KR20220036686A - System for plant cultivation - Google Patents

Abstract

The present invention relates to a plant cultivation system which comprises: a cultivation port for cultivating plants on outer circumferential surface thereof; and a port tower in which a plurality of stages having a hollow structure are vertically stacked. Therefore, a lot of plants can be economically grown even in a small area. In addition, an ultrasonic vibrating body part is used to supply a vaporized nutrient solution to the port tower, thereby achieving a high cultivation rate with a small amount of nutrient solution, as well as preventing noise generation due to the use of a conventional pump, and having the advantage of facilitating movement.

Description

Plant cultivation system {System for plant cultivation}

The present invention is a plant cultivation system.

In general, a hydroponics method that can promote mass production of agricultural products through four seasons cultivation, pollution-free cultivation, and freshness maintenance in order to respond to the trend of consumption in all four seasons regardless of the production period (season) of agricultural products and the decrease of agricultural land due to industrial development. This is currently spreading.

The hydroponic cultivation method of agricultural products does not use soil and only uses water in which various necessary nutrients are dissolved. The cultivation plate is formed by molding an absorbent material such as general hard synthetic resin or grass wool into a plate shape. can

Therefore, by using a separate support frame, the cultivation plate is fixedly installed on the upper side of the ground, at a predetermined height, and after planting the plant on the cultivation plate, by supplying a nutrient solution to the lower side of the cultivation plate, plants can be grown hydroponically. As can be, the existing hydroponic cultivation device used for such hydroponic cultivation supplies nutrients through a nutrient solution supply pipe on a substrate of a certain standard where plants are actually accommodated and cultivated and equipped with a drainage means to flow slowly in a filled state. On top of that, the planting plate on which the crop is transplanted is placed adjacent to it through a planting hole so that the roots of the crop can be impregnated with the nutrient solution to absorb nutrients.

The conventional hydroponics apparatus has a problem in that the roots of crops are supplied with nutrients while being constantly immersed in a nutrient solution, which inhibits the respiration of the roots and causes the root parts to rot, resulting in extremely poor growth of crops.

In addition, the flow of the nutrient solution is very gentle and the space between the surface of the nutrient solution and the cultivation plate is very narrow, so ventilation is poor. Because the activity conditions of germs are good, the roots of crops are prone to necrosis or disease, and to prevent this, temperature control work such as installation of a separate heat exchanger is required. Rather, the facility structure is complicated and bloated, making it difficult to manage.

Furthermore, the conventional hydroponics system requires a large power device for the circulation of the nutrient solution, and a lot of time and manpower is consumed in the management of the nutrient solution such as disinfection, heating, filtration, and cooling of the nutrient solution, thereby increasing the maintenance cost and lowering the work efficiency There was a problem with making

Republic of Korea Patent Publication No. 10-1386665

Accordingly, it is an object of the present invention to provide a plant cultivation system capable of economically cultivating a large amount of plants even in a small area and cultivating plants with high efficiency while using a small amount of culture medium for cultivating plants.

As a means for solving the above problems,

The present invention is one embodiment,

A port tower in which a plurality of stages having a hollow are stacked in a vertical direction;

a nutrient solution supply pipe that is fluidly connected to the lower portion of the port tower and supplies the vaporized nutrient solution;

a nutrient solution reservoir in fluid connection with the nutrient solution supply pipe and storing the nutrient solution; and

It includes an ultrasonic vibrating body part provided in the nutrient solution reservoir,

The plurality of stages provides a plant cultivation system, characterized in that it has a cultivation port formed to be inclined upwardly so that the plant is provided on the outer circumferential surface.

Here, 2 to 6 of the cultivation ports are provided on each stage, and may be spaced apart from each other at different heights on the outer circumferential surface of each stage.

In addition, the respective stages may be stacked so that the cultivation spheres provided on the outer circumferential surface are not located on the same line as the cultivation spheres of the adjacent stages.

In addition, the cultivation sphere further includes a port sphere provided to be horizontal with the port tower at the end so that the plant can grow vertically, and the port sphere may have a structure in which the inside is filled with a three-dimensional mesh structure composed of a hygroscopic material. .

The port sphere may further include a stem fixing part on the outer peripheral surface to fix the vertically grown plants.

Furthermore, the nutrient solution supply pipe may be connected to the lower portion of the port tower to have an inclination angle of 5 to 30° with respect to the nutrient solution reservoir.

On the other hand, the port tower may include irregularities on the inner wall.

Furthermore, the plant cultivation system may further include a lighting device that is spaced apart from the port tower and irradiates light to the plants provided in the cultivation area,

The port tower may further include a rotating part for rotating the port tower in the lower portion. 2 to 4 of the port towers are fluidly connected to the nutrient solution reservoir through a nutrient solution supply pipe to constitute a module.

The plant cultivation system according to the present invention is provided with a cultivation port capable of cultivating plants on the outer circumferential surface, and includes a port tower in which a plurality of stages having a hollow structure are stacked in a vertical direction to economically grow a large amount of plants even in a small area By supplying the vaporized nutrient solution to the port tower using the ultrasonic vibrating body part, a high cultivation rate can be achieved with a small amount of nutrient solution, and noise generation due to the use of a conventional pump, etc. can be prevented, , which has the advantage of being easy to move.

The above effects and additional effects will be described in detail below.

1 is a perspective view showing a plant cultivation system according to the present invention.
2 is a perspective view showing a modular plant cultivation system according to the present invention.
3 is a cross-sectional view showing the structure of a plant cultivation system according to the present invention.
Figure 4 is a cross-sectional view illustrating the form of a seed package mounted on the port and the port provided in the plant cultivation system.
5 is a cross-sectional view illustrating the internal structure of the port and port provided in the plant cultivation system.

Prior to describing the present invention in detail below, it is to be understood that the terminology used herein is for the purpose of describing specific embodiments and is not intended to limit the scope of the present invention, which is limited only by the appended claims. shall. All technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art, unless otherwise stated.

In the present invention, the use of “or” or “and” means “and/or” unless otherwise indicated. Moreover, the use of the term “accompanying” as well as other forms such as “accompanying” and “accompanying” is not limiting. Section headings used in the present invention are for organizational purposes only and should not be construed as limiting the subject matter described.

Throughout this specification and claims, unless stated otherwise, the term comprise, comprises, comprising is meant to include the stated object, step or group of objects, and steps, and any other object. It is not used in the sense of excluding a step or a group of objects or groups of steps.

Hereinafter, the present invention will be described in more detail.

The present invention in one embodiment,

A port tower in which a plurality of stages having a hollow are stacked in a vertical direction;

a nutrient solution supply pipe that is fluidly connected to the lower portion of the port tower and supplies the vaporized nutrient solution;

a nutrient solution reservoir in fluid connection with the nutrient solution supply pipe and storing the nutrient solution; and

It includes an ultrasonic vibrating body part provided in the nutrient solution reservoir,

The plurality of stages provides a plant cultivation system, characterized in that it has a cultivation port formed to be inclined upwardly so that the plant is provided on the outer circumferential surface.

1 is a structural diagram showing a plant cultivation system according to the present invention.

1, the plant cultivation system according to the present invention includes a port tower 100 in which a plurality of stages 110 to 130 having a hollow are stacked in a vertical direction to form one tower, and the port tower 100 ) and a nutrient solution supply pipe 200 for supplying the nutrient solution; The nutrient solution is stored and includes a nutrient solution reservoir 300 connected to the nutrient solution supply pipe 200 .

At this time, the plurality of stages 110 to 130 may have an average height of 1 to 1.5 m, and to have a hollow and inclined upwardly formed cultivation port 111 so that plants are provided on the outer circumferential surface. The cultivation ports 111 are provided at each stage 110-130 by 2-6 pieces, and may be spaced apart from each other at different heights on the outer circumferential surface of each stage 110-130, and the level of the stages 110-130 is horizontal. They may also be spaced apart from each other in the circumferential direction. Specifically, the cultivation port 111 may be inclinedly branched to form an angle of 30 to 60° upward on the outer peripheral surface of the stages 110 to 130, and 2 to 5 in each stage 110 to 130, preferably 3 to 5 may be provided. As an example, the cultivation port 111 is inclined at 45° to each stage 110 to 130 and faces upward by 90±5° in the horizontal circumferential direction of the stages 110 to 130 at four different positions. It may be provided at an angle of In this case, since the cultivation port 111 can secure the maximum separation distance between plants planted horizontally and diagonally in each cultivation area 111, even in the high temperature season such as the summer season, the cultivation area 111 and the inner space of the port tower It can prevent the temperature from rising excessively.

In addition, each stage 110 to 130 provided with the cultivation port 111 may be stacked so that the cultivation port 111 provided on the outer circumferential surface is not located on the same line with the cultivation port 111 of the other stage adjacent thereto. Specifically, the stage 120 having the cultivation port 111 is adjacent to the stages 110 and 130 , that is, the cultivation ports 111 of the stages 110 and 130 stacked above and below are not located on the same line. In order to prevent this, the cultivation spheres 111 provided on the outer circumferential surface and the cultivation spheres 111 at the adjacent stage may be stacked so as to be positioned at a 40-50° angle. In some cases, it may be located on the same line as the cultivation spheres 111 of the adjacent stages 110 and 130, but in this case, the cultivation spheres 111 located on the same line are spaced apart from each other, specifically, sufficient to allow plants to grow therebetween. They may be vertically spaced apart by a distance that can provide a seat.

In addition, the cultivation sphere 111 may further include a port sphere 112 provided at the end to be horizontal with the port tower so that the plant can grow vertically. The port 112 is an area in which plants are actually grown, and as shown in FIG. 4 , the artificial soil part 114 for hydroponics including coconut exclusion and the like and seed planting 115 including the seeds of the plant to be cultivated. It is possible to grow a plant by mounting and/or fixing the seed package 116 with the port 112 to the port 112 . In this case, it is possible to collectively perform germination, growth, and harvest of the seeds included in the seed planting material 115 , and by replacing the seed package 116 after harvesting, different types of plants can be grown.

In addition, in some cases, as shown in FIG. 5 , the port port 112 is a three-dimensional mesh network structure 119 made of a hygroscopic material so that the root of the plant can be fixed and the nutrient solution can be supplied to the fixed root. can be filled. Here, the hygroscopic material may include a hard synthetic resin and/or grass wool. Since the port port 112 has a three-dimensional mesh network structure 119 made of a hygroscopic material inside to hold the nutrient solution for a long time, the efficiency of supplying the nutrient solution to plants can be increased, and replacement is possible. The lifespan of the plant cultivation system can be improved. In addition, the end of the port port 112 may further include a fixing member 118 for fixing the plant and preventing the nutrient solution from flowing out at the same time. In addition, the fixing member 118 may be provided in advance before the plant is planted, and in some cases, may be used to fix the plant after the plant is planted. In addition, the fixing member 118 may have a form in which the upper surface is coated, and in this case, a coating commonly used in the art may be used.

On the other hand, the three-dimensional mesh structure 119 and the fixing member 118 may be provided with a humidity sensor (not shown), the humidity sensor can measure the humidity in the port sphere 112 at regular time intervals. .

The port sphere 112 may further include a stem fixing part 113 on the outer peripheral surface so as to fix a vertically grown plant. The stem fixing unit 113 serves to fix the stem of the plant when the plant grown in the lower port port 112 grows up to the upper port port 112, and the stem of the plant grown through this It can be prevented from breaking or disturbing the growth, and can make the appearance better.

In addition, the port tower may include irregularities 117 on the inner wall, specifically, each stage (110 to 130) constituting the port tower, more specifically, provided at each stage (110 to 130) The inner walls of the cultivation hole 111 and the port hole 112 may include irregularities 117 . The unevenness 117 functions to change into a liquid when the vaporized nutrient solution comes in contact, and it is possible to implement an effect that the nutrient solution changed into a liquid stays on the inner wall without directly falling to the lower part of the port tower. At this time, the unevenness 117 is not particularly limited as long as it can impart a certain roughness to the inner wall of the port tower, and specifically, the unevenness 117 may include a grid type, a mesh type, or the like.

On the other hand, the plant cultivation system according to the present invention includes a nutrient solution supply pipe 200 that is fluidly connected to the lower portion of the port tower and supplies the vaporized nutrient solution.

The nutrient solution supply pipe 200 performs a function of supplying the vaporized nutrient solution to the port tower, and for this purpose, it may have a form in which the port tower 100 and the nutrient solution reservoir 300 are fluidly connected. In addition, the nutrient solution supply pipe 200 is 5 to 30° with respect to the nutrient solution storage 300 so that the nutrient solution that the plants grown in the port tower 100 have not absorbed flows down to the port tower 100 so that it can be used again. It can be connected to the lower part of the port tower to have an inclination angle of . In the present invention, by controlling the connection inclination angle of the nutrient solution supply pipe 200 as described above, the remaining nutrient solution can be easily collected into the nutrient solution reservoir 300 without a separate pump or device.

In addition, the plant cultivation system according to the present invention includes a nutrient solution storage 300 for storing the nutrient solution to be supplied to the plant. The nutrient solution reservoir 300 may include a nutrient solution inlet 301 for replenishing the nutrient solution, and may further include a water level sensor (not shown) capable of checking the amount of nutrient solution inside the water tank.

In addition, the nutrient solution reservoir 300 includes an ultrasonic vibrating body unit 302 , and the ultrasonic vibrating body unit 302 performs a function of vaporizing the nutrient solution stored in the nutrient solution reservoir 300 .

The present invention has a configuration for supplying a vaporized nutrient solution to plants by providing an ultrasonic vibrating body unit 302 in the nutrient solution reservoir 300, thereby significantly reducing the amount of nutrient solution used, making it possible to downsize the plant cultivation system, Compared with the conventional pump used to supply the nutrient solution, there is an advantage in that the effect of preventing noise is high.

Furthermore, the plant cultivation system according to the present invention is installed outside the plant cultivation system, and the humidity sensor of the port port 112; It may further include a control unit electrically connected to the ultrasonic vibrating body unit 302 and the water level sensor of the nutrient solution reservoir 300 . The control unit monitors and controls the operation of the ultrasonic vibrating body unit 302 provided in the nutrient solution reservoir 300 , while, according to the value measured by the water level sensor of the nutrient solution reservoir 300 , the supply of the nutrient solution is provided to the user through the output unit. It can perform a guiding function. In some cases, it is possible to determine whether or not to operate the ultrasonic vibrating body unit 302 of the nutrient solution reservoir 300 according to the humidity value measured by the humidity sensor provided in the port port 112 and to control the operation. For example, when the humidity value measured by the humidity sensor (not disclosed) is less than a preset value, the operation time (eg, 10-minute interval) of the ultrasonic vibrating body unit 302 of the nutrient solution reservoir 300 is increased by increasing the Nutrient solution can be supplied to the port tower immediately; When the measured humidity value exceeds a preset value, the operation of the ultrasonic vibrating body unit 302 may be stopped. Here, the preset value may be appropriately applied according to the type or season of plants grown in the plant cultivation system. In addition, the control unit may be capable of wireless control, and for this purpose, it may be linked with an application or the like.

In addition, the plant cultivation system according to the present invention may further include a lighting device 500 that is spaced apart from the port tower and irradiates light to the plants provided in the cultivation area 111 . The lighting device may be used to supplement the insufficient amount of light in the port tower among the plants cultivated in the port tower, and LEDs may be used as the lighting device 500 , but is not limited thereto.

In addition, the port tower may further include a rotating part 400 for rotating the port tower in order to more uniformly provide the light irradiated from the lighting device 500 to the plants at the lower end of the port tower.

Furthermore, the plant cultivation system according to the present invention may include a port tower alone, or 2 to 4 port towers 101 to 104 may be fluidly connected with the nutrient solution reservoir 300 through the nutrient solution supply pipe 200 to form a module. there is.

The modular plant cultivation system has an advantage in that a plurality of port towers are connected to one nutrient solution reservoir 300 to grow a large amount of plants even in a narrow area.

Claims (10)

A port tower in which a plurality of stages having a hollow are stacked in a vertical direction;
a nutrient solution supply pipe that is fluidly connected to the lower part of the port tower and supplies the vaporized nutrient solution;
a nutrient solution reservoir in fluid connection with the nutrient solution supply pipe and storing the nutrient solution; and
Including an ultrasonic vibrating body part provided in the nutrient solution reservoir,
The plurality of stages is a plant cultivation system, characterized in that it has a cultivation port formed to be inclined upwardly so that the plant is provided on the outer peripheral surface.
According to claim 1,
The plant cultivation system is provided with 2 to 6 of the cultivation ports in each stage, and spaced apart from each other at different heights on the outer circumferential surface of each stage.
According to claim 1,
A plant cultivation system in which the stage provided with the cultivation sphere is stacked so that the cultivation sphere provided on the outer circumferential surface is not located on the same line with the cultivation sphere of the adjacent stage.
According to claim 1,
The cultivation sphere further includes a port sphere provided to be horizontal with the port tower at the end so that the plant can grow vertically,
The port sphere is a plant cultivation system having a structure in which the inside is filled with a three-dimensional mesh structure composed of a hygroscopic material.
5. The method of claim 4,
The port gu further comprises a stem fixing part on the outer peripheral surface so as to fix the vertically grown plant plant cultivation system.
According to claim 1,
The nutrient solution supply pipe is connected to the lower part of the port tower to have an inclination angle of 5 to 30° with respect to the nutrient solution storage system.
According to claim 1,
The port tower is a plant cultivation system comprising irregularities on the inner wall.
According to claim 1,
The plant cultivation system is spaced apart from the port tower and further comprises a lighting device for irradiating light to the plants provided in the cultivation area.
According to claim 1,
The port tower plant cultivation system further comprising a rotating part for rotating the port tower in the lower part.
According to claim 1,
The plant cultivation system in which 2-4 of the port towers are fluidly connected to the nutrient solution reservoir through a nutrient solution supply pipe to constitute a module.

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