reservoir 500 As the water is partially immersed, the amount of water required for the seed of the seed in the cultivation cabinet 400 is drastically reduced as compared with the conventional spraying method.

When the germination of the seed of the seed in the cultivation cabinet 400 and the cultivation of the seed of a certain degree are performed, the cultivation cabinet 400 is taken out of the rotary cylinder 300, Can be supplied into the cultivation cabinet (400) so that the germination process can be performed for the continuous bud seed.

The water reservoir 500 can be maintained in a downwardly moved state by controlling the operation of the elevator drive unit 700 by the operation of the lift cylinder unit 700, 400 can be prevented from being interfered with.

As a result, the sprout germination plant of the present invention can prevent the sprout seeds in each cultivation cabinet 400 from continuously supplying moisture during continuous and continuous immersion in the water in the water reservoir 500 for a certain period of time It is possible to significantly increase the germination success rate of the seed of the sprout even when the water consumption is drastically reduced as compared with the water sprinkling method.

In particular, considering that the sprout germination plant of the present invention is structured such that the water reservoir 500 is lifted and lowered, the cultivation cabinet 400 positioned at the lowest position can be taken out, It is possible to reduce the worker's fatigue by significantly reducing the force required during the operation as compared with the case of taking out the workpiece.

In addition, the sprout germination plant of the present invention is capable of germinating the sprouts under the optimal temperature condition and humidity condition without being influenced by the surrounding environment in a closed environment in the case body 100, The air can be supplied directly to the seed of the bud by bubbling, thereby further improving the germination success rate.

100. Case 110. Air inlet pipe
120. Air outlet tube 13. LED lamp
200. Rotation frame 210. Unit frame
300. Rotating cylinder 400. Culturing cylinder
410. Cover part 500. Water reservoir
510. Air supply line 511. Air discharge ball
520. Heater 610. Frame driver
611. Frame driving motor 612. First driving shaft
613,614. Pulley 615. Chain
620. Cartridge driving part 621. Cartridge driving motor
622,623. Pulleys 625. Chains
700. East elevation part 710. Elevation guide
711. Latch teeth type 720. Lifting motor
730. Pinion box

Claims (5)

A case body configured to provide a space defined by an external environment;
A rotatable frame installed in a state standing upright in a space on the rear side in the case body and rotatably mounted on a center of the case and rotated by receiving a driving force of a frame driving motor;
A plurality of rotary cylinders which are rotatably provided on the front surface of the rotary frame and are rotatably supported by a driving force of a motor for driving a cylinder, ;
A cultivating cylinder provided inside the turntable so as to be able to receive and withdraw the turntable in the opened front side and to provide a space for germination of the bud seed;
And a water reservoir installed in the lower space of the case so as to ascend and descend by driving of the lifting and lowering driving part to store water for germination of the bud seed and to sequentially lock only a part of the bottom part of each rotating cylinder by rotation of the rotating frame In addition,
The lifting /
An elevating guide vertically installed on the bottom of the water reservoir; and a lifting motor fixedly installed in the bottom space of the housing to provide a driving force to move the lifting guide upward and downward. The method according to claim 1,
Wherein a cover for closing the open front of each rotary cylinder is provided on the front surface of the cultivation cylinder,
Wherein the lid portion is formed of a filter net structure. delete The method according to claim 1,
An air supply pipe for supplying air is provided in the water reservoir,
Wherein a plurality of air outlets are formed in the periphery of the air supply pipe, respectively. The method according to claim 1,
Wherein a heater for controlling the temperature of water stored in the water reservoir is further provided in a bottom space of the water reservoir.

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