KR101322003B1 - The Multi-Level Hydroponic System using Acrylic panel - Google Patents

Abstract

The present invention is a technology for manufacturing a hydroponic cultivator capable of automatic control using acrylic and polycarbonate (PC), which is divided into a technology for installing a water supply and drainage in acrylic or PC and a technology for mounting an electronic device. When the multi-layer hydroponic cultivator is composed of acryl, it is difficult to construct the drainage channel and the water supply path between hydroponic cultivation frameworks. By constructing the water flow without using a separate hose between the cultivation frame, by constituting the flow of water smoothly, it is possible to simplify the configuration and pursue aesthetics effect.

Description

The Multi-Level Hydroponic System using Acrylic panel

The present invention is to design a multi-layer hydroponic cultivator using an acrylic panel, and according to the design technology for the water supply, drainage structure and controller installation portion, and a portable device such as a smartphone using a hydroponic cultivator using a wireless communication method such as Bluetooth To control technology.

Hydroponic cultivation refers to a method of growing crops in a culture solution made of water and water-soluble nutrients without using soil. Nutrient cultivation using culture soil refers to a method of cultivating crops by continuously supplying the culture solution to the culture soil. Hydroponic cultivation can observe root conditions and growth patterns, grow clean, uncontaminated vegetables or crops, grow indoors at home or business, and control interior and interior lighting using LED lighting. There is.

Korean Unexamined Patent Publication No. 2011-0010141 (published Jan. 31, 2011) discloses an example of a hydroponic cultivator composed of multiple stages, but is different from the present invention using a resin material such as transparent acrylic.

For example, acrylic or PC (Poly Carbonate) gives a transparent and clean image, while the nature of the material makes it difficult to configure the water inlet and the drain, and also has difficulty in installing an electronic module for automatically controlling the entire hydroponic cultivator. There is a problem.

The present invention is to construct a multi-layer hydroponic cultivator to minimize the hose connection, maintain aesthetical elegance while utilizing the properties of acrylic, and to automate the entire operation using electronic devices, and has two objectives as follows. .

The first object, the present invention is a technology for producing a hydroponic cultivator capable of automatic control using acrylic or PC (Poly Carbonate), a technology for installing a water supply and drainage in the acrylic or PC, configuration for mounting the electronic device It is to provide.

Second object, the present invention is a method for automatically performing the control operation for the hydroponic cultivator manufactured as described above, without the configuration of a separate remote control, hydroponic by Bluetooth communication method using a smart phone that the public has In addition to the ON / OFF control of the bulb installed in the planter, the purpose is to provide a real-time control and reservation control method as a way to control the brightness of the bulb and control the operation of the pump to supply the nutrient solution.

Hydroponic cultivation apparatus according to the present invention for achieving the above object, the nutrient solution supply stage 100 is installed at the bottom, at least one or more intermediate stage hydroponic cultivation frame 300 and the intermediate stage hydroponic cultivation frame 300 The hydroponic cultivation frame 200 is installed on the top is characterized in that configured to separate the water supply and drainage.

In the case of a one-stage hydroponic cultivator, the nutrient solution supply stage 100 and the upper hydroponic cultivation frame 200 may be configured, and the light unit 400 may be installed on the upper surface of the upper hydroponic cultivation frame 200. In this case, by installing the control module 430 in the light unit 400, it can be configured to control the control module 430 by a smartphone or the like.

In addition, in the case of a multi-layer structure consisting of a nutrient solution supply stage 100 and at least one intermediate stage hydroponic cultivation frame 300 and a hydroponic cultivation frame 200 is installed on the top, and the upper part of the lamp mounting frame ( By configuring 400 to control the control module 430 by the smart phone, the upper hydroponic cultivation frame 200 installed on the top is configured to fix the lamp unit by the control module 430 in the lamp unit It is configured to be built.

In addition, the control module 430 installed on the top of the lamp is installed on the top of the microprocessor, because it has a clock function and a wireless communication function, so that the user does not have to use a separate remote control to the hydroponic smartphone It is configured to control the operation of the planter directly or according to the reservation time.

According to the present invention as described above, the following effects can be described.

First, hydroponic cultivators made of acrylic or PC (Poly Carbonate) can have aesthetic advantages with transparency and material elegance, while having difficulty in constructing water supply and drainage due to the characteristics of the material. Complementing these disadvantages, and by configuring the water supply and drainage in an optimal design method of the multi-layer hydroponic cultivation, it can have an advantage in configuration and aesthetics.

Second, although there are many techniques for automatic control of hydroponic cultivators, the nutrient solution pump control, the brightness control (dimming control) and the ON / OFF control for the LED lamps required for the operation of hydroponic cultivators are controlled by a device such as a smartphone. It has the advantage of being able to. According to the characteristics of the crop, the characteristics of the light that needs a specific wavelength for each part of the crop, by applying different wavelengths to lamps, fluorescent lamps, LEDs of the R, G, B type, it is possible to supply the light suitable for the crop.

1 is a perspective view showing a multi-layer hydroponic cultivation structure using acrylic,
Figure 2 is a perspective view showing the nutrient solution supply stage,
Figure 3 is a perspective view of the top hydroponic cultivation frame,
Figure 4 is a perspective view of the intermediate stage hydroponic cultivation frame,
5 is a perspective view showing the upper part of the lamp,
6 and 7 are a plan view showing a light source constituting the lamp unit according to the present invention,
Figure 8 is an enlarged view showing the connection of the upper and middle hydroponic cultivation frame, and,
9 is a view showing a state in which a fish tank is formed in the nutrient solution supply stage as another embodiment of the present invention.

Hereinafter, a hydroponic cultivator according to a preferred embodiment of the present invention will be described with reference to the drawings.

1 is a perspective view showing a multi-layer hydroponic cultivation structure using acrylic, Figure 2 is a perspective view showing the nutrient solution supply stage, Figure 3 is a perspective view showing the top hydroponic cultivation frame, Figure 4 is a middle-stage hydroponic cultivation frame 5 is a perspective view of the uppermost lamp, Figures 6 and 7 are a plan view showing a light source constituting the lamp according to the present invention, Figure 8 is an enlarged view of the connecting portion of the upper and middle hydroponic cultivation frame drawing. 9 is a view showing a state in which a fish tank is formed in the nutrient solution supply stage as another embodiment of the present invention.

1 is a multi-layer hydroponic cultivation structure, it is composed of a nutrient solution supply stage 100, the top hydroponic cultivation frame 200, the intermediate stage hydroponic cultivation frame 300, and the lamp unit 400 disposed on the top. When the hydroponic cultivator is composed of one stage, it is preferable that the nutrient solution supply stage 100, the upper hydroponic cultivation frame 200, and the lamp unit 400 are provided.

The nutrient solution supply stage 100 is a tank for receiving the nutrient solution 110 supplied to the multilayer hydroponic cultivator according to the present invention. The nutrient solution 110 is accommodated to maintain a predetermined level or more inside the nutrient solution supply stage 100. Underwater circulation for supplying the nutrient solution 110 to the upper hydroponic cultivation frame 200 and the intermediate stage hydroponic cultivation frame 300 are stacked on top of the nutrient solution supply stage 100 inside the nutrient solution supply stage 100 Pump 120 may be installed.

As shown in FIG. 2, the submersible circulation pump 120 may be installed at the right rear part of the water supply hole 220, which will be described later, which is a transfer path for transferring the nutrient solution 110 upward. This is to minimize the loss in the pumping process.

Therefore, in the direction of arrow A shown in FIG. 1, the nutrient solution 110 accommodated in the nutrient solution supply stage 100 is transferred to the intermediate stage hydroponic cultivation frame 300 and the upper hydroponic cultivation frame 200 stacked on the upper side. In the direction of arrow B, nutrient solution may be drained at each end.

Meanwhile, the underwater circulation pump 120 may supply the nutrient solution 110 to the upper hydroponic cultivation frame 200 and the intermediate stage hydroponic cultivation frame 300 disposed at an upper portion according to a cycle set by a control device. . At this time, the underwater circulation pump 120, the nutrient solution in the upper hydroponic cultivation frame 200 through the water supply hole 220 of the intermediate stage hydroponic cultivation frame 300 and the upper hydroponic cultivation frame 200 is stacked on the top Supply 110 (in the direction of arrow A in FIG. 1), the nutrient solution exceeding the water level specified in the top hydroponic cultivation frame 200 is located in the middle stage hydroponic cultivation frame 300 located at the upper end via the drainage hole 240. It is supplied to move to the internal connection water supply hole (210). Similarly, the nutrient solution 110 exceeding the level specified in the intermediate stage hydroponic cultivation frame 300 located at the upper end of the middle stage hydroponic cultivation at the bottom via the internal connection drainage hole 230 and the drainage hole 240 connected to the drainage channel. It may be discharged to the base 300 or the nutrient solution supply stage 100 (arrow B direction of Figure 1).

If the hydroponic cultivation frame is configured as a one-stage hydroponic cultivator provided with only one, the nutrient solution 110 discharged via the upper hydroponic cultivation frame 200 is immediately discharged to the nutrient solution supply stage 100.

When the intermediate hydroponic cultivation frame 300 is composed of a multistage hydroponic cultivator configured by stacking one or more, the nutrient solution 110 discharged into the drain hole of the upper hydroponic cultivation frame 200 is a drain of the intermediate hydroponic cultivation frame 300. Inlet to the drain hole (upper) 320 located in. Inflow of nutrient solution 110, the progress is blocked by the partition 330 installed in the drainage path of the intermediate stage hydroponic cultivation frame 300, as shown in Figure 4, the interior formed above the partition 330 of the drainage Through the connection water supply hole 210, water is supplied to the intermediate stage hydroponic cultivation frame (300). In addition, when the level of the nutrient solution 110 increases in the intermediate stage hydroponic cultivation frame 300 and rises higher than the position at which the internal connection drainage hole 230 is formed, the amount of nutrient solution 110 exceeds the internal connection drainage amount. Through the hole 230, it may be supplied to the next intermediate stage hydroponic cultivation frame 300 or the nutrient solution supply stage 100 through a drainage path formed below the partition 330.

If the lower portion is the middle stage hydroponic cultivation frame 300, the water supply and drainage path in the hydroponic cultivation frame located in the middle stage is the same as the above process, if the lower portion is the nutrient solution supply stage 100, the nutrient solution supply stage 100 The nutrient solution 110 may be discharged to the nutrient solution supply terminal 100 through the second hose 140 (see FIG. 2) connected thereto.

The upper and middle end hydroponic cultivation frame (200) (300) is preferably configured by adhering a plate of acrylic or PC material of a transparent material, through which the respective hydroponic in the state of the light transmitted through the light unit 400 It may be configured to be delivered to the growing framework (200,300). Alternatively, the shape of the upper and middle end hydroponic cultivation frameworks 200 and 300 may be configured by a mold, and injection molding may be performed at a time without a plate bonding process.

Lamp 400 is laminated to the upper hydroponic cultivation frame 200, each supplying light to the crops grown in the hydroponic cultivation frame (200,300). The configuration of the lamp unit 400 will be described later.

Hereinafter, the specific configuration of the nutrient solution supply stage 100, the upper hydroponic cultivation frame 200 and the intermediate hydroponic cultivation frame 300 will be described with reference to the drawings.

2 is a view showing the nutrient solution supply stage 100, the nutrient solution 110 and the underwater circulation pump 120 is located in the nutrient solution supply stage 100.

In the case of the first stage hydroponic cultivator, the first hose 130 and the upper end connected to the output portion of the submersible circulation pump 120 of the nutrient solution supply stage 100 and the water supply path 220 of the upper hydroponic cultivation frame 200. The second hose 140 is connected to the drainage channel 240 of the hydroponic cultivator. If the multi-layered hydroponic cultivator is configured, the first hose 130 is connected to the output part of the submersible circulation pump 120 of the nutrient solution supply stage 100 and the water supply path 220 of the intermediate hydroponic cultivation frame 300. And a second hose 140 connected to the drainage path 240 of the suspension hydroponic cultivation frame 300.

3 is a view showing the upper hydroponic cultivation frame 200, the left and right sides of the left side to form a water supply and drainage path separated by the partition 250, to connect the light portion 400 And a light pole mounting hole 270 provided as a groove in the right center portion may be provided. In this case, the support pillar 410 of the lamp unit 400 is inserted into the lamp unit mounting hole 270 in the center of the left and right, has a structure that can support the lamp unit.

In addition, the nutrient solution 110 introduced through the water supply hole 220 is supplied into the upper hydroponic cultivation frame 200 through an internal connection water supply hole 210 formed at a side of the water supply passage, and has a predetermined level or more. When the nutrient solution 110 is accommodated, it is drained toward the intermediate stage hydroponic cultivation frame 300 through an internal connection drain hole 230 and a drainage hole (lower) 240 provided at the opposite side.

Therefore, the upper hydroponic cultivation frame 200 becomes the top hydroponic cultivation frame always directly connected to the lamp unit 400 in the first stage hydroponic cultivation structure and the multistage hydroponic cultivation structure. Therefore, the upper hydroponic cultivation frame 200 is the water supply hole and the drainage passage through the top is blocked, when installing the intermediate stage hydroponic cultivation frame 300 at the bottom to smooth the water supply and drainage between the hydroponic cultivation frame and prevent backflow In order to prevent the leakage device 290 (see Fig. 8) is attached.

The leakage preventing device 290 is a bottom surface side of the water supply hole (top) 310 and the upper hydroponic cultivation frame 200 formed on the intermediate stage hydroponic battle 300 formed on the flow path formed by the partition 250. The nutrient solution flowing through the water supply hole (upper) 310 and the water supply hole (lower) 220 is provided in a tube shape having a shape corresponding to the water supply hole (lower) 220 formed in the ( 110 may be configured to be supplied without leaking. This configuration can be configured in the same way on the drainage side.

4 is a view showing the intermediate stage hydroponic cultivation frame 300, the intermediate stage hydroponic cultivation frame 300 is a hydroponic cultivation frame used as an intermediate stage to constitute a multi-layer hydroponic cultivation. The intermediate stage hydroponic cultivation frame 300 preferably constitutes a water supply passage and a drainage passage separated by the partition 250 at the rear portions of the left and right sides. If the first stage hydroponic cultivator is used, the intermediate stage hydroponic cultivation frame 300 is not required, and when using two or more hydroponic cultivators, the upper hydroponic cultivation frame 200 is positioned at the upper part and the nutrient solution supply stage at the lower part. 100 is located, the middle of the middle hydroponic cultivator frame 300 can be used a number of.

The intermediate stage hydroponic cultivation frame 300 are all the same structure, the nutrient solution drained from the upper hydroponic cultivation frame is the nutrient solution supplied through the drainage passages by the partition 330 installed in the middle of the middle hydroponic cultivation frame 300 It is supplied to the planter by using the internal connection water supply hole 210 located in, a predetermined amount or more is configured to be discharged to the bottom through the internal connection drain hole 230 located in the bottom. At this time, the position of the drainage hole may be adjusted according to convenience.

In addition, the height of the intermediate stage hydroponic cultivation frame 300 is formed to be larger than the height of the upper hydroponic cultivation frame 200, it is preferable to ensure the maximum crop cultivation space.

5 is a view showing the lamp unit 400, and is connected to the support column 410 inserted into the lamp unit pillar mounting groove 270 on the left center and the right center of the upper hydroponic cultivation frame. The lamp unit includes a light bulb 420 capable of adjusting brightness and a control module 430 for controlling the hydroponic cultivator.

As illustrated in FIG. 6, the bulb 420 may be configured by using a plurality of LED light sources, and as shown in FIG. 7, a socket may be provided at the center to install a bulb, such as an incandescent bulb or a fluorescent lamp. It is also possible to use a light source.

The control module 430 is provided in a box shape, and as shown in FIG. 5, the upper end of the upper surface 411 of the light unit 400 or the side wall of the light unit 400 is not shown. It is preferable to be installed so as to avoid contact with and to prevent malfunction due to a short circuit.

The control module 430 includes a microprocessor and a storage unit for storing a reference clock for various hydroponic cultivation and a real time clock function for driving the underwater circulation pump 120 and the lamp 420 according to a scheduled time. According to the clock function, the output unit can be driven at a predetermined time. The microprocessor basically has a function of ON / OFF and brightness of the lamp, and can automatically drive the underwater circulation pump 120 located in the nutrient solution supply stage 100. In addition, the control module 430 includes a Bluetooth wireless communication function, and includes a hydroponic cultivation control function through real time control function and reservation time setting using a smart phone possessed by the general public.

On the other hand, as shown in Figure 9, the nutrient solution supply stage 100 may be configured to form a fish tank 150 in the front, and to receive the nutrient solution 110 in the rear. In this case, since the nutrient solution supply stage 100 is formed of a transparent material, compared to the case where the nutrient solution 110 is directly exposed to the outside, the fish tank 150 installed on the front side can add aesthetics and interior functions. .

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

100; Nutrient Supply Stage 110: Nutrient Solution
120; Pump 130; Water hose
140; Drain hose 150; fishbowl
200; Upper hydroponic culture 210; Internal connection water supply hole
220; Water supply hole (lower) 230; Internal connection drain hole
240; Drainage hole (bottom) 250; Partition for class and drainage
270; Light pole mounting holes 290; Leakage prevention device
300; Middle stage hydroponic cultivation framework 310; Water supply hole (upper part)
320; Drainage hole (top) 330; bulkhead
400; Light fixture 410; Light fixture
411: light upper surface 420; Light fixture or LED bar
430; Control module

Claims (11)

A nutrient solution supply stage in which nutrient solution is stored and recovered;
An intermediate stage hydroponic cultivation frame stacked above the nutrient supply stage;
An upper hydroponic cultivation frame stacked above the middle hydroponic cultivation frame;
The light unit coupled to the upper hydroponic cultivation frame, having a control module for controlling the hydroponic cultivator, and a light and LED bar for irradiating light to the nutrient solution supply stage, the middle stage hydroponic cultivation frame and the upper hydroponic cultivation frame. ; And
It is formed integrally with the intermediate stage and the top hydroponic cultivation frame, the nutrient solution supply unit for receiving the nutrient solution; includes;
The nutrient solution supply stage, the intermediate stage and the top hydroponic cultivation frame is formed of a transparent resin material,
The nutrient solution supply unit,
It is composed of at least one water supply passage and drainage passages provided on the left and right side walls of the intermediate stage and the upper hydroponic cultivation frame, the multi-layer structure for supplying the nutrient solution stored in the nutrient solution supply space inside the intermediate stage and the upper hydroponic cultivation frame Hydroponic cultivator.
delete According to claim 1, wherein the middle and top hydroponic cultivation frame,
A hydroponic cultivator having a multi-layer structure for forming a water supply passage and a drainage passage using a partition made of the same material as the intermediate and upper hydroponic cultivation framework.
According to claim 1, wherein the middle and top hydroponic cultivation frame,
And a hydroponic cultivator having a multi-layer structure having a backflow prevention portion at a connection portion between the water supply passage and the drain passage.
The method of claim 1, wherein the lamp unit,
A pair of light support pillars coupled to the upper hydroponic cultivation framework; And
Hydroponic cultivation of a multi-layer structure comprising a; light source of any one of the light and the LED bar is installed on the bottom surface, the upper surface of the lamp unit is installed on the control module.
According to claim 5, The upper hydroponic cultivation frame,
A hydroponic cultivator having a multi-layer structure further comprising; a light pole mounting hole for inserting the light support pillar.
The method of claim 1,
The intermediate stage hydroponic cultivation frame, has a space for securing a growth space of the plant between the top hydroponic cultivation frame,
Hydroponic cultivation of a multi-layer structure further comprises a light source for supplying a separate light to the plant cultivated in the space portion below the bottom of the top hydroponic cultivation frame.
The apparatus of claim 1,
Using a program mounted on a smartphone, the hydroponic cultivator is equipped with either a control method of a direct control of a Bluetooth wireless communication method or a control of a time reservation method. Hydroponic cultivator with multi-layer structure that performs ON / OFF, brightness adjustment, and pump operation control of electric lamp mounted on hydroponic cultivator.
The method of claim 1,
The nutrient solution supply stage, the middle end and the top hydroponic cultivation frame is a multi-layer hydroponic cultivator is provided with any one of acrylic and PC (Poly Carbonate) material.
According to claim 1, The nutrient solution supply stage,
A hydroponic cultivator having a multi-layer structure, characterized in that the front portion is used as a fish tank.
A nutrient solution supply stage in which nutrient solution is stored and recovered;
An upper hydroponic cultivation frame laminated on the nutrient solution supply stage hydroponic cultivation frame;
The light unit coupled to the upper hydroponic cultivation frame, having a control module for controlling the hydroponic cultivator, and a light and LED bar for irradiating light to the nutrient solution supply stage, the middle stage hydroponic cultivation frame and the upper hydroponic cultivation frame. ; And
It is formed integrally with the upper hydroponic cultivation frame, the nutrient solution supply unit for receiving the nutrient solution;
The nutrient solution supply unit is composed of at least one water supply passage and a drainage passage provided on both left and right side walls of the middle stage and the upper hydroponic cultivation frame, and supplies the nutrient solution stored in the nutrient solution supply stage internal space to the upper hydroponic cultivation frame.
The nutrient solution supply stage, the top hydroponic cultivation frame is a multi-layered hydroponic cultivator formed of a transparent resin material.

Images