KR20220020170A - hydroponic cultivation device of buildable type - Google Patents

Abstract

The present invention relates to a prefabricated hydroponic cultivation device, which can be installed by assembly and makes convenient movement to an installation place or the installation. According to the present invention, a base plate as the bottom plate configuration of the hydroponic cultivation device is manufactured in various sizes (e.g., length, width). Then, the size of the hydroponic cultivation device is determined based on the diversely manufactured base plate. Then, each configuration is conveniently transported to an installation place in a state where the disposition structure of each side wall plate for base plate side wall connection is determined. Then, the hydroponic cultivation device is completed simply by assembly as it is at the place. According to the present invention, as for the side wall plate limited in size reduction due to water tank characteristics, improvement is performed with a structure for hollowing out the inside of the body thereof into a hollow state, and thus transport to an installation site can be made easier.

Description

Assembly type hydroponic cultivation device {hydroponic cultivation device of buildable type}

The present invention relates to a technology related to an assembled hydroponic cultivation device that enables assembly and installation to facilitate movement to an installation site or installation thereof.

More specifically, the present invention is after various specifications (eg, length, width) of the base plate, which is the structure of the bottom plate of the hydroponic cultivation device, is determined and the specification of the hydroponic cultivation device is determined through the variously manufactured base plates, and then the A prefabricated hydroponic cultivation device that completes the hydroponic cultivation device by simply transporting each component to the installation location with the arrangement structure of each side wall plate connecting the side walls of the base plate determined, and then assembling it at the location is a technique about

Hydroponics is a method of growing crops with a culture medium containing essential inorganic nutrients for plants without using soil. Depending on the amount, there are two types: Deep Flow Technique (DFT) and Nutrient Film Technique (NFT).

In addition, since both freshwater hydroponic and thin-film hydroponics must maintain a state in which the roots for hydroponics hold water for a desired time, a water tank capable of holding water is required.

Here, the water tank may be manufactured in various widths, but the length may be approximately several tens of meters.

In the process of manufacturing such a water tank, the base plate as the bottom plate is processed to meet the desired standard, and as it is erected on the edge of the processed base plate and connected, the four side wall plates that can trap water in the water tank are applied to the corresponding base plate. After cutting, it goes through a process of bonding.

However, the base plate or the side wall plate has a problem in that it is difficult to move to an installation site because of its large volume, and it takes a lot of time to move it.

In addition, even in the welding operation of connecting each side wall plate to the four sides of the base plate, since each side wall plate must be erected and maintained with respect to the base plate due to the function of the water tank, the number of welding points between the base plate and each side wall plate will increase. There is a problem that there is no choice.

As such a welding time takes a lot, there is a problem that the operation of installing the water tank as a whole is very inefficient.

Accordingly, in the connection between the base plate and each sidewall plate, a technical implementation capable of solving the problems of the prior art as described above by reinforcing the connection between the base plate and each sidewall plate while reducing the welding position through mechanical reinforcement is required. .

The present invention has been proposed in view of the above points, and an object of the present invention is to dramatically reduce the welding points when combining each configuration by reinforcing the mechanical coupling configuration between the base plate and each side wall plate constituting the shape of the water tank body. It is to provide an assembled hydroponic cultivation device capable of improving the durability of the overlapping.

In addition, it is an object of the present invention to reinforcing the mechanical coupling configuration between a plurality of base plates and each side wall plate, so that the base plate standard can be configured in various ways, so that each configuration of a small volume can be moved to the installation site without difficulty. It is to provide an assembled hydroponic cultivation device that can.

In addition, an object of the present invention is to provide an assembled hydroponic cultivation device that can move each component to an installation site without difficulty by improving the structure to lower the weight for a specific configuration that has a limit in reducing the standard due to the nature of the tank. there is.

In order to achieve the above object, a first embodiment of the present invention is an assembled hydroponic cultivation device that contains a nutrient solution for hydroponics inside itself in order to provide it to plants for hydroponics in a state mounted on a support frame, which is formed long in one direction. A first side wall plate 110 having a first bottom-fitting stepped member 111 made of a block shape and protruding from the lower end of the body in one direction; The first sidewall plate 110 and the second bottom-fitting step member 121 made in the form of a block formed long in one direction in parallel and the lower end of the body protrudes toward the first bottom-fitting stepped member 111. 2 sidewall plate 120; It is made in the form of a flat plate elongated in one direction and is cut lengthwise along the longitudinal direction of the body on both sides of the lower surface of the body so that the first bottom fitting step member 111 and the second bottom fitting step member 121 are engaged, respectively. and a base plate 130 having a first sliding stepped member 131 and a second sliding stepped member 132 to be fitted.

Here, in the first sidewall plate 110, the outer end of the first sliding stepped member 131 can be inserted in the process of engaging the first bottom-fitting stepped member 111 with respect to the first sliding stepped member 131. A first sliding slot member 112 that is cut to a predetermined depth between its body and the first bottom-fitting stepped member 111 along the longitudinal direction of the first bottom-fitting stepped member 111 so that it may be further provided .

And, in the second side wall plate 120, the outer end of the second sliding stepped member 132 can be inserted in the process of engaging the second bottom-fitting stepped member 121 with respect to the second sliding stepped member 132. A second sliding slot member 122 that is cut to a predetermined depth in a portion between its own body and the second bottom-fitting stepped member 121 along the longitudinal direction of the second bottom-fitting stepped member 121 so that it may be further provided. .

On the other hand, the first sidewall plate 110 is formed as the inner central portion of the body corresponding to the upper portion of the first sliding slot member 112 along the longitudinal direction of the first sliding slot member 112 forms an empty space. A first inner cavitation side wall member 113; may be further provided.

And, the second side wall plate 120 is formed as the inner central portion of the body corresponding to the upper portion of the second sliding slot member 122 along the longitudinal direction of the second sliding slot member 122 forms an empty space. A second inner cavitation side wall member 123; may be further provided.

In addition, in a state in which the base plate 130 and the first and second sidewall plates 110 and 120 are seated on the same surface, the first and second sidewall plates 110 and 120 are horizontally aligned with respect to the base plate 130 . When moving, the first bottom fitting stepped member 111 is engaged with the first sliding stepped member 131, and the second bottom fitting stepped member 121 is engaged with the second sliding stepped member 132. One side of the base plate 130 may be fitted to the first sliding slot member 112 and the other side of the base plate 130 may be fitted to the second sliding slot member 122 .

On the other hand, the second embodiment of the present invention is an assembled hydroponic cultivation device that contains a nutrient solution for hydroponic cultivation inside itself in order to provide it to plants for hydroponics in a state of being mounted on a support frame, and is formed in a block shape elongated in one direction. a first side wall plate 110 ′ having a first bottom fitting step member 111 ′ having a lower end of its own body protruding in one direction; The second bottom fitting step member 121 ' is made in the form of a block elongated in one direction in parallel with the first side wall plate 110' and the lower end of the body protrudes toward the first bottom fitting step member 111'. a second sidewall plate 120' having; It is made in the form of a flat plate elongated in one direction and is cut lengthwise along the longitudinal direction of the body on both sides of the lower surface of the body, so that the first bottom fitting step member 111 ′ and the second bottom fitting step member 121 ′ are A first sliding stepped member 131 ′ and a second sliding stepped member 132 ′ that are engaged with each other are provided, with respect to one first side wall plate 110 ′ and one second side wall plate 120 ′. The first sidewall plate 110' and the second sidewall plate 120' along the longitudinal direction of the plurality of consecutively disposed base plates 130'; is configured to include.

Here too, the first side wall plate 110 ′ has an outer end of the first sliding stepped member 131 ′ in the process of engaging the first bottom fitting stepped member 111 ′ with respect to the first sliding stepped member 131 . A first sliding slot member 112' that is cut to a predetermined depth between its body and the first bottom-fitting stepped member 111' along the longitudinal direction of the first bottom-fitting stepped member 111' so that it can be inserted; may be further provided.

And, the second side wall plate 120', the second sliding stepped member 132' in the process of engaging the second bottom-fitting stepped member 121' with respect to the outer end of the second sliding stepped member 132' A second sliding slot member 122' that is cut to a predetermined depth between its body and the second bottom-fitting stepped member 121' along the longitudinal direction of the second bottom-fitting stepped member 121' so as to be inserted. ; may be further provided.

In addition, the first sidewall plate 110 ′ forms an empty space in the inner central portion of its body corresponding to the upper portion of the first sliding slot member 112 ′ along the longitudinal direction of the first sliding slot member 112 ′. A first inner cavitation side wall member 113 ′ made as a result; may be further provided.

In addition, the second sidewall plate 120' forms an empty space in the inner central portion of its body corresponding to the upper portion of the second sliding slot member 122' along the longitudinal direction of the second sliding slot member 122'. A second inner cavitation side wall member (123') made in accordance with; may be further provided.

On the other hand, in a state in which the base plate 130' and the first and second sidewall plates 110', 120' are seated on the same surface, the first and second sidewall plates 110', based on the base plate 130', When 120') moves in the horizontal direction, the first bottom fitting step member 111' is engaged with the first sliding step member 131', and the second bottom fitting step member 132' is engaged with the second bottom fitting step member 132'. The member 121' is configured to be engaged, one side of the base plate 130' is fitted to the first sliding slot member 112', and the base plate 130' is fitted to the second sliding slot member 122'. It may be configured to fit the other side of the.

The present invention is provided with a sliding step member of a base plate, a bottom fitting step member of a side wall plate, and a sliding slot member, thereby significantly reducing the welding location when combining each configuration and improving the durability of the overlap.

In addition, the present invention also shows the advantage of reducing the number of welding points for connecting the base plate and the side wall plate, substantially reducing the seam, and thus dramatically reducing the occurrence of green algae or bacteria in the seam.

In addition, the present invention includes a sliding step member of the base plate, a bottom fitting step member and a sliding slot member of the side wall plate to reinforce the mechanical coupling configuration between the plurality of base plates and each side wall plate, thereby transporting a plurality of small base plates. Since it can be combined at the installation site after installation, it shows the advantage of being much easier to transport than before.

In addition, in the present invention, since the specifications of the base plate (eg, length, width) are manufactured in various ways and then the specifications of the hydroponic cultivation device are determined through the variously manufactured base plates, each of the components can be easily transported to the installation site. Of course, it shows the advantage that the hydroponic cultivation device can be completed simply by assembling it at the site as it is.

In addition, the present invention shows the advantage that transport to the installation site can be made easier by improving the structure in which the inside of the body is hollowed out in a hollow state for the side wall plate, which has a limit in reducing the size due to the characteristics of the water tank.

[FIG. 1] is an exemplary view showing an assembled hydroponic cultivation apparatus according to a first embodiment of the present invention;
[FIG. 2] is a cross-sectional view of a state in which the configuration in [FIG. 1] is combined,
[FIG. 3] is an enlarged view of some components extracted from [FIG. 2];
[FIG. 4] is a view of a state in which each component is separated from [FIG. 2],
[FIG. 5] is an enlarged view of some components extracted from [FIG. 4];
[Figure 6] is an exemplary view showing an assembled hydroponic cultivation device according to a second embodiment of the present invention,
[FIG. 7] is a cross-sectional view of a state in which the configuration in [FIG. 6] is combined,
[FIG. 8] is an enlarged view of some components extracted from [FIG. 7];
[FIG. 9] is a diagram of a state in which each component is separated from [FIG. 7],
[FIG. 10] is an enlarged view of some components extracted from [FIG. 9].

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

[FIG. 1] is an exemplary view showing an assembled hydroponic cultivation apparatus according to a first embodiment of the present invention, [FIG. 2] is a cross-sectional view of a state combining the configuration in [FIG. 1], [FIG. 3] is [Fig. 2] is an enlarged view of some components extracted from [Fig. 4], [Fig. 4] is a view of a state in which each component is separated in [Fig. 2], and [Fig. 5] is an excerpt of some components from [Fig. 4] This is an enlarged view.

Referring to [FIG. 1] to [FIG. 5], the first embodiment of the present invention is an assembled hydroponic cultivation device that contains the nutrient solution for hydroponic cultivation inside itself in order to provide it to plants for hydroponic cultivation in a state mounted on a support frame. , the first sidewall plate 110 , the second sidewall plate 120 , and the base plate 130 may be included.

First, as the first sidewall plate 110, the second sidewall plate 120, and the base plate 130 according to the first embodiment of the present invention are interconnected as shown in [Fig. 1], one that can contain water of the tank body can be formed.

And, as such a water tank body is mounted on a multi-stage support frame (not shown), it is possible to implement a hydroponic cultivation device in which the multi-stage water tank body is disposed.

As a result, in the present specification, the single 'water tank body' is also used interchangeably with the term 'hydroponic cultivation apparatus'.

The first sidewall plate 110 is formed in a block shape elongated in one direction as in [FIG. 1] to [FIG. 5], and the second sidewall plate 120, the third sidewall plate 150, and the fourth sidewall plate (160) It is possible to form a single water tank body as in [Fig. 1] that can contain water as it is erected and arranged to be kept watertight on the edge of the base plate 130 in cooperation with it.

Here, the first sidewall plate 110 may include a first bottom-fitting stepped member 111, the first bottom-fitting stepped member 111 is the first sidewall as shown in [Figs. 2] to [5]. The lower end of the body of the plate 110 may be formed to protrude toward the direction in which the base plate 130 is disposed.

The second sidewall plate 120 is formed in a block shape elongated in one direction in parallel with the first sidewall plate 110, as shown in FIGS. 1 to 5, and the first sidewall plate 110, the third As the sidewall plate 150 and the fourth sidewall plate 160 are erected and arranged to be kept watertight at the edge of the base plate 130 in cooperation with [Fig. can do.

Here, the second sidewall plate 120 may include a second bottom-fitting stepped member 121, the second bottom-fitting stepped member 121 is a second sidewall as shown in [Figs. 2] to [5]. The lower end of the body of the plate 120 may be formed to protrude toward the direction in which the base plate 130 is disposed.

The base plate 130 is made in the form of a flat plate elongated in one direction as in [FIG. 1] to [FIG. 5], and has a first sidewall plate 110, a second sidewall plate 120, As the third sidewall plate 150 and the fourth sidewall plate 160 are erected to be kept watertight, a water tank body as shown in [FIG. 1] that can contain water can be formed.

Here, the base plate 130 may include a first sliding step member 131 and a second sliding step member 132, the first sliding step member 131 and the second sliding step member 132 are [ 2] to [Fig. 5], the base plate 130 may be formed in a long cut along the longitudinal direction of the body of the base plate 130 on both sides of the lower surface of the body.

As a result, with respect to the base plate 130 in a state seated on the ground as in [Fig. 2] to [Fig. 5], the first sidewall plate 110 in a state seated on the same ground as the base plate 130 and When the second sidewall plate 120 slides in the horizontal direction, the first bottom-fitting stepped member 111 of the first sidewall plate 110 is a first sliding step member as shown in FIGS. 2 and 3 . The second bottom fitting step member 121 of the second sidewall plate 120 may be fitted and coupled to the second sliding step member 132 .

Meanwhile, the first sidewall plate 110 may further include a first sliding slot member 112 , and the second sidewall plate 120 may further include a second sliding slot member 122 .

First, the first sliding slot member 112 is a first sliding step member 131 in the process of engaging the first side wall plate 110 with respect to the base plate 130 as shown in FIGS. 2 to 5 . The first bottom fitting stepped member 111 along the longitudinal direction to insert the outer end of the first side wall plate 110 along the length between the body and the first bottom fitting stepped member 111 It can be formed by cutting a predetermined depth there is.

And, the second sliding slot member 122 is a second sliding step member 132 in the process of engaging the first side wall plate 110 with respect to the base plate 130 as in [Fig. 2] to [Fig. 5]. A predetermined depth incision can be formed between the body of the second side wall plate 120 and the second bottom fitting stepped member 121 along the longitudinal direction of the second bottom fitting stepped member 121 so that the outer end of the step can be inserted. .

On the other hand, the first sidewall plate 110 may further include a first inner cavitation sidewall member 113 , and the second sidewall plate 120 may further include a second inner cavitation sidewall member 123 . .

First, the first inner cavitation sidewall member 113 has an inner central portion of the body of the first sidewall plate 110 corresponding to the upper portion of the first sliding slot member 112 along the longitudinal direction of the first sliding slot member 112 . As an empty space is formed, it may be formed as in [FIG. 2] to [FIG. 5].

In addition, the second inner cavity side wall member 123 has an inner central portion of the body of the second sidewall plate 120 corresponding to the upper portion of the second sliding slot member 122 along the longitudinal direction of the second sliding slot member 122 . As an empty space is formed, it may be formed as in [FIG. 2] to [FIG. 5].

As such, for the first and second sidewall plates 110 and 120, which have limitations in reducing the size due to the characteristics of the water tank body, the first and second inner cavitation sidewall members 113 and 123 for hollowing the inside of the body in a hollow state are used. As provided, the operation of transporting the individual components to the installation site of the hydroponic cultivation device can be made much easier.

On the other hand, in [FIG. 2] to [FIG. 5] in a state in which the base plate 130 and the first and second sidewall plates 110 and 120 are seated on the same plane as in [FIG. 2] and [FIG. 4] When the first and second sidewall plates 110 and 120 move in the horizontal direction with respect to the base plate 130 as shown in FIG. 1 The bottom fitting step member 111 is engaged, and the second bottom fitting step member 121 is engaged with the second sliding step member 132, and at the same time, one side of the base plate 130 is disposed on the first sliding slot member 112. The part may be fitted and the other side of the base plate 130 may be fitted to the second sliding slot member 122 .

[ 2] and [Fig. 3], the mechanical coupling of the first and second sidewall plates 110 and 120 to the base plate 130 can be easily made.

On the other hand, the first sidewall plate 110 may further include a first mounting step member 114 , and the second sidewall plate 120 may further include a second mounting step member 124 .

First, the first mounting step member 114 is the base plate 130 along the longitudinal direction of the first side wall plate 110 at the upper end of the first side wall plate 110 as in [Fig. 2] to [Fig. 5]. It may be formed in a structure in which the incision is made downward by a predetermined depth toward the central portion of the .

And, the second mounting step member 124 is the base plate 130 along the longitudinal direction of the second side wall plate 120 at the upper end of the second side wall plate 120 as in [Fig. 2] to [Fig. 5]. It may be formed in a structure in which the incision is made downward by a predetermined depth toward the central portion of the .

As a result, both ends of the hydroponic bed 140 in which the hydroponic plants are fitted in the vertical direction with respect to the first mounting step member 114 and the second mounting step member 124 in [Fig. 2] to [Fig. 5] can be worn together.

[FIG. 6] is an exemplary view showing an assembled hydroponic cultivation apparatus according to a second embodiment of the present invention, [FIG. 7] is a cross-sectional view of a state combining the configuration in [FIG. 6], [FIG. 8] is [Fig. 7] is an enlarged view of some components extracted from [Fig. 9], [Fig. 9] is a diagram of a state in which each component is separated from [Fig. 7], and [Fig. 10] is an excerpt of some components from [Fig. 9] This is an enlarged view.

Referring to [Fig. 6] to [Fig. 10], the second embodiment of the present invention is a prefabricated hydroponic cultivation device that contains the nutrient solution for hydroponics inside itself in order to provide it to plants for hydroponic cultivation in a state mounted on a support frame. , a first sidewall plate 110 ′, a second sidewall plate 120 ′, and a base plate 130 ′ may be included.

First, as the first sidewall plate 110', the second sidewall plate 120', and the base plate 130' according to the second embodiment of the present invention are interconnected as shown in [Fig. It is possible to form one water tank body that can be used.

And, as such a water tank body is mounted on a multi-stage support frame (not shown), it is possible to implement a hydroponic cultivation device in which the multi-stage water tank body is disposed.

As a result, in the present specification, the single 'water tank body' is also used interchangeably with the term 'hydroponic cultivation apparatus'.

The first sidewall plate 110 ′ is formed in a block shape elongated in one direction as in FIGS. 6 to 10 , and includes a second sidewall plate 120 ′, a third sidewall plate 150 ′, and a second 4 It is possible to form a single water tank body as shown in [Fig. 6] that can contain water as it is placed standing up to be kept watertight on the edge of the base plate 130' in cooperation with the side wall plate 160'.

Here, the first side wall plate 110 ′ may include a first bottom fitting stepped member 111 ′, and the first bottom fitting stepped member 111 ′ is as shown in FIGS. The lower end of the body of the first sidewall plate 110' may be formed to protrude toward the direction in which the base plate 130' is disposed.

The second sidewall plate 120' is formed in a block shape elongated in one direction in parallel with the first sidewall plate 110' as shown in FIGS. 6 to 10, and the first sidewall plate 110' , the third sidewall plate 150', the fourth sidewall plate 160' and in cooperation with the rim portion of the base plate 130', as in [Fig. One tank body may be formed.

Here, the second side wall plate 120 ′ may include a second bottom fitting stepped member 121 ′. The lower end of the body of the second sidewall plate 120' may be formed to protrude toward the direction in which the base plate 130' is disposed.

The base plate 130' is made in the form of a flat plate elongated in one direction as in [Fig. 6] to [Fig. 10], and as shown in [Fig. As a plurality of pieces are continuously arranged along the longitudinal direction of 120', a water tank body as shown in [FIG. 6] that can contain water can be formed.

At this time, the base plate 130 ′ is a first side wall plate 110 ′ and a second side wall plate 110 ′ with respect to one first side wall plate 110 ′ and one second side wall plate 120 ′ as shown in FIG. 6 . A plurality of sidewall plates 120' may be arranged to be continuously joined along the longitudinal direction.

As such, as a water tank body of a desired standard is manufactured through a plurality of small base plates 130 ′, it is also possible to combine a plurality of small base plates 130 ′ after transporting them at the installation site. Transport of the body can be much easier than before.

Here, the base plate 130' may include a first sliding stepped member 131' and a second sliding stepped member 132', a first sliding stepped member 131' and a second sliding stepped member ( 132') may be formed in a long cut along the longitudinal direction of the base plate 130' body on both sides of the lower surface of the body of the base plate 130' as in [Fig. 7] to [Fig. 10].

As a result, the first sidewall plate 110 in a state seated on the same ground as the base plate 130 ′ with respect to the base plate 130 ′ in a state seated on the ground as in FIGS. 7 to 10 . ') and the second sidewall plate 120' slide in the horizontal direction, as in [Fig. 7] and [Fig. 8], the first bottom fitting step member 111' of the first side wall plate 110' may be fitted and coupled to the first sliding step member 131 ′, and the second bottom fitting step member 121 ′ of the second side wall plate 120 ′ may be fitted and coupled to the second sliding step member 132 ′.

Meanwhile, the first sidewall plate 110' may further include a first sliding slot member 112', and the second sidewall plate 120' may further include a second sliding slot member 122'. there is.

First, the first sliding slot member 112' is a first sliding step member in the process of engaging the first side wall plate 110' with respect to the base plate 130' as in [Fig. 2] to [Fig. 5]. In the portion between the body of the first sidewall plate 110' and the first bottom fitting stepped member 111' along the longitudinal direction of the first bottom fitting stepped member 111' so that the outer end of the (131') can be inserted. An incision may be formed to a predetermined depth.

And, the second sliding slot member 122' is a second sliding step member in the process of engaging the first sidewall plate 110' with respect to the base plate 130' as in [Fig. 2] to [Fig. 5]. In the portion between the body of the second sidewall plate 120' and the second bottom fitting stepped member 121' along the longitudinal direction of the second bottom fitting stepped member 121' so that the outer end of the 132' can be inserted. An incision may be formed to a predetermined depth.

On the other hand, the first sidewall plate 110 ′ may further include a first inner cavitation sidewall member 113 ′, and the second sidewall plate 120 ′ further includes a second inner cavitation sidewall member 123 ′. can be provided

First, the first inner cavitation sidewall member 113' is a body of the first sidewall plate 110' corresponding to the upper portion of the first sliding slot member 112' along the longitudinal direction of the first sliding slot member 112'. As the inner central portion of the void forms an empty space, it may be formed as in [FIG. 2] to [FIG. 5].

In addition, the second inner cavity sidewall member 123' is a second sidewall plate 120' corresponding to the upper portion of the second sliding slot member 122' along the longitudinal direction of the second sliding slot member 122'. As the inner central portion of the void forms an empty space, it may be formed as in [FIG. 2] to [FIG. 5].

As such, with respect to the first and second sidewall plates 110' and 120', which have limitations in reducing the size due to the characteristics of the water tank body, the first and second inner cavitation sidewall members 113', which hollow the inside of the body in a hollow state, 123'), the operation of transporting the individual components to the installation site of the hydroponic cultivation device can be made much easier.

On the other hand, in a state in which the base plate 130' and the first and second sidewall plates 110 and 120' are seated on the same surface as in [Fig. 2] and [Fig. 4], [Fig. 2] to [Fig. 5] ], when the first and second sidewall plates 110', 120' move in the horizontal direction with respect to the base plate 130' as in [Fig. 2] and [Fig. 3], the first sliding step member as in [Fig. The first bottom fitting step member 111 ′ is engaged with the 131 ′, and the second bottom fitting step member 121 ′ is engaged with the second sliding step member 132 ′, and at the same time the first sliding slot member 112 . '), one side of the base plate 130' may be fitted, and the other side of the base plate 130' may be fitted into the second sliding slot member 122'.

As such, in a state in which the relatively large base plate 130' is placed on the ground as it is, the relatively small first sidewall plate 110' and the second sidewall plate 120' are pushed in the horizontal direction, respectively. When the first and second sidewall plates 110', 120' to the base plate 130' as in [Fig. 2] and [Fig. 3], the mechanical coupling operation can be easily made.

On the other hand, the first sidewall plate 110 may further include a first mounting step member 114 , and the second sidewall plate 120 may further include a second mounting step member 124 .

First, the first mounting step member 114 ′ is a base plate along the longitudinal direction of the first side wall plate 110 ′ at the upper end of the first side wall plate 110 ′ as shown in FIGS. 2 to 5 . It may be formed in a structure in which it is cut downward by a predetermined depth toward the central portion of the 130'.

And, the second mounting step member 124' is a base plate along the longitudinal direction of the second sidewall plate 120' at the upper end of the second sidewall plate 120', as shown in [Fig. 2] to [Fig. 5]. A predetermined depth downwardly incision may be formed toward the central portion of the 130'.

As a result, both ends of the hydroponic bed 140 ′ into which the hydroponic plants are fitted in the vertical direction with respect to the first mounting step member 114 ′ and the second mounting step member 124 ′ are [FIG. 2] to [FIG. 5] ], as in

110, 110': first sidewall plate
111, 111': 1st bottom fitting stepped member
112, 112': first sliding slot member
113, 113': first inner cavitation side wall member
113a, 113a': first cavitation region
114, 114': first mounting step member
120, 120': second sidewall plate
121, 121': 2nd bottom fitting stepped member
122, 122': second sliding slot member
123, 123': second inner cavitation side wall member
123a, 123a': second cavitation zone
124, 124': second mounting step member
130, 130': base plate
131, 131': first sliding step member
132, 132': second sliding step member
140, 140' : Hydroponic Bed
150, 150': third sidewall plate
160, 160': fourth sidewall plate

Claims (6)

As an assembled hydroponic cultivation device that holds nutrient solution for hydroponic cultivation inside itself to provide it to plants for hydroponic cultivation in a state mounted on a support frame,
a first sidewall plate 110 having a first bottom-fitting stepped member 111 that is formed in a block shape elongated in one direction and protrudes in one direction at the lower end of its body;
A second bottom-fitting stepped member 121 formed in a block shape elongated in one direction in parallel with the first sidewall plate 110 and having a lower end of its body protruding toward the first bottom-fitting stepped member 111 is provided. a second sidewall plate 120;
It is made in the form of a flat plate elongated in one direction, and is cut lengthwise in the longitudinal direction of the body on both sides of the lower surface of the body so that the first bottom fitting step member 111 and the second bottom fitting step member 121 are a base plate 130 having a first sliding step member 131 and a second sliding step member 132 that are engaged with each other;
consists of,
The first sidewall plate 110,
The first bottom-fitting stepped member so that the outer end of the first sliding stepped member 131 can be inserted while the first bottom-fitting stepped member 111 is engaged with the first sliding stepped member 131 A first sliding slot member 112 formed in a predetermined depth incision between its body and the first bottom-fitting stepped member 111 along the longitudinal direction of (111);
provide more,
The second sidewall plate 120,
The second bottom-fitting stepped member so that the outer end of the second sliding stepped member 132 can be inserted while the second bottom-fitting stepped member 121 is engaged with the second sliding stepped member 132 . a second sliding slot member 122 formed by cutting a predetermined depth between its body and the second bottom fitting step member 121 along the longitudinal direction of (121);
Prefabricated hydroponic cultivation apparatus, characterized in that it further comprises.
The method according to claim 1,
The first sidewall plate 110,
A first inner cavitation side wall member 113 formed by forming an empty space in the inner central portion of the body corresponding to the upper portion of the first sliding slot member 112 in the longitudinal direction of the first sliding slot member 112 . ;
provide more,
The second sidewall plate 120,
A second inner cavitation side wall member 123 formed by forming an empty space in the inner central portion of the body corresponding to the upper portion of the second sliding slot member 122 along the longitudinal direction of the second sliding slot member 122 . ;
Prefabricated hydroponic cultivation apparatus, characterized in that it further comprises.
3. The method according to claim 2,
In a state in which the base plate 130 and the first and second sidewall plates 110 and 120 are seated on the same surface, the first and second sidewall plates 110 and 120 are horizontal with respect to the base plate 130 . direction, the first bottom fitting stepped member 111 is configured to be engaged with the first sliding stepped member 131 , and the second bottom fitting stepped member 121 to the second sliding stepped member 132 . is configured to engage, one side of the base plate 130 is fitted to the first sliding slot member 112 and the other side of the base plate 130 is fitted to the second sliding slot member 122 Prefabricated hydroponic cultivation device, characterized in that it is configured to be.
As an assembled hydroponic cultivation device that holds nutrient solution for hydroponic cultivation inside itself to provide it to plants for hydroponic cultivation in a state mounted on a support frame,
a first sidewall plate 110' having a first bottom-fitting stepped member 111' that is formed in a block shape elongated in one direction and whose lower end protrudes in one direction;
A second bottom-fitting stepped member 121' made of a block shape elongated in one direction in parallel with the first sidewall plate 110' and protruding toward the first bottom-fitting stepped member 111' at the lower end of its body ) having a second sidewall plate 120';
It is made in the form of a flat plate elongated in one direction and is cut lengthwise along the longitudinal direction of the body on both sides of the lower surface of the body, and the first bottom fitting step member 111 ′ and the second bottom fitting step member 121 ′ ) is provided with a first sliding stepped member 131 ′ and a second sliding stepped member 132 ′ each engaged with, one of the first sidewall plates 110 ′ and one of the second sidewall plates 120 . '), a plurality of base plates (130') continuously arranged along the longitudinal direction of the first sidewall plate (110') and the second sidewall plate (120');
consists of,
The first sidewall plate 110 'is,
The first bottom fitting so that the outer end of the first sliding step member 131' can be inserted in the process of engaging the first bottom fitting step member 111 ′ with respect to the first sliding step member 131 . A first sliding slot member (112') which is cut to a predetermined depth in a portion between its own body and the first bottom-fitting stepped member (111') along the longitudinal direction of the stepped member (111');
provide more,
The second sidewall plate 120 'is,
The second bottom surface so that the outer end of the second sliding stepped member 132' can be inserted while the second bottom fitting stepped member 121' is engaged with the second sliding stepped member 132' a second sliding slot member 122' which is cut to a predetermined depth between its own body and the second bottom fitting stepped member 121' along the longitudinal direction of the fitting step member 121';
Prefabricated hydroponic cultivation device, characterized in that it further comprises.
5. The method according to claim 4,
The first sidewall plate 110 'is,
A first inner cavitation side wall member ( 113');
provide more,
The second sidewall plate 120 'is,
A second inner cavitation side wall member ( 123');
Prefabricated hydroponic cultivation apparatus, characterized in that it further comprises.
6. The method of claim 5,
The first and second sidewall plates 110' with respect to the base plate 130' in a state in which the base plate 130' and the first and second sidewall plates 110' and 120' are seated on the same surface. , 120') is configured to engage the first bottom-fitting stepped member 111' to the first sliding stepped member 131', and the second sliding stepped member 132' when moving in the horizontal direction. The second bottom fitting step member 121' is configured to be engaged, and one side of the base plate 130' is fitted to the first sliding slot member 112', and the second sliding slot member 122' ) Prefabricated hydroponic cultivation device, characterized in that configured to fit the other side of the base plate (130').

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