KR20170043018A - Water culture bed - Google Patents

Abstract

The present invention relates to a hydroponic bed. With the present invention, nutrient solution supply can be smoothly performed and rhizospheric growth environments can be improved, examples of the improvement including air layer formation leading to oxygen supply to and microbial habitat preparation in crop roots. The present invention includes: a styrofoam-based bed body (10) that is a housing open upward and has an inner bottom surface having the form of an inclined surface (11) inclined downward toward both edges from its middle portion so that an accommodating space (15a) is ensured where an air-permeable member (15) is laid on both sides; a nutrient solution water supply pipe (20) disposed in the middle portion of the inner bottom surface of the bed body (10); a nutrient solution water discharge pipe (30) disposed on both side edges of the inner bottom surface of the bed body (10); and a water supply pipe receiving portion (40) and a water discharge pipe receiving portion (41) respectively formed in the middle portion of the inner bottom surface of the bed body (10) and both of its side edges so that the nutrient solution water supply pipe (20) and the nutrient solution water discharge pipe (30) are received and installed.

Description

{Water culture bed}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroponic bed, and more particularly, to a hydro-hydroponic bed capable of effectively controlling the growth environment of hydroponic cultivated plants to improve productivity.

The method of cultivating plants with the nutrients necessary for growth and development of plants in water is called hydroponics. When crops are cultivated in soil, soil contains various nutrients, and many microorganisms are constantly metabolizing, making it difficult to determine the relationship between nutrients supplied and nutrients absorbed by plants. However, by subtracting a specific nutrient from the nutrients required for the growth of a crop, or by reducing or increasing the amount of the nutrient, hydroponics can be used to understand how a specific nutrient affects the growth of the crop.

At present, large crops such as regular crops as well as fruit trees can be cultivated by these hydroponic cultivation methods. Hydroponic cultivation can also be used to grow plants on poorly-soiled lands, stony landscapes, and balconies in dirt-free apartments. In addition, when using artificial lighting, it is possible to make a nice garden in a room or garage left in the house. And because it does not require digging the ground or weeding, it can reduce the workforce rather than cultivating it on existing land.

On the other hand, most of the beds for hydroponics cultivation use tubular pots or boxes which are usually opened at the upper side, and these berries are cultivated with berries, melons, sweet potatoes, lettuce, and ginseng.

However, conventional hydroponic cultivation bed only considers the supply of nutrient solution and the management of the cultivated plant, and it is considered that the factors which dominate rhizome growth environment of cultivated plant, such as breathability, control of temperature and humidity of culture soil, warmth of bed, It has disadvantages.

As one example of a conventional hydroponic cultivation bed, Patent Registration No. 1269814 is disclosed.

The above-mentioned patent registration No. 1269814 discloses a bed top plate provided with a through hole on a bed opened on the upper side, a bi-liquid feed line having a spray nozzle formed thereon in the upper middle in the longitudinal direction, This invention relates to a water ginseng cultivation apparatus.

However, although the patented technique has a space formed inside the bed to maintain air permeability, the feeding amount of the nutrient solution is not so much compared to the spray amount by supplying the nutrient solution to the roots of the ginseng with the spraying method, There was a problem of bringing waste.

Korean Patent Registration No. 10-1269814 (2013.05.24, method and apparatus for cultivating ginseng) Registration No. 10-1040467 (2011.06.02, circulating hydroponic cultivation system for veranda-type leafy vegetables)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a bed body having an inclined surface and an inclined surface formed by the inclined surface, The supply of nutrient solution is smoothly performed, and the formation of the air layer provides the oxygen supply to the roots of the crop as well as the microorganism habitat space. In particular, by supplying the nutrient solution through the bottom irrigation water, Which is capable of preventing the hardening phenomenon of the soil generated due to the hydrothermal treatment.

In addition, the present invention can control the rhizospheric temperature during the summer and winter through the material and thickness of the bed body and the installation of the cooling / heating pipe. By installing a blower through the blowing pipe in the liquid discharge pipe, Which can prevent the oxygen deficiency phenomenon by blowing air through the bed.

In order to attain the above object, the structure of the present invention is formed as a cylinder having an upper side opened, and an inner bottom surface is formed so as to have an accommodating space (15a) in which air permeable members (15) A bed body 10 made of a styrofoam formed of a downward inclined slope 11, a nutrient solution supply pipe 20 provided at a central portion of an inner bottom surface of the bed body 10, A water supply pipe (30) provided at both sides of the bed body (10), and a water supply seat part (30) formed at both sides of the inner bottom surface and both sides of the bed body (10) for seating the nutrient solution supply pipe 40 and a drain pipe mounting part 41. [

According to the hydroponic cultivation bed having the above-described structure, it is possible to provide a microorganism habitat as well as supply oxygen to the roots of the crop while blocking rapid drainage of the nutrient solution through the installation of the air-permeable member, In addition, it is possible to control the rhizosphere temperature in summer and winter, which can contribute to the improvement of the production amount, and it is possible to control the amount of water supplied and to effectively cultivate it, and air can be blown, There is an effect that can be suppressed as much as possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a hydroponic cultivation bed according to the present invention;
2 is a sectional view taken along the line AA in Fig. 1,
FIG. 3 is a view showing a nutrient solution supply pipe, a nutrient solution discharge pipe, and a cooling / heating pipe installed in a bed body according to the present invention.
4 is a cross-sectional view of a bed body according to the present invention,
FIG. 5 is a view illustrating a state in which a blower is connected to a nutrient solution drain pipe in a hydroponic cultivation bed according to the present invention,
FIG. 6 is a view showing a state of a bed body mounted on a support pipe according to the present invention,
7 is a schematic configuration diagram of a control unit according to the present invention,
FIG. 8 is a view showing the use state of a hydroponic cultivation bed according to the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a hydroponic cultivation bed according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the drawing, the hydroponic cultivation bed according to an embodiment of the present invention includes a tubular body 10 having a tubular body opened on the upper side, a nutrient solution supply pipe (not shown) disposed at the center of the inner bottom surface of the bed body 10 And a nutrient solution discharge pipe (30) provided at both sides of the inner bottom surface of the bed body (10) (40) and a drain pipe mounting part (41) respectively formed to seat and install the water pipe (30).

The bed body 10 is formed of a styrofoam material for keeping warm, and the inner bottom surface is formed as a sloped surface 11 which is inclined downward toward both side edges from the central portion. The reason why the inclined surface 11 is formed is to secure the accommodation space 15a between the central portion and the side edges of the bed body due to the inclined surface and to fill the accommodation space with the air permeable member 15. [

The thickness of the side wall of the bed body 10 is 30 to 50 mm. The reason is to shut off the outside temperature in summer and winter and to keep the rhizosphere temperature constant.

The air-permeable member 15 forms a ventilation layer to supply oxygen to the roots of the crop, as well as to provide a space for microorganisms.

At this time, the inclination angle of the inclined surface 11 is inclined at 15 to 25 degrees so that a certain amount of the air permeable member 15 can be accommodated. The reason is that if the air-permeable member is filled too thin, the air can not pass effectively, so that the air-permeable member is filled to such a degree that the air can be smoothly flowed.

The air-permeable member 15 is filled in the accommodation space 15a and is laid at the same height as the upper level of the nutrient solution supply pipe 20 or at a height of 20 mm or less from the upper end of the nutrient solution supply pipe 20 It is preferable to be laid high.

This is so that the nutrient solution supplied from the nutrient solution supply pipe 20 can be supplied to the air permeable member 15 without being supplied to the soil layer 16.

The air permeable member 15 may be made of charcoal as an example. The reason for using charcoal is to purify the nutrient solution together with air layer formation.

The nutrient solution supply pipe 20 and the nutrient solution drain pipe 30 are installed along the longitudinal direction of the bed body 10 and are installed through the plurality of bed bodies 10, respectively.

It is a matter of course that one end of the nutrient solution supply pipe 20 is connected to the supply means 25 separately for supplying the nutrient solution. The supplying means 25 may be composed of a nutrient solution tank and a pump.

The nutrient solution drain pipe 30 may be installed to drain the nutrient solution to the outside, and may be connected to the nutrient solution tank to allow the nutrient solution to be drained into the nutrient solution tank.

The bed body 10 has an inclined surface 11 formed with an arc-shaped heating and cooling tube seating portion 12 having a predetermined depth in a direction perpendicular to the inclined surface. The heating and cooling tube seating portion 12 is provided with a cooling / Can be seated and installed.

The cooling / heating pipe 50 is for controlling the root-mean-square temperature of the crop, and is intended to maintain the root-mean-square temperature of the crop even during summer and winter, thereby increasing the yield of the crop by effective growth of the crop.

In the present invention, the groundwater is pumped and supplied to the cooling / heating pipe 50 so that the heating / cooling pipe 50 is connected to the heating / 10).

That is, by supplying groundwater in the summer and winter to the heating / cooling pipe, the temperature can be controlled without using a separate cooling / heating unit.

The diameter of the cooling / heating pipe (50) is larger than the diameter of the nutrient solution supply pipe (20) and the nutrient solution discharge pipe (30). The reason for this is to effectively control the root-mean-square temperature of the crop by increasing the contact area with the air-permeable member. This is because the nutrient solution supply pipe 20 and the nutrient solution discharge pipe 30 do not have a large difference in amount of the nutrient solution fed even when the diameter is small. However, when the diameter of the heating and cooling pipe 50 is small, I can not control it.

At this time, a nutrient solution sensor 60 is installed in the bed body 10 so as to be close to the uppermost end of the breathable member 15. The nutrient solution detecting sensor 60 senses the height of the nutrient solution fed through the nutrient solution supply pipe 20. When the nutrient solution is fed too much, the nutrient solution can be excessively supplied to the soil layer 16, This is to reduce the waste of the nutrient solution due to excess water in the nutrient solution because it is sufficient to supply the nutrient solution only to the root.

The information detected by the nutrient solution sensor 60 is transmitted to the controller 65 and the controller 65 controls the nutrient solution supply according to the detection information of the nutrient solution sensor 60.

The bed body 10 is provided with a temperature sensor 61 and a humidity sensor 62 for measuring the temperature and humidity of the soil layer 16 laid on the air permeable member 15, respectively.

The temperature sensor 61 and the humidity sensor 62 are for controlling the temperature and humidity of the accommodation space in which the soil layer and the breathable member are accommodated. The temperature sensor and the humidity sensor are respectively connected to the controller, And the control unit controls the soil layer to the optimum temperature and humidity.

In the meantime, the bed body 10 of the present invention can be installed in a multiple layer rather than a single layer. To this end, a pipe seat groove 13 is formed on the lower surface of the bed body 10 so as to be placed on a support pipe 70.

The support pipe 70 may be formed of a normal angle and a circular pipe.

The pipe support grooves 13 may be formed as one groove or a plurality of grooves may be formed in the support pipe 70 so that the support pipes 70 may be spaced apart from each other, May be formed adjacent to each other.

A ventilator 80 connected to the nutrient solution discharge pipe 30 by a blowing pipe 81 may be installed at one side of the nutrient solution discharge pipe 30 and a flow control unit 82 may be installed at a connection point between the nutrient solution discharge pipe 30 and the blower pipe 81 .

The reason for installing the blower 80 is that after the drainage of the nutrient solution is completed by the nutrient solution discharge pipe 30, the blower 80 is operated to blow out the outside air into the accommodation space 15a in which the breathable member 15 is accommodated, To inhibit the anaerobic bacteria that may be generated due to the development.

When the blower (80) is operated, the flow control means (82) is controlled to connect the blowing pipe and the liquid discharge pipe (30). The flow path control means 82 can use a conventional three-way valve.

According to the present invention configured as described above, the bed body is made of styrofoam material, and the air-permeable member is accommodated in the both side accommodation spaces of the bed body while maintaining the warmth, thereby smoothly discharging the supplied nutrient solution together with the formation of the air layer, In addition, at the time of installation of the cooling / heating pipe, it is possible to control the temperature of the root of the crop, thereby enabling effective cultivation and controlling the temperature and humidity of the soil layer, thereby improving the root growth environment of the whole crop.

10: bed body 11: inclined surface
12: a heating / cooling pipe seat part 13: a pipe seat groove
15: breathable member 15a: accommodation space
16: Soil layer 20: Nutrient solution supply pipe
25: Supply means 30: Nutrient solution drain pipe
40: water pipe seat part 41: drain pipe seat part
50: Heating / cooling pipe 60: Nitrogen sensor
61: Temperature sensor 62: Humidity sensor
65: control part 70: support pipe
80: blower 81: blower
82: flow control means

Claims (8)

The inner bottom surface of which is formed with a styrofoam bed made of a sloped surface 11 inclined downward from the central portion toward the both side edges so as to secure the accommodation space 15a in which the air permeable member 15 is laid, A body 10,
A nutrient solution supply pipe 20 installed at the center of the inner bottom surface of the bed body 10,
A nutrient solution drain pipe (30) provided at both side edges of the inner bottom surface of the bed body (10)
A water supply seat 40 and a water discharge seat 41 formed to seat the nutrient solution supply pipe 20 and the nutrient solution discharge pipe 30 at the center and both sides of the inner bottom surface of the bed body 10 Features hydroponic cultivating bed.
The method according to claim 1,
An air conditioning tube mounting portion 12 having an arcuate shape having a predetermined depth in a direction perpendicular to the slanting surface is formed on the inclined surface 11 of the bed body 10 and a cooling / Wherein the bed is placed in a sitting position.
3. The method of claim 2,
A nutrient solution detecting sensor 60 is provided in the bed body 10 so as to closely detect the height of the nutrient solution supplied through the nutrient solution supply pipe 20 and disposed close to the upper end of the breathable member 15,
And a controller (65) for controlling the nutrient solution supply according to the information sensed by the nutrient solution sensor (60).
The method of claim 3,
Wherein a temperature sensor (61) and a humidity sensor (62) are installed in the bed body (10) to measure the temperature and humidity of the soil layer (16) laid over the air permeable member (15).
The method according to claim 1,
And a pipe receiving groove (13) is formed on the lower surface of the bed body (10) so as to be placed on the supporting pipe (70) when the bed body is installed in multiple stages.
The method according to claim 1,
Wherein a thickness of the sidewall of the bed body is 30 to 50 mm and an inclination angle of the inclined surface is inclined to 15 to 25 °.
The method according to claim 1,
Wherein the air permeable member (15) is laid at the same height as the upper height of the nutrient solution supply pipe (20) or is laid higher at a height of 20 mm or less than the upper end of the nutrient solution supply pipe (20).
The method according to claim 1,
Wherein the nutrient solution drainage pipe (30) is provided with a blower (80) connected with a blowing pipe (81) and a flow control means (82) is provided at a connection site between the nutrient solution discharge pipe (30) and the blowing pipe (81) .

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