KR970000579Y1 - Hydroponic device - Google Patents

Abstract

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Description

Schiropole bed for culture medium nutrient solution

1 is an exploded perspective view of the present invention.

Figure 2 is a plan view of the lid removed state of the present invention.

Figure 3 is an assembly side cross-sectional view of the present invention.

4 is a cross-sectional view of the assembly of the present invention.

5 and 6 are side cross-sectional and front cross-sectional view showing a state of use of the present invention.

* Explanation of symbols for main parts of the drawings

100: discharge body 110: bottom portion

111: bottom 112: pipe installation

120: both side wall 121: step

130: reinforcement portion 140: insertion portion

150: protrusion 200: lid

201: hole 300: badge

α: inclination angle of reinforcement part H: height of bottom surface

T: difference of floor surface

The present invention relates to a medium transmembrane cultivation bed capable of growing low-cost and high-quality plants under sterile, nutrient-free conditions using a fully sterilized artificial medium. In particular, it is suitable to use a plurality of beds for mass production. One medium diameter nutrient solution for the chill pole bed.

Nutrient cultivation method that has been used so far is to supply the necessary nutrients to the root of the plant by using reflux immersion hydroponic cultivating the plant while circulating the nutrient solution, NFT (Nutrier Film Technique), a nozzle Spray mirrors, rock wool medium cultivation methods, and the like.

Among them, reflux type distilled glass is a method of cultivating plants while circulating nutrient solution using separate tanks and motors. In climatic conditions, where the distinction between cold and cold is difficult, liquid temperature, pH, and EC management are difficult. Therefore, highly skilled management skills are required. There is a risk of waste disposal.

In order to compensate for the above-mentioned problems, recently, an indwelling medium diameter nutrient solution cultivation system having a flat light pipe as a frame and a bed made of FEP, a flat pipe, and a tent is widely used.

However, this simple medium nutrient solution cultivation system is a kind of conventional cultivation method, but it can have some effect in terms of reducing the installation cost, but it is not effective because it can not cope with the heat insulation and cold rise and cold fall of the cold season. Can not do it.

That is, the simple medium nutrient solution cultivation system is advantageous in terms of installation cost reduction, but did not contribute to the effectiveness and stabilization of cultivation.

The present invention has been devised to solve these problems, and its purpose is to provide easy and convenient nutrient solution cultivation Schiropol bed to contribute to the reduction of installation costs and stabilization of cultivation.

Another object of the present invention is to numerically increase the nutrient solution drainage effect of the pole bed, and to improve the thermal insulation effect and durability of the bed itself.

In order to achieve the above object, the present invention forms a different height of the bottom surface of each styropole in order in the number of styropole beds used for mass production, and lowers the horizontal plane of the schiropole bed automatically to serve as a drainage surface. It is to be formed to be inclined.

In addition, the present invention is to form a reinforcement for strength reinforcement integrally formed in the corners of both sides when forming the styropole bed, and to enable the continuous installation by forming insertion parts and protrusions to be coupled to the front end of the bed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of the present invention, and FIG. 2 is a plan view of a state where a lid is removed.

As shown, the Schiropol bed of the present invention is the medium body 100 is the medium 300 is contained; It is composed of a lid 200 for isolating the stem or leaves of the plant to be cultivated and covered with the nutrient solution on the top of the medium body.

The discharge main body 100 has a constant height with an open top and front and rear surfaces, and has a constant height and a bottom portion 110 having two rows of pipe installation holes 112 formed on a bottom surface 111 of the upper end, and the bottom surface. It is formed integrally on both sides of the part and strengthens the strength of the entire door bed formed between both side walls 120 and the bottom wall 110 and both side walls 120, the stepped portion 121 is formed so that the lid 200 can be seated. It consists of a reinforcement portion 130 and the insertion portion 140 and the protrusion 150 which are formed at the front and rear ends of the bottom portion 110 and both side walls 120 to guide continuous bed installation. do.

The bottom portion 110 is a flat surface seated on a flat ground as shown in FIGS. 3 and 4 to support the whole bed of the present invention, the height of the bottom surface 111 acting as a drainage of nutrient solution according to the thickness of the bottom portion ( H) will be different, and the two sides of the pipe installation hole 112 is formed in a semicircular shape with a size large enough to accommodate the hot water pipe 400 on both sides of the bottom surface.

The height (H) of the bottom surface 111 is formed to be high or low with a difference of about 0.5 mm depending on the order of the medium body to be installed, the first time when using the total number 1 to 20 times the exclusion body is used When the height (H) of the bottom surface 111 of the medium body is 5cm, since it is formed so as to increase or decrease by 0.5mm in order from the last 20th medium body so that the difference of about 1cm.

The both side walls 120 are formed at a constant height on both sides of the bottom portion 110, the stepped 121 is formed with a low height so that the lid 200 can be seated outside the upper end.

The reinforcement part 130 is formed to be inclined inside the corner connecting the bottom part 110 and both side walls 120 of the mutually symmetrical position with the bottom part 110 therebetween, and the inclination angle α is about 30 °. -60 ° is better, more preferably 45 ° is the best.

The insertion portion 140 has both side walls 120 and front end portions of the reinforcement portion 130. It is formed to be cut into the shape and enter into the inside.

The protruding portion 150 is symmetrical to the inserting portion 140 on both rear ends of the reinforcing portion 130 and both side walls 120. It is formed into a shape.

Lid 200 It is formed in a shape so that both ends can be separated as necessary as it is seated on the upper end of the step (121) of the discharge body 100, and a plurality of holes 201 having a predetermined size on the upper end to penetrate the inside, etc. Formed at intervals.

Referring to the cultivation operation of the present invention configured as described above and the effect according to it as follows.

First, as shown in Figs. 5 and 6 evenly flat the ground on which the distribution body 100 of the present invention is to be installed, according to the order of the discharge body 100, that is, the height (H) of the bottom surface 111 is high Or combine them in descending order according to a predetermined number.

In this case, one medium body 100 may be installed on the ground, and then the protrusion 150 of the next medium body may be inserted into the insertion unit 140 of the medium body from above.

In this way, the front and rear of the discharge body 100 is coupled to the insertion portion 140 and the protrusion 150 is prevented from being separated in the front and rear direction and at the same time prevents the flow in the lateral direction, as much as the desired number in this way This is done by sequentially connecting the medium bodies.

In addition, although the ground is flat in the state in which a plurality of the discharge body 100 are connected in sequence as described above, the height (H) of the bottom surface 111 of each of the discharge body 100 is high or in order As a result, the height H of these bottom surfaces 111 continues to generate a difference as much as T, so that these bottom surfaces 111 (nutrient solution drainage) slightly toward the front or the rear in the assembled state as a whole. It is formed to be inclined.

In this state, the hot water pipe 400 is inserted into the pipe installation hole 112 of each of the medium main bodies 100, and the artificial medium 300 mixed with pearlite and hultan is about 7: 3, and then the medium ( The heating wire 500 of about three lines may be embedded in the upper portion.

After that, depending on the type of plant grown by the cultivator, the lid 200 may be grown or left open.

That is, when cultivating leafy vegetables, strawberries, gourd vegetables, cut flowers, ripened flowers, etc., cover the lid 200, and then only the roots of these plants buried in the medium 300 and the other stems or leaves through the hole 201 After exposure to the plant, the appropriate amount of nutrient solution is given periodically, depending on the growth of the plant.

This prevents soil or nutrient solution from splashing on the fruit or leaves of the plant, so that it can be cultivated while maintaining a clean state at all times.

In addition, in the case of horticultural crops that can be grown for a long time, such as pepper, tomatoes, and other vegetables and bonsai materials, the cultivation without the lid 200 may be cultivated. To 300.

On the other hand, the Schiropol bed of the present invention can be utilized not only for the above cultivation of nutrient solution, but also as a frame for heat insulation cold storage table or for growing the outland tube if necessary.

During the cultivation of the plant as described above, the hot water pipe 400 and the heating wire 500 embedded in the medium 300 can be continuously supplied with hot water and heat transfer, as well as the insulation effect of the Schiropol bed itself, even in cold, cold weather According to the cultivated plants, the temperature in the bed can be easily controlled, and in particular, the cultivation of eggplants and vegetables that are thermophilic is easy.

In summary, the Schiropol bed of the present invention has the following effects compared to the conventional one.

First, the Schiropol bed of the present invention is formed so that the bottom surface 111 of the medium body 100 is gradually higher or lower toward the front or rear, so that the nutrient solution drainage channel is automatically formed to be inclined simply by installing it on a flat surface, the drainage path is formed There is no extra effort for you.

Second, depending on the type of plants to be cultivated can be cultivated with the lid 200 or open to maintain a clean state at all times can contribute to the hygiene and quality of the product.

Third, due to the reinforcement portion 130 formed between the bottom portion 110 and both side walls 120, the use of the amount of the medium by the volume is reduced, and the thermal insulation effect in the medium body 100 is improved, as well as the bed itself. Breakage or deformation can be prevented, even if the medium body of any one of the diarrhea in use can be easily replaced.

Fourth, since the plurality of the discharge body 100 is connected by the insertion unit 140 and the protrusion 150, the separation or flow in the left and right and the lateral direction is prevented, thereby contributing to improved reliability of the product.

That is, the Schiropol bed of the design is easy to form a drainage path for nutrient solution distribution, good cultivation state of the cultivation plant, and can contribute to the durability of the product by reducing the amount of medium and prevent local damage or deformation.

In addition, there is an effect that can contribute to the reduction of installation costs and stabilization of cultivation by mutual separation, easy to combine and prevent flow.

Claims (5)

Medium culture nutrient cultivation bed consisting of a plurality of medium main body 100, which is contained in the medium 300 for mass production, and a lid 200 for isolating the stem or leaves of the cultivated plant from the nutrient solution to the medium body In the discharge body 100 is a top surface and the front and rear surfaces having a constant height (H) as an open square and the bottom surface portion (2) is formed with two rows of pipe mounting holes 112 on the bottom surface 111 of the top ( 110 and integrally formed on both side surfaces of the bottom portion, both side walls 120 having a stepped portion 121 formed thereon so that the lid 200 is seated, and formed between the bottom portion 110 and both side walls 120. Reinforcement unit 130 for strengthening the overall strength of the bed, and the insertion portion 140 is formed at the front and rear ends of the bottom portion 110 and both side walls 120 to guide the continuous bed installation by mutual coupling Schiropolbe for culture medium nutrient solution, characterized in that consisting of and protrusions 150 De. According to claim 1, wherein the height (H) of the bottom portion 110 is high or low compared to the bottom portion of the adjacent medium body medium culture nutrient solution cultivated sciropol bed. According to claim 1, wherein the reinforcement portion 130 is Schiropol bed for culture medium nutrient solution, characterized in that formed inclined inside the corner connecting the bottom portion 110 and both side wall (120). According to claim 3, wherein the angle of inclination (α) of the reinforcement portion 130 is Schiropol bed for culture medium nutrient solution, characterized in that about 30 ° -60 °. The method of claim 1, wherein the insertion portion 140 is on both side walls 120 and the front end portion of the reinforcement portion 130 Is formed in the formation, the protrusion 150 is symmetrical with the insertion portion 140 on both rear end portions of the reinforcement portion 130 and both side walls 120 Schiropole bed for cultivation of endosperm, characterized in that formed in the shape.