KR20230086018A - Hydroponics apparatus with vegetation plate that can be multi―planted and angle can be adjusted - Google Patents

Abstract

Disclosed is a hydroponic cultivation apparatus having a vegetation plate capable of multiple planting and adjusting the angle. The hydroponic cultivation apparatus having a vegetation plate capable of multiple planting and angle adjustment according to an embodiment of the present invention is provided with a predetermined inner space to accommodate and grow plants, and a pot body having an opening 111 formed at one end. 110 and a flange 130 protruding along the circumference of the outer circumferential surface of the pot body 110 and supporting the pot body 110 so that the pot body 110 is inclined at a predetermined angle when the pot body 110 is installed A port 100 including a; And a vegetation panel 300 having at least one vegetation plate 310 having a vegetation hole 311 into which the port 100 is inserted, wherein the flange 130 is of the pot body 110. It protrudes from the outer circumferential surface in an inclined shape with the opening 111 at a predetermined angle, and the flange 130 has a structure in contact with and adheres to at least one surface of the vegetation plate 310 when the pot body 110 is inserted. can have

Description

Hydroponics apparatus with vegetation plate that can be multi-planted and angle can be adjusted {Hydroponics apparatus with vegetation plate that can be multi-planted and angle can be adjusted}

The present invention relates to a hydroponic cultivation apparatus having a vegetation plate capable of multiple planting and adjusting the angle, and more particularly, to a method capable of planting a plurality of pots on a vertical wall surface and planting a plurality of crops on a vertical wall surface. , It relates to a hydroponic cultivation device in which space efficiency is improved, growth is excellent, and work efficiency is improved.

The green industry is the nation's new growth engine and future industry, and its importance is gradually increasing. As part of such a green industry, interest in indoor vegetation technologies that can be applied to indoor spaces such as homes and offices and have indoor air purification and emotional stability effects are increasing, and active research is being conducted.

Hydroponic cultivation is a method of supporting and fixing crops in various ways in a soilless state without using soil, and cultivating crops with a culture solution in which essential elements necessary for the growth of crops are dissolved in appropriate concentrations according to their absorption rates.

On the other hand, in recent years, a hydroponic cultivation method in the form of flat multi-stage cultivation capable of simultaneously cultivating a plurality of crops by arranging a plurality of ports on a certain plane has been introduced.

However, in the case of the conventional hydroponic cultivation method in the form of flat multi-stage cultivation, there was a significant disadvantage of spatial constraints requiring a lot of vegetation space.

Therefore, as a method capable of planting a plurality of crops on a vertical wall, it is required to develop a technology related to a hydroponic cultivation device that improves space efficiency and is superior in terms of growth.

Republic of Korea Patent Registration No. 10-1234615

An object of the present invention is to plant crops on a vertical wall, which can efficiently use a narrow space, and by applying the spray hydroponic cultivation method, water saving as well as plants (plants can be planted such as air purifying plants, leafy vegetables, fruits and vegetables) It is not limited to plants) to provide an excellent hydroponic cultivation device in terms of growth.

Another object of the present invention is to improve the difficulty of working due to the narrow height of each stage in vertical multi-stage cultivation, and to solve the inconvenience that the difficulty of work increases as the number of stages increases, thereby improving the inefficient work of vertical multi-stage cultivation. It is to provide a hydroponic cultivation device capable of.

Another object of the present invention is that when trying to plant plants on a vertical wall with a general hydroponic cultivation port by applying an angle adjustment port that allows plants to be planted on a vertical wall, it is impossible to plant plants at all, or the port itself is eliminated, It is to provide a hydroponic cultivation device capable of supplementing and solving the leakage.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned above can be understood by the following description and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by means of the instrumentalities and combinations indicated in the claims.

The hydroponic cultivation apparatus according to an embodiment of the present invention is provided with a predetermined inner space to accommodate and grow plants, the pot body 110 having an opening 111 formed at one end, and the outer circumferential surface of the pot body 110 A port 100 protruding along the circumference and including a flange 130 supporting the port body 110 so that the port body 110 is tilted at a predetermined angle when the port body 110 is installed; And a vegetation panel 300 having at least one vegetation plate 310 having a vegetation hole 311 into which the port 100 is inserted, wherein the flange 130 is of the pot body 110. It protrudes from the outer circumferential surface in an inclined shape with the opening 111 at a predetermined angle, and the flange 130 has a structure in contact with and adheres to at least one surface of the vegetation plate 310 when the pot body 110 is inserted. can have

At this time, the vegetation hole 311 is formed to pass through one surface and the other surface of the vegetation plate 310 in the thickness direction, and when a plurality of ports 100 are provided, the vegetation hole 311 is the port ( 100), a plurality of the vegetation plate 310 may be arranged at least in a line at a predetermined distance.

In addition, a bottom portion 113 is formed at the other end of the pot body 110 to shield the inner space of the pot body 110 in a direction facing the opening 111,

First and second pot main bodies 115 and 116 having different shapes are provided between the opening 111 and the bottom part 113, and the first pot main body 115 is the pot body 110 Forms an upper end of, is located adjacent to the opening 111 based on a certain height of the pot body 110, has a structure in which all outer peripheral surfaces are sealed, and the second pot body part 116, A plurality of slit holes forming the lower end of the pot body 110, located between the lower end of the first pot body part 115 and the bottom part 113, and surrounding the outer circumferential surface through which the roots of plants come out ( 120) may be provided.

In addition, the plurality of slit holes 120, when the port 100 is inserted, surrounds the outer circumferential surface except for the lower end of the second port body portion 116 and is spaced apart from the first port body portion ( 116), the first slit hole 121 formed long in the height direction; And when the port 100 is inserted, the second slit hole 123 is located on the outer circumferential surface of the lower end of the second port body portion 116 and is formed in a reduced size compared to the first slit hole 121. Including, a blocking portion 125 may be further provided at the lowermost end of the second port body portion 116 so that a predetermined amount of water or culture medium is stored.

In addition, the flange 130 is formed to a predetermined thickness in the area facing the vegetation plate 310, the contact member 140 for blocking the gap between each other to prevent water leakage when in contact with the vegetation plate 310; more includes

In addition, the vegetation panel 300, the vegetation plate 310 to position on a certain height, the base for supporting the lower portion of the vegetation plate 310 (culture solution reservoir) 320; A shaft 330 formed at the center of rotation of the vegetation plate 310; And an arc-shaped rotation guide hole 340 for adjusting the rotation angle of the vegetation plate 320 within a set rotation range; including, fixing the vegetation plate 310 after adjusting the rotation angle of the vegetation plate 310 A fixing member 315; further includes.

A hydroponic cultivation apparatus according to another embodiment of the present invention includes a port 500 having a hollow 550 into which plants are introduced to accommodate and grow plants; and a vegetation panel 700 provided with a mounting groove 730 for holding the port 500, wherein the port 500 is connected to the front end of the hollow 550 and has a first diameter. a disk-shaped first port body portion 510; And a second port body portion 530 connected to the rear end of the hollow 550 and formed as an integral structure at the rear of the first port body portion 510 and having a disk shape having a second diameter; , The hollow 500 may pass through the first port body 510 and the second port body 530 at the same time, and may be inclined at a predetermined angle from the inside of the port 500 . The first diameter of the first port body portion 510 is larger than the second diameter of the second port body portion 530, and the first and second diameters of the first and second port body portions 510 and 530 are formed. When the port 500 is inserted due to the difference in diameter, the port 500 may have a structure capable of being mounted on the vegetation panel 700 .

At this time, the vegetation panel 700, the first vegetation plate 710 formed inclined at a first angle; And a second vegetation plate 720 connected to the lower end of the first vegetation plate 710 to support the first vegetation plate 710, and when a plurality of ports 500 are provided, the A plurality of mounting grooves 730 may be arranged in at least one line at a predetermined distance from each other in the first vegetation plate 710 in a number corresponding to the port 500 .

According to the hydroponic cultivation device of the present invention, it is possible to efficiently use a narrow space in a manner capable of planting crops on a vertical wall, and has superior advantages in terms of plant growth. Furthermore, in vertical multi-stage cultivation, it is difficult to work due to the narrow height of each stage, and the higher the number of stages, the higher the difficulty of the work. there is.

In particular, according to the hydroponic cultivation device of the present invention, there are the following advantages. First, a plurality of ports may be vertically stacked in an inclined state on a wall surface of a vegetation panel using a flange provided on an outer surface of the port. Accordingly, uniform light (eg, LED, sunlight, etc.) can be uniformly exposed to a plurality of ports, and there are advantages in smooth water supply. As a result, a large number of plants can be grown simultaneously. Second, a plurality of ports are stacked vertically on the wall of the vegetation panel with a certain height difference, and each of the plurality of ports is inclined forward at a predetermined angle, so that the harvest of plants is easy and the work efficiency is excellent. Third, it is possible to adjust the inclination of the wall surface of the vegetation panel on which a plurality of ports are mounted at an angle, so that light energy required for vegetation can be more efficiently supplied uniformly. Fourth, the structure that can adjust the inclination of the wall of the vegetation panel and the root of the plant in the pot can be exposed to the air through spray hydroponics, so that dissolved oxygen can be secured and water can be supplied smoothly, which has excellent advantages for growth. there is. Fifth, the flange of the outer surface of the port may have a circular shape surrounding the outer surface of the port or an arc shape in which a part of the circular shape is opened, and may be coupled to the outer surface of the port in a detachable structure. Through this, by using various types of flanges coupled to the outer surface of the port, there is an advantage that the user can adjust the angle of inclination at which the port is inclined when the port is mounted on the wall of the vegetation panel to the angle desired by the user. Sixth, the roots of young plants are seated in the lower part of the pot. In order to continuously supply water to the plant roots, the lower part of the pot may have a partially blocked structure. This prevents complete leakage of water. Seventh, a plurality of ports can be arranged at least in a row at intervals left and right on a single mounting plate constituting the vegetation panel, and a plurality of ports are installed on a certain height through the wall of the vegetation panel to simultaneously grow multiple crops. There are advantages to doing so.

In addition to the effects described above, specific effects of the present invention will be described together while explaining specific details for carrying out the present invention.

1 is a conceptual diagram schematically illustrating a hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and angle-adjustable according to an embodiment of the present invention.
Figure 2 is a side conceptual diagram showing a comparison of the port of the hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and adjusting the angle according to an embodiment of the present invention.
Figure 3 is a front conceptual view showing a comparison of the port of the hydroponic cultivation apparatus having a multi-planting and angle-adjustable vegetation plate according to an embodiment of the present invention.
Figure 4 is a view to conceptually explain the port use state of the hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and angle adjustment according to an embodiment of the present invention.
Figure 5 is a conceptual diagram briefly showing a hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and adjustable angle according to an embodiment of the present invention.
Figure 6 is a conceptual diagram schematically showing a vegetation panel of a hydroponic cultivation device having a vegetation plate capable of multi-planting and adjusting the angle according to an embodiment of the present invention.
7 is a conceptual diagram schematically illustrating a port of a hydroponic cultivation device having a vegetation plate capable of multi-planting and adjusting an angle according to another embodiment of the present invention.
8 is a conceptual diagram schematically illustrating a vegetation panel of a hydroponic cultivation apparatus having a vegetation plate capable of adjusting multiple angles and capable of multi-planting according to an embodiment of the present invention.
9 is a conceptual diagram schematically illustrating a structure in which a port is attached to and detached from a vegetation plate having a vegetation hole.
10 is a conceptual diagram briefly illustrating a structure in which a port is applied to a vegetation plate equipped with a mounting groove.
11 is a conceptual diagram schematically illustrating a structure in which a general hydroponic cultivation port is applied to a vegetation plate having a vertical surface formed in a bent shape.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention. This invention may be embodied in many different forms and is not limited to the embodiments set forth herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification. In addition, some embodiments of the present invention are described in detail with reference to exemplary drawings. In adding reference numerals to components of each drawing, the same components may have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description may be omitted.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, sequence, order, or number of the corresponding component is not limited by the term. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element is or may be directly connected to that other element, but intervenes between each element. It will be understood that may be "interposed", or each component may be "connected", "coupled" or "connected" through other components.

In addition, in implementing the present invention, components may be subdivided for convenience of explanation, but these components may be implemented in one device or module, or one component may be implemented in a plurality of devices or modules. It can be implemented by being divided into .

Hydroponic cultivation is a method of supporting and fixing crops in various ways in a soilless state without using soil, and cultivating crops with a culture solution in which essential elements necessary for the growth of crops are dissolved in appropriate concentrations according to their absorption rates.

Recently, a hydroponic cultivation method in the form of flat multi-stage cultivation capable of simultaneously cultivating a plurality of crops by arranging a plurality of ports on a certain plane has been introduced. However, in the case of the conventional hydroponic cultivation method in the form of flat multi-stage cultivation, there was a significant disadvantage of spatial constraints requiring a lot of vegetation space.

The present invention can provide a hydroponic cultivation device that can improve the spatial constraints of the existing flat multi-stage hydroponic cultivation type and have superior conditions in terms of growth.

Hereinafter, with reference to the accompanying drawings, it will be described in detail with respect to a hydroponic cultivation apparatus having a vegetation plate capable of multiple planting and angle adjustment according to an embodiment of the present invention.

In the drawings, Figure 1 is a conceptual diagram briefly showing a hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and angle-adjustable according to an embodiment of the present invention, and Figure 2 is a multi-planting according to an embodiment of the present invention It is a side conceptual diagram showing a comparison of the port of a hydroponic cultivation apparatus having a vegetation plate capable of adjusting the angle, and FIG. It is a front conceptual view showing a comparison of the ports of the device, and Figure 4 is shown to conceptually explain the port use state of the hydroponic cultivation device having a vegetation plate capable of multiple planting and angle adjustment according to an embodiment of the present invention Figure 5 is a conceptual diagram briefly showing a hydroponic cultivation apparatus having a vegetation plate capable of multi-planting and angle-adjustable according to an embodiment of the present invention, Figure 6 is a multi-planting according to an embodiment of the present invention It is a conceptual diagram briefly showing a vegetation panel of a hydroponic cultivation device having a vegetation plate capable of adjusting angles.

As shown, the hydroponic cultivation apparatus 10 according to an embodiment of the present invention includes a port 100, and a vegetation panel (300, see FIGS. 5 and 6).

The pot 100 is provided with a predetermined inner space to accommodate and grow plants, has a pot body 110 having an opening 111 formed at one end, and protrudes along the circumference of the outer circumferential surface of the pot body 110, , A flange 130 supporting the port body 110 so that the port body 110 is tilted at a predetermined angle (a) when the port body 110 is installed.

The vegetation panel 300 may include at least one vegetation plate 310 having a vegetation hole 311 into which the port 100 is inserted.

The flange 130 may protrude from the outer circumferential surface of the pot body 110 in an inclined shape with the opening 111 at a predetermined angle (a).

In addition, when the pot body 110 is inserted, the flange 130 may have a structure that comes into close contact with at least one surface of the vegetation plate 310 .

As a specific example, the vegetation hole 311 may be formed to pass through one side and the other side of the vegetation plate 310 in the thickness direction.

Vegetation holes 311 may be formed corresponding to the number of ports 100 (see FIG. 5).

If a plurality of ports 100 are provided, the number of vegetation holes 311 corresponding to the ports 100 may be arranged in at least one line at a predetermined distance from each other in the vegetation plate 310. there is.

In addition, a bottom portion 113 may be formed at the other end of the pot body 110 to shield the inner space of the pot body 110 in a direction facing the opening 111 .

In this way, the pot body 110 can put plants and other things necessary for vegetation into the inner space through the opening 111, and the bottom part 113 is formed to be blocked, so that the pot has the shape of a container such as a general pot or cup as a whole. can have

Meanwhile, first and second port body parts 115 and 116 having different shapes may be provided between the opening 111 and the bottom part 113 .

The first pot body portion 115 forms the upper end of the pot body 110 .

As a specific example, the first pot body 115 may be positioned adjacent to the opening 111 based on a predetermined height of the pot body 110, and may have a structure in which all outer peripheral surfaces are sealed.

Unlike this, the second pot body portion 116 forms the lower end of the pot body 110 .

As a specific example, the second pot body portion 116 is located between the lower end of the first pot body portion 115 and the bottom portion 113, and a plurality of slit holes ( 120) may be provided.

In addition, the plurality of slit holes 120 include a first slit hole 121 and a second slit hole 123 (see FIG. 2(b) ).

When the port 100 is inserted, the first slit hole 121 surrounds the outer circumferential surface except for the lower end of the second port body 116 and is spaced at a predetermined interval at the height of the first port body 116. It can be formed long in the direction.

The second slit hole 123 is located on the outer circumferential surface of the lower end of the second port body 116 when the port 100 is inserted, and may be formed in a reduced size compared to the first slit hole 121. there is.

As one embodiment, referring to FIG. 2 (a), only the first slit holes 121 are formed around the outer circumferential surface of the second pot body 116 at predetermined intervals.

As another embodiment, referring to (b) of FIG. 2 , the second port body 116 includes a first slit hole 121 and a second slit hole 123 .

The second slit hole 123 is located on the outer circumferential surface of the lower end of the second port body 116 when the port 100 is inserted, and is formed in a smaller size than the first slit hole 121 so that water or culture medium It is possible to suppress escape from the port 100 by gravity.

In addition, referring to FIG. 3 (b) as another embodiment, unlike FIG. may be provided. When the port 100 is mounted on the vertical wall of the vegetation panel 300, the blocking portion 125 prevents all of the water or culture medium from escaping, allowing at least a portion of the water or culture medium to accumulate. Accordingly, it reduces the stress of young plants with root development, and can be one means of preventing plants from dying due to a temporary stop or failure of the motor provided in the hydroponic cultivation apparatus 100. In addition, when a plant with a long stem or a tall plant is planted in the inner space of the pot 100 by blocking a certain area at the lower end of the second pot body part 116, the phenomenon in which the plant sag due to gravity is prevented, and the plant It serves as a support guide for crops to grow in an inclined direction at a predetermined angle (eg, 50 degrees, etc.).

In addition, the flange 130 may further include an adhesion member 140 . The adhesion member 140 is formed to a predetermined thickness in the area where the flange 130 and the vegetation plate 310 face each other, and serves to block a gap between each other to prevent water leakage when in contact with the vegetation plate 310. In addition, the posture and position of the pot body 110 is prevented from being changed when the pot body 110 is installed by using the adhesion of the flange 130, and external force or shock is absorbed to maintain the pot body 110 and the vegetation panel. Structural damage or damage can be prevented by absorbing or alleviating the physical load between the 300. The contact member 140 may be made of an elastic material such as rubber, and various other elastic materials may be used.

On the other hand, the vegetation panel 300 further includes a vegetation plate 310, a base (culture fluid reservoir) 320, a shaft 33, and a rotation guide hole 340 (see FIG. 6).

The base (culture medium reservoir) 320 refers to a body supporting the lower part of the vegetation plate 310 so as to position the vegetation plate 310 on a certain height.

Shaft 330 may be formed by forming a center of rotation of the vegetation plate 310.

The rotation guide hole 340 refers to an arc-shaped long hole for adjusting the rotation angle of the vegetation plate 320 within a set rotation range.

In addition, the vegetation plate 310 may further include a fixing member 315 that is fastened and released in a detachable manner to fix the vegetation plate 310 after adjusting the rotation angle of the vegetation plate 310. .

Hereinafter, a hydroponic cultivation apparatus according to another embodiment of the present invention will be described in detail with reference to FIGS. 7 and 8 .

7 is a conceptual diagram briefly showing a port of a hydroponic cultivation device according to another embodiment of the present invention, and FIG. 8 is a conceptual diagram briefly showing a vegetation panel of a hydroponic cultivation device according to an embodiment of the present invention.

7 and 8, the hydroponic cultivation apparatus according to another embodiment of the present invention includes a port 500 and a vegetation panel 700.

The pot 500 has a hollow 550 into which plants are put so as to accommodate and grow plants.

In other words, the pot 500 may be formed in a double disk shape, and a plant may be disposed through the inner circular hollow 550 .

The vegetation panel 700 may be provided with a mounting groove 730 for mounting the pot 500 . The mounting groove 730 may have a cylindrical shape, and at least a portion of the port 500 may be inserted into and mounted in the mounting groove 730 .

As a specific example, the port 500 is connected to the front end of the hollow 550 and is connected to the first port body 510 having a disk shape having a first diameter and the rear end of the hollow 550, and It is formed as an integral structure at the rear of the one-port body portion 510 and includes a second port body portion 530 having a disk shape having a second diameter.

The hollow 500 may pass through the first port body 510 and the second port body 530 at the same time, and may be inclined at a predetermined angle from the inside of the port 500 . However, the inclined shape of the hollow 500 is not necessarily limited to the illustrated form and may have an inclined shape different from that shown at various angles.

In this case, the first diameter of the first pot body 510 may be larger than the second diameter of the second pot body 520 .

Due to the difference between the first and second diameters of the first and second port body parts 510 and 530, when the port 500 is inserted, the port 500 may have a structure capable of being mounted on the vegetation panel 700. . That is, the first diameter of the first pot body 510 has a shape larger than the second diameter of the second pot body 530, and the second diameter of the second pot body 530 is the mounting groove 730. ) Has a size that can be inserted into, and the first diameter of the first port body portion 510 is larger than the mounting groove 730, so that the second port body portion 530 is inserted, and the first port body portion ( 510) may have a hooked shape.

On the other hand, the vegetation panel 700 is connected to the lower end of the first vegetation plate 710 formed inclined at a first angle and the first vegetation plate 710, the second vegetation plate supporting the first vegetation plate 710 720 (see FIG. 8).

If a plurality of ports 500 are provided, a plurality of mounting grooves 730 may be arranged in at least one line at a predetermined distance in the first vegetation plate 710 in a number corresponding to the port 500. there is. 8, it can be seen that the first vegetation plate 710 is arranged in three rows in the vertical direction, and three mounting grooves 730 are arranged at intervals in the left and right directions for each first vegetation plate 710 in each row. can However, this arrangement structure is an exemplary form, and the present invention is not limited to the number of the first vegetation plate 710 and the mounting groove 730, and may be changed to a different number.

9 is a conceptual diagram schematically illustrating a structure in which a port is attached and detached from a vegetation plate having a vegetation hole.

Referring to FIG. 9 , a plurality of vegetation holes 311 are provided in the vegetation plate 310, and the pot 100 may be detachable from each vegetation hole 311.

10 is a conceptual diagram briefly illustrating a structure in which a port is applied to a vegetation plate equipped with a mounting groove.

Referring to FIG. 10, the vegetation plate 310 is provided with a mounting groove, and the port 100 shown in FIG. 9 may be attached to or detached from the port 500 of a different type.

11 is a conceptual diagram schematically illustrating a structure in which a general hydroponic cultivation port is applied to a vegetation plate having a vertical surface formed in a bent shape.

Referring to Figure 11, when the general hydroponic cultivation port is applied to a vertical surface, the vertical surface of the vegetation plate 310 may be formed in a bent shape inclined at a certain angle to prevent falling off and leakage. As a result, it is possible to utilize a general hydroponic cultivation port as it is without developing and using a separate port.

As described above, according to the configuration and operation of the present invention, it is possible to efficiently use a narrow space by planting crops on a vertical wall, and has superior advantages in terms of plant growth.

In particular, in vertical multi-stage cultivation, it is difficult to work due to the narrow height of each stage, and the higher the number of stages, the higher the difficulty of the work, thereby improving the inefficient work of vertical multi-stage cultivation. there is.

Specifically, according to the present invention, there are the following advantages.

First, a plurality of ports may be vertically stacked and disposed in an inclined state on a wall surface of a vegetation panel using a flange provided on an outer surface of the port. Accordingly, uniform light (eg, LED, sunlight, etc.) can be uniformly exposed to a plurality of ports, and there are advantages in smooth water supply. As a result, a large number of plants can be grown simultaneously.

Next, a plurality of ports are stacked vertically on the wall surface of the vegetation panel with a certain height difference, and each of the plurality of ports is inclined forward at a predetermined angle, thereby facilitating harvesting of plants and providing excellent work efficiency.

Next, it is possible to adjust the inclination of the wall surface of the vegetation panel on which the plurality of ports are inclinedly mounted, so that light energy required for vegetation can be more efficiently and uniformly supplied.

Next, the structure that can adjust the inclination of the wall of the vegetation panel and the root of the plant in the pot can be exposed to the air through spray hydroponics, so that dissolved oxygen can be secured and water can be supplied smoothly, which is excellent for growth. There are advantages.

Next, the flange of the outer surface of the port may have a circular shape surrounding the outer surface of the port or an arc shape in which a part of the circular shape is opened, and may be coupled to the outer surface of the port in a detachable structure. Through this, by using various types of flanges coupled to the outer surface of the port, there is an advantage that the user can adjust the angle of inclination at which the port is inclined when the port is mounted on the wall of the vegetation panel to the angle desired by the user.

Next, the roots of young plants are seated in the lower part of the pot. In order to continuously supply water to the plant roots, the lower part of the pot may have a partially blocked structure. This prevents complete leakage of water.

Next, a plurality of ports may be arranged at least in a line at intervals from side to side on a single mounting plate constituting the vegetation panel, and a plurality of ports are installed on a certain height through the wall of the vegetation panel to grow a number of crops. It has the advantage of being able to grow at the same time.

As described above, the present invention has been described with reference to the drawings illustrated, but the present invention is not limited by the embodiments and drawings disclosed in this specification, and various modifications are made by those skilled in the art within the scope of the technical idea of the present invention. It is obvious that variations can be made. In addition, although the operational effects according to the configuration of the present invention have not been explicitly described and described while describing the embodiments of the present invention, it is natural that the effects predictable by the corresponding configuration should also be recognized.

10: hydroponic cultivation device
100: port
110: port body
111: opening
113: bottom
115: first port body part
116: second port body part
120: slit hole
121: first slit hole
123: second slit hole
125: blockage
130: flange
140: adhesion member
300: vegetation panel
310: vegetation plate
311: vegetation hall
315: fixing member
320: base (culture fluid reservoir)
330: axis
340: rotation guide hole
500: port
510: first port body part
530: second port body part
550: hollow
551: first hollow surface
552 second hollow surface
700: vegetation panel
710: first vegetation plate
720: second vegetation plate
730: deferred home

Claims (8)

A pot body 110 provided with a predetermined inner space to accommodate and grow plants and having an opening 111 formed at one end;
A port protruding along the circumference of the outer circumferential surface of the port body 110 and including a flange 130 supporting the port body 110 so that the port body 110 is inclined at a predetermined angle when the port body 110 is installed ( 100); and
A vegetation panel 300 having at least one vegetation plate 310 having a vegetation hole 311 into which the port 100 is inserted; includes,
The flange 130 protrudes from the outer circumferential surface of the pot body 110 in an inclined shape with the opening 111 at a predetermined angle,
The flange 130 has a structure in close contact with at least one surface of the vegetation plate 310 when the pot body 110 is inserted.
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.
According to claim 1,
The vegetation hole 311 is
It is formed to penetrate one side and the other side of the vegetation plate 310 in the thickness direction,
When the port 100 is provided with a plurality, the vegetation holes 311 are arranged at least in a row at a predetermined distance in the vegetation plate 310 in the number corresponding to the port 100 Provided
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.
According to claim 1,
At the other end of the pot body 110, a bottom part 113 is formed to shield the inner space of the pot body 110 in a direction facing the opening 111,
First and second port body parts 115 and 116 having different shapes are provided between the opening 111 and the bottom part 113,
The first port body portion 115 is
It forms the upper end of the pot body 110, is located adjacent to the opening 111 based on a certain height of the pot body 110, and has a structure in which all outer peripheral surfaces are sealed,
The second port body portion 116,
A plurality of slit holes forming the lower end of the pot body 110, located between the lower end of the first pot body part 115 and the bottom part 113, and surrounding the outer circumferential surface through which the roots of plants come out ( 120) is provided
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.
According to claim 3,
The plurality of slit holes 120,
When the port 100 is inserted, the first slit holes are formed long in the height direction of the first port body 116 at predetermined intervals surrounding the outer circumferential surface except for the lower end of the second port body 116. (121); and
When the port 100 is inserted, the second slit hole 123 is located on the outer circumferential surface of the lower end of the second port body 116 and is formed in a reduced size compared to the first slit hole 121; and
At the lowermost end of the second port body portion 116, a blocking portion 125 is further provided so that a predetermined amount of water or culture medium is stored.
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.
According to claim 1,
The flange 130,
Adhesion members 140 formed to a predetermined thickness in an area facing the vegetation plate 310 and blocking gaps between each other to prevent leakage when in contact with the vegetation plate 310;
Multiple planting is possible and hydroponic cultivation apparatus having a vegetation plate capable of adjusting the angle further comprising a.
According to claim 1,
The vegetation panel 300,
Base 320 for supporting the lower portion of the vegetation plate 310 to position the vegetation plate 310 on a certain height;
A shaft 330 formed at the center of rotation of the vegetation plate 310; and
An arc-shaped rotation guide hole 340 for adjusting the rotation angle of the vegetation plate 320 within a set rotation range,
A fixing member 315 for fixing the vegetation plate 310 after adjusting the rotation angle of the vegetation plate 310;
Multiple planting is possible and hydroponic cultivation apparatus having a vegetation plate capable of adjusting the angle further comprising a.
a port 500 having a hollow 550 into which plants are introduced to accommodate and grow plants; and
It includes; a vegetation panel 700 provided with a mounting groove 730 for holding the port 500,
The port 500,
a disk-shaped first port body 510 connected to the front end of the hollow 550 and having a first diameter; and
A second port body portion 530 connected to the rear end of the hollow 550 and formed as an integral structure at the rear of the first port body portion 510 and having a disk shape having a second diameter; includes,
The hollow 500 penetrates the first port body portion 510 and the second port body portion 530 at the same time and is formed to be inclined at a predetermined angle inside the port 500,
The first diameter of the first port body portion 510 is larger than the second diameter of the second port body portion 530, and the first and second diameters of the first and second port body portions 510 and 530 are formed. When the port 500 is inserted due to the difference in diameter, the port 500 has a structure that can be attached to and detached from the vegetation panel 700.
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.
According to claim 7,
The vegetation panel 700,
A first vegetation plate 710 formed inclined at a first angle; and
A second vegetation plate 720 connected to the lower end of the first vegetation plate 710 to support the first vegetation plate 710;
When a plurality of ports 500 are provided, a plurality of mounting grooves 730 are arranged in at least one line at a predetermined distance in the first vegetation plate 710 in a number corresponding to the port 500 provided
A hydroponic cultivation device equipped with a vegetation plate capable of multiple planting and angle adjustment.

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