KR102608400B1 - Sprout cultivating method using sprout cultivating apparatus - Google Patents

Abstract

The present invention includes a case having a cultivation space that is blocked from the outside when a door is closed on the front, one or more cultivation plates disposed in the cultivation space of the case, and a spray unit that sprays culture water into the cultivation plates, and the cultivation The plate includes a plurality of support rods 110 formed in a rod shape and arranged in parallel, a support wire 130 that penetrates the support rod 110 and rotatably supports the support rod 110, and the support wire 130. It provides a sprout cultivation device including a direction changing unit 310 that is connected and rotates the support wire 130, and a frame 210 disposed around a plurality of support rods 110.

Description

Sprout cultivation method using a sprout cultivation device {SPROUT CULTIVATING METHOD USING SPROUT CULTIVATING APPARATUS}

The present invention relates to a sprout cultivation method using a sprout cultivation device that can automatically grow seeds into sprouts regardless of the size of the seed.

The desire for ordinary households to grow and eat vegetables necessary for their diet is increasing. Generally, in order to grow vegetables, you must secure the land necessary for cultivation and labor is required to grow vegetables.

Bean sprouts are made by sprouting mung beans, which host soybeans, to grow roots. The stems and roots of bean sprouts are rich in dietary fiber, and the nutrients in the host are dozens of times higher than those eaten with mung beans.

Peanut sprouts are known to be rich in 1,093 mg of aspartic acid per 100 g and the essential amino acids histidine, tryptophan, methionine, and GABA. In particular, the resveratrol component, which is barely contained in peanut seeds, increases about 600 times or more when the seeds germinate and grow into sprouts. Resveratrol is a polyphenol-based substance that exhibits anti-cancer, anti-viral, anti-aging, and anti-inflammatory effects.

In order to grow peanut sprouts in this way, the method used is to place peanut seeds in a tray or pot, cover them with cloth, maintain a dark environment, and water them 4 to 6 times a day to grow them as vegetables.

KR 10-2017-0054903 A

The purpose of the present invention is to provide a sprout cultivation method using a sprout cultivation device that can automatically grow seeds into sprouts regardless of the size of the seed.

In order to achieve the above object, the present invention

A case having a cultivation space that is blocked from the outside when the front door is closed, one or more cultivation plates disposed in the cultivation space of the case, and a spray unit for spraying culture water into the cultivation plates, the cultivation plate having a rod, A sprout using a sprout cultivation device that includes a plurality of support rods formed in a shape and arranged in parallel, a support wire that penetrates the support rod and supports the support rod to rotate, and a direction change part to which the support wire is connected and rotates the support wire. In the cultivation method,

Step of adjusting the angle of the support rod of the cultivation plate according to the size of the seed to be grown (S11), placing the seed on the cultivation plate (S12), stacking one or more of the cultivation plates horizontally in the cultivation space Step (S13), spraying culture water on the cultivation plate through the spray unit (S14), taking the cultivation plate out of the case when the seeds germinate and the sprouts grow to a set length (S17), And it provides a sprout cultivation method using a sprout cultivation device, including a step (S18) of collecting the sprouts after adjusting the angle of the support bars so that the support bars are spaced apart.

The support rods 110 are formed in an elliptical cross-section, and a plurality of them are arranged in parallel at a set interval. As the support wire 130 rotates, the plurality of support rods 110 rotate at the same angle to connect adjacent support rods ( 110) is characterized by a change in the distance between them.

The sprout cultivation device further includes a camera for photographing the cultivation plate inside the case,

After performing step S14, the method further includes the step of monitoring the seed germination and sprout growth by monitoring the cultivation plate with the camera.

According to the embodiment of the present invention configured as described above, it is possible to provide a sprout cultivation device that can automatically grow seeds into sprouts regardless of the size of the seeds.

Figure 1 is a block diagram showing the configuration of a sprout cultivation device according to an embodiment of the present invention.
Figure 2 is a diagram schematically showing a sprout cultivation device according to an embodiment of the present invention.
Figure 3 is a diagram showing the head portion of the sprout cultivation device according to an embodiment of the present invention.
Figures 4 and 5 are diagrams showing the cultivation plate of the sprout cultivation device of Figure 2.
Figure 6 is a flow chart showing a sprout cultivation method using a sprout cultivation device according to an embodiment of the present invention.
Figure 7 is a photograph showing peanut sprouts grown according to an embodiment of the present invention.

Since the present invention can be modified in various ways and can have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Hereinafter, a sprout cultivation device according to an embodiment of the present invention will be described with reference to the drawings.

Figure 1 is a block diagram showing the configuration of a sprout cultivation device according to an embodiment of the present invention, Figure 2 is a diagram schematically showing a sprout cultivation device according to an embodiment of the present invention, and Figure 3 is a diagram showing the configuration of a sprout cultivation device according to an embodiment of the present invention. This is a diagram showing the head part of the sprout cultivation device.

As shown, the sprout cultivation device according to an embodiment of the present invention, as shown in FIG. 1, has a case 2000 having a certain cultivation space that is blocked from the outside when the front door 2200 is closed, and one inside the case. A cultivation plate 100 arranged above, a spray unit 1200 that sprays culture water at a set temperature to the cultivation plate 100, a water tank 2110 that supplies water to a spray nozzle, and a water tank 2110 that supplies water to the water tank 2110. A solenoid valve 1300 that adjusts the amount of water, a drying fan 1500 that generates hot air when drying the inside of the case 2000, a circulation fan 1400 to circulate the air inside the case 2000, and internal cultivation. It may include a camera 1120 for photographing crops, a temperature sensor 1110 for measuring the internal temperature, a wireless communication unit 1130 such as Wi-Fi or Bluetooth for internal status using a user terminal, and a control unit 1100 for controlling them. . The control unit 1100 may receive information about the internal state of the cultivation device through the temperature sensor 1110 and the camera 1120 and transmit it to the user terminal through the communication unit 1130. The control unit 1100 controls the spray unit 1200, solenoid valve 1300, drying fan 1500, and circulation fan 1400 based on user commands and information transmitted from the temperature sensor and camera to maintain an appropriate temperature inside the case. While maintaining the condition, an appropriate amount of culture water is supplied to the seeds on the cultivation plate 100.

The case 2000 is formed in the form of a cabinet, with a door 2200 disposed on the front, and a spray nozzle 2120 of the spray unit 1200 in the head unit 2100, a communication unit 1130, a solenoid valve 1300, A camera 1120, a control unit 1100, etc. may be disposed. A plurality of cultivation plates 100 may be stacked in the cultivation space of the case 2000. The bottom portion 2400 of the case 2000 is inclined to allow water to flow to the back, and allows water falling from the cultivation plate 100 to be discharged through a strainer and into a drain. The door 2200 is preferably formed so that water flows in when opened. A heater 1600 consisting of a heating wire is disposed on the side plate 2300 and the bottom portion 2400 of the case 2000, excluding the door 2200. An openable air circulation port is installed on one side of the case (2000) to allow internal air to circulate to the outside.

Figures 4 and 5 are diagrams showing the cultivation plate 100 of the sprout cultivation device of Figure 2.

The seed cultivation plate 100 is formed in a rod shape with an oval cross-section and includes a plurality of support bars 110 arranged in parallel, a support wire 130 passing through the support bars 110 and supporting the support bars 110 to rotate. , a direction change part 310 to which the support wire 130 is connected and which rotates the support wire 130, and a frame 210 disposed around the plurality of support rods 110.

The support rod 110 is preferably formed in a rod shape made of polymer or silicon and having an oval cross-section. A plurality of support bars 110 are arranged in parallel at a set interval, and the plurality of support bars 110 rotate at the same angle according to the rotation of the support wire 130, so that the distance between adjacent support bars 110 is changes. The sprout cultivation plate 100 according to the embodiment of FIG. 4 shows a state in which the long axis of the support bar 110 is horizontal, and the sprout cultivation plate 100 according to the embodiment of FIG. 5 shows a state in which the long axis of the support bar 110 is vertical. Indicates status. When the long axis of the support bar 110 is horizontal, the distance to the adjacent support bar 110 is minimum, and when the long axis of the support bar 110 is vertical, the distance to the adjacent support bar 110 is maximum. do. Depending on the size of the minimum seed to be grown and the size of the maximum seed, the distance between adjacent support rods 110 can be set by rotating the support rod 110, which has an oval cross-section.

The support wire 130 includes a penetration part 131 that penetrates the support rod 110, a connection part 132 vertically connected to one end of the connection part, and a rotation angle of the support wire 130 that is vertically connected to the connection part 132. It includes an operating unit 132 that adjusts. The support wire 130 is preferably formed of a metal wire of a set thickness. It is desirable that the penetrating portion 131 be formed to have a preset length longer than the length of the support bar 110 so that it is supported by the frame 210, which will be described later.

The direction changing unit 310 may be formed in the shape of a panel through which one end of the operating unit 133 of the plurality of support wires 130 penetrates each at a set interval. As the direction change unit 310 moves, the plurality of support wires 130 rotate at the same angle.

A plurality of cultivation plates 100 configured as above are stacked in parallel in the cultivation space within the case 2000 with the support rods 110 facing toward the head portion 2100.

The sprout cultivation device according to the embodiment of the present invention configured as described above adjusts the distance between the support bars by rotating the support bars of the cultivation plate according to the size of the seed, places the seeds between the support bars with the adjusted distance, and then places them inside the case. After stacking the cultivation plates horizontally at a set distance apart in the cultivation space, a set amount of water is sprayed at a set time period through the spray unit 1200, and the temperature inside the case 2000 is maintained at the set temperature through a heater. Seeds can be easily germinated and grown as sprouts.

Figure 6 is a flow chart showing a sprout cultivation method using a sprout cultivation device according to an embodiment of the present invention.

As shown, adjusting the angle of the support bar 110 of the cultivation plate 100 according to the size of the seed to be grown (S11), placing the seed on the cultivation plate 100 (S12), Step (S13) of horizontally stacking one or more of the cultivation plates 100 in the cultivation space, spraying culture water on the cultivation plates through the spray unit 1200 or controlling the temperature inside the case to a set temperature. (S14), a step of monitoring the cultivation plate 100 using a camera (S15). As a result of monitoring using the camera, when the seed germinates and the sprout grows to a set length (S16), the cultivation plate 100 is It includes a step of carrying out the case 2000 to the outside (S17), and a step of collecting the sprouts after adjusting the angle of the support rods 110 so that the support rods 110 are spaced apart (S18).

When grown using the sprout cultivation method described above, both small seeds of about 1 mm, such as broccoli seeds, and seeds of about 2 cm in size can be easily grown with one cultivation device.

When grown using the sprout cultivation method described above, as shown in FIG. 7, when growing sprouts whose roots are easily entangled, such as peanut seeds with high saponin content in the roots, the roots of neighboring sprouts are entangled and damaged during collection. It can be prevented.

Claims (3)

A case having a cultivation space that is blocked from the outside when the front door is closed, one or more cultivation plates disposed in the cultivation space of the case, and a spray unit for spraying culture water into the cultivation plates, the cultivation plate having a rod, A sprout using a sprout cultivation device that includes a plurality of support rods formed in a shape and arranged in parallel, a support wire that penetrates the support rod and supports the support rod to rotate, and a direction change part to which the support wire is connected and rotates the support wire. In the cultivation method,
Adjusting the angle of the support rod of the cultivation plate according to the size of the seed to be grown (S11);
Placing the seeds on the cultivation plate (S12);
stacking one or more of the cultivation plates horizontally in the cultivation space (S13);
Spraying culture water on the cultivation plate through the spray unit (S14);
When the seeds germinate and the sprouts grow to a set length, taking the cultivation plate out of the case (S17); and
Comprising the step of collecting the sprouts after adjusting the angle of the support bars so that the support bars are spaced apart (S18),
The support rods have an oval cross-section, are arranged in parallel at a set interval, and as the support wire rotates, the plurality of support rods rotate at the same angle, and the distance between adjacent support rods changes. How to grow sprouts using a sprout growing device.
delete According to claim 1,
The sprout cultivation device further includes a camera for photographing the cultivation plate inside the case,
A sprout cultivation method using a sprout cultivation device, characterized in that it further comprises the step of monitoring seed germination and sprout growth by monitoring the cultivation plate with the camera after performing step S14.

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