KR20230050824A - A Spray type hydroponics system - Google Patents

Abstract

The present invention relates to a spray-type hydroponic system. More specifically, the present invention relates to a spray-type hydroponic system which allows a one-stop process from germination to cultivation, wherein, in a hydroponic cultivation system that grows plants indoors in a multi-stage system, plant seeds are directly attached to a seating module made of straight wool. In particular, it is possible to promote growth by receiving water and nutrient solution without damaging the plant roots through an indirect method in which water or nutrient solution is supplied to the plant roots by hitting other parts and reflecting, rather than spraying water or nutrient solution directly on the plant roots.

Description

Spray type hydroponics system {A Spray type hydroponics system}

The present invention relates to a spray-type hydroponic cultivation system, and more particularly, in a hydroponic cultivation system formed in a multi-stage indoors to grow plants, plant seeds are directly attached to a mounting module formed of straight wool, and the module is mounted from germination to cultivation. In particular, water and nutrient solution are not damaged and the plant root is not damaged through an indirect method in which water or nutrient solution is supplied to the plant root as it hits other parts and is reflected, rather than directly spraying water or nutrient solution to the plant root. It relates to a spray-type hydroponic cultivation system that can be supplied and promote growth.

Soil cultivation continues to deteriorate the soil environment due to excessive pesticides, abuse of chemical fertilizers, and multiple cropping without fallow period, resulting in a decrease in productivity. there is. In this soilless nutrient solution cultivation, advanced agricultural countries such as the Netherlands, Denmark, France, and Israel have established a high-tech, high-quality, high-production system through a centralized automation system, and through large-scale nutrient solution cultivation of 30 to 50% of the total facility area, It is leading the horticultural market as well as the related equipment market. In recent years, interest in nutrient solution cultivation has increased in Korea as well as in the limelight of facility vegetables and the demand for clean vegetables has increased. In Korea, hydroponic cultivation began around 1980, and is currently widely used in crops such as fruit and vegetables such as cucumbers, tomatoes, and peppers, leafy vegetables such as lettuce, water parsley, and perilla, and flowers such as roses and carnations.

Hydroponic cultivation is a method of cultivating crops while supplying them together with oxygen by making a culture medium in which nutrients are dissolved in water in an appropriate ratio, rather than receiving water and nutrients necessary for crop growth from the soil. It is taking a method of supplying the necessary nutrient solution by depositing or spraying it on the roots of crops.

In particular, the recent hydroponic cultivation system is able to grow more crops in the same area compared to conventional agriculture by measuring and controlling the surrounding environment through various sensors while efficiently using the space by arranging growers in multiple stages in the indoor space. has the advantage of

However, in the case of the existing hydroponic cultivation system, after the germination of plant seeds, it is necessary to go through a cumbersome process because it must go through the step of transplanting them back to the cultivation device (cultivation plate), and also in the process of supplying water or nutrient solution to the plant roots Since it is sprayed directly toward the plant roots, there are many cases in which the roots of young plants are damaged and cultivation fails.

<Patent Document> Korean Patent Registration No. 10-2218487 (published on September 16, 2021) "Water Tank Device for Hydroponic Cultivation of Perennial Fresh Ginseng"

The prior art disclosed in the patent document also relates to a hydroponic cultivation device (system) for growing fresh ginseng, and is configured to grow stems and leaves from perennial fresh ginseng (roots) using a nutrient solution. A nutrient solution spraying device located in a fresh ginseng cultivation tank to supply nutrient solution to fresh ginseng by injecting nutrient solution is disclosed, but a structure in which the nutrient solution spraying device directly sprays nutrient solution to fresh ginseng roots is only disclosed.

In this way, the solution to the new hydroponic cultivation system that can solve the inconvenience of having to go through the cumbersome steps of the cultivation process occurring in the existing hydroponic cultivation system and the various problems occurring in the process of spraying water or nutrient solution directly to the plant roots The present invention was invented for

The present invention has been made to solve the above problems,

The present invention is a spray-type hydroponic cultivation system in which plant seeds are directly attached to a seating module formed of wool in a hydroponic cultivation system that is formed indoors in a multi-stage manner to grow plants, so that plant seeds can be directly attached to the seating module from germination to cultivation. is to provide

Another object of the present invention is an indirect method in which water or nutrient solution is not directly sprayed to plant roots in a hydroponic cultivation system that is formed indoors in a multi-stage manner to grow plants, but is supplied to plant roots while the water or nutrient solution hits other parts and is reflected. To provide a spray-type hydroponic cultivation system that can promote growth by receiving water and nutrient solution without damaging plant roots.

Another object of the present invention is to apply an indirect method in which water or nutrient solution is supplied to plant roots while being reflected by bumping into other parts in a hydroponic cultivation system that is formed indoors in a multi-stage manner and grows plants. It is to provide a spraying hydroponic system that allows water or nutrient solution to be indirectly supplied to plant roots evenly throughout the plant roots on the mounting module while bouncing at an angle.

The present invention is implemented by an embodiment having the following configuration in order to achieve the above object.

According to one embodiment of the present invention, the spraying hydroponic cultivation system according to the present invention comprises a frame portion forming a skeleton; a planting unit mounted on the frame unit and in which plants are grown; a light source unit mounted on the frame unit and radiating light to plants grown in the planting unit; and a spraying unit mounted on the frame unit and supplying water and nutrient solution to plant roots cultivated in the planting unit, wherein the planting unit supports a seating module to which plant seeds are attached and germinates, and the seating module. and a support module forming an open space so that plant roots can grow downward.

According to another embodiment of the present invention, in the spraying hydroponic cultivation system according to the present invention, the seating module is formed of wool straight hair, and plant seeds are directly attached to the planting module from germination to cultivation. It is characterized in that it consists of one-stop .

According to another embodiment of the present invention, in the spraying hydroponic cultivation system according to the present invention, the spraying unit includes a supply line through which water and nutrient solution are supplied, and a spray nozzle formed on the supply line to spray water or nutrient solution. The injection nozzle is characterized in that the direction of the injection nozzle is formed not toward the seating module so that the sprayed water or nutrient solution is not directly sprayed on the plant roots grown in the seating module.

According to another embodiment of the present invention, in the spraying hydroponic cultivation system according to the present invention, the injection nozzle is formed along the side of the frame portion located below the seating module, and the direction of the injection nozzle is the seating module It is formed to face the bottom surface of the frame unit located below, and a curve is formed on the bottom surface of the frame unit, so that water or nutrient solution sprayed toward the bottom surface of the frame unit through the injection nozzle hits the curve of the bottom surface and moves upward. It is characterized in that it can be supplied to the plant roots indirectly while splashing.

According to another embodiment of the present invention, in the spraying hydroponic cultivation system according to the present invention, the injection nozzle is formed along the side of the frame portion located below the seating module, and the direction of the injection nozzle is the seating module It is formed to face the bottom surface of the frame unit located at the bottom, and a plurality of projections are formed on the bottom surface of the frame unit, and the projections include multiple surfaces formed at different angles in the height direction, and the spray nozzle The water or nutrient solution sprayed toward the bottom surface of the frame part hits the multi-level surfaces of the projections formed at different angles in the process of hitting the plurality of projections formed on the bottom surface, splashing upward at various angles, watering the entire plant root on the seating module evenly. Or it is characterized in that the nutrient solution can be supplied to the plant roots indirectly.

According to another embodiment of the present invention, in the spraying hydroponic cultivation system according to the present invention, the protrusions have different angles in the left and right side directions of the lower and upper surfaces of the multi-stage surface formed at different angles in the height direction. In the process of hitting a plurality of protrusions formed on the bottom surface of the water or nutrient solution sprayed toward the bottom surface of the frame unit through the injection nozzle, it hits the multi-level surface of the protrusion formed at different angles in the left and right side directions, and various left and right It is characterized in that water or nutrient solution can be indirectly supplied to the plant roots evenly throughout the plant roots on the seating module while bouncing at an angle.

According to another embodiment of the present invention, in the spray hydroponic cultivation system according to the present invention, a drain line is formed on the bottom surface of the frame portion so that water or nutrient solution supplied through the spray nozzle can be filled to a certain level, An ultrasonic vibrator is formed on the bottom surface of the frame unit, and water droplets are generated by vibration of the ultrasonic vibrator so that water or nutrient solution can be indirectly supplied to plant roots.

The present invention can obtain the following effects by combining and using the above embodiments and configurations to be described below.

The present invention has an effect of allowing plant seeds to be directly attached on a seating module formed of wool in a hydroponic cultivation system that is formed indoors in a multi-stage manner to grow plants, so that the planting module can be made one-stop from germination to cultivation.

The present invention, in a hydroponic cultivation system that is formed indoors in a multi-stage manner to grow plants, does not spray water or nutrient solution directly to plant roots, but indirectly supplies water or nutrient solution to plant roots while being reflected by bumping into other parts of the plant. It has the effect of promoting growth by receiving water and nutrient solution without damaging the roots.

In the present invention, in applying an indirect method in which water or nutrient solution is supplied to plant roots while being reflected by bumping into other parts in a hydroponic cultivation system formed indoors in a multi-stage manner to grow plants, it bounces upwards and / or left and right at various angles and settles It has an effect of enabling water or nutrient solution to be indirectly supplied to plant roots evenly throughout the plant roots on the module.

1 is a photograph of a use case of a spray hydroponic cultivation system according to the present invention
Figure 2 is a structural photograph of the spraying hydroponic cultivation system according to the present invention
Figure 3 is a cross-sectional view showing an embodiment of the spraying unit
Figure 4 is a perspective view showing an embodiment of the protrusion

Hereinafter, preferred embodiments of the spraying hydroponic cultivation system according to the present invention will be described in detail with reference to the accompanying drawings. It should be noted that like elements in the drawings are indicated by like numerals wherever possible. Unless there is a special definition, all terms in this specification are the same as the general meaning of the term understood by a person skilled in the art to which the present invention belongs, and if it conflicts with the meaning of the term used in this specification, the present invention In accordance with the definitions used in the specification. Throughout the specification, when a part "includes" a certain component, it means that it may further include other components without excluding other components unless otherwise stated, and also described in the specification. Terms such as "...unit" and "...module" refer to a unit that processes at least one function or operation, and may be implemented as hardware or software or a combination of hardware and software.

Referring to Figures 1 to 4, the spraying hydroponic cultivation system according to an embodiment of the present invention comprises a frame portion 10 forming a skeleton; A planting unit 30 mounted on the frame unit 10 and in which plants are grown; a light source unit 70 mounted on the frame unit 10 and radiating light to plants grown in the planting unit 30; and a spraying unit 50 mounted on the frame unit 10 and supplying water and nutrient solution to plant roots cultivated in the planting unit 30 . For reference, in the spray hydroponic cultivation system according to an embodiment of the present invention, various information about the surrounding environment in which the system is installed as well as in the hydroponic cultivation system is collected and based on this, carbon dioxide, on / A humidity measurement sensor, as well as a sensor for measuring pH and ambient air flow for water or nutrient solution in the system may be provided, and a control unit (not shown) may be included to control the overall system based on the sensor.

The frame portion 10 constitutes the skeleton of the spray hydroponic cultivation system according to the present invention, and as shown in FIG. 1, the spray hydroponic cultivation system of the present invention includes a light source unit 70, a planting unit ( 30) and the spraying unit 50 are formed in a vertically multi-stage structure to form a structure that can efficiently utilize space within the same space, and the light source unit 70, the planting unit 30 and the spraying unit 50 A skeleton for placement is formed by the frame part 10, and the light source part 70, the planting part 30, and the spraying part 50 are all mounted on the frame part 10.

The light source unit 70 is mounted on the frame unit 10 and has a configuration for irradiating light to plants grown in the planting unit 30, and an LED light source or the like may be used as the light source unit 70. Plants grown through the system of the present invention can grow indoors more efficiently than natural cultivation by appropriately supplying light necessary for plant cultivation through control through the LED light source irradiated from the light source unit 70 .

The planting unit 30 is mounted on the frame unit 10, and is a configuration in which plants are grown. As described above as a problem of the conventional hydroponic cultivation system, in the case of the existing hydroponic cultivation system, after germination of plant seeds, Since it is necessary to go through the step of transplanting to the cultivation machine (cultivation plate) again, there was a problem of having to go through a cumbersome process. It is formed in a form including a module 310 and a support module 320 that supports the seating module 310 and forms an open space for plant roots to grow downward. In particular, the seating module 310 is made of wool. It is formed of straight hair and attaches plant seeds directly, characterized in that it consists of one-stop from germination to cultivation in the seating module.

The seating module 310 is a configuration for fixing plant seeds and allowing them to germinate and grow, characterized in that the plant seeds grown through the system of the present invention can be made one-stop from germination to cultivation without a separate transplant process. to be To this end, the seating module 310 is formed of straight wool. In the case of straight wool, it contains a plurality of pores that allow the plant seeds to be well settled and fixed in the straight wool, and the roots of the sprouted plants are stably secured. Since it has the bearing capacity and durability that can be fixed, the germinated plant can take root and grow as it is. Through this, the transplantation process to a separate cultivator (cultivation plate) can be omitted, thereby reducing costs.

The support module 320 is configured to support the seating module 310 formed of straight wool, and in particular forms an open space so that the roots of plants that germinate and take root in the straight wool can grow stably downward. For example, it may be formed in a network shape in which a plurality of pores or through holes are formed, or in a plate shape in which a plurality of through holes are formed. In the system of the present invention, the support module 320 covering the seating module 310 (straight wool) (that is, the state in which the seating module 310 (straight wool) is attached to the top of the support module 320) is attached to the frame portion ( Since it is easy to install and dismantle in the form of coupling to 10), it has the advantage of being easy to install and disassemble in a prefabricated way by simply attaching and detaching as needed.

The spray unit 50 is mounted on the frame unit 10 and is configured to supply water and nutrient solution to the plant roots grown in the planting unit 30, as described above as a problem of the conventional hydroponic cultivation system, In the case of the existing hydroponic cultivation system, in the process of supplying water or nutrient solution to the plant roots to be cultivated, since it is directly sprayed toward the plant roots, the roots of young plants are damaged and cultivation failure occurs in many cases. In order to solve this problem in the present invention, the spraying unit 50 is formed on the supply line 530 through which water and nutrient solution are supplied, and the supply line 530 to spray water or nutrient solution. It includes a nozzle 510, and the direction of the spray nozzle 510 is directed to the seating module 310 so that the water or nutrient solution sprayed by the spray nozzle 510 is not directly sprayed on the roots of plants grown in the seating module 310. It is characterized in that it is formed so as not to face. That is, for example, when the plant roots are located in the upper direction of the spray nozzle 510, the spray nozzle 510 is the lower bottom surface so that the water or nutrient solution sprayed through the spray nozzle 510 is not directly sprayed toward the plant root. By spraying water or nutrient solution toward the bottom surface and reflecting it, water or nutrient solution can be indirectly supplied to plant roots, thereby preventing damage to plant roots in the process of being directly sprayed on plant roots will be.

However, in the case of this indirect supply method, it is important to ensure that the water or nutrient solution that should be relatively supplied to the plant roots can be sufficiently supplied to the plant roots. For this purpose, the spray nozzle 510 is shown in FIG. As it is formed along the side of the frame part 10 located below the seating module 310, the direction of the spray nozzle 510 is located below the seating module 310 The frame part 10 Is formed to face the bottom surface, and at this time, a curve (not shown) is formed on the bottom surface of the frame part 10, and water sprayed toward the bottom surface of the frame part 10 through the injection nozzle 510 or The nutrient solution can be indirectly supplied to the plant roots as it bounces upward upon hitting the curved surface of the bottom. That is, by bouncing while bumping into various curves formed on the bottom surface rather than the flat bottom surface, water or nutrient solution can be more sufficiently supplied to the plant roots.

In order to go further and more efficiently indirectly supply water or nutrient solution to plant roots, in another embodiment of the present invention, as shown in FIG. Four protrusions 520 are formed, and at this time, the protrusion 520 may be formed to include multiple surfaces formed at different angles in the height direction.

That is, compared to the protrusion 520 forming a single angled surface in the height direction, as shown in FIG. 3, multi-level surfaces formed at different angles in the height direction, that is, the first surface formed at a constant angle. When the second end 522 (upper end) surface formed at a more gentle angle different from the end 521 (lower end) face and the first end 521 face is included, the spray nozzle 510 In the process of hitting the plurality of protrusions 520 formed on the bottom surface of the water or nutrient solution sprayed toward the bottom surface of the frame unit 10 through the process, it hits the multi-faceted surfaces of the protrusions formed at different angles and bounces upward at various angles to the top of the seating module. Water or nutrient solution can be indirectly supplied to the plant roots evenly throughout the plant roots. That is, since the angle of the water or the nutrient solution splashed by hitting the first stage 521 side and the second stage 522 side, respectively, is changed more diversely, one protrusion 520 is used to provide water in more various directions. Alternatively, the nutrient solution can be supplied to the plant roots indirectly, which can reduce the number of protrusions 520 formed on the bottom surface while also achieving the effect of sufficiently supplying water or nutrient solution to the plant roots. .

On the other hand, in order to more efficiently indirectly supply water or nutrient solution to plant roots, in another embodiment of the present invention, as shown in FIG. The lower end (first end 521) and the upper end (second end 522) of the multi-level faces formed at an angle may be formed at different angles in the left and right side directions.

That is, as described above, by making the multi-level surfaces formed at different angles in the height direction, that is, the surfaces of the first end 521 and the second end 522 are formed at different angles in the left and right directions, In the process of hitting the plurality of projections 520 formed on the bottom surface of the water or nutrient solution sprayed toward the bottom surface of the frame part 10 through the spray nozzle 510, the projections formed at different angles in the upward direction ( 520) while bouncing at various angles, in addition to this, the entire plant root on the seating module 310 bouncing at various angles from side to side while hitting the multi-section surface of the protrusion 520 formed at different angles in the left and right side directions Evenly, water or nutrient solution can be supplied to plant roots indirectly.

On the other hand, in the spray hydroponic cultivation system of the present invention, a drain line (not shown) is additionally provided on the bottom surface of the frame part 10 so that water or nutrient solution supplied through the spray nozzle 510 can be filled at a certain level. In addition, by forming an ultrasonic vibrator (not shown) on the bottom surface, water droplets may be generated by vibration of the ultrasonic vibrator so that water or nutrient solution may be indirectly supplied to plant roots.

That is, in the process of indirectly supplying water or nutrient solution to plant roots using the spray nozzle 510 and/or protrusion 520, the water or nutrient solution is collected on the bottom surface of the frame part 10, which is immediately drained. If water or nutrient solution can be filled on the bottom surface at a certain level without doing so, and then an ultrasonic vibrator is used to generate water droplets by vibration so that water or nutrient solution can be supplied to plant roots in the form of a humidifier, In parallel with the supply through the spray nozzle 510, water or nutrient solution can be supplied in various ways, and furthermore, the number of operations of the spray nozzle 510 can be reduced while economical plant cultivation is possible. be able to

In the above, the applicant has described various embodiments of the present invention, but such embodiments are only one embodiment for implementing the technical idea of the present invention, and any changes or modifications are made according to the present invention as long as the technical idea of the present invention is implemented. should be construed as falling within the scope of

10: frame part
30: planting unit 310: seating module 320: support module
50: spraying part 510: injection nozzle 520: protrusion
521: first stage 522: second stage 530: supply line
70: light source

Claims (7)

a frame portion constituting a skeleton;
a planting unit mounted on the frame unit and in which plants are grown;
a light source unit mounted on the frame unit and radiating light to plants grown in the planting unit; and
A spraying unit mounted on the frame unit and supplying water and nutrient solution to plant roots cultivated in the planting unit;
The planting unit includes a seating module to which plant seeds are attached and germinated, and a support module supporting the seating module and forming an open space so that plant roots can grow downward. According to claim 1,
The seating module is formed of wool straight hair, and the plant seeds are directly attached to the spraying hydroponic cultivation system, characterized in that the one-stop from germination to cultivation in the seating module. According to claim 2,
The spray unit includes a supply line through which water and nutrient solution are supplied, and a spray nozzle formed on the supply line to spray water or nutrient solution,
The spray nozzle is a spray-type hydroponic cultivation system, characterized in that the direction of the spray nozzle is formed so that the spray nozzle is not directed toward the seating module so that the sprayed water or nutrient solution is not directly sprayed on the plant roots grown in the seating module. According to claim 3,
The injection nozzle is formed along the side of the frame unit located below the seating module,
The direction of the spray nozzle is formed to face the bottom surface of the frame unit located below the seating module, and a curve is formed on the bottom surface of the frame unit, and water or nutrient solution is sprayed toward the bottom surface of the frame unit through the spray nozzle. Spray hydroponic cultivation system, characterized in that it can be supplied to the plant roots indirectly while bouncing upwards by bumping into the curves of the bottom surface. According to claim 3,
The injection nozzle is formed along the side of the frame unit located below the seating module,
The direction of the injection nozzle is formed to face the bottom surface of the frame unit located below the seating module, and a plurality of protrusions are formed on the bottom surface of the frame unit.
The protrusions include multiple surfaces formed at different angles in the height direction, and the water or nutrient solution sprayed toward the bottom surface of the frame unit through the spray nozzle hits the plurality of protrusions formed on the bottom surface at different angles. Spraying hydroponic cultivation system characterized in that the water or nutrient solution can be indirectly supplied to the plant roots evenly throughout the plant roots on the seating module while bumping into the multi-level surface of the projections formed by bouncing upward at various angles. According to claim 5,
The protrusion is formed at different angles in the left and right lateral directions of the lower and upper surfaces of the multi-level surface formed at different angles in the height direction, so that water or nutrient solution sprayed toward the bottom surface of the frame unit through the spray nozzle In the process of bumping into a plurality of protrusions formed on the bottom surface, it hits the multi-faceted surfaces of the protrusions formed at different angles in the left and right side directions, bouncing from side to side at various angles, and water or nutrient solution is indirectly supplied to the plant roots evenly throughout the plant roots on the seating module Spray hydroponic cultivation system, characterized in that to enable. According to claim 6,
A drain line is formed on the bottom surface of the frame portion so that water or nutrient solution supplied through the injection nozzle can be filled to a certain level,
An ultrasonic vibrator is formed on the bottom surface of the frame unit, and water droplets are generated by vibration of the ultrasonic vibrator so that water or nutrient solution can be indirectly supplied to plant roots.

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