KR20110051934A - A plant culturing unit using led - Google Patents

Abstract

PURPOSE: A cabinet-type plant cultivation apparatus using an LED is provided to install plural cultivation containers on a display cupboard with a constant interval. CONSTITUTION: A cabinet-type plant cultivation apparatus using an LED comprises the following: a cabinet-type housing formed with a front glass plate, a left side plate, a right side plate, an upper side plate, and a rear side plate to form a space unit inside the housing; cultivation containers(200) with a cubic shape having an opened upper side to mount a plant in the inside, installed in the inside of the cabinet-type housing; an LED lamp mounting board with LED lamps; and a culture solution tank(400) including a submerged pump, an inlet pipe, and an outlet pipe.

Description

Cabinet type plant grower using LED {A Plant Culturing Unit Using LED}

The present invention relates to a cabinet-type plant cultivator using an LED, and in particular, a plurality of culture vessels for plant cultivation are stacked at regular intervals in a housing having a rectangular parallelepiped shape. It relates to a cabinet-type plant grower using the LED, characterized in that to be able to easily grow plants indoors.

Tissue culture room is configured to cultivate the tissues of the plant with the culture conditions such as temperature, humidity and illumination. At this time, the temperature, humidity, and roughness, which are the culture conditions, are very essential for the growth of plants, and the culture state of the tissues varies depending on whether the conditions are many and small, and evenly affect the plants.

In order to solve this problem, Utility Model Application No. 95-25103, "Optical Fiber Light Supply Device of Tissue Culture Room," and the like, without causing a temperature change in the culture chamber, more evenly reflected to allow all the tissues in the culture chamber to grow evenly.

However, the illuminance, that is, the condition for the light source, has a very difficult supply condition compared to other conditions. That is, most light sources do not provide a suitable light source because they use a lamp such as a glimmer. This is due to the characteristics of 'light' compared to other conditions, and the light around us uses the light with the straightness while having most of the temperature, and it is difficult to control the temperature in the culture chamber by the temperature and because of the straightness of the light The questionnaire was not investigated and some problems were raised.

In addition, a tissue culture side light supply device has been proposed to solve this problem, and 20-1997-0028322 has an LED substrate vertically configured so that a plurality of LEDs face each other at both ends of the incubator housing in which the culture vessel is placed. , It is configured to scan the LED light to the side of the culture dish, to prevent heat generated by the lighting device to facilitate the temperature control in the culture chamber, and tissue culture light side supply device using the LED side light configured to improve crop growth with side light As regards the present invention, the light is evenly distributed in the tissue culture room, and thus the temperature is not affected.

However, not only it is difficult to install the LED on the side, but also the complicated structure of the LED board to stand vertically there was a problem that the product is rough and acts as a cost increase.

In addition, in the prior art, there is no concept of circulating water, and thus there is a problem in that it becomes a form similar to that of watering a flower pot, which makes it difficult to manage.

The present invention is to solve the above problems,

A plurality of culture vessels are stacked and installed in a cabinet of a cabinet structure, and a pumping device is added to circulate water to each culture vessel, and a plurality of LED lamp mounting substrates are arranged on the bottom of the culture vessel. The purpose is to provide a plant grower that is easy to manufacture and easy plant cultivation.

In addition, it is another object to grow the plants in the optimum environment by providing a different illumination by grasping the degree of plant growth by plant rearrangement shooting with a camera.

As a means for achieving the above object,

The present invention consists of a cabinet-like cabinet housing 100 formed of a rectangular parallelepiped shape consisting of a front glass plate, a left side plate, a right side plate, a top plate, and a back plate;

A culture vessel 200 having an open cuboid shape at the top and mounted on the inner space to be cultivated and vertically installed at a predetermined interval inside the cabinet-type cabinet housing;

LED lamps are installed at regular intervals, the LED lamp mounted substrate 300 is installed on the bottom of the culture vessel;

A culture medium tank 400 installed at a lower portion of the cabinet-type cabinet cabinet and formed of a rectangular parallelepiped housing into which a liquid culture solution is inserted, and an underwater pump is inserted therein and an input tube and an output tube are installed outside;

A culture medium input tube 500 formed by coupling a plurality of connection hoses and connecting the connection hoses to the input holes of the culture vessel as a vertical bar form extending to the input tube of the culture tank;

Installed through the bottom of the culture vessel but installed in a zigzag at the left end of one side of the culture vessel arranged in a plurality of layers and the right end of the other culture vessel in a zigzag, the tube is installed through the culture vessel at the bottom of the culture medium connected to the culture tank Distribution pipe 520;

The camera module 620 is installed on the side of the upper surface of the culture vessel, and the camera support 610 that is erected vertically to support the camera module, by providing a photographed image for the camera module 620 A camera driver 600 for guiding the growth of the plant material existing in the culture vessel 200;

The camera module 620 and the submersible pump 410 and the LED lamp mounted substrate 300 are electrically connected to each other, and the planting period of the entire planting season is analyzed by analyzing the image photographed by the camera module 620. As a result of analyzing the photographed images, when the degree of growth of the plant material is early and late, the LED lamp 310 is controlled to be weakly supplied, and in the medium term, the LED lamp 310 is strongly supplied to the lighting. It is characterized by including the control unit 900 to control.

In addition, the cabinet-type cabinet housing 100,

Characterized in that the bottom is further installed in the culture tank storage cabinet 700 for storing the culture tank.

In addition, the cabinet-type cabinet housing 100,

Characterized in that it is further provided with a culture vessel storage cabinet 800 for inserting the culture vessel in the lower portion.

In addition, the culture vessel 200,

The bottom surface is characterized in that the guide 210 for sliding coupling the LED lamp mounted substrate further comprises.

As described above, the plant cultivator of the present invention is installed by stacking a plurality of culture vessels at a predetermined interval in a cabinet of a cabinet structure, and also adding a pumping device to circulate water to each culture vessel, and LED on the bottom of the culture vessel. By arranging a plurality of substrates for lamp mounting, it is easy to manufacture and the plant cultivation can be made more easily.

In addition, it is possible to grow plants in an optimum environment by providing different illumination by grasping the degree of plant growth by plant replanting photographing with a camera.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is an overall configuration diagram of a cabinet-type plant grower using the LED of the present invention.

Figure 2 is an exploded perspective view of a cabinet-type plant grower using the LED of the present invention.

Figure 3 is an enlarged view of the culture vessel of the present invention.

Figure 4 is an exploded perspective view of the LED fastening structure of the present invention.

5 is a circuit block diagram of the present invention;

The components of the present invention are largely a cabinet-type cabinet housing, a culture vessel, an LED lamp-mounted substrate, a culture tank, a culture medium input tube, a culture medium distribution tube, a culture tank storage cabinet, a culture container storage cabinet, And a camera driver and a controller.

First, the cabinet-like cabinet housing 100 is made of a rectangular parallelepiped consisting of the front glass 110, the left side plate 120, the right side plate 130, the top plate 140, and the back plate 150. It is configured to have a space portion. Of course, the embodiment of the present invention illustrates a rectangular parallelepiped housing but can be manufactured in the form of a hexagonal cylinder or an octagonal cylinder.

The culture vessel 200 is a rectangular parallelepiped shape of which the top is open to mount the planting material in the inner space to be cultivated, horizontally installed at a predetermined interval inside the cabinet-type cabinet housing 100. In fact, the inner space portion of the culture vessel 200 is equipped with a material that can be planted, such as sawdust and planted in the material, such as lettuce. In fact, the culture plate is installed on top of the culture vessel and the culture cup 20 is installed on the culture plate 30, and the planting is contained in the culture cup 20, and the culture solution is grown. It is absorbed through the bottom of the cup and grows the plant.

The LED lamp mounted substrate 300, the LED lamp 310 is installed at a predetermined interval, is installed on the bottom surface of the culture vessel 200 and install a guide 210 at a predetermined interval, LED lamp mounting on the guide The type substrate 300 is inserted and combined.

The culture medium tank 400 is installed at the lower part of the cabinet-type decorative cabinet housing 100, and consists of a rectangular parallelepiped housing into which a liquid culture medium is inserted, and an underwater pump 410 is inserted therein and an input hose is disposed outside. 420 and the output hose 430 is installed to circulate the culture while the submersible pump 410 is operating.

The culture medium input tube 500 is a vertical bar form extending to the input hose 420 of the culture medium tank 400 is coupled to a plurality of connection hoses 510 and the connection hose 510 of the culture vessel 200 By connecting to the input hole to allow the culture medium to be added to each culture vessel. In fact, the culture medium input tube 500 may be embedded in one side pillar 10 constituting the cabinet-shaped cabinet housing 100.

The culture medium distribution pipe 520 is installed on the bottom surface of the culture vessel in the output hole seat so that water is drained through the output hole 220 on the bottom surface of the culture vessel 200 is installed in a zigzag edge, the upper side is the right end If the culture medium distribution tube 520 is installed in the culture vessel immediately installed on the lower end of the culture medium distribution tube 520 is installed on the right end of the culture vessel is installed on the right end of the culture medium distribution tube 520 , The culture medium flowing through the culture vessel 200 was to be supplied smoothly. That is, the culture medium distribution tube of the present invention is installed in a zigzag along the culture vessel 200, if the culture medium was supplied through one side right, the culture medium was supplied through the right side because the culture medium distribution tube 520 is installed at the left end The structure is to fall down after moving to the left, so that the top of the culture vessel 200 is sufficiently wetted to flow. In addition, the culture vessel 200 disposed at the lower end of the culture vessel 200 through the right end after receiving the culture solution from the upper left side is likewise possible to flow while sufficiently wet the culture vessel 200.

Then, the culture medium distribution pipe 520 installed in the lowest culture vessel 200 is connected to the output hose 430 is recovered to the culture medium tank and then cycled through the input hose again.

The camera driving unit 600 includes a camera support 610 and a camera module 620, and installs the camera module 620 on the camera support 610, but installs as many as the number of culture vessels. It is installed on the upper side of the 200) to be able to photograph the planting inside the culture vessel. Analyze the image taken for the camera module 620 to determine the growth of the plant material present in the culture vessel 200, in the present invention is applied differently the illumination intensity of the LED lamp 310 according to the degree of growth of the plant do.

That is, since a large amount of light is not required in the early stage when the plant is grown, it provides the lighting of the weak LED lamp 310, and since the plant is grown to some extent, a large amount of light is required, thereby providing a strong LED lamp 310. do.

The controller 900 is electrically connected to the camera module 620, the submersible pump 410, and the LED lamp mounted substrate 300, and analyzes the image taken by the camera module 620 to determine the extent of planting growth. In addition, it is determined that the growth of the plant in the early and the middle and late stages compared to the previously stored reference data to control the weak supply of the LED lamp 310 in the early and late period, and the LED lamp 310 so as to strongly supply the illumination in the middle period. ).

That is, the control unit 900 of the present invention stores the LED lighting required as the plant grows in advance and stores the database afterwards to grasp the state of planting and how much it has grown compared to the pre-memory planting state, and accordingly the LED lamp Determine the amount of light and supply the corresponding LED light to the plant. At this time, the growth of planting by dividing the three times the growth period of the early and the end of the period when the weak light is needed, and in the middle of the strong light is required to set the amount of light appropriately to supply.

The culture tank storage cabinet 700 is slidingly coupled to the storage box 710 in the form of an open rectangular parallelepiped. Then, the culture medium tank 400 is accommodated in the inner space of the culture tank storage cabinet 700.

The culture vessel storage cabinet 800 is to be used when the seed of the plant sprouts initially is slidingly coupled to the storage box 710. Then, the culture vessel 200 is to be stored in the inner space of the storage container storage cabinet 800. In other words, when germinating seeds, a dark room is required, so that the seeded culture vessel is inserted into the culture vessel storage box to germinate the seeds.

Hereinafter, the assembly method of the present invention will be described.

First, the cabinet-shaped cabinet housing 100 is provided, the housing is a front glass plate 110 that can be sliding or opening and closing, the left and right side plates (120, 130) of the housing made of steel, wood or synthetic resin material, and the upper plate of the housing ( 140 and the back plate 150 of the housing are assembled to each other.

In addition, the lower end of the cabinet-type cabinet housing 100 is provided with a culture tank storage cabinet 700, and a culture vessel storage cabinet (800).

The culture tank 400 is assembled to the culture tank 400, the culture tank 400, the submersible pump 410 is inserted into the culture vessel 400, the culture vessel 200, the culture vessel 200 mounted with the plant to be germinated. Insert

Then, in the process of assembling the cabinet-type cabinet housing 100, the culture medium input tube 500 is inserted into the pillar and the camera support 610 is inserted into the pillar, and the predetermined interval in the vertical direction of the cabinet-type cabinet housing 100 Place the culture vessel 200 is placed. At this time, the LED lamp mounted substrate 300 is assembled to the bottom surface of the culture vessel 200. In addition, the culture vessel 200 is loaded with a material to be planted material is planted in the material.

Hereinafter, the operation of the present invention will be described.

When the assembly is completed as described above, the LED lamp 310 is turned on, and the submersible pump 410 embedded in the culture tank 400 is operated. Therefore, the planting is provided with light by the LED lamp 310 is turned on to grow photosynthesis is made.

Then, the culture solution is discharged by the submersible pump 410 and moved through the culture solution input tube 500, and then the culture solution is introduced into the culture vessel 200 by a hose connected to the culture solution input tube 500.

The added culture solution is supplied to the culture vessel 200, and the culture solution passed through the culture vessel 200 is moved through the culture medium distribution tube to the culture medium tank again. Then, the culture medium is supplied to the food while continuously circulating by the operation of the submersible pump.

As a result, the present invention is equipped with a cabinet-type decoration cabinet, the culture medium tank 400 is installed at the bottom, and after the culture solution is injected into the culture medium tank 400 is rotated by an underwater pump 410, and the planting of the camera module 620 By irradiating the LED light to the plant through the LED lamp 320 on the basis of the result of taking a) it is possible to cultivate the plant in the room stably.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. That is, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the scope of the technical spirit of the present invention by these embodiments. Therefore, the protection scope of the present invention should be interpreted by the claims below, and all technical ideas within the equivalent scope will be construed as being included in the scope of the present invention.

1 is an overall configuration diagram of a cabinet-type plant grower using the LED of the present invention.

Figure 2 is an exploded perspective view of a cabinet-type plant grower using the LED of the present invention.

Figure 3 is an enlarged view of the culture vessel of the present invention.

Figure 4 is an exploded perspective view of the LED fastening structure of the present invention.

5 is a circuit block diagram of the present invention.

Explanation of symbols on the main parts of the drawings

100: cabinet type cabinet housing

110: windshield

120: left side plate

130: right side plate

140: tops

150: backplane

200: culture vessel

210: guide

300: LED lamp mounted substrate

400: culture tank

410: submersible pump

420: input hose

430: output hose

500: culture medium input tube

510: connecting hose

520: culture medium distribution tube

600: culture medium output tube

700: cabinet for storing the culture tank

800: storage container for culture vessel

Claims (4)

Cabinet-shaped cabinet housing 100 formed of a rectangular parallelepiped shape consisting of a front glass plate, a left side plate, a right side plate, an upper plate, and a back plate; A culture vessel 200 having an open cuboid shape at the top and mounted on the inner space to be cultivated and vertically installed at a predetermined interval inside the cabinet-type cabinet housing; LED lamps are installed at regular intervals, the LED lamp mounted substrate 300 is installed on the bottom of the culture vessel; A culture medium tank 400 installed at a lower portion of the cabinet-type cabinet cabinet and formed of a rectangular parallelepiped housing into which a liquid culture solution is inserted, and an underwater pump is inserted therein and an input tube and an output tube are installed outside; A culture medium input tube 500 formed by coupling a plurality of connection hoses and connecting the connection hoses to the input holes of the culture vessel as a vertical bar form extending to the input tube of the culture tank; Installed through the bottom of the culture vessel but installed in a zigzag at the left end of one side of the culture vessel arranged in a plurality of layers and the right end of the other culture vessel in a zigzag, the tube is installed through the culture vessel at the bottom of the culture medium connected to the culture tank Distribution pipe 520; The camera module 620 is installed on the side of the upper surface of the culture vessel, and the camera support 610 that is erected vertically to support the camera module, by providing a photographed image for the camera module 620 A camera driver 600 for guiding the growth of the plant material existing in the culture vessel 200; The camera module 620 and the submersible pump 410 and the LED lamp mounted substrate 300 are electrically connected to each other, and the planting period of the entire planting season is analyzed by analyzing the image photographed by the camera module 620. As a result of analyzing the photographed images, when the degree of growth of the plant material is early and late, the LED lamp 310 is controlled to be weakly supplied, and in the medium term, the LED lamp 310 is strongly supplied to the lighting. Cabinet type plant grower using the LED, characterized in that comprising a control unit for controlling 900. The method of claim 1, The cabinet type cabinet housing 100, Cabinet-type plant cultivator using the LED, characterized in that made by further installing a culture tank storage cabinet 700 for storing the culture tank in the lower portion. The method of claim 1, The cabinet type cabinet housing 100, Cabinet-type plant cultivator using the LED, characterized in that made by further installing a culture vessel storage cabinet for inserting the culture vessel in the lower portion. The method of claim 1, The culture vessel 200, Cabinet type plant cultivator using the LED, characterized in that further comprising a guide 210 for sliding coupling the LED lamp mounted substrate on the bottom surface.

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