KR102613373B1 - Smart plant cultivation device - Google Patents

Abstract

The present invention relates to a smart ginseng cultivation device, and is comprised of a plurality of pillars supported on the ground and installed vertically, and a plurality of horizontal bars horizontally connected to the plurality of pillars, and formed to have a multi-stage space; A planting plate with ginseng planted is formed on the upper inner side, a space is formed inside, and it consists of both side walls and a lower plate, and the tops of both side walls are bent outward to form a stopping ledge, which is connected to the space of each layer of the main body and is multi-stage. A culture box provided with; A driving unit connected to the side wall of the multi-stage culture box and reciprocating horizontal movement by the power of a motor; A downward water supply unit connected to the driving unit and composed of a second water supply pipe installed on the upper part of the culture box of each stage and having a plurality of nozzles directed downward; a water pump connected to the second water supply pipe to supply water; It includes a light source unit formed at the lower part of the culture enclosure and irradiating light to each layer space.

Description

Smart ginseng cultivation device {Smart plant cultivation device}

The present invention relates to a smart ginseng cultivation device, and more specifically, to a smart ginseng cultivation device that adjusts the amount of light and humidity so that ginseng can be cultivated indoors.

In general, various plants (including crops) are grown by sowing seeds or planting seedlings in open fields such as rice paddies and fields, which have nutrient soil that is well permeable to moisture and oxygen, or are grown by sowing seeds or planting seedlings in soil containing nutrients necessary for plant growth. It is also cultivated by sowing seeds or planting seedlings in hydroponic land.

Recently, plant cultivation devices that allow plants to be easily grown without spatial constraints using liquid nutrient solutions regardless of soil have been in the spotlight.

Hydroponic cultivation of plants is a method of cultivating plants by producing a nutrient solution containing all essential nutrients for plant growth and supplying it to the growth organs through a hydroponic cultivation device to be absorbed into the growth organs.

The purpose of hydroponic cultivation is to harvest large quantities of clean vegetables or special crops in a relatively short period of time without using pesticides harmful to the human body.

A variety of hydroponic cultivation devices have been researched and developed, and domestic patent publications such as Publication No. 10-2003-0070208 and Registered Patent No. 10-0470453 are disclosed.

However, until now, research and development of nutrient solution for hydroponic ginseng cultivation has been very sluggish.

Ginseng is a perennial plant in the Araliaceae family, so named because its root shape resembles the shape of a human. It is a food ingredient with a sweet, slightly bitter, and warm nature, and is an herbal medicine belonging to the herb plant.

Ginseng has been proven to have excellent medicinal effects, such as restoring vitality, treating physical weakness, boredom, fatigue, loss of appetite, vomiting, and antidiarrheal, and helping lung function and improving renal function. Pharmacological effects such as immune enhancement, kidney contraction, gonadal stimulation, hyperglycemia suppression, protein synthesis promotion, homeostasis maintenance, anticancer, and detoxification have been identified.

However, ginseng has difficult growing conditions, and excessive use of pesticides has become common during the cultivation process. In general, in the case of open field cultivation, the entire growth period from seedling to main field takes a long period of 4 to 6 years, and there are obstacles to repeated cultivation, so it is difficult to use the same field soil. There is a problem that it cannot be serialized in .

For this reason, soil culture, which involves filling pots with a mixture of sorghum soil, humus soil, and charcoal powder in a certain ratio and transplanting ginseng seedlings, has been researched and developed, and pesticide-free cultivation methods have also been devised.

In addition, the plant cultivation device that allows plants to be easily grown without spatial constraints using liquid nutrient solution regardless of the soil mentioned above is manufactured with a fixed water and nutrient solution supply section to supply an appropriate amount of water and nutrient solution to the culture box. There are limits to uniform supply, and there is a problem that water and nutrient solution supply units must be installed in large quantities and densely.

Republic of Korea Patent No. 10-0960947

The present invention was developed to solve the problems of the prior art. It supplies an appropriate amount of water and nutrient solution uniformly and efficiently to the culture box to enable indoor cultivation of ginseng, and maintains humidity at all times to optimize growth. The purpose is to provide a smart ginseng cultivation device that allows cultivation in .

The object of the present invention described above is a main body formed to have a multi-stage space, consisting of a plurality of pillars supported on the ground and installed vertically, and a plurality of horizontal bars horizontally connected to the plurality of pillars; A planting plate with ginseng planted is formed on the upper inner side, a space is formed inside, and it consists of both side walls and a lower plate, and the tops of both side walls are bent outward to form a stopping ledge, which is connected to the space of each layer of the main body and is multi-stage. A culture box provided with; A driving unit connected to the side wall of the multi-stage culture box and reciprocating horizontal movement by the power of a motor; A downward water supply unit connected to the driving unit and composed of a second water supply pipe installed on the upper part of the culture box of each stage and having a plurality of nozzles directed downward; a water pump connected to the second water supply pipe to supply water; It can be achieved by a smart ginseng cultivation device that includes a light source unit formed on the lower part of the upper plate of the main body or the lower part of the culture box and irradiates light to each layer space.

The driving unit is one or two. In the case of one driving unit, it starts from one side of the side wall of the culture box and moves horizontally along the side to the end, and in the case of two driving parts, the amount of the side wall of the culture box It starts from the end and moves back and forth in the horizontal direction along the side to the center of the side wall of the culture box, and is characterized by including a detection sensor formed at the center of the side wall of the culture box to detect the approach of both driving units.

The driving unit includes a rail portion formed on the side wall of the culture enclosure, a chain mounted longitudinally on the upper surface of the rail portion, a motor in which a pinion gear geared to the chain is mounted on the motor shaft, and the motor is attached. , It is composed of a main frame disposed in a vertical direction on the side of the main body, and is characterized in that the main frame is moved in the horizontal direction along the side of the culture box.

The rail portion is characterized in that a rail groove is formed in the longitudinal direction on the side, is axially coupled to the inner wall of the main frame, and includes a roller inserted into the rail groove.

A first upward water supply unit is connected to the driving unit and is installed on the inner bottom of the culture box of each stage and consists of a first water supply pipe having a plurality of nozzles facing upward.

The first upward water supply unit is attached to the inner surface of the main frame, includes a first bracket connected to the inner side of the culture box, is mounted on a lower part of the first bracket and is horizontally disposed on the inner bottom of the culture box, and faces upward. It includes a first water supply pipe with a plurality of nozzles formed toward it, wherein a wheel is rotatably formed at one end of the first water supply pipe, and the wheel is supported on the bottom of the culture box and rolls to support the first water supply pipe to move horizontally. It is characterized in that a water pump is connected to the other end.

A water supply pipe embedded in the inner bottom surface of the culture box and a second upward water supply portion connected to the water supply pipe and formed on the inner bottom surface and consisting of a plurality of nozzles facing upward. do.

The downward water supply unit includes a second bracket attached to the inner surface of the main frame, and a second water supply pipe with one end connected to the second bracket, disposed horizontally in the lower part of the culture box, and having a plurality of nozzles directed downward. It is characterized by

A sensing unit formed in a space inside the main body and consisting of a temperature sensor and a humidity sensor that detects internal humidity and temperature; A control unit connected to the sensing unit and the driving unit, controls the operation of the water pump based on temperature and humidity, and controls the operation of the driving unit.

The control unit includes a switch box formed on the upper side wall of the culture box, a lighting switch formed on the outer surface of the switch box to control the on-off of the light source unit, and a pump switch to control the on-off of the water pump. It is characterized by

The planting plate is bent at one end to be detachably coupled to the inner wall of the culture box to form a removable part, and the removable part is attached to both ends of the inner wall of the culture box by magnetic attachment or bolt fastening so as not to interfere with the first bracket. It is characterized by

According to the present invention, an appropriate amount of water and nutrient solution can be uniformly and efficiently supplied to the medium to enable indoor cultivation of ginseng, and humidity can be maintained at all times to optimize growth, thereby making indoor cultivation possible.

1 is a perspective view of a smart ginseng cultivation device according to the present invention,
Figure 2 is a front view of the smart ginseng cultivation device according to the present invention,
Figure 3 is a left side view of the smart ginseng cultivation device according to the present invention,
Figure 4 is an enlarged view of the 'driving part' in the smart ginseng cultivation device according to the present invention;
Figure 5 is a diagram showing the 'culture box and first upward water supply unit' in a smart ginseng cultivation device according to an embodiment;
Figure 6 is a diagram showing the 'culture box and second upward water supply unit' in a smart ginseng cultivation device according to another embodiment.

Hereinafter, the preferred embodiment will be described in detail based on the attached drawings.

The examples to be described below are intended to explain the invention in detail so that a person skilled in the art can easily carry out the invention, and this does not limit the technical idea and scope of the present invention. doesn't mean

In addition, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. It should be noted that definitions of these terms must be made based on the content throughout this specification.

Among the attached drawings, Figure 1 is a perspective view of the smart ginseng cultivation device according to the present invention, Figure 2 is a front view of the smart ginseng cultivation device according to the present invention, and Figure 3 is a left view of the smart ginseng cultivation device according to the present invention. Shave, Figure 4 is an enlarged view of the 'driving part' in the smart ginseng cultivation device according to the present invention, Figure 5 is a view showing the 'culture box and first upward water supply section' in the smart ginseng cultivation device according to an embodiment, Figure 6 is a diagram showing the ‘culture box and second upward water supply unit’ in a smart ginseng cultivation device according to another embodiment.

As shown in Figures 1 to 6, the smart ginseng cultivation device according to the present invention includes a main body 100, a culture box 200, a driving unit 300, a downward water supply unit 400, a water pump (M), and Includes a light source unit (L).

The main body 100 is composed of a plurality of pillars supported on the ground and installed vertically, and a plurality of horizontal bars horizontally connected to the plurality of pillars, and is formed to have a multi-stage space.

The upper part of the main body 100 is provided with a chain (C) mounted on the top of the main frame 360 so that the flexible water supply pipe (P) can be bound and moved in the horizontal direction.

Referring to FIG. 3, the culture box 200 has a planting plate 220 on which ginseng is planted at the inner upper part, a space is formed inside, and the culture box 200 is made of both side walls and a lower plate, and the tops of both side walls are bent outward. A locking protrusion 210 is formed and coupled to each layer space of the main body 100 and is provided in multiple stages.

Referring to FIG. 4, the driving unit 300 is connected to the side wall of the multi-stage culture box 200, and is driven to reciprocate horizontal movement by the power of the motor 330.

There may be one or two driving units 300.

In the case where there is only one driving unit 300, it starts from one side of the side wall of the culture enclosure 200 and moves back and forth in the horizontal direction along the side to the end.

When there are two driving units 300, they are installed at both ends of the side wall of the culture box 200, respectively.

A process in which each driving unit 300 at both ends installed in this way moves horizontally toward the center, approaches each other approximately at the center of the side wall of the culture box 200, and then is spaced apart again to move to both ends of the side wall of the culture box 200. It can be configured to repeat.

Preferably, a detection sensor (not shown) that detects the proximity of both driving units 300 is formed in the central portion of the side wall of the culture box 200.

The above-described driving unit 300 includes a rail portion 310 formed on the side wall of the culture enclosure 200, a chain 320 mounted longitudinally on the upper surface of the rail portion 310, and the chain 320. It consists of a motor 330 on which a pinion gear 332 that is gear-coupled is mounted on the motor shaft, and a main frame 360 to which the motor 330 is attached and disposed in a vertical direction on the side of the main body 100. And, the main frame 360 is moved in the horizontal direction along the side of the culture box 200.

The rail portion 310 has a rail groove 312 formed in the longitudinal direction on the side, is axially coupled to the inner wall of the main frame 360, and includes a roller 314 inserted into the rail groove 312.

Therefore, when the motor 330 is turned on, the pinion gear 332 rotates, and the main frame 360 moves laterally along the chain 320.

In addition, the roller 314 travels in the horizontal direction along the rail groove 312, thereby supporting the lateral movement of the main frame 360.

Referring to FIG. 5, the downward water supply unit 400 is connected to the driving unit 300, and is installed on the upper part of the culture box 200 of each stage and is formed with a plurality of nozzles 422 facing downward. 420).

The downward water supply unit 400 is connected to a second bracket 440 attached to the inner surface of the main frame 360, and one end is connected to the second bracket 440 and is disposed horizontally at the lower part of the culture box 200. It includes a second water supply pipe 420 in which a plurality of nozzles 422 are formed downward.

The water pump (M) is connected to the second water supply pipe 420 to supply water. In addition, it can be connected to the first water supply pipe 510, which will be described later, to supply water.

The light source unit (L) is formed in the lower part of the upper plate of the main body 100 and irradiates light to the culture box 200 placed in the uppermost space.

In addition, each of the culture boxes 200 arranged on each floor has a light source unit (L) formed at the bottom to irradiate light to the space of each floor below.

Of course, it is preferable that there is no light source unit (L) at the bottom of the lowest layer culture box 200.

The light source unit (L) may be an LED that generates light of various wavelengths. Of course, it does not need to be limited to LED, and it is natural that various light sources that provide beneficial rays for growth can be applied.

Therefore, the light emitted from the light source is used for plant photosynthesis, and crops such as ginseng can be grown indoors by supplying water and nutrients and maintaining appropriate humidity.

Meanwhile, referring to FIG. 5, the first water supply pipe 510 is connected to the driving unit 300 and is installed on the inner floor of the culture box 200 of each stage and has a plurality of nozzles 511 facing upward. It may include 1 upward water supply unit 500.

The first upward water supply unit 500 is attached to the inner surface of the main frame 360, and is mounted on a first bracket 520 connected to the inner side of the culture box 200 and a lower part of the first bracket 520. It is disposed horizontally on the inner bottom of the culture box 200 and includes a first water supply pipe 510 in which a plurality of nozzles 522 are formed upward.

The first water supply pipe 510 has a wheel 514 rotatably formed at one end, and the wheel 514 is supported on the bottom of the culture box 200 and rolls so that the first water supply pipe 510 moves horizontally. I will support it.

Meanwhile, referring to Figure 6, according to another embodiment, there is a water supply pipe 620 formed by being embedded in the inner bottom surface of the culture box 200 and a plurality of water supply pipes 620 connected to the water supply pipe 620 and formed on the inner bottom surface. , a second upward water supply unit 600 consisting of a plurality of nozzles 630 facing upward.

Therefore, the second upward water supply unit 600 is turned on and off for a certain time or under certain conditions under the control of the control unit on the inner bottom of the culture box 200.

Meanwhile, a sensing unit (not shown) may be provided inside the main body 100, which is installed at a predetermined location in space and consists of a temperature sensor and a humidity sensor that detects internal humidity and temperature.

It also includes a control unit that is connected to the sensing unit and the driving unit 300 and controls the operation of the water pump (M) based on temperature and humidity and controls the operation of the driving unit 300.

Referring to Figure 6, the control unit includes a switch box 50 formed on the upper side wall of the culture enclosure 200, and a lighting switch formed on the outer surface of the switch box 50 to control the on-off of the light source unit (L). (52) and a pump switch (54) that controls on-off of the water pump (M).

Meanwhile, referring to FIG. 4, the planting plate 220 is bent at one end to be detachably coupled to the inner wall of the culture box 200 to form a detachable part 221, and the detachable part 221 is attached to the culture box 200. ) is attached to both ends of the inner wall by self-attachment or bolt fastening so that it does not interfere with the first bracket 520.

Therefore, the light emitted from the light source unit (L) is used for plant photosynthesis, and crops such as ginseng can be grown indoors by supplying water and nutrients and maintaining appropriate humidity.

Although the description has been made in relation to preferred embodiments, it will be readily apparent to those skilled in the art that various modifications and variations can be made without departing from the gist and scope of the invention, and all such changes and modifications fall within the scope of the appended claims. is self-explanatory.

100: main body 200: culture enclosure
210: Hook 220: Planting board
300: driving part 310: rail part
312: Rail groove 314: Roller
320: Chain 330: Motor
360: main frame 400: downward water supply part
420: Second water supply pipe 440: Second bracket
422,522: Nozzle M: Water pump
L: Light source part

Claims (8)

A main body composed of a plurality of pillars supported on the ground and installed vertically, and a plurality of horizontal bars horizontally connected to the plurality of pillars to have a multi-stage space;
A planting plate with ginseng planted is formed on the upper inner side, a space is formed inside, and it consists of both side walls and a lower plate, and the tops of both side walls are bent outward to form a stopping ledge, which is connected to the space of each layer of the main body and is multi-stage. A culture box provided with;
A driving unit connected to the side wall of the multi-stage culture box and reciprocating horizontal movement by the power of a motor;
A downward water supply unit connected to the driving unit and composed of a second water supply pipe installed on the upper part of the culture box of each stage and having a plurality of nozzles directed downward;
a water pump connected to the second water supply pipe to supply water;
It includes a light source unit formed on the lower part of the upper plate of the main body or the lower part of the culture box to irradiate light to each layer space,
The driving unit is one or two,
In the case where there is only one driving unit, it starts from one side of the side wall of the culture box and moves horizontally along the side to the end,
In the case where there are two driving units, each starts from both ends of the side wall of the culture box and moves back and forth in the horizontal direction along the side to the center of the side wall of the culture box,
It includes a detection sensor formed at the center of the side wall of the culture box to detect the approach of both driving units,
The driving unit,
A rail portion formed on the side wall of the culture enclosure,
A motor including a chain mounted longitudinally on the upper surface of the rail portion and a pinion gear geared to the chain mounted on the motor shaft;
The motor is attached and consists of a main frame disposed in a vertical direction on the side of the main body,
The main frame is moved in the horizontal direction along the side of the culture box,
The rail portion has a rail groove formed in the longitudinal direction on the side, is axially coupled to the inner wall of the main frame, and includes a roller inserted into the rail groove,
A first upward water supply unit is connected to the driving unit and is installed on the inner floor of the culture box of each stage and consists of a first water supply pipe having a plurality of nozzles facing upward;
The first upward water supply unit
A first bracket is attached to the inner surface of the main frame and connected to the inner side of the culture box, and is mounted on a lower part of the first bracket and disposed horizontally on the inner bottom of the culture box, and a plurality of nozzles are formed toward the top. Includes a first water supply pipe,
The first water supply pipe has a wheel rotatably formed at one end, the wheel is supported on the bottom of the culture box and rolls to support the first water supply pipe to move horizontally, and a water pump is connected to the other end,
It includes a water supply pipe embedded in the inner bottom surface of the culture box, and a second upward water supply portion connected to the water supply pipe and formed on the inner bottom surface, and consisting of a plurality of nozzles facing upward,
The downward water supply part
A second bracket attached to the inner surface of the main frame, one end connected to the second bracket, a second water supply pipe disposed horizontally in the lower part of the culture box and having a plurality of nozzles directed downward. Smart ginseng cultivation device. delete delete delete delete delete delete According to clause 1,
A sensing unit formed in a space inside the main body and consisting of a temperature sensor and a humidity sensor that detects internal humidity and temperature;
A control unit connected to the sensing unit and the driving unit and controlling the operation of the water pump based on temperature and humidity, and controlling the operation of the driving unit;
A smart ginseng cultivation device comprising: