KR100897795B1 - Dropwort water culter system - Google Patents

Abstract

The present invention relates to a buttercup hydroponic cultivation system, and more particularly, to a buttercup hydroponic cultivation system that can be easily grown in large quantities of good quality buttercups, and can be obtained through the farming of freshwater fish.

Buttercup hydroponic cultivation system according to the present invention, the water channel; A plurality of workshops provided on the waterway; A plurality of cultivation boxes which float in the water of the channel and move through the channels while moving along the channel; Characterized in that it comprises a flow rate control device for adjusting the flow rate of the channel.

Description

Buttercup hydroponic cultivation system {DROPWORT WATER CULTER SYSTEM}

The present invention relates to a buttercup hydroponic cultivation system, and more particularly, to a buttercup hydroponic cultivation system that can be easily grown in large quantities of good quality buttercups, and can be obtained through the farming of freshwater fish.

Buttercup is a common plant in Korea, so it can be easily found in rivers and rivers, and it is a vegetable that often rises on our tables with its fragrant aroma. Buttercup is used not only for various dishes, but also for oriental medicine, the leaves and stems of the buttercup are used as herbs. Buttercup with high fever, chest and thirsty symptoms are effective, diuretic effect swelling, and tonic and detoxification effect. Due to the efficacy of these buttercups, the value of use as green juice is high recently.

As such, most of the high-valued buttercups are grown in rice fields. In other words, most of the buttercups grown in Korea are rice paddies that are grown in fresh water.

However, rice buttercups, which account for more than 90% of buttercup shipments, are vulnerable to the growing environment. The paddy fields are not isolated and can be easily polluted. Especially, as the water in the rivers is contaminated, the paddies using the pollutants are also seriously polluted, leading to a decrease in the production of buttercups, and a drop in the quality of the buttercups.

Accordingly, it is an object of the present invention to provide a buttercup hydroponic cultivation system that can not only cultivate good quality buttercups in large quantities easily, but also obtain a side income through freshwater fish farming.

The object is, according to the present invention, a waterway; A plurality of workshops provided on the waterway; A plurality of cultivation boxes which float in the water of the channel and move through the channels while moving along the channel; It is achieved by the buttercup hydroponic cultivation system, characterized in that it comprises a flow rate control device for adjusting the flow rate of the channel.

Here, it is preferable that the channel has a long groove shape and is coated with a waterproof material so that water in the channel is not absorbed into the ground.

In addition, ocher is added to the channel, and freshwater fish is preferable to improve the growth conditions of the buttercup and obtain a marginal income.

In addition, one section of the entire section of the channel is provided in a form that is separated into a plurality of sub-channels and merged again, and at least one of the plurality of sub-channels in the high temperature room, low temperature room and the work room for controlling the growth of the minira. Either may be provided.

In addition, the plurality of workplaces includes at least one of a harvest control room, a waste box, a nutrition material input room, a watering and management room, a liquid fertilizer supply room, and an ocher supply room, and the plurality of workplaces are arranged in regular order and at intervals according to the growth schedule and flow rate of buttercups. It is preferable to arrange.

In addition, the cultivation box is formed with a plurality of holes, the cultivation box is provided with a material floating in the water or is provided with a structure including an air layer therein is suitable for hydroponic cultivation of buttercups.

Here, the flow rate control device is to adjust the flow rate of the waterway so that the time taken for the grower to return to the same position from any one of the channels is 50 to 70 days, the first harvest of the buttercup in one rotation of the grower Preferred for

In addition, the flow rate adjusting device may adjust the flow rate of the channel so that the grower reaches the harvest control room after 50 days to 70 days after the buttercup is planted in the harvest control room. This is for harvesting buttercups easily by reaching the harvest control room in 50 to 70 days after the harvesting period of the buttercups is planted even if the grower rotates the channel twice or more.

In addition, the cultivation box is put artificial soil consisting of soil, liquid fertilization and moisture adsorption artificial medium, the artificial soil may be planted buttercups.

As described above, according to the present invention, a buttercup hydroponic cultivation system is provided which can not only easily cultivate good quality buttercups in large quantities, but also obtain a sub-profit through freshwater fish farming.

The buttercup hydroponic cultivation system 1 according to the present invention, as shown in FIG. 1, has a waterway 10 provided in an elongated groove shape and a plurality of workshops 20, 30, 40 provided on the waterway 10. , 50, 60, 70, a plurality of cultivation boxes 90 floating through the water in the channel 10 and passing through the plurality of workshops 20, 30, 40, 50, 60, 70 while moving along the channel 10. And a flow rate adjusting device 80 for adjusting the flow rate of the channel 10.

The waterway 10 according to the present invention has a groove shape formed to have a constant depth and width, as shown in FIGS. 1 and 2, and the water of the waterway 10 is absorbed into the ground on the outer surface of the waterway 10. The waterproof material 12 is applied so as not to. For the hydroponic culture of the buttercup 100 is because the water must be stored in the waterway 10 for a long time without escaping to the outside. The waterproof material 12 may be cement, or may be a waterproof cloth or vinyl. However, the waterproof material 12 does not necessarily need to be applied. That is, the waterway 10 may be formed directly on the ground where water may be maintained at a certain level, such as rice fields. The channel 10 may be provided in various shapes, but as shown in FIG. 1, the channel 10 may be provided to be bent to intensively use the land provided with the channel 10. On the other hand, although not shown in detail, the cultivation box movement stopping means (not shown) is provided in various places of the waterway (10). Water in the waterway 10 needs to continue to flow in order to prevent the sediment from decaying, but the cultivation box 90 needs to be stopped for a period of time as needed. That is, it is necessary to stay in the planting box 90 for a certain time in any one workplace (20, 30, 40, 50, 60, 70), or flow into the workplace (20, 30, 40, 50, 60, 70) Even before the need for a certain time to stay in the grower 90 may occur. To this end, it is necessary for the planting box movement stopping means (not shown) to block the movement of only the planting box 90 to float in the water of the waterway (10). The growth box movement stopping means (not shown) may be provided in such a way as to block the movement of the growth box 90 by applying a force to the growth box 90 in a direction opposite to the direction in which the growth box 90 moves. For example, by installing a blocking film located at a certain height from the waterway 10, if you want to block the movement of the cultivation box 90 can be controlled so as not to move only the cultivation box 90 by dropping the barrier to the water. , Ordinarily raise the barrier can freely move the cultivation box (90). Such a growing box movement stopping means (not shown) may be installed in various places of the waterway 10 as needed.

In addition, ocher 110 and the like are added to the channel 10. Accordingly, the water in the channel 10 is Jijangsu produced by the loess 110. Jijangsu contains the components of the loess 110 to improve the growth and quality of the buttercup (100). In addition, freshwater fish 120 such as loach, catfish, and eel are inhabiting the waterway 10. The freshwater fish 120 and the like to move around in the waterway 10 to disperse sediment, such as loess 110, liquid rain sank on the bottom surface of the waterway (10). Accordingly, the nutrients of the deposits such as loess 110 and the liquid ratio may be reabsorbed into the buttercup 100. That is, the nutrients in the sediment can be reabsorbed into the buttercup 100 by the freshwater fish 120 to help improve the growth and quality of the buttercup, oxygen by the cultivation of the buttercup 100 water in the water channel 10 Since it is fed into the freshwater fish 110 is a great help in the farming. That is, the farm income is increased by the mutual security action of the culture of freshwater fish 110 and cultivation of buttercup 100.

The water channel 10 is provided with a plurality of workshops 20, 30, 40, 50, 60, 70. The workplaces 20, 30, 40, 50, 60, 70 are harvest control room 20, waste chamber 30, nutritional input room 40, watering and management room 50, liquid fertilizer supply room 60 and loess Supply chamber 70 is included. These plurality of workshops 20, 30, 40, 50, 60, 70 are arranged in a certain order and intervals according to the growth schedule and flow rate of the buttercup 100. These workshops 20, 30, 40, 50, 60, 70 are provided in the form of a vinyl house or a prefabricated building, and each workshop 20, 30, 40, 50, 60, 70 is equipped with equipment for a purpose.

Specifically, the harvest management room 20 is installed in one area of the waterway 10. Harvest management room 20 is a place to plant the buttercup stems in the cultivation box (90) filled with artificial soil (95) to float the cultivation box (90) in the channel (10), or to harvest the fully grown buttercup (100). Buttercup stem is prepared to be thick and fresh, planted in artificial soil (95) by the planting device of the buttercup stem. In an emergency, it can also be done by hand. In addition, the harvesting room 20 is also provided with a spray device for spraying water on the planted buttercup stem.

In the direction in which the water in the channel 10 flows, the waste management chamber 30 is located in front of the harvest control room 20. The waste chamber 30 is a place where the buttercups 100 are collected to harvest the growing box 90 to clean up the residues. In the harvest management room 20, the cultivation box 90 in which the buttercup 100 is planted is just passed through the waste chamber 30, but only the cultivation box 90 in which the buttercup 100 is grown is harvested in the waste chamber 30. Collected from Collection of the growing box 90 is made by a collection device (not shown) installed in the waste chamber 30.

In the direction in which the water in the channel 10 flows, the nutrient injecting chamber 40 is provided in front of the waste chamber 30. The nutritional input chamber 40 is a place for supplying the nutrients to the buttercup 100, and supplies the nutrients to help the growth of the buttercup 100 and prevent pests. The nutritional material is supplied to the cultivation box 90 flowing on the channel 10 by an automated device.

The watering and management room 50 is provided in front of the nutritional material supply room 40. Watering and management room 50 is a place to spray water to the buttercup 100, or to supply water to the waterway (10). In addition, when the plant other than the buttercup 100 is grown on the artificial soil 95 of the cultivation box 90, it is a place to remove it, or to boil the poor parsley 100.

The liquid rain supply room 60 is provided in front of the watering and management room 50. Liquid fertilizers are liquid fertilizers that are supplied by diluting powder or particulate fertilizers to form a liquid. Natural fertilizer such as ink and chemical fertilizer are used as liquid fertilizer.

An ocher supply chamber 70 is provided in front of the liquid rain supply chamber 50. The ocher supply chamber 70 is a place for supplying the loess 110 to the water of the waterway 10, and the ocher 110 to the waterway 10 so that the water of the waterway 10 is jijangsu containing the ocher component. Supply.

The plurality of workshops 20, 30, 40, 50, 60, 70 described above may be arranged in the order described above, and the order of the workshops 20, 30, 40, 50, 60, 70 may be reversed. It may be. That is, the workshops 20, 30, 40, 50, 60, 70 do not need to be arranged in the above-described order, but the workplaces 20, 30, 40, 50, of suitable performance depending on the growth period of the buttercup 100, 60, 70 is arranged so that the cultivation box (90) planted buttercup 100 is introduced. In addition to the above-described workshops 20, 30, 40, 50, 60, 70, other types of workplaces may be newly established as necessary, and unnecessary among the above-described workshops 20, 30, 40, 50, 60, 70. The workplace may be removed. And, although not shown in detail, each workshop 20, 30, 40, 50, 60, 70 is also provided with a device that can stop the cultivation box 90 for a certain time. This is for convenience and efficiency of the operation, to prevent the cultivation box 90 flows out without the supply of liquid fertilizer, nutrition, and the like.

The cultivation box 90 floats in the water of the waterway 10 and moves along the waterway 10 and sequentially passes through the above-described workshops 20, 30, 40, 50, 60, and 70. In the cultivation box 90, as shown in Figs. 3 and 4, a plurality of holes 91 are formed. As the buttercup 100 grows, the roots of the buttercup 100 are exposed to the outside through the plurality of holes 91, and the buttercup 100 receives nutrients from the water in the water channel 10 through the exposed roots. In addition, an air layer 92 is provided in the growing box 90 to allow the growing box 90 to float on water. Meanwhile, although not specifically illustrated, the cultivation box 90 may be made of a material floating in water such as styrofoam, and the air layer 92 may be omitted. The grower 90 is manufactured to a size that can move freely along the waterway 10. The cultivation box 90 has an artificial soil 95 made of soil, liquid fertilization and moisture adsorption artificial medium, and the buttercup 100 is planted in the artificial soil 95.

Flow rate control device 80 is a device for adjusting the flow rate of the water in the channel 10, pumps, watermills and the like can be used. When the buttercup hydroponic cultivation system 1 is configured such that the buttercup 100 is harvested once when the grower 90 rotates the waterway 10 once, the flow rate adjusting device 80 has a waterbox (90). 10) Adjust the flow rate so that it takes 50 to 70 days to return from one of the positions (for example, the harvest control room) back to the same position (for example, the harvest control room). That is, since it takes about 50 days to 70 days from planting to harvesting of the buttercup stem, the flow rate control device 80 is a cultivation box 90 planted in the harvest control room 20, the channel 10 Move along and set and maintain the flow rate so that it takes about 50 to 70 days to reach the harvest control room 20 again.

On the other hand, if there is no room in the ground area, as described above, it is not easy to configure so that the buttercup 100 is harvested once when the cultivation box 90 rotates the waterway 10 once. In this case, the cultivation box 90 can be configured to rotate the waterway 10 several times. Even at this time, the flow rate control device 80 of the waterway 10 so that the cultivation box 90 reaches the harvest management room 20 after 50 days to 70 days after the buttercup 100 is planted in the harvest management room 20. The flow rate must be adjusted. That is, the grower 90 is free to move on the waterway 10, so that the grower 90 corresponding to the desired workplace (20, 30, 40, 50, 60, 70) to reach the growth period of the buttercup The flow rate is regulated. For example, when the buttercup harvest time comes, the flow rate is adjusted so that the growing box 90 reaches the harvest control room.

In order for the buttercup hydroponic cultivation system 1 to be operated in this way, the length of the channel 10, the function of each workshop 20, 30, 40, 50, 60, 70, information on the growth period of the minira and the channel Calculate the appropriate flow rate based on basic information such as the position of each workshop 20, 30, 40, 50, 60, 70 on the (10), and adjust the flow rate so that the water in the water channel 10 flows at the calculated flow rate By driving the device 80. The buttercup 100 can be automatically harvested by placing the cultivation box 90 in which the buttercup stems are planted in the buttercup hydroponic cultivation system 1 driven in this way at a starting point (for example, a harvest control room).

On the other hand, the above operation may be made in a controller (not shown) for managing the buttercup hydroponic cultivation system (1). The control unit (not shown) is based on basic information such as the length of the channel 10, information on the current position of each cultivation box 90, and the location of the harvest control room 20, and a flow rate measuring sensor (not shown) and the flow rate. The control device 80 may be used to control the flow rate so that the buttercup 100 reaches the workplace 20, 30, 40, 50, 60, 70 suitable for the current growth state. In addition, the control unit (not shown) may drive a device installed in each workplace 20, 30, 40, 50, 60, 70 so that each workplace 20, 30, 40, 50, 60, 70 has a desired function. have. For example, in the case of the closed chamber 30, the controller (not shown) may manage and control the closed chamber 30 based on the following principle. When the information that the buttercup 100 has been harvested in the harvest control room 20 reaches a control unit (not shown), the control unit (not shown) transmits a growing box collection command to the waste chamber 30, and The collecting device is to collect the cultivation box 90 introduced into the waste chamber 30 after the collection instruction is delivered.

Hereinafter, another embodiment of the buttercup hydroponic cultivation system according to the present invention will be described with reference to FIG. 5.

The buttercup hydroponic cultivation system 1 according to the modified embodiment further includes a growth control room 130, 140, 150 for controlling the growth period of the buttercup 100. Specifically, when it is necessary to harvest the buttercup 100 earlier or a little later, the harvesting time of the buttercup 100 may be adjusted by adjusting the growth temperature or the length of the buttercup 100.

To this end, as shown in Figure 5, the channel 10 in accordance with the present invention is provided in a form that is separated into a plurality of sub-channels (11, 12, 13) in some sections and merged again. And the opening-closing apparatus 15 which opens and closes each sub channel 11, 12, 13 is provided in the inlet side of each sub channel 11, 12, 13. In addition, growth control rooms 130, 140, and 150 having different functions are provided in the sub-channels 11, 12, and 13, respectively. For example, a high temperature chamber 130 is provided in the first sub channel 11, a low temperature chamber 140 is provided in the second sub channel 12, and a single room in the third sub channel 13. 150 may be provided. Here, the dressing room 150 is a place that increases or decreases the time that light shines on the buttercup 100. As a specific example, when the buttercup 100 needs to enter the high temperature chamber 130, the second and third sub-channels 12 and 13 are closed by the opening and closing device 15 so that the cultivation box 90 is the first. It moves to the sub channel 11. Accordingly, each cultivation box 90 enters the high temperature chamber 130, and the buttercup 100 is cultivated in the high temperature chamber 130 for a predetermined time to control the growth of the buttercup 100.

1 is a view schematically showing a buttercup hydroponic cultivation system according to the present invention,

FIG. 2 is a sectional view taken along II-II of FIG. 1;

Figure 3 is a perspective view for explaining the structure of the growing box according to the present invention,

4 is a cross-sectional view taken along line IV-IV of FIG.

5 is a view for explaining another embodiment of the buttercup hydroponic cultivation system according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: buttercup hydroponic cultivation system 10: waterway

20: harvest management room 30: lung loss

40: nutritional input room 50: watering and management room

60: liquid fertilizer supply chamber 70: loess supply chamber

80: flow rate control device 90: cultivation box

95: artificial soil 100: buttercup

110: ocher 120: freshwater fish

Claims (9)

With a channel; A plurality of workshops provided on the water channel; A plurality of cultivation boxes floating in the water of the channel and passing through the plurality of workplaces while moving along the channel; Buttercup hydroponic cultivation system, characterized in that it comprises a flow rate control device for adjusting the flow rate of the water channel. The method of claim 1, The hydroponic cultivation system, characterized in that the waterway is coated with a waterproof material so that water is not absorbed into the ground. The method of claim 1, Buttercup hydroponic system is characterized in that the ocher is added to the waterway, freshwater fish is farmed. The method of claim 1, One section of the entire section of the channel is provided in a form that is divided into a plurality of sub-channels and merged again, At least one of the plurality of sub-channels is a buttercup hydroponic cultivation system, characterized in that any one of the high-temperature room, low-temperature room and the work room for controlling the growth of the buttercup. The method of claim 1, The plurality of workplaces is a buttercup hydroponic cultivation system including at least one of the harvest management room, waste box, nutrition material input room, irrigation and management room, liquid fertilizer supply room and loess supply room. The method of claim 1, The cultivation box is formed with a plurality of holes, The cultivation box is a buttercup hydroponic cultivation system, characterized in that provided with a material that floats in the water or provided with a structure including an air layer therein. The method of claim 1, The flow rate adjusting device is a buttercup hydroponic cultivation system, characterized in that for adjusting the flow rate of the waterway so that the time taken for the cultivation box to return to the same position again from any one of the waterway is 50 to 70 days. The method of claim 5, The flow rate control device is a buttercup hydroponic cultivation system, characterized in that for adjusting the flow rate of the waterway so that the growing box reaches the harvest control room after 50 days to 70 days after planting the buttercup in the harvest control room. The method of claim 1, The cultivation box is an artificial soil consisting of soil, liquid fertilization and moisture adsorption artificial medium, the buttercup hydroponic cultivation system, characterized in that the plant is planted with buttercups.

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