KR102514461B1 - Nutrient circulating type increase amount measurement Plant cultivation - Google Patents

Abstract

Disclosed is a nutrient solution circulation type transpiration plant cultivation system. The present invention, a cultivation room having a predetermined growth space for inducing the growth of plants; A hole installed inside the cultivation room, accommodating the soil in which plants are planted, having a flow path supplying nutrient solution to induce planting of plants along the surface, and in which plants are planted to exclude moisture evaporation caused by other factors. A cultivation bed configured to limit moisture evaporation due to different external temperature, humidity, and heat by installing a bed cover around the; an artificial light source provided in the periphery of the growth bed to induce a photosynthetic action of plants planted on the growth bed; A nutrient solution supply tank for supplying and recovering nutrient solution to the flow path of the cultivation bed; and a level gauge for detecting the level of the nutrient solution in the nutrient solution supply tank.

Description

Nutrient circulating type increase amount measurement Plant cultivation

The present invention relates to a nutrient solution circulation type transpiration measuring plant cultivator for measuring and determining whether a plant grows well.

Recently, consumers demanding the supply of safe agricultural products are increasing, and grain prices have soared internationally due to abnormal weather conditions, and food security has become an important issue, so interest in plant factory-type plant production systems is increasing. Accordingly, various types of crop cultivation systems have been proposed to improve the production efficiency of agricultural products. For example, the crop cultivation system artificially controls environmental conditions such as light, temperature, humidity, carbon dioxide concentration, and culture medium in a constantly controlled facility to automatically and continuously produce crops regardless of the season or place. is composed of

Crop cultivation systems are generally classified into complete control type, sunlight-combined type, and sunlight-use type according to the type of use of light source. It can promote plant growth and has the advantage of being able to produce high-quality seedlings under uniform growth conditions because it is not affected by pests and external air.

In order to put an efficient crop cultivation system to practical use, it is necessary to investigate not only the nutrient solution components, the type of artificial light source and the light irradiation time, but also the high photosynthetic synthesis amount among the conditions for sound cultivation, that is, environmental factors that can activate transpiration. something is being demanded

For example, in plant cultivation, in order to measure and judge the conditions for vigorous transpiration, light intensity, appropriate temperature, low air humidity, and adequate ventilation can be checked by transpiration. A transpiration rate measuring device is needed to measure the

Existing transpiration measurement devices mainly use a method of measuring the transpiration amount of crops by covering the entire crops of the individual unit, such as a tree or abandonment, with transparent vinyl, and measuring the weight of water droplets formed on the vinyl after a certain period of time has elapsed. However, accurate measurement is difficult. In order to accurately measure the amount of transpiration, it is difficult and a separate equipment and a water level sensor for detecting the water level are required, and expensive equipment must be installed, so there are limitations and limitations in practical use.

Accordingly, the inventor of the present application simply measures the amount of water reduced by the reaction of absorption by photosynthetic action during plant growth through a relatively simple transpiration amount measuring device, and measures the amount of transpiration in a nutrient solution circulation type that can easily and simply derive the amount of transpiration through this. Suggest a plant grower. In addition, the plant cultivator including the transpiration amount measuring device allows the growth data of various plants to be secured by allowing plants to grow and measure the amount of transpiration at the same time, thereby securing the optimal growth conditions. would like to propose

Patent Document 1. Japanese Unexamined Patent Publication P2010-115129A (published on May 27, 2010)

One of the technical problems to be solved by the present invention is to simply measure the amount of water reduced by the reaction by absorption by photosynthetic action during plant growth through a relatively simple transpiration measuring device, and through this, the transpiration can be easily and simply derived It is to provide a nutrient solution circulation type transpiration amount measuring plant cultivator and a transpiration amount measuring method using the same.

One of the technical problems to be solved by the present invention is to secure growth data of various plants by enabling plants to grow and measure transpiration at the same time through a plant cultivation device including a transpiration amount measuring device, and through this, suitable for plant growth It is an object of the present invention to provide a nutrient solution circulation type transpiration measuring plant cultivator capable of securing optimal growth conditions.

According to the present invention, the above objects are installed inside the cultivation room having a predetermined growth space for inducing plant growth, and having a flow path for supplying nutrient solution to induce planting of plants along the surface, A bed cover is installed so that only the space where only the stems of the plant can come out is opened so that moisture evaporation due to temperature, humidity, and heat is limited, and the rest is a shielded growth bed and photosynthetic action of plants planted on the growth bed In the nutrient solution circulation type transpiration measurement plant cultivation device including an artificial light source provided at the periphery of the cultivation bed to induce induction, the inflow of moisture from the outside except for the nutrient solution circulated through supply and drainage of the nutrient solution to the cultivation bed and In order to exclude or control the evaporation of the nutrient solution from the inside, the nutrient solution supply tank has a closed structure with the side wall and the upper part blocked by a partition wall, and the nutrient solution supply tank attached to the outside of the nutrient solution supply tank visually determines the amount of reduction in the nutrient solution absorbed by the plant. It can be achieved from a nutrient solution circulation type transpiration measuring plant cultivator including a level gauge arranged to measure and measure.

According to an embodiment of the present invention, the cultivation bed may include a circulation passage in which one end is connected to a water supply line and the other end is connected to a drain line, through which nutrient solution is supplied and drained by a pump.

According to an embodiment of the present invention, the growth bed is configured to limit moisture evaporation due to other external temperature, humidity, and heat by installing a bed cover around a hole drilled in the growth bed to exclude moisture evaporation caused by other factors characterized by

According to an embodiment of the present invention, the artificial light source may be positioned on the lower surface of the head of the cultivation room to irradiate light toward the plants for plant growth.

According to an embodiment of the present invention, the artificial light source is characterized in that it includes a light controller for controlling the irradiated light to be irradiated by dividing the irradiated light into a first irradiation light and a second irradiation light.

According to an embodiment of the present invention, the artificial light source may be selected from any one or more of artificial light including fluorescent light, incandescent light, LED, and quantum dot light.

According to an embodiment of the present invention, the nutrient solution supply tank may be configured by supplying the nutrient solution stored therein to the cultivation bed through a water supply line by driving a pump and connecting it to a circulation passage for recovering the nutrient solution through a drain line. there is.

According to an embodiment of the present invention, it may be preferable that the nutrient solution supply tank has a closed structure that excludes or controls the inflow of moisture from the outside except for the nutrient solution circulated through water supply and recovery.

According to an embodiment of the present invention, the level gauge may be attached to the outside of the nutrient solution supply tank to measure the amount of reduction of the nutrient solution absorbed by the plant.

According to an embodiment of the present invention, the level gauge may be configured to measure the amount of water reduced by absorption of plants by attaching a bypass level gauge or a sight glass level gauge capable of measuring the amount of transpiration to the nutrient solution supply tank. .

The present invention has the effect of simply measuring the amount of water reduced by the reaction of absorption by photosynthetic action during plant growth through a relatively simple transpiration amount measuring device, and easily and conveniently deriving the amount of transpiration without using expensive equipment. there is.

The present invention enables to measure the amount of transpiration in real time while growing plants through a plant cultivator including a transpiration amount measuring device, thereby securing growth data of various plants, and through this, optimal growth conditions suitable for the growth of plants can be obtained at low cost. It has an effect that can be easily identified and secured.

1 is a schematic illustration illustrating a nutrient solution circulation type transpiration amount measuring plant cultivator according to an embodiment of the present invention.
2 is an example of controlling an optical wavelength region of light emitted from an artificial light source according to an embodiment of the present invention through an optical controller.

Hereinafter, the content of the 'nutrient solution circulation type transpiration amount measuring plant cultivator' according to a preferred embodiment of the present invention will be described with reference to the drawings.

In order to put an efficient crop cultivation system into practical use, it is necessary to identify not only the nutrient solution components, the type of artificial light source, and the light irradiation time, but also the high photosynthetic synthesis amount among the conditions for sound cultivation, that is, the environmental factors that can stimulate transpiration. It is becoming.

For example, in plant cultivation, in order to measure and judge the conditions for vigorous transpiration, light intensity, appropriate temperature, low air humidity, and adequate ventilation can be checked by transpiration. It requires a transpiration amount measuring device that measures the

Existing transpiration measurement devices mainly use a method of measuring the transpiration amount of crops by covering the entire crops of the unit unit, such as a tree or abandonment, with transparent vinyl, and measuring the weight of water droplets formed on the vinyl after a certain period of time has elapsed. When using it, it is difficult to accurately measure it, and in order to accurately measure the amount of transpiration, a separate equipment and a water level sensor for detecting the water level are required, and expensive equipment must be installed, so it is insufficient for practical use and has limitations.

Accordingly, in the present invention, nutrient solution circulation that can be measured and judged by transpiration based on whether plant growth is well achieved by measuring plant growth and photosynthetic amount in a certain facility that controls crops for plant production We present a plant cultivation machine for measuring transpiration.

The nutrient solution circulation type transpiration amount measuring plant cultivator according to the present invention attaches a bypass level indicator or a sight glass level gauge capable of measuring the amount of transpiration to the nutrient solution supply tank so that the plants absorb the nutrient solution through photosynthesis and the nutrient solution becomes By measuring the degree of reduction, it is possible to construct a structure that can accurately and simply measure the amount of transpiration of plants currently being cultivated with high reliability.

Here, the nutrient solution is not drained when the nutrient solution is supplied to the plants through the nutrient solution supply tank having a certain space, and it has a closed structure that blocks the inflow of other foreign substances or moisture except for the nutrient solution, and the nutrient solution by the pump pressure feeds the cultivation bed. It may be desirable to configure it to have a circulating feature that can be circulated.

In addition, in the nutrient solution circulation type transpiration measuring plant cultivator according to the present invention, the upper part of the plant growth bed has a space for only the plant stem to come out so as not to evaporate at artificial light sources or high temperatures, and the rest has a shielding structure to prevent moisture evaporation. It may be desirable to configure.

In addition, the nutrient solution circulation type transpiration amount measuring plant cultivator according to the present invention can be configured to secure growth data in real time by including a transpiration amount measuring device to grow plants and measure transpiration amount at the same time.

In addition, since the nutrient solution circulation type transpiration measuring plant cultivator according to the present invention can apply the transpiration amount measuring device to the closed type plant factory plant cultivator, it is possible to obtain transpiration as well as growth data while growing crops, thereby lowering the failure rate for crop cultivation. It can be configured to increase the probability of success in crop cultivation because it can obtain rich experimental data compared to existing plant cultivators and improve the productivity of crops because it can know whether high photosynthesis occurs in various environments.

The specific configuration of the nutrient solution circulation type transpiration amount measuring plant cultivation device according to a preferred embodiment of the present invention is as shown in FIG.

1 is a schematic illustration illustrating a nutrient solution circulation type transpiration amount measuring plant cultivator according to an embodiment of the present invention.

As shown in FIG. 1, the nutrient solution circulation type transpiration amount measuring plant cultivation device 100 according to an embodiment of the present invention includes a cultivation room 110 having a predetermined growth space 120 for inducing plant growth, a cultivation room ( 110) A growth bed 130 that is installed inside, accommodates the soil on which plants are planted, and has a flow path for supplying nutrient solution to induce planting of plants along the surface, photosynthesis of plants planted on the growth bed 130 Nutrient solution supply tank 150 and nutrient solution supply tank 150 including an artificial light source 140 provided at the periphery of the cultivation bed 130 to supply and recover nutrient solution to the flow path of the cultivation bed 130 to induce the action It may be configured to include a level gauge 160 provided in and detecting the level of the nutrient solution.
Here, the nutrient solution supply tank 150 has a side wall ( 151) and an upper part of the barrier rib 152 may be configured as a closed structure.

In addition, as shown in FIG. 1, the cultivation bed 130 has one end connected to the water supply line 171 and the other end connected to the drain line 172, so that the supply and drainage of the nutrient solution is circulated by the pump 170. It may be configured to include a circulation flow path that is.

In addition, as shown in FIG. 1, in the growth bed 130, the bed cover 132 is installed around the hole 131 drilled in the growth bed 130 to exclude moisture evaporation caused by other factors, so that other external It may be desirable to configure it to limit moisture evaporation due to temperature, humidity, and heat. This can increase measurement reliability.

In addition, as shown in FIG. 1, it may be preferable to place the artificial light source 140 on the lower surface of the head part 111 of the cultivation chamber 110 to emit light toward the plants for plant growth. there is. Through this, light loss can be reduced and plant growth can be activated.

In addition, the artificial light source 140 may include a light controller 141 that controls the irradiated light to be irradiated by dividing the irradiated light into a first irradiation light and a second irradiation light.

2 is an example of controlling an optical wavelength region of light emitted from an artificial light source according to an embodiment of the present invention through an optical controller.

As shown in FIG. 2, the light controller 141 controls the first irradiation light to form a red wavelength of 600 to 800 nm, and controls the second irradiation light to form a blue wavelength of 400 to 500 nm. may be desirable.

Through this, it is possible to provide a light wavelength region suitable for plant growth lighting. For example, as shown in FIG. 2, the blue light 400 ~ 500nm involved in the overall growth of the plant and the red light 600 ~ 690nm which promotes the photosynthesis of the plant are controlled to form a wavelength range to be suitable for plant growth lighting. It may be desirable to control

In addition, the artificial light source 140 may be selected from any one or more of artificial lighting including fluorescent light, incandescent light, LED, and quantum dot light.

Preferably, an LED lighting device with easy light wavelength control may be used as a preferable lighting device.

In addition, as shown in FIG. 1, the nutrient solution supply tank 150 supplies the nutrient solution stored therein to the cultivation bed 130 through the water supply line 171 by driving the pump 170, and the drain line It may be configured by connecting to a circulation flow path for recovering the nutrient solution through (172).

In addition, it may be desirable that the nutrient solution supply tank 150 has a closed structure that excludes or controls the inflow of moisture from the outside except for the nutrient solution circulated through water supply and recovery. Through this, it is possible to improve the measurement reliability of the measurement of the variation of the nutrient solution according to the inflow of external substances without adding or operating a complex structure.

In addition, the level gauge 160 may be attached to the outside of the nutrient solution supply tank 150 to measure the amount of reduction of the nutrient solution absorbed by the plants.

The level gauge 160 may be configured to measure the amount of water reduced by plant absorption by attaching a bypass level gauge or a sight glass level gauge capable of measuring transpiration to the nutrient solution supply tank 150. .

The nutrient solution circulation type transpiration amount measuring plant cultivator 100 according to an embodiment of the present invention is installed in a relatively simple configuration at a plant growth measurement management site to easily and practically measure the amount of transpiration of plants and to provide various intended growth data information in real time. can be obtained with

As described above, the nutrient solution circulation type transpiration amount measuring plant cultivator according to an embodiment of the present invention simply measures the amount of water reduced as a reaction by absorption due to photosynthetic action during plant growth through a relatively simple transpiration amount measuring device, and through this, expensive equipment There is an advantageous advantage in that the amount of transpiration can be easily derived simply and conveniently without use.

In addition, it is possible to measure the amount of transpiration in real time while growing plants through the plant cultivator according to the present invention including the transpiration amount measuring device, thereby securing the growth data of various plants, and through this, the optimal growth conditions suitable for the growth of plants. There is an advantageous advantage in that it can be easily identified and secured at low cost.

Although the present invention has been described with reference to an embodiment shown in the drawings, it is not limited to the embodiment and can be practiced by modifying and transforming within a range that does not deviate from the gist of the present invention. included

100: plant cultivation machine 110: cultivation room
111: head part 120: space
130: growth bed 131: hole
132: bed cover 140: artificial light source
141: optical controller
150: nutrient solution supply tank 160: level gauge
170: pump 171: water supply line
172: drainage line

Claims (8)

A cultivation room having a predetermined growth space for inducing plant growth; A growth bed installed inside the cultivation room, with a bed cover installed so that only the space where only the stems of the plant can come out is opened so that moisture evaporation due to external temperature, humidity, and heat is limited, and the rest is shielded; and an artificial light source provided at the periphery of the growth bed to induce a photosynthetic action of plants planted on the growth bed. A nutrient solution supply tank having a closed structure with side walls and an upper part blocked by partition walls in order to exclude or control the inflow of moisture from the outside and the evaporation of the nutrient solution from the inside, except for the nutrient solution circulated through the nutrient solution supply tank; and a level gauge attached to the outside of the nutrient solution supply tank to visually determine and measure the amount of reduced nutrient solution absorbed by plants. According to claim 1,
The cultivation bed is a nutrient solution circulation type transpiration measuring plant cultivation device including a circulation passage in which one end is connected to a water supply line and the other end is connected to a drain line, through which nutrient solution supply and drainage are circulated by a pump. According to claim 1,
The artificial light source is located on the lower surface of the head of the cultivation chamber for plant growth and is configured to irradiate light toward the plants. According to claim 1,
The artificial light source is a nutrient solution circulation type transpiration amount measuring plant cultivation device including a light controller for controlling the irradiated light to be irradiated by dividing the irradiated light into a first irradiation light of blue light and a second irradiation light of red light. According to claim 1,
The artificial light source is a nutrient solution circulation type transpiration amount measuring plant grower selected from any one or more of artificial lighting including fluorescent lights, incandescent lights, LEDs, and quantum dot lights. According to claim 1,
The nutrient solution supply tank supplies the nutrient solution stored therein to the cultivation bed through the water supply line by driving the pump, and is connected to a circulation passage for recovering the nutrient solution through the drain line. delete delete

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