KR20220094379A - Apparatus For Smart Cultivating Plants For Education Equipment - Google Patents

Abstract

The present invention relates to a smart apparatus for cultivating plants for education equipment and, more specifically, to an apparatus for cultivating root plants hydroponically, which comprises: a housing body having a cultivation room arranged therein, a root growth room arranged under the cultivation room, and a partition panel with through-holes; a lamp disposed in the cultivation room to emit light to the root plants; and a planting cap fitted and fixed into the through-holes on the partition panel and having drawing holes which the root plants are planted into and pass through. Accordingly, light and water are provided to root plants growing hydroponically to ensure stable growth, and growth of the roots can be observed from the outside, thereby enabling the apparatus to be used for observation in education. In addition, humidity and temperature are controlled, so that an optimal cultivation environment can be provided.

Description

Smart Cultivating Plants For Education Equipment {Apparatus For Smart Cultivating Plants For Education Equipment}

The present invention relates to a plant cultivation apparatus, and more particularly, it is possible to provide light and water to hydroponically grown root plants so that they can grow stably, and it is possible to observe the growth of the roots from the outside, so that it can be applied for observation education. It relates to a smart plant cultivation device for educational equipment that can provide an optimal cultivation environment by controlling humidity and temperature.

In general, hydroponics is a cultivation method in which plants are fixed in various ways without using soil at all, and the necessary nutrients are diluted in water and the culture solution is continuously supplied.

Hydroponics like this can avoid the continuous crop failure of facility cultivation, and it is possible to expand the cultivation scale through equipment and mechanization, etc.

In addition, there are advantages of being able to conduct corporate management, environment-friendly agriculture, stable harvest without differences in weather conditions, and continuous cultivation in the same environment for a long period of time.

Fluorescent lighting, incandescent lighting, and high-pressure sodium lighting have been used as lighting to induce photosynthesis in hydroponics for such hydroponics, but recently, LED (Light Emitting Diode) lighting with excellent durability is mainly used.

The LED lighting can be divided into physiological effect radiation with a wavelength in the range of 300 to 800 nm and photosynthesis effect radiation in the range of 400 to 700 nm, which is the light required by plants. light is reflected As such, the LED lighting has good durability and can emit light in the wavelength range required by plants, so it is optimal for hydroponics in plant factories.

However, the conventional plant cultivation apparatus has a problem in that the operator has to supply water directly to the plant to be grown, and it is difficult to use it for observation education because the growth process of the root cannot be observed. There is always a problem that it is difficult for cultivated plants to grow effectively because there is no function.

The above-mentioned invention refers to the background of the technical field to which the present invention pertains, and does not mean the prior art.

Registered Patent No. 10-1614752

The present invention has been devised to solve the above problems of the prior art, and an object of the present invention is to provide light and water to hydroponically grown root plants so that they can grow stably, and to observe the growth of the roots from the outside. The purpose is to provide a smart plant cultivation device for educational equipment that can be applied for observation education and can provide an optimal cultivation environment by controlling humidity and temperature.

The present invention is a cultivation apparatus for hydroponically cultivating root plants, a housing body having a cultivation room provided therein, a root growth room provided below the cultivation room, a partition wall panel having through holes formed therein, and the cultivation room A lamp disposed in the to irradiate light to the root plant, and a planting cap fitted with a through hole formed in the bulkhead panel and fixed, the root plant is planted, and a planting cap having draw-out holes so that the root of the root plant penetrates characterized by being made.

In addition, the housing body is provided with a temperature control unit configured to control the temperature of the root growth room, and a control unit for controlling the temperature control unit, and a humidifier is provided to maintain a constant humidity in the root growth room, and the root It is characterized in that the nutrient supply unit is further provided to supply nutrients to the roots of the root plants arranged in the growth chamber.

In addition, the temperature control unit includes a cooling water tank provided in the housing body and filled with cooling water, a cooling pump circulating and moving the cooling water in the cooling water tank, a thermoelectric member cooling the cooling water of the cooling water tank, and the thermoelectric member. It is characterized in that it consists of a cooling fan for dissipating the cool air of the cooled cooling water, and a temperature sensor provided in the root growth chamber and transmitting a detection signal to the control unit.

In addition, the nutrient supply unit nozzle pipes disposed on the upper part of the support panel provided in the interior of the housing body, and a spray nozzle formed while maintaining a predetermined interval on the nozzle pipe, and a nutrient for supplying nutrients to the nozzle pipe It is characterized in that it consists of a supply pump and a timer that transmits a driving signal of the nutrient supply pump to the control unit.

In addition, the housing body is characterized in that when the door is opened, the mist sprayed through the humidifying device is moved to the outside, so that humidification is made in the room in which the housing body is disposed.

The present inventor's smart plant cultivation device for educational equipment provides light and water to hydroponically cultivated root plants so that they can grow stably, and it is possible to observe the growth of the roots from the outside, so that it can be applied for observation education, humidity and temperature are controlled to provide an optimal growing environment.

1 is a front view showing a smart plant cultivation apparatus for educational equipment according to the present invention.
2 is a partial cross-sectional view showing a smart plant cultivation apparatus for educational equipment according to the present invention.
3 is a cross-sectional view showing a planting cap of the smart plant cultivation device for educational equipment according to the present invention.
4 is a cross-sectional view showing a smart plant cultivation apparatus for educational equipment according to the present invention.
5 is a conceptual diagram illustrating a control structure of a smart plant cultivation device for educational equipment according to the present invention.
6 is an operation state diagram showing a smart plant cultivation device for educational equipment according to the present invention.
7 is a cross-sectional view showing the nozzle tube of the smart plant cultivation device for educational equipment according to the present invention.
8 is a conceptual diagram illustrating a temperature control unit of a smart plant cultivation device for educational equipment according to the present invention.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text. That is, since the embodiment may have various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

On the other hand, the meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

When a component is referred to as being “connected” to another component, it may be directly connected to the other component, but it should be understood that other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. Meanwhile, other expressions describing the relationship between elements, that is, "between" and "between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The singular expression is to be understood as including the plural expression unless the context clearly dictates otherwise, and terms such as "comprises" or "have" refer to the embodied feature, number, step, action, component, part or these It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

In each step, identification numbers (eg, a, b, c, etc.) are used for convenience of description, and identification numbers do not describe the order of each step, and each step clearly indicates a specific order in context. Unless otherwise specified, it may occur in a different order from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms defined in the dictionary should be interpreted as being consistent with the meaning of the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present invention.

1 is a front view showing a smart plant cultivation apparatus for educational equipment according to the present invention. 2 is a partial cross-sectional view showing a smart plant cultivation apparatus for educational equipment according to the present invention. 3 is a cross-sectional view showing a planting cap of the smart plant cultivation device for educational equipment according to the present invention. 4 is a cross-sectional view showing a smart plant cultivation apparatus for educational equipment according to the present invention. 5 is a conceptual diagram illustrating a control structure of a smart plant cultivation device for educational equipment according to the present invention. 6 is an operation state diagram showing a smart plant cultivation device for educational equipment according to the present invention. 7 is a cross-sectional view showing the nozzle tube of the smart plant cultivation device for educational equipment according to the present invention. 8 is a conceptual diagram illustrating a temperature control unit of a smart plant cultivation device for educational equipment according to the present invention.

As shown in the drawing, the present inventor's smart plant cultivation device 10 for educational equipment (hereinafter referred to as a hydroponic cultivation device for convenience of explanation) hydroponically cultivates root plants for education or experiments, and the growth process of the root plants As a hydroponic cultivation device to observe the, such a hydroponic cultivation device 10 consists of a housing body 20, a lamp 30, and a planting cap (40).

The housing body 20 has a culture chamber 21 provided therein, a root growth chamber 22 is provided below the culture chamber 21, and a partition wall panel 23 having through holes 231 is provided. is formed

The housing body 20 is formed in a rectangular housing structure, is made of a metal material, it is also possible to form a synthetic resin material.

The housing body 20 is provided with doors 28 to open or close the cultivation chamber 21 and the root growth chamber 22, and after opening the door 28, a planting cap 40 in which the root plant is accommodated. ) can be mounted on the partition wall panel 23 and the process of root growth can be observed.

The bulkhead panel 23 is fixed by screwing or welding to the inner surface of the housing body 20 .

Alternatively, after fixing the locking shaft of the frame structure along the inner surface of the housing body 20, it is also possible to arrange the bulkhead panel 23 to be supported on the upper portion of the locking shaft.

The lamp 30 is an LED light, and is disposed in the cultivation room 21 to irradiate light to the root plant. The lamp 30 is fixed to the inner upper surface of the cultivation chamber 21 of the housing body 20 and irradiates light to the root plant. Preferably, the lamp 30 is electrically connected to the light intensity dial installed on the housing body 20 to control the light intensity of the lamp 30 by controlling the light intensity dial. At this time, it is possible to maintain the cultivation chamber 21 at a constant temperature by the heat of the lamp 30 . The lamp 30 is electrically connected to and controlled with a control unit 25 to be described later.

The planting cap 40 is fitted and fixed in the through-holes 231 formed in the partition wall panel 23, and the root plants are planted, and lead-out holes 41 are formed so that the roots of the root plants penetrate.

By allowing the water to be discharged through the withdrawal hole 41, it is possible to prevent the water from pooling and rotting the root part.

In addition, the planting cap 40 is integrally formed with an annular locking protrusion on the upper outer surface, so that the planting cap 40 is prevented from being pulled out by the planting cap 40 being caught in the through hole 231 .

In the planting cap 40, the root part of the root plant is planted together with cork or soil, and it is also possible to plant only the root plant without cork or soil.

In addition, as the root plant grows, the lengthening root is penetrated through the pull-out hole, so that the growth process of the root can be observed from the outside after the door 28 is opened.

A temperature control unit 24 configured to control the temperature of the root growth chamber 22 and a control unit 25 for controlling the temperature control unit 24 are provided in the housing body 20, and the root growth chamber A humidifying device 26 is provided at 22 to maintain a constant humidity, and a nutrient providing unit is further provided to supply nutrients to the roots of the root plants disposed in the root growth chamber 22 .

The temperature control unit 24 includes a cooling water tank 241 provided in the housing body 20 and filled with cooling water, a cooling pump 242 for circulating and moving the cooling water in the cooling water tank 241, and the cooling water tank. A thermoelectric member 243 for cooling the cooling water of 241, a cooling fan 244 for dissipating cold air of the cooling water cooled by the thermoelectric member, and the control unit 25 provided in the root growth chamber 22 It consists of a temperature sensor 245 that transmits a detection signal to the

The cooling water tank 241, the cooling pump 242, and the thermoelectric member 243 are interconnected by a pipe, and the cooling fan 244 is located inside the root growth chamber 22 of the housing body 20. It is arranged to supply wind to the pipe to which the cooling water cooled by the thermoelectric member 243 is moved to dissipate cool air.

The thermoelectric member 243 is a Peltier element, and receives cooling water by driving the cooling pump 242 to cool it to a predetermined temperature.

The temperature sensor 245 detects the temperature of the root growth chamber 22 and transmits a detection signal to the control unit 25, and when the temperature is higher than the set temperature, the control unit 25 controls the cooling pump 242, By transmitting a signal to the thermoelectric member 243 and the cooling fan 244 to be driven, the temperature is lowered to a set temperature.

The humidifier 26 is a humidifier, and receives water from the outside and sprays it into fine particles to maintain the internal humidity of the root growth chamber 22 at a set humidity.

The humidifier 26 is electrically connected to the control unit 25 and controlled.

At this time, it is preferable to arrange a humidity sensor in the root growth chamber 22 so that the control unit 25 receives the detection signal of the humidity sensor to control the humidification device 26 .

The nutrient supply unit 50 is formed with nozzle tubes 51 disposed on the upper portion of the support panel 27 provided inside the housing body 20 and the nozzle tube 51 at a predetermined interval. A spray nozzle 52, a nutrient supply pump 53 for supplying nutrients to the nozzle tube 51, and a timer 54 for transmitting a driving signal of the nutrient supply pump 53 to the control unit 25 is done

The support panel 27 is fixed by screwing or welding to the inner surface of the housing body 20 , and is disposed below the bulkhead panel 23 .

The timer 54 is electrically connected to the nutrient supply pump 53, so that it is driven by transmitting a driving signal every set time, it is possible to supply the nutrient at a set time.

The nutrient is to be used as a liquid nutrient to be sprayed through the injection nozzle (52).

The housing body 20 allows the mist sprayed through the humidifier 26 to move to the outside when the door 28 is opened, so that humidification is made in the room where the housing body 20 is disposed. The mist is supplied to the room in which the housing body 20 is disposed so that humidification can be achieved.

By humidifying the room by the humidifier 26, there is no need to provide a separate humidifier.

Alternatively, humidifying holes are further formed on the outer surface of the housing body 20 to pass through the root growth chamber 22, and the humidifying device 26 is passed through the humidifying holes without opening the door 28. It is preferable that the fumes of the air are discharged to the outside to humidify the room.

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are merely illustrative and not restrictive, and the present invention is the technical spirit or field of the present invention provided by the following claims Within a range that does not depart from, it will be said that component changes to a degree that can be equally dealt with fall within the scope of the present invention.

10: hydroponic cultivation device 20: housing body
21: cultivation room 22: root growth room
23: bulkhead panel 231: through hole
24: temperature control unit 241: cooling water tank
242: cooling pump 243: thermoelectric member
244: cooling fan 245: temperature sensor
25: control unit 26: humidifier
27: support panel 28: door
30: lamp 40: planting cap
41: withdrawal hole 50: nutrient supply unit
51: nozzle tube 52: spray nozzle
53: nutrient supply pump 54: timer

Claims (5)

As a cultivation device adapted to hydroponically cultivate root plants,
a housing body having a culture chamber provided therein, a root growth chamber provided at a lower side of the culture chamber, and a partition panel having through holes formed therein;
a lamp disposed in the cultivation room to irradiate light to the root plant; and
A smart plant cultivation device for educational materials, characterized in that it is fitted and fixed in a through hole formed in the bulkhead panel, the root plant is planted, and a planting cap having draw-out holes formed so that the root of the root plant penetrates.
The method of claim 1,
The housing body includes a temperature control unit configured to control the temperature of the root growth chamber;
A control unit for controlling the temperature control unit is provided,
A humidifier is provided to maintain a certain humidity in the root growth room,
Smart plant cultivation apparatus for educational equipment, characterized in that a nutrition providing unit is further provided to supply nutrients to the roots of the root plants disposed in the root growth room.
3. The method of claim 2,
The temperature control unit includes a cooling water tank provided in the housing body and filled with cooling water;
a cooling pump for circulating and moving the cooling water in the cooling water tank;
a thermoelectric member for cooling the cooling water of the cooling water tank;
a cooling fan for dissipating cold air of the cooling water cooled by the thermoelectric member;
A smart plant cultivation device for educational materials, characterized in that it is provided in the root growth room and comprises a temperature sensor that transmits a detection signal to the control unit.
3. The method of claim 2,
The nutrient supply unit includes nozzle pipes disposed on the upper portion of the support panel provided inside the housing body,
a spray nozzle formed while maintaining a predetermined interval in the nozzle tube;
And a nutrient supply pump for supplying nutrient to the nozzle tube,
Smart plant cultivation device for educational equipment, characterized in that it consists of a timer that transmits a driving signal of the nutrient supply pump to the control unit.
3. The method of claim 2,
The housing body is a smart plant cultivation device for educational equipment, characterized in that when the door is opened, the mist sprayed through the humidifying device is moved to the outside, so that humidification is made in the room in which the housing body is disposed.

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