KR20160127865A - assembly type plant factory for water culture - Google Patents

Abstract

Disclosed is an assembly type plant factory for hydroponics, which is capable of improving transfer efficiency. According to one embodiment of the present invention, the assembly type plant factory comprises: a box type main body having a cultivation room therein; a cultivation bed including multiple cultivation baths and placed in the cultivation room; a nutrient solution supply apparatus including a nutrient solution pipe to supply a nutrient solution to the cultivation baths; an air-conditioning apparatus including an air pipe for air-conditioning of the cultivation room; and a wire pipe to supply electricity to artificial light sources installed to emit artificial light toward plants planted in the cultivation baths. The main body is formed by a plurality of panels mutually assembled in a detachable manner, and the panels include a pipe-embedded panel in which at least a partial section of at least one among the wire pipe, the nutrient solution pipe, and the air pipe is integrally embedded.

Description

[0001] The present invention relates to a plant for planting hydroponics,

The present invention relates to a prefabricated plant plant for hydroponics which is designed to improve transportation efficiency and workability.

In recent years, interest in plant factories has been increasing in order to solve the instability of supply of crops due to climate effects.

Plant plants are usually designed to cultivate crops in hydroponic cultivation methods using nutrients in an interior space that is blocked from the outside.

Inside the plant, a large number of cultivation tanks with plants planted are installed considering space utilization. An appropriate amount of nutrient solution is continuously supplied to the cultivation tank through the nutrient supply device, and the inside of the plant factory maintains climatic conditions suitable for the cultivation conditions of the crops cultivated through the air conditioner.

These plant factories are gradually becoming smaller and more intensive with related facilities.

For example, Korean Patent Laid-Open Publication No. 10-2002-0011225 discloses an example of a conventional plant factory provided in a container type.

Korean Patent Publication No. 10-2002-0011225

However, in the conventional container type plant factory, it is difficult to reduce the transportation volume because the main body is transported in a state that the main body is fully shaped like a general container, so that it has many difficulties in transportation from the manufacturing site to the use site.

In addition, the related devices installed in plant factories, such as air conditioners and nutrient solution supply units, are installed in the main body of the plant. In this case, careful attention must be paid to the workers to install the related parts such as air piping and nutrient piping, And this has been a factor for lowering the workability of plant factories.

Embodiments of the present invention provide a plant plant for hydroponics that can improve transportation efficiency.

Also, it is intended to provide a prefabricated plant plant for hydroponics, which can be easily constructed by anyone in use.

According to an aspect of the present invention, there is provided a method for producing a nutrient solution comprising: a box-shaped body having a cultivating chamber therein; a cultivation bed having a plurality of cultivating chambers and disposed in the cultivating chamber; An air conditioner provided for air conditioning the air in the cultivation room, and an electric wire piping for supplying power to an artificial light source for irradiating artificial light to plants planted in the cultivation facility Wherein the main body is composed of a plurality of panels assembled so as to be separable from each other, wherein at least a part of at least one of the electric wire pipeline, the nutrient solution pipe and the air pipeline is integrally embedded A prefabricated plant plant for hydroponics including a plumbing panel can be provided.

Wherein the main body further comprises a plurality of connection blocks which are connected to each other to connect adjacent ones of the panels, and wherein the connection blocks connecting the pipe-embedded panels in the connection block are connected to each other through the pipes of the pipe- A piping connector may be provided.

Wherein an air vent hole is formed in the inner surface of at least a part of the pipe-embedded panels in which the air pipe is embedded, so that air introduced along the air pipe is discharged to the cultivation chamber, A damper for adjustment can be provided.

Wherein at least a part of the pipe embedded type panel in which the nutrient solution pipe is embedded is provided with a hose connection port for connecting the nutrient solution hose to the nutrient solution pipe so that the nutrient solution hose is detachably coupled to the hose connection port, As shown in FIG.

And an outlet connected to the electric wire piping may be provided on the inner surface of at least a part of the pipe embedded type panel in which the electric wire pipeline is embedded.

Wherein a plurality of said redistribution vessels are laminated in a multilayered manner, and a reflection plate in the form of a strip for reflecting light is formed on the inner surface of the panel forming the sidewall of said cultivation chamber, As shown in FIG.

The panel comprising a top panel defining an upper portion of the main body, a bottom panel defining a bottom of the main body, and a sidewall panel configured to define a sidewall of the main body about the periphery between the bottom panel and the top panel, The connection blocks may be connected to each other through a connection block, and the connection block may include a coupling block provided to couple the main bodies to each other so that a plurality of the main bodies can be connected to each other.

The plant factory for hydroponic cultivation according to the embodiment of the present invention comprises a plurality of panels assembled so as to be removable from each other in a box-shaped body, thereby reducing the volume during transportation and improving the transportation efficiency.

In addition, since the piping used for the nutrient solution supply device or the air conditioner is partially embedded in a part of the prefabricated panels according to the embodiment of the present invention, the installation of the related pipes is completed at the same time of assembly between the panels, Anyone can easily construct.

1 is an exploded perspective view of a granular plant for hydroponics according to an embodiment of the present invention.
Fig. 2 is an enlarged view of the structure of the first sidewall panel in Fig.
3 is a perspective view illustrating an assembly structure of a plant factory for hydroponic cultivation according to an embodiment of the present invention.
4 is a plan sectional view of the prefabricated plant for hydroponic cultivation shown in Fig.
FIG. 5 is a side view showing a culture chamber interior structure in a plant plant for hydroponic cultivation according to an embodiment of the present invention.
FIG. 6 is a perspective view showing an external structure of a plant plant for hydroponic cultivation according to another embodiment of the present invention.
7 is a perspective view illustrating an outer structure of a plant plant for hydroponic cultivation according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1 to 5, a plant plant 1 for hydroponic cultivation according to an embodiment of the present invention has an appearance through a box-shaped main body 10 such as a container.

The main body 10 is provided with a cultivation image 20 for planting plants, an artificial light source 30 for providing light to plants, and a cultivation room 10b to maintain climatic conditions suitable for cultivation conditions of the plant And a nutrient solution supply device 50 for supplying a nutrient solution to plants in the cultivation bed 20 for hydroponics cultivation can be provided.

The inner space of the main body 10 is partitioned into a cultivation room 10b and a front room 10a in which a cultivation room 20 is installed and a partition wall 16 ). ≪ / RTI > A door 10c is formed at one side of the main body 10 communicating with the front chamber 10a so that the manager enters the inside of the front chamber 10a of the main body 10 through the door 10c and grows through the automatic door 17 So that the user can enter and leave the room 10b.

In the structure of the main body 10 in which the front chamber 10a and the cultivation chamber 10b are partitioned and the growth chamber 10b is made to go in and out through the front chamber 10a, The outside air does not directly affect the plants in the cultivation room 10b.

The cultivation bed 20 can be arranged on both sides of the cultivation room 10b so that the passage of the coffins can be freely moved therebetween. Each rejuvenation phase 20 may be provided so as to have a structure in which a plurality of the remediation vessels 21 are stacked in layers through the support frame 22. [

The artificial light source 30 may be provided with a plurality of LEDs. The artificial light source 30 may be installed in the upper support frame 22 on each layer of the reed bed 20 so as to irradiate light toward the plant of each cultivation tank 21. The artificial light source 30 may be used as a fluorescent lamp or a metal depending on the characteristics of a plant to be cultivated. Of course, when the plants to be planted in the redistricer 21 of each layer have different optical characteristics, the artificial light sources 30 may be installed in different kinds of cultivation basins 21. The main body 10 is provided with a wire 60 for supplying power to the artificial light source 30.

The air conditioner 40 is for adjusting the air temperature, the humidity and the carbon dioxide amount of the cultivation room 10b in accordance with the characteristics of cultivated plants and can be configured to include the air conditioner 41 and the air piping 42 have. The air piping 42 includes an intake pipe 42a for introducing outside air, a blowing pipe 42b for supplying the outside air introduced through the intake pipe 42a to the cultivation room 10b, And an exhaust pipe 42c for exhausting the air passing through the exhaust pipes 42a and 42b.

Therefore, when the air conditioner 41 is driven, the outside air flows into the air conditioner 41 through the intake pipe 42a and is supplied to the cultivation room 10b through the ventilation pipe 42b in a harmonized state, Air can be discharged to the outside along the exhaust pipe 42c.

The air conditioner 41 may include a blower (not shown) for adjusting the temperature of the air and the amount of carbon dioxide. The air conditioner 41 can receive the measurement value detected through sensors (not shown) that detect the temperature, humidity, and carbon dioxide amount of the cultivation room 10b, and adjust the air condition of the cultivation room 10b within the set value range.

The nutrient solution supply device 50 includes a nutrient solution tank 51, a nutrient solution piping 52 connected between the nutrient solution tank 51 and the cultivation tank 21 for conveying the nutrient solution, And a pump (not shown) that pumps the liquid to the liquid pipe 52. And may be installed so as to be built in a pump (not shown) nutrient solution tank 51.

The driving of the air conditioner 41, the artificial light source 30, the pump (not shown), and the like can be automatically controlled through the control module 70 according to the set values inputted by the manager.

The planting factory 1 for hydroponic cultivation according to the present embodiment includes a plurality of panels 11, 12, and 13 assembled so that a box-shaped main body 10 can be separated from each other so as to improve transportation efficiency by reducing volume during transportation, 13).

1, which is an exploded perspective view of the planting plant 1 for hydroponic cultivation according to the present embodiment, panels 11, 12, and 13 constituting the main body 10 are arranged on the upper part A plurality of side walls 12 arranged to form side walls of the main body 10 around the bottom panel 12 and the top panel 11; Panel 13 as shown in FIG. The side wall panel 13 may be divided into a pair of first side wall panels 14 disposed to face each other to form long sides and a pair of second side wall panels 15 disposed to face each other to form short sides.

The panels 11, 12, and 13 can improve the heat insulating performance of the cultivation room 10b through the heat insulating material or the air layer provided between the inner and outer surfaces. The insulation may be provided through a material such as a urethane material.

The adjacent panels among the plurality of panels 11, 12, and 13 constituting the main body 10 are connected through the connection block 80. In this embodiment, the connection block 80 may be composed of four pieces arranged between the respective side wall panels 13.

First and second connection protrusions 81 and 82 are provided at the upper and lower ends of the connection blocks 80 and a third connection protrusion 83 is provided at the side of the connection block 80. [

The first connection protrusion 81 is fitted and engaged with a first connection groove (not shown) at an edge of an upper panel 11 (not shown), and a second connection protrusion 82 is fitted into a second connection groove And the third connection protrusion 83 may be coupled to the third connection groove 13a provided at the end surface of the side wall panel 13. [ Here, the positions of the connection protrusions 81, 82, 83 and the connection grooves 12a, 13a may be reversed.

Therefore, the plurality of panels 11, 12, 13 constituting the main body 10 are stacked in a state of being separated from each other during transportation, thereby reducing the carrying volume. The plurality of panels 11, 12, The main body 10 of the container type can be formed simply by joining the neighboring panels through the connection block 80.

Further, the panels 11, 12, and 13 are connected to the electric wire piping 60 and the front and rear panels 11, 12, and 13 so that anyone can easily install the prefabricated plant factories 1, And a pipe embedding type panel (90) in which at least a part of at least one of the nutrient pipe (52) and the air pipe (42) is integrally embedded.

In the present embodiment, the piping embedding type panel 90 becomes the side wall panel 13, and the electric wire piping 60 and the liquid pipe 52 are connected to the side wall panel 13, and the air piping 42b of the air piping 42 is connected to the side wall panel 13. [ May be provided integrally.

The pipes 60, 52, and 42b may be disposed along the longitudinal direction of the side wall panel 13 such that both ends thereof are exposed to the end surface of the side wall panel 13. [ In addition, the pipes 60, 52 and 42b are grouped one by one to form the piping group 100, and a plurality of the piping groups 100 may be spaced apart from each other in the vertical direction of the side wall panel 13. [ A plurality of the piping groups 100 may be spaced apart from each other so as to be provided at positions corresponding to the rearrangement 21 of each layer of the rejuvenation 20.

The connecting block 80 is provided with a plurality of pipes 90 and 90 so that the adjacent pipes 90 are assembled by the connecting block 80 and the pipes 60, 42b and 52 of the pipe- The connectors 111, 112 and 113 may be provided.

The piping connectors 111, 112, and 113 may be provided for each piping. In the present embodiment, the pipe connectors 111, 112 and 113 are integrally provided with the third connection projections 83 of the connection block 80. The pipes 62, 42b and 52 are connected to the third connection The third connecting protrusion 83 is engaged with the third connecting groove 13a when assembled between the side wall panels 13 so that the connection between the corresponding pipes 60, As shown in FIG.

When the piping 60, 42b, 52 is formed only on a part of the side wall panel 13, the piping 60, 42b, 52 is not connected to the side wall panel 13 side The projections 83 can be removed from the pipe connectors 111, 112 and 113.

In the air conditioner 40, the intake pipe 42a and the exhaust pipe 42c are installed on both sides of the upper panel 11 of the main body 10, and the connecting block 80 is formed hollow, Or the exhaust pipes 42a and 42c and the inside of the hollow portion 84 of the connection block 80 is communicated with the blowing pipe 42b buried in the side wall panel 13 through the pipe connecting hole 112 .

In the drawings, reference numerals a and c denote an inlet of the intake pipe 42a and an outlet of the exhaust pipe 42c, respectively. The air conditioner 41 of the air conditioner 40 can be built in the intake pipe 42a to form a forced flow of air flowing along the air pipe 42. [ Of course, the air conditioner 41 may be installed in the exhaust pipe 42c, and a separate blowing fan may be additionally provided in the intake and exhaust pipes 42a and 42c without the air conditioner 41.

Therefore, when the air conditioner 41 is driven, the outside air of the main body 10 is harmonized through the air conditioner 41 in a state of being introduced through the intake pipe 42a, and a part of the air, which is harmonized by the air conditioner 41, The air is supplied to the cultivation room 10b via the air discharge pipe 42b and the air that has passed through the air discharge pipe 42b can be discharged to the outside of the main body 10 through the discharge pipe 42c. As the air flow is continuously performed, the air in the cultivation room 10b can maintain the climatic conditions suitable for the cultivation characteristics of the plant.

The air discharge hole 120 is formed on the inner surface of the first sidewall panel 14 so that air flowing along the air discharge pipe 42b embedded in the side wall panel 13 can be discharged to the cultivation room 10b. Can be provided.

The air discharge hole 120 is formed on the inner surface of the second sidewall panel 15 so that the air discharge hole 120 is formed on the inner surface of the second sidewall panel 15. In this case, But may be provided only on the inner surface of the first sidewall panel 14.

The air vent holes 120 may be provided so as to be aligned with the positions of the respective submerged cultivation tanks 21 in the cultivation bed 20 so that air can be sprayed to the plants planted in the respective cultivation tanks 21 .

A damper 130 may be provided on the inner surface of each of the first sidewall panels 14 for opening and closing the air vent holes 120 and adjusting the opening degree thereof. The damper 130 may include a rotary knob 131 and an opening and closing member 132 that is vertically movable within the first sidewall panel 14 in accordance with the rotation of the rotary knob 131. [ Accordingly, as the opening and closing member 132 is moved in the vertical direction by the rotation operation of the rotary knob 131, the air discharge holes 120 can be opened or closed or the opening degree can be adjusted. The damper 130 can be installed individually in each of the air discharge holes 120 and the damper 130 can be opened and closed within a range capable of adjusting the opening of the air discharge hole 120 The present invention can be applied to various other forms including a sliding method in addition to the above-described rotating method.

The nutrient solution supply device 50 further includes a fluid hose 53 for transferring the nutrient solution in the nutrient solution tank 51 to the nutrient solution pipe 52 or for delivering the nutrient solution in the nutrient solution pipe 52 to the cultivation bed 20 . The first sidewall panel 14 may be integrally provided with a hose connection port 140 for connecting the nutrient solution hose 53 to the filled nutrient solution pipe 52.

The hose connection port 140 may be integrally fixed to the first sidewall panel 14 at a proper position for connecting the fluid hose 53 in consideration of the installation position of the nutrient solution tank 51 and the reed bed 20. The fluid hose 53 can be detachably coupled to the hose connecting port 140. The hose connecting port 140 is formed so as to communicate with the nutrient solution pipe 52, And can be prepared to be opened accordingly.

The nutrient solution supply device 50 may further include a drainage tank 54 provided at the bottom of the support frame 22 and a drainage pipe 55 connecting between the drainage tank and each of the remediation tanks 21. The nutrient solution in the nutrient solution tank 51 is transferred to the respective cultivation apparatuses 21 along the nutrient solution hose 53 and the nutrient solution piping 52 when the internal pump (not shown) is driven and is delivered to the cultivation apparatus 21 The remaining amount of the nutrient solution can be discharged to the drainage tank 54 along the drainage pipe 55. The drain pipe 55 may further include a flow control valve 56 for adjusting the level of the nutrient solution in the remediation tank 21.

In addition, an outlet 150 connected to the embedded electric wire 60 may be integrally formed on the inner surface of one side of the side wall panel 13 in which the electric wire 60 is embedded.

Therefore, in the hydroponic planting factory 1, the main body 10 is assembled, and the artificial light source 30, the air conditioner 41, the control unit 30, and the control unit 40 are connected to the receptacle 150 in a state where the cultivation room 20 is installed in the cultivation room 10b. It is possible to immediately drive these devices by connecting only the code of the panel 70 or the like.

In order to allow the light of the artificial light source 30 provided on the upper side of each cultivation tank 21 to be irradiated to plants of the cultivation tank 21 in various directions, (160) may be arranged so as to form a plurality of rows in the vertical direction according to the positions of the respective cultivation tanks (21).

The reflection plate 160 may be formed of a thin metal sheet having a light reflecting property such as aluminum and may be attached to the inner surface of the side wall panel 13 or may be coated with a coating material of a light reflecting material on the inner surface of the side wall panel 13 As shown in FIG.

The reflector 160 may be provided along the arrangement direction of the air vent holes 120 on the inner surface of the first sidewall panel 14 where the air vent holes 120 are located.

The prefabricated plant 1 constructed as described above forms the box-shaped main body 10 simply by connecting the panels 11, 12, 12 to the connection block 80.

At this time, the liquid pipe 52 embedded in the side wall panel 13, the electric wire 60, and the air pipe 42b of the air pipe 42 are properly positioned in the body 10 State.

Therefore, even in the case of the inexperienced or inexperienced constructor, the planting plant 1 for hydroponic cultivation is capable of supplying the components such as the nutrient solution supply device 50 and the air conditioner 40, as well as the artificial light source 30 and the cultivation bed 20, So that it can be easily installed in an appropriate state in the interior of the casing 10, thereby improving overall workability.

6 and 7, the prefabricated plant factories 2 and 3 according to another embodiment of the present invention include a plurality of bodies 10 'and 10' ' And the connecting directions of the bodies 10 'and 10' can be made not only in the longitudinal direction but also in the width direction or the stacking direction.

To this end, the connecting blocks 80 ', 80' are connected to the boundaries between the main bodies 10 ', 10' 'to connect the panels 11, 12, 80 ") may be provided. The coupling connecting blocks 80 'and 80' 'may be provided so as to be mutually connectable through the coupling protrusions 88 and the coupling grooves 83.

As described above, the plant plant (2, 3) for hydroponic cultivation, which is provided so as to be able to simply join and extend between the main bodies 10 'and 10', allows the new main bodies to be continuously So that it is possible to reduce the cost required for expansion.

1: Prefabricated plant for hydroponics 10: Main body
10c: door 11: upper panel 12: floor panel 13: side wall panel
13a: third connection groove 14: first side wall panel
15: Second side wall panel 20: Growth
21: Cultivation tank 30: Artificial light source
40: air conditioner 41: air conditioner
42: air piping 42a: suction piping
42b: blowing pipe 42c: exhaust pipe
50: nutrient solution supply device 51: nutrient solution tank
52: Nutrient solution piping 53: Fluid hose
60: electric line piping 61: automatic door
70: control panel 80: connection block
83: third connecting projection 90: pipe embedding type panel
100: Piping group 120: Air vent hole
130: damper 140: hose connector
150: outlet 160: reflector

Claims (7)

A cultivation bed having a plurality of cultivation chambers and disposed in the cultivation room; a nutrient solution supply device including a nutrient solution pipe and adapted to supply the nutrient solution to the cultivation tank; A plant plant for hydroponic cultivation having an air conditioner for air conditioning of a yarn and an electric line for supplying power to an artificial light source for irradiating artificial light to plant cultivated in the cultivation tank,
The main body is composed of a plurality of panels assembled so as to be separable from each other,
Wherein the panel includes a pipe embedding type panel in which at least a section of at least one of the electric wire pipe, the nutrient pipe and the air pipe is integrally embedded. The method according to claim 1,
The main body further includes a plurality of connection blocks arranged to connect the adjacent panels,
Wherein the connection block connecting between the pipe-embedded type panels of the connection block is provided with a pipe connection port for mutually communicating between the pipes of the pipe-embedded type panel. The method according to claim 1,
An air vent hole is formed in the inner surface of at least a part of the embedding-type panels in which the air piping is embedded, so that air introduced along the air piping is discharged to the cultivation chamber,
And a damper for opening and closing the air discharge hole and adjusting the opening of the air discharge hole is provided in the pipe embedding type panel. The method according to claim 1,
And a hose connector for connecting the fluid medium hose to the nutrient solution pipe is provided on the inner surface of at least a part of the pipe embedding type panel in which the nutrient solution pipe is embedded,
Wherein the nutrient solution hose is detachably coupled to the hose connection port and is adapted to receive the nutrient solution of the nutrient solution pipe. The method according to claim 1,
And a receptacle connected to the electric wire piping is provided on the inner surface of at least a part of the pipe embedding type panel in which the electric wire piping is embedded. The method according to claim 1,
Wherein the cultivation phase is formed by stacking a plurality of the cultivation tanks in a multilayered manner,
Wherein a reflective plate in the form of a strip for light reflection is provided on the inner surface of the panel forming the sidewall of the cultivating room so as to form a plurality of rows in the vertical direction in accordance with the position of each cultivation tank. The method according to claim 1,
The panel includes a top panel defining an upper portion of the main body, a bottom panel defining a bottom of the main body, and a sidewall panel configured to define a side wall of the main body around the bottom panel and the top panel,
The adjacent panels are connected via a connection block,
Wherein the connection block includes a coupling block provided to couple the main bodies to each other so that the plurality of main bodies can be connected to each other in a mutually connected state.

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