CN202750546U - Hydroponic planting air convection structure - Google Patents

Abstract

The utility model relates to a water-ploughing field-planting air convection structure, which at least comprises a field-planting plate and a separating plate, wherein the planting plate is an integrally formed plate body and is provided with a plurality of planting holes which are arranged in a row for arranging vegetable seedlings, the partition board is arranged below the fixed planting board in an abutting mode and is formed by staggering transverse plates and longitudinal plates, and forming a plurality of setting parts for the growth space of the roots of the seedlings and preventing the roots from winding, when in use, the planting plate and the division plate are matched with a disc body, the tray body is used for accommodating the field planting plate and the partition plate, culture solution and water are arranged in the tray body to provide water and nutrients required by plant growth, a second transverse plate sheet is arranged adjacent to the first transverse plate sheet of the transverse plate sheet to form a height difference, so that the field planting plate and the partition plate are assembled to form a plurality of air channels, thereby achieving the effect of air convection and keeping the best moisture and air permeability.

Description

Hydroponic planting air convection structure

technical field

The utility model relates to a hydroponic cultivation device, in particular to an air convection structure for hydroponic planting to achieve optimum humidity and air convection effects.

Background technique

By the way, traditional large-scale cultivation farms generally use open flat soil farming land, which requires a large area and is easily affected by the weather, resulting in unstable yields and the risk of contamination by foreign organisms. Traditional soil farming methods are not suitable. Suitable for modern people who live in the city. Moreover, soil farming has its flaws. For example, firstly, the conventional way of cultivating and planting crops must use manual or machine tools to loosen the soil, turn over the soil, dig holes, sow seeds, and apply fertilizers. It is time-consuming and labor-intensive, and it is impossible to reduce the cost of production; secondly, in the conventional way of cultivating and planting crops, if the small holes dug are unevenly distributed, or the depths of the small holes dug are not uniform, or in each small The number of seeds placed in the hole is different, and the results will all affect the growth and development of crops, and the slow growth and development of plants will be limited due to the over-intensive and crowded growth environment, resulting in difficulties in harvesting. the

Therefore, the practice of hydroponic planting has become popular in recent years. It allows people who are mostly limited by their living environment and have no extra space to use a corner of their homes to grow vegetables. On the one hand, they can avoid eating vegetables with pesticide residues on the market. Second, you can reduce a lot of entertainment expenses while enjoying the fun of planting. Crop cultivation mainly uses related equipment to control light, water, air and other energy sources that crops rely on for growth, in order to obtain stable and high-quality harvests, so as to increase the output value of the harvest, although the space utilization of hydroponic cultivation is more traditional. Soil cultivation is easy to come by, and hydroponic cultivation must be able to achieve the principle of infiltrating the roots of hydroponic plants to obtain nutrient solution, as well as the respiration of plants to promote the metabolism of substances and energy in plants, which is the survival condition and health considerations of plants.

In view of this, the author of this case has thought carefully and accumulated many years of experience in the cultivation and planting of various crops. After several trials and plantings, he finally created a plant based on the living habits, growth and development laws of plants, etc. Characteristics, controlling the plant growth environment has become the structure of the crop planting technology hydroponic cultivation method for cultivating crops.

Contents of the invention

The technical problem solved by the utility model is to provide a hydroponic planting air convection structure which can achieve the best humidity and air convection effect.

The technical means adopted by the utility model are as follows.

A hydroponic planting air convection structure at least includes: a planting plate, which is an integrally formed plate body, and the planting plate has a plurality of penetrating planting holes arranged in a row; a partition plate, which is arranged against the Below the planting plate, and the partition plate is composed of transverse plates and longitudinal plates interlaced to form a plurality of setting parts, and the plurality of accommodation parts are arranged against the plurality of planting holes, and the transverse plate is provided with a plurality of second A horizontal plate and a plurality of second horizontal plates, and the first horizontal plate is higher than the second horizontal plate, and the first horizontal plate is arranged adjacent to the second horizontal plate to form a height difference, so that the planting plate and the second horizontal plate The partition plates are assembled to form a plurality of air passages.

The partition board is integrally formed.

The partition board is composed of transverse boards and longitudinal boards.

The planting hole is a straight through hole.

The planting hole is a tapered through hole.

The planting hole is a gradually expanding through hole.

The planting hole is a square hole, or a round hole, or a polygonal hole.

The dividing plate is provided with a disc body, and the disc body is integrally formed with the dividing plate.

A tray body is further provided for accommodating the partition plate and the planting plate, the tray body is provided with culture solution and water, and seedlings are planted in the planting hole, and the seedlings are covered by an absorber.

The planting plate is provided with 150-240 planting holes.

The beneficial effects produced by the utility model are as follows.

1. The hydroponic planting air convection structure of the present utility model at least includes a fixed planting plate and a partition plate, wherein the planting plate is an integrally formed plate body, and the planting plate has a plurality of planting holes aligned in order to set vegetable seedlings, and The partition board is arranged below the fixed planting board, and the partition board is formed by interlacing horizontal boards and vertical boards, and forms a plurality of setting parts for the growth space of seedling roots and the purpose of preventing root entanglement.

2. When in use, the planting plate and the partition plate are combined with a plate body, which is used to accommodate the planting plate and the partition plate, and the culture liquid and water are built in the plate body to provide the water and nutrients required for plant growth, and borrow The first horizontal plate is adjacent to the second horizontal plate to form a height difference, so that the planting plate and the partition plate are assembled to form a plurality of air flow channels, so as to achieve the effect of air convection and maintain the best Humidity and breathability.

3. According to the above-mentioned main structural features, the planting hole is a straight through hole, a tapered through hole, and a gradually expanded through hole for the setting of vegetable seedlings, so as to achieve the purpose of stabilizing the growth position of the seedlings.

Description of drawings

Fig. 1 is an exploded view of the structure of the utility model.

Fig. 2 is a schematic diagram of the local structure of the utility model.

Fig. 3 is a schematic diagram of the three-dimensional structure of the utility model.

FIG. 4 is a schematic diagram of a partial structure of the airflow channel of the present invention.

Description of figure number:

Colonization board 10

Planting hole 11

Divider 20

Transverse plate 21

The first horizontal plate 211

The second horizontal plate 212

Longitudinal plate 22

Setup 23

Air runner 24

Seedlings 30

Absorber 31

Disk body 40.

Detailed ways

As shown in FIGS. 1 to 3 , the hydroponic planting air convection structure of the present invention is at least composed of a planting plate 10 and a partition plate 20 .

Wherein, the planting plate 10 is an integrally formed plate body, and the planting plate 10 has a plurality of penetrating planting holes 11 arranged in a row;

The partition board 20 is arranged below the planting board 10, and the partition board 20 is formed by interlacing the transverse boards 21 and the longitudinal boards 22, and forms a plurality of setting parts 23, and the plurality of accommodating parts 23 are opposite to the plurality of The planting hole 11 is set up, and the horizontal plate 21 is provided with a plurality of first horizontal plates 211 and a plurality of second horizontal plates 212, and the first horizontal plates 211 are higher than the second horizontal plates 212, and the first horizontal plates The slice 211 is arranged adjacent to the second horizontal plate slice 212 to form a height difference, so that the planting plate 10 and the partition plate 20 are assembled to form a plurality of air passages 24 .

According to actual implementation, as shown in Figure 4, the optimal planting plate 10 is provided with 150～240 planting holes 11 for implanting seedlings 30, the planting plate 10 and the partition plate 20 are combined, mainly by the bottom of the planting plate 10. Set on the staggered horizontal plate 21 and the vertical plate 22, so that the planting plate 10 can be stably erected on the partition plate 20, the planting plate 10 is provided with seedlings 30 through a plurality of planting holes 11 aligned in a row, and the plurality of accommodation Part 23 abuts against the plurality of planting holes 11 and is opposite to provide the growth space for the roots of seedlings 30 and prevent root entanglement. The planting plate 10 and the partition plate 20 are used in conjunction with a tray body 40, and the planting plate 10 and the partition plate 20 are placed in the In the tray body 40, culture fluid and water are placed in the tray body 40, so that 30 seedlings and stems grow in the pot body, so that the seedlings 30 can be absorbed evenly, and the effect of fully obtaining the water and nutrients required for growth, The second horizontal plate 212 is adjacent to the first horizontal plate 211 of the horizontal plate 21 to form a height difference, so that the planting plate 10 and the partition plate 20 are assembled to form a plurality of air flow channels 24, so as to achieve the effect of air convection. Can maintain the best humidity and breathability.

Furthermore, the planting plate 10 sets the vegetable seedlings 30 through a plurality of planting holes 11 aligned in a row, and the seedlings 30 are covered by an absorbent body 31, and the absorbent body 31 can be a sponge. It can assist the seedlings 30 to be fixed in the planting hole 11, and the absorber 31 can absorb the culture fluid and water in the basin to help nourish the seedlings 30, and the planting hole 11 is a straight through hole to provide the seedlings 30 with a stable growth orientation. Alternatively, the planting hole 11 is a tapered through hole to provide a guide for the seedlings to grow stably. Alternatively, the planting hole 11 is a gradually expanding through hole to provide a guide for the seedlings to achieve stable growth.

Secondly, the planting hole 11 can be a square hole to provide a space for vegetable seedlings to be planted. Alternatively, the planting hole 11 can be a circular hole to provide a space for vegetable seedlings to be planted. Alternatively, the planting hole 11 can be a polygonal hole to provide a space for planting vegetable seedlings.

In addition, the partition board 20 can be integrally formed, or the partition board 20 is formed by assembling the horizontal board 21 and the vertical board 22 . In addition, the tray body 40 and the partition plate 20 can be integrally formed.

Claims (10)

1. A hydroponic planting air convection structure is characterized in that it at least includes: A planting plate, which is an integrally formed plate body, and the planting plate has a plurality of penetrating planting holes arranged in a row; A partition plate, which is set against the lower part of the planting plate, and the partition plate is formed by interlacing transverse plates and longitudinal plates, and forms a plurality of installation parts, and the plurality of accommodating parts are opposed to the plurality of planting holes. , and the transverse plates are provided with a plurality of first transverse plates and a plurality of second transverse plates, and the first transverse plates are higher than the second transverse plates, and the first transverse plates are arranged adjacent to the second transverse plates. A height difference is formed so that the planting plate and the partition plate are assembled to form a plurality of air flow channels. 2. The hydroponic planting air convection structure according to claim 1, characterized in that, the partition plate is integrally formed. 3 . The air convection structure for hydroponic planting according to claim 1 , wherein the partition board is composed of horizontal boards and vertical boards. 4 . 4. The hydroponic planting air convection structure according to claim 1, wherein the planting hole is a straight through hole. 5. The hydroponic planting air convection structure according to claim 1, wherein the planting hole is a tapered through hole. 6. The air convection structure for hydroponic planting according to claim 1, wherein the planting hole is a gradually expanding through hole. 7. The air convection structure for hydroponics planting according to claim 1, wherein the planting holes are square holes, or circular holes, or polygonal holes. 8 . The hydroponic planting structure according to claim 1 , wherein the dividing plate is provided with a disc body, and the disc body and the dividing plate are integrally formed. 9. The air convection structure for hydroponic field planting as claimed in claim 1, characterized in that, a tray is further provided for accommodating the dividing plate and the planting plate, the tray is provided with culture solution and water, seedlings are planted in the planting hole, and the seedlings are covered by an absorber. 10. The air convection structure for hydroponic planting according to claim 1, wherein the planting plate is provided with 150-240 planting holes.

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