KR20140003505U - Plant cultivation equipment - Google Patents

Abstract

The plant cultivation equipment according to the present invention comprises at least a plurality of regulating walls, a plurality of lamp frames and a liquid circulation supply assembly. Here, the reinforcing walls are installed parallel to each other, and the lamp frame is provided so as to oppose the material wall to provide a light source to the plate, and the liquid circulation supply assembly includes a plurality of liquid supply members, a liquid collection member, A liquid supply member fixed to the wall is provided at the upper part of the plate, and the nutrient solution is circulated to supply the liquid for growth of the plant, It controls the growth rate of plants by irradiating plants instead of light. And the flat plate can be unfolded or folded by being moved in a pushing and pulling manner from the wall frame by the first slide member. As a result, not only the growth density of the average unit area is significantly improved but also the production of the cultivated product is increased.

Description

{PLANT CULTIVATION EQUIPMENT}

The present invention relates to a plant cultivation apparatus, and more particularly, to a plant cultivation apparatus capable of improving the effective area utilization rate and circulating the culture liquid.

In conventional large-scale cultivation fields, all open-plan land farmland is generally used. Therefore, it requires a vast area, is easily affected by climate, is not stable in production, and is likely to be contaminated by foreign organisms. In addition, conventional land cultivation methods are not suitable for modern people residing in the city, and recently hydroponic cultivation methods are attracting attention. The hydroponic cultivation method allows people without surplus space to plant vegetables using a corner of the house due to the limitation of the residential environment. This can prevent the pesticide from eating commercially available vegetables, enjoy the pleasure of cultivation, and reduce the amount of spending on entertainment.

However, in order to increase the amount of cultivation, regardless of whether cultivation of conventional agriculture or hydroponic cultivation of precision agriculture, the grower considers only increasing the cultivation area by increasing the number of cultivation boxes or growing vessels in the horizontal direction of the land. However, the land area available through the expansion of the land horizontally in the modern society where the land is precious has limitations for the grower to improve the cultivation output.

In addition, crop cultivation mainly uses related facilities to control the energy source necessary for growth of crops such as light, water, and gas, so that stable and high quality crops can be harvested, thereby improving the yield of the crops. Although the use of space for hydroponic cultivation is simpler and more convenient than the conventional hydroponic cultivation, the conventional hydroponic cultivation is based on the principle that the roots of hydroponic cultivated plants are immersed in the culture liquid to obtain a culture liquid. Also, light and water are very important factors in plant growth and plant growth is almost completely dependent on the progress of photosynthesis. Thus, among the many conditions that affect the growth of plants, the appropriateness of light conditions is sufficient to affect the growth quality of plants. Daily watering irrigation consumes time and labor, and how to control the plant environment based on the characteristics of the plant's lifestyle and growth and development rules has become an important part of crop cultivation technology.

Taking this situation into consideration, it is necessary to devise a plant cultivation method capable of increasing the cultivation area without using the available land area, and to control the growth environment of the plant according to the characteristics of the life habit of the plant, , Fruit, flower, and crop growers.

In view of this, the present invention has a main object to provide a plant cultivation equipment having a circulation circuit which is repeatedly used without losing nutrients supplied for cultivation, and which can improve a cultivation rate of an effective area.

In order to achieve the above object, the plant cultivation equipment according to the present invention comprises at least a plurality of planting walls, a plurality of lamp frames, and a liquid circulation supply assembly. Here, the reinforcing wall is composed of a wall frame, a first slide member, and at least one plate, the plate is fitted in the wall frame, and the plate is movably pulled or folded in the wall frame through the first slide member And the walls between the walls are installed parallel to each other. The lamp frame includes a fixed frame, a second slide member, and a ramp plate. The fixed frame includes at least one ramp plate fitted therein. The ramp plate moves laterally in the fixed frame through the second slide member. The liquid circulating supply assembly includes a plurality of liquid supplying members, a liquid collecting member, a plurality of pipelines and a motor connected to each other. The liquid contained in the liquid gathering member is transported to the liquid supplying member through the pipeline, The nutrient solution flows back to the liquid gathering member again through the pipeline to form a circulation circuit.

The present invention allows the entire apparatus to circulate the nutrients to be supplied to the plants, and irradiates the light source of the lamp plate instead of natural light and further controls the growth rate of the plants. And the flat plate can be unfolded or folded by moving in a pushing and pulling manner from the wall frame through the first slide member. Therefore, the growth density of the average unit area can be greatly improved and the purpose of increasing the production amount of cultivated matter can be achieved.

1 is a perspective view of a first embodiment according to the present invention.
2 is a structural schematic view of the present invention.
3 is a perspective view of a second embodiment according to the present invention.
4 is a schematic structural view of the slide member of the present invention.
5 is another schematic structural view of the slide member of the present invention.
6 is a use state diagram of the present invention.
7 is a plan view of the use state of the present invention.
8 is a schematic view of the air conditioning structure of the present invention.

The features of the present invention can be clarified through a detailed description of the drawings and examples.

As shown in FIGS. 1 and 2, the plant cultivation equipment according to the present invention comprises at least a plurality of building walls 10, a plurality of lamp frames 20, and a liquid circulation supply assembly 30. The reinforcing walls 10 are formed of a wall frame 11, a first slide member 12 and at least one plate 13. The main plate 13 is fitted to the wall frame 11 and the main plate 13 is capable of being pulled or folded from the wall frame 11 through the first slide member 12. The lamp frame 20 is installed so as to face the reinforcing wall 10 to provide a light source to the plate 13. The lamp frame 20 includes a fixed frame 21, a second slide member 22 and a ramp plate 23. At least one ramp plate 23 is inserted into the fixed frame 21, The ramp plate 23 moves in the horizontal direction within the fixed frame 21 through the second slide member 22.

The liquid circulation supply assembly 30 is constructed by connecting a plurality of liquid supply members 31, a liquid collection member 32, a plurality of pipelines 33 and a motor 34, The nutrient solution 35 accommodated in the liquid collecting member 32 is transported to the liquid supply member 31 through the pipeline 33 and is transported to the food plate 13, and the nutrient solution 35 flows again into the liquid gathering member 32 through the pipeline 33 to form a circulation circuit.

In the first embodiment shown in Fig. 1, the plate 13 is fitted in the wall frame 11, and the plate 13 is placed between the wall frames 11 in an upright posture, Respectively. Alternatively, in the second embodiment shown in Fig. 3, each plate 13 is fitted into the wall frame 11 hierarchically in a horizontal posture. Each plate 13 has a plurality of through holes 131 for distributing and locating the plant seedlings 40 and reforging them. The flat plate 13 can be unfolded or folded by moving it in a pushing and pulling manner from the wall frame 11 through the first slide member 12. Thus, not only can the working space of the plate 13 be transformed so as to secure the activity space when the operator performs the planting, sowing or harvesting work, but also the purpose of increasing the production area of the plant by improving the average planting area Can be achieved.

4, the first slide member 12 is a pulley and a slide rail structure corresponding to each other, a pulley is formed on the wall frame 11, a slide rail is formed on the slide plate, It is possible to slide between the wall frames 11. Alternatively, a slide rail may be formed on the wall frame 11 and a pulley may be formed on the plate 13 to slide the plate 13 between the wall frames 11. 5, the first slide member 12 is a slide block and a slide lever structure corresponding to each other, the slide block is formed on the wall frame 11, the slide plate is formed on the slide plate 13, (13) can slide between the wall frames (11). Alternatively, a slide lever may be formed on the wall frame 11 and a slide block may be formed on the plate 13 so that the plate 13 slides between the wall frames 11.

The liquid supply member 31 is fixed to the upper portion of the position of the fixed plate 13 in the wall frame 11 so that the nutrient solution 35 inside the liquid collection member 32 is supplied to the pipe And is transported to each liquid supply member 31 via the line 330. The nutrient 35 is sent to the plate 13 by a sorting or spraying method through the liquid supply member 31 and is fed to the seedling 40 So that the nutrient solution 35 can sufficiently absorb the nutrient solution 35 and the nutrient solution flows back to the liquid concentration member 32 through the pipeline 33 to form a circulation circuit so that the nutrient solution 35 is not lost, .

A ramp frame 20 is formed in front of the stationary plate 13 in the reinforcing wall 10 and the ramp plate 23 is fixed to the stationary frame 21 through the second slide member 22 It can move left and right in the horizontal direction. The second slide member 22 is controlled by automatic control or manual control so that the light source of the lamp plate 23 is projected to the plate 13 of the building wall 10 alternately in place of natural light, Is possible. Of course, the second slide member 22 is a pulley and a slide rail structure corresponding to each other, and a pulley is formed on the fixed frame 21 and a slide rail is formed on the ramp 23, 21). Alternatively, a slide rail may be formed on the fixed frame 21 and a ramp may be formed on the ramp plate 23 to slide the ramp plate 23 between the fixed frames 21. The second slide member 22 is a slide block and a slide lever structure corresponding to each other. The slide block is formed on the fixed frame 21 and the slide lever is formed on the ramp plate 23 so that the ramp plate 23 is fixed The frame 21 can be moved in a sliding manner. Alternatively, a slide lever may be formed on the fixed frame 21 and a slide block may be formed on the ramp plate 23 so that the ramp plate 23 slides between the fixed frames 21.

6 and 7, a plurality of building walls 10, a plurality of ramp frames 20 and a liquid circulation supply assembly 30 are fixedly coupled onto a pedestal 50, A plurality of fixed wheels 14 are formed on the fixed frame 14 and a foldable support wheel 15 is formed between the fixed wheels 14 so that the fixed plate 13 is advantageously slidable between the wall frames 11 But it can be advantageous to move the entire equipment. As shown in FIG. 8, the entire apparatus can be coupled to an air conditioning room 60 having a receiving space, and can be controlled to stabilize the growth environment of the plant by adjusting the indoor temperature and humidity, and to accelerate the growth of plant seedlings .

As described above, since the present invention provides a preferable plant cultivation equipment, a utility model registration application is submitted according to the law. The technical features and characteristics of the present invention are the same as those described above, but a person skilled in the art can make changes and modifications on the basis of the contents of the present invention without departing from the purpose of the present invention. Accordingly, the scope of protection of the present invention should not be limited to the contents disclosed in the embodiments but should include those included in the scope of utility model registration claims described below as changes and modifications that do not depart from the present invention.

10 Reinforced wall 23 Lamp plate
11 Wall frame 30 Liquid circulation supply assembly
12 first slide member 31 liquid supply member
13 plate 32 liquid gathering member
131 through hole 33 pipeline
14 fixed wheel 34 motor
15 Support Wheel 35 Nutrient Solution
20 lamp frame 40 seedlings
21 Fixed frame 50 Plate
22 second slide member 60 air conditioning room

Claims (8)

In plant cultivation equipment, at least
A plurality of ramming frames, a plurality of ramming frames, and a liquid circulation supply assembly,
Wherein the plurality of reinforcing walls are provided in parallel with each other, and each of the reinforcing walls is composed of a wall frame, a first slide member, and at least one plate, the plate is fitted into a wall frame, And can be pulled or folded in a movable manner,
The lamp frame includes a fixed frame, a second slide member, and a ramp plate. At least one ramp plate is installed in the fixed frame, , The ramp plate moves laterally within the fixed frame through the second slide member,
Wherein the liquid circulation supply assembly includes a plurality of liquid supply members, a liquid collection member, a plurality of pipelines, and a motor connected to each other, wherein the liquid supply member is fixed to the wall frame at an upper portion of the plate- The received nutrient solution is transported to the liquid supply member through the pipeline and supplied to the plate, and the nutrient solution is flowed back to the liquid collection member again through the pipeline to form the circulation circuit. The method according to claim 1,
The planting equipment according to any one of claims 1 to 3, wherein the plate is fitted between the wall frames in an upright posture adjacent to each other, and the plate has a plurality of through holes. The method according to claim 1,
And a plurality of through holes formed in parallel to each other, wherein the plate is sandwiched between the plate portions in a horizontal posture on a wall frame in a hierarchical manner. The method according to claim 2 or 3,
Wherein the first slide member and the second slide member are respectively a pulley and a slide rail structure corresponding to each other. The method according to claim 2 or 3,
Wherein the first slide member and the second slide member are a slide block and a slide lever structure corresponding to each other. The method according to claim 2 or 3,
Further comprising a plurality of support walls, a plurality of ramps, and a liquid circulation supply assembly mounted on the support plate, wherein the support walls are provided with a plurality of stationary wheels. The method according to claim 2 or 3,
Wherein the support walls are mounted on the planting wall and the support wheels are installed between the fixed wheels and are foldable. The method according to claim 2 or 3,
A planting apparatus in which an air conditioning room having a receiving space is further coupled to the air conditioning room, and a plurality of regulating walls, a plurality of lamp frames and a liquid circulating supply assembly are installed, and temperature and humidity of the room are controlled.

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