KR20220085325A - System cultivation box - Google Patents

Abstract

The present invention relates to a system cultivation box, and more particularly, to achieve a stacked structure of a cultivation box used for constructing a multi-level cultivation facility, and to simultaneously build up to ancillary facilities for supplying growth components (water, oxygen, culture solution, etc.) It is about a system cultivation box that maximizes the efficiency of facility construction through
According to the present invention, while providing a planting space, a supply line for supplying the planting space with the growth ingredients of crops supplied from a separate growth ingredient supplying device to the planting space is formed integrally in the wall box-type cultivation tank; a plurality of links and supporters coupled to each corner of the upper end of the culture tank in a standing state to support the culture tanks by being spaced apart from each other when stacking a plurality of culture tanks, and to connect the supply lines of each culture tank to each other; and a plurality of one-touch couplers mounted on one side of the outer wall surface of the culture tank and one of the upper and lower corners, respectively, connected to the supply line, any one of the link and supporters, and the growth ingredient supply device. characterized in that

Description

System cultivation box {SYSTEM CULTIVATION BOX}

The present invention relates to a system cultivation box, and more particularly, to achieve a stacked structure of a cultivation box used for constructing a multi-level cultivation facility, and to simultaneously build up to ancillary facilities for supplying growth components (water, oxygen, culture solution, etc.) It is about a system cultivation box that maximizes the efficiency of facility construction through

Plant husbandry until now has been done in a natural environment, so the production time, period, and place are also limited to the soil. As a result, continuous production throughout the year was not possible, as well as the high frequency of disasters, resulting in inconsistent supply and demand.

Moreover, crop damage due to global warming, climate change, environmental pollution, etc. has recently become more and more serious, and crop production has increased due to consecutive occurrences of abnormal climate phenomena such as lack of sunlight, frequent heavy rains, and the course of typhoons different from the past, not only in Korea but also worldwide. The need to introduce plant factories is increasing in order to solve the unbalanced agricultural economy due to the decrease in production and price increase.

Plant factory (植物工場, plant factory) is an agricultural system that enables planned production by artificially controlling the growth environment of plants (crops) indoors. It refers to a facility that cultivates crops by artificially controlling the growth environment.

These indoor cultivation facilities are not affected by external environments such as climate change and extreme weather conditions, and because they can be cultivated in multiple stages in a narrow area, a large amount of crops can be grown per unit area. has become an essential element for

Here, in order to construct a multi-bed cultivation type cultivation facility that maximizes the limited space utilization and increases the management efficiency of crops as described above, a plurality of cultivation boxes for multi-layered loading are used. is needed

In this regard, a multi-layer structure of a cultivation box in which a plurality of cultivation boxes in which crops are planted can be configured in multiple layers has been disclosed through Republic of Korea Utility Model Registration No. 20-0429952.

1 is an exploded perspective view showing the multi-layered structure of a cultivation box according to the prior art. In the conventional multi-layered structure of the cultivation box, a space for planting crops is formed inside, and a plurality of fittings are placed on the upper and lower surfaces of the wall surrounding the space. A plurality of cultivation boxes 910 in which balls 912 are formed and arranged in multiple layers, a support tube 920 inserted into the fitting holes 912 to support the cultivation box 910, and the support tube 920 A connecting tube 925 extending the length of the support tube 920 by connecting one or more between them, and a hooking portion caught on the lower surface of another cultivation box arranged horizontally with the upper surface of the cultivation box 910 ( 935) is formed at the top and bottom, and it is characterized in that it includes a hanger 930 for horizontally connecting a plurality of cultivation boxes.

According to the prior art, a plurality of cultivation boxes 910 are simply assembled by a support pipe 920 and a connection pipe 925 , and the cultivation box 910 is connected horizontally by a stopper 930 , so that even beginners can use it. It is possible to easily form a multi-layered cultivation layer, and the effect of space utilization can be obtained according to the formation of the multi-layered cultivation layer.

However, the prior art focuses only on the technical focus for the purpose of obtaining the effect of the formation of multi-layered cultivation layers and space utilization as described above, and an agricultural system (cultivation facility) capable of planned production by artificially controlling the growing environment of crops indoors. ), technical features related to auxiliary equipment such as water supply lines essential for crop growth are not provided anywhere.

For this reason, the inconvenience of having to spend a considerable amount of time and effort in constructing additional facilities as described above inevitably arises, and the installation structure of the cultivation facilities is inevitably complicated and messy due to the exposure of the separately constructed auxiliary facilities. Problems followed.

In the end, not only to secure the ease of facility construction according to the achievement of a simple layered structure, but also to achieve such a layered structure, ancillary facilities such as the supply of growth components (water, oxygen) necessary for crop growth are simultaneously built while a systemized system capable of controlling drainage R&D of cultivation boxes is urgently needed.

(Document 1) Republic of Korea Utility Model Registration No. 20-0429952 (Registered on October 25, 2006) (Document 2) Republic of Korea Patent No. 10-0338865 (Registered on May 20, 2002) (Document 3) Republic of Korea Patent No. 10-0392515 (Registered on Oct. 10, 2003) (Document 4) Republic of Korea Patent No. 10-2059916 (Registered on December 20, 2019)

An object of the present invention is to solve the above problems, in which a growth component supply line is integrally provided in a cultivation box (cultivation tank), and spaced apart support for each cultivation tank stacked on each other and the supply line of each cultivation box are provided. Provides a system cultivation box that is equipped with a link and supporter that connects to each other and enables the simultaneous construction of auxiliary facilities essential for supplying growth components to all stacked cultivation boxes while securing the ease of establishing multi-level cultivation facilities. is in

Another object of the present invention is to provide a drainage control means for adjusting the amount of drainage in a state mounted on the lower side of the culture tank (planting space), and change the light intensity, temperature/humidity, and carbon dioxide concentration through the control of the amount of drainage using the drainage control means It is to provide a system cultivation box that enables the supply of growth components optimized for crop growth according to the frequently changing cultivation environment and circumstances.

In order to achieve the above object, the present invention provides a planting space and a box-type cultivation in which a supply line for supplying the plant growth ingredients supplied from a separate growth ingredient supply device to the planting space is integrally formed inside the wall. article; a plurality of links and supporters coupled to each corner of the upper end of the culture tank in a standing state to support the culture tanks by being spaced apart from each other when stacking a plurality of culture tanks, and to connect the supply lines of each culture tank to each other; and a plurality of one-touch couplers mounted on one side of the outer wall surface of the culture tank and one of the upper and lower corners, respectively, connected to the supply line, any one of the link and supporters, and the growth ingredient supply device. characterized in that

In addition, in order to connect the link and supporter, a plurality of coupling members mounted on the other corners of the upper and lower portions of the cultivation tank to which the one-touch coupler is not mounted; Drainage control means provided at the bottom of the cultivation tank to control the amount of drainage; and a plurality of supporting means respectively supporting the one-touch coupler and the coupling member mounted on each corner of the lower end of the culture tank for horizontal adjustment of the culture tank.

In addition, in the one-touch coupler, a connection socket assembled to a mounting groove formed on an outer wall surface and upper and lower ends of one corner of the cultivation tank to which the supply line is connected, and a supply pipe extending from the growth component supply device are connected, and the It is composed of a tubular connection plug coupled to a connection socket, and the connection socket includes a socket body assembled to the mounting groove, and a plurality of maintaining and releasing the binding state of the connection plug while being provided inside the socket body of a rock ball, a ball guider for guiding the binding operation of the rock ball in a state provided inside the socket body, and a sleeve for controlling the guide operation of the ball guider in a state provided inside the socket body, connected to the sleeve an operation ring exposed to the outside of the socket body to allow user manipulation of the sleeve operation control; A first spring for pushing the ball guider in a direction opposite to insertion of the connection plug while provided inside the socket body, and a second spring for pushing the sleeve in a direction opposite to insertion of the connection plug while being provided inside the socket body and a spring and a third spring configured to push the opening/closing valve in a direction opposite to the insertion of the connection plug while being provided inside the socket body.

In addition, the supply line consists of an inflow path that vertically connects the mounting grooves formed in any one corner of the upper and lower ends to which the one-touch coupler is mounted, and a transport path that continues from the inflow path and extends to the entire wall, In the transfer path, a plurality of nozzles for ejection of the growth component are formed at regular intervals, and the inflow path is connected to a mounting groove of an outer wall surface of one side of the cultivation tank to which any one-touch coupler is mounted, A communication path through which the growth component supplied from the component supply device is first introduced through the one-touch coupler is formed.

In addition, the cultivation tank is formed in the shape of an upper opening type box in which the planting space is provided for planting crops with culture soil, and mounting grooves for mounting the one-touch coupler and the coupling member are upper and lower corners and one side. It is formed on the outer wall surface, is connected to any one of the mounting grooves in which the one-touch coupler is mounted, and the supply line for supplying the growth component to the planting space forms a predetermined path inside the wall, and stagnant growth on the floor of the planting space A discharge hole for discharging the component is penetrated at a predetermined position on the bottom, and a horizontally long insertion hole into which the drainage control means can be inserted is penetrated through one side of the wall.

In addition, the link and supporter, the lower end is fitted to any one-touch coupler and a plurality of coupling members mounted on each corner of the upper end of the culture tank, and is mounted on each lower edge of the other culture tank stacked on the upper side. It consists of a spaced pipe having an upper tip fitted to any one one-touch coupler and a plurality of coupling members to support the culture tank stacked on the upper side in a spaced apart state, and an extension pipe for extending the length of the spaced pipe, the spaced pipe and the extension pipe, in a state of being connected to the one-touch coupler, forms a tubular shape connecting the supply lines of each cultivation tank.

In addition, the drainage control means supports the culture soil in a state of being inserted and mounted to partition the lower part of the planting space through a discharge hole penetrating through one side of the wall of the culture tank, and a base panel capable of dropping and discharging growth components; It is inserted into the base panel and is composed of a slide panel so that the amount of drainage is adjusted according to the movement of the sliding position in the inserted state. An accommodating groove is provided inside for the insertion of the slide panel, and when fully inserted into the accommodating groove, a plurality of communication holes disposed at the same position as the drain holes pass through, and an operation handle for user manipulation of sliding withdrawal is protruded from one side, and is gradually exposed to the outside during sliding extraction, and an identification point that enables identification of the degree of opening of the drain hole according to the external exposure is marked at a predetermined position on the upper surface.

In addition, the support means includes a seating hole for receiving and supporting any one one-touch coupler and a lower portion of the plurality of coupling members mounted on each corner at the bottom of the cultivation tank disposed on the lowermost side of the plurality of culture tanks stacked with each other; It is provided on the lower side and is composed of an adjustment member capable of horizontal adjustment of the cultivation tank based on length adjustment according to the screw tightening method.

As can be clearly seen from the above description, the system cultivation box of the present invention is spaced between cultivation tanks using a link and supporter in the form of a pipe in the construction of a multi-level culture cultivation facility through stacking of multiple cultivation boxes (cultivation tanks). As well as support, the connection of the supply lines formed in each cultivation tank has the effect of securing the ease of constructing multi-level cultivation facilities and simultaneously building auxiliary facilities essential for supplying growth ingredients to all the stacked cultivation boxes.

In addition, by using the drainage control means provided in each cultivation tank, it is possible to easily control the amount of drainage, so it is possible to supply growth components that are optimized for crop growth according to the constantly changing cultivation environment and conditions such as changes in light intensity, temperature and humidity, and carbon dioxide concentration. It has the effect of making this possible.

At the same time, by achieving the same various effects as before, it provides convenience and efficiency for a series of management tasks for plant (crop) cultivation, as well as solving the problem of limited cultivation space or production per unit area in plant factory operation It is a very useful invention that can greatly contribute to the

1 is an exploded perspective view showing a multi-layered structure of a cultivation box according to the prior art;
2 to 4 are an exploded perspective view and a front sectional view and a plan sectional view showing the configuration relationship of the system cultivation box according to the present invention.
Figure 5 is an exploded cross-sectional view showing the configuration relationship of the link and supporter in the system cultivation box according to the present invention.
6 is a front cross-sectional view showing the configuration of the one-touch coupler in the system cultivation box according to the present invention.
7 is an exploded perspective view showing the configuration of the drainage control means in the system cultivation box according to the present invention.
8A to 9 are diagrams in use showing an embodiment of a system cultivation box according to the present invention.
10 and 11 are operation state diagrams showing the operation relationship of the one-touch coupler in the system cultivation box according to the present invention.
12 is an operation state diagram showing the operation relationship of the drainage control means in the system cultivation box according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily practice the present invention.

First, it should be noted that in adding reference numerals to the components of the drawings, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in the description of 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 thereof will be omitted.

2 to 4 of the accompanying drawings are an exploded perspective view, a front sectional view and a plan sectional view showing the configuration relationship of a system cultivation box according to the present invention, and FIG. 5 is a configuration relationship of a link and a supporter in the system cultivation box according to the present invention. 6 is a front sectional view showing the configuration relationship of the one-touch coupler in the system cultivation box according to the present invention, and FIG. 7 is an exploded perspective view showing the configuration relationship of the drainage control means in the system cultivation box according to the present invention. to be.

2 to 4 , the system cultivation box (A) according to the present invention provides a planting space while growing crops supplied from a separate supply device (hereinafter referred to as “growth ingredient supply device”). A box-shaped cultivation tank (1) in which a supply line for supplying the necessary components (water, oxygen, culture medium, etc. / hereinafter referred to as “growth components”) to the planting space is integrally formed inside the wall, and the cultivation tank (1) A plurality of links connecting the supply lines of each culture tank 1 to each other in addition to supporting the culture tanks 1 by spacing them apart from each other when stacking a plurality of culture tanks 1 by being coupled to each corner of the upper end in a standing state An supporter (2), one side of the outer wall surface of the cultivation tank (1), and one of the upper and lower corners mounted on one of the supply line and the link and supporter (2) and the growth ingredient supply device, respectively It includes a plurality of one-touch couplers (3) to be connected.

In addition, a plurality of coupling members 4 mounted on different corners of the upper and lower portions of the cultivation tank 1 to which the one-touch coupler 3 is not mounted for the link and coupling of the link and supporter 2, and the amount of drainage are adjusted For this purpose, a drainage control means 5 provided at the lower part of the cultivation tank 1, and a one-touch coupler 3 mounted on each corner of the bottom of the cultivation tank 1 for horizontal adjustment of the cultivation tank 1 And it further includes a plurality of support means (6) for supporting the coupling member (4), respectively.

The cultivation tank (1) is for preparing a space for planting crops and supplying growth components, and as shown in FIGS. 3 and 4, it contains a certain amount of soil (hereinafter referred to as "cultivation soil") to grow crops. The planting space (1a) to be planted forms an upper opening-type box shape, and the mounting grooves (11-1) and (11-2) for mounting the one-touch coupler 3 and the coupling member 4 are upper and lower. The supply line is formed on each corner of the lower end and one side of the outer wall, is connected to any one of the mounting grooves 11-1 in which the one-touch coupler 3 is mounted, and supplies growth components to the planting space 1a. (12) forms a predetermined path inside the wall, and a discharge hole 13 for discharging (draining) of the growth component (water) accumulated in the bottom of the planting space 1a is penetrated at a predetermined position of the floor, and the A horizontally long insertion hole 14 through which the drainage control means 5 can be inserted is penetrated through one side of the wall.

The supply line 12 includes an inflow passage 121 vertically connecting the mounting grooves 11-1 formed in any one corner of the upper and lower ends to which the one-touch coupler 3 is mounted, and the inflow passage 121. It consists of a conveying path 122 extending from the to the entire wall, and in the conveying path 122, a plurality of nozzles 123 for ejecting growth components are formed at regular intervals.

In addition, in the inflow path 121, the one-touch coupler 3 is connected to a mounting groove 11-1 on the outer wall surface of one side to which the one-touch coupler 3 is mounted, and the growth component supplied from the growth component supply device is supplied with the one-touch coupler. A communication path 124 through which the first inflow is made through (3) is formed.

In addition, it is preferable that a drain pipe 131 for inducing a fall-type external discharge of the growth component (water) accumulated on the bottom of the planting space 1a is further provided and coupled to the discharge hole 13 .

Link and supporter (2) is to provide a growing space for crops through mutual spacing of the cultivation tanks (1) stacked on each other while connecting the supply lines (12) of each cultivation tank (1), 3 and 5, the lower end is fitted to any one-touch coupler 3 and the plurality of coupling members 4 mounted on each upper corner of the culture tank 1, and then to the upper side The upper end is fitted to any one-touch coupler 3 and the plurality of coupling members 4 mounted on the lower corners of the other stacked culture tanks 1, and the culture tank 1 stacked on the upper side is spaced apart. It is composed of a separation pipe 21 supported in a state and an extension pipe 22 for extending the length of the separation pipe 21, wherein the separation pipe 21 and the extension pipe 22 are, the one-touch coupler 21 ) to form a tubular shape connecting the supply line (12 / inflow path) of each culture tank 1 in a state of being connected.

A one-touch coupler (3) is a supply line (h / supply hose) extending from the growth ingredient supply device separate from the supply line (12) of the cultivation tank (1) or a cultivation tank (1) stacked with each other ) for interconnection of the supply line 12, and as shown in FIG. 6, a mounting formed on the upper and lower ends of any one corner of the cultivation tank 1 to which the supply line 12 is connected and one side of the outer wall surface Consists of a connection socket 31 assembled to the groove 11-1, and a tubular connection plug 32 to which a supply pipe h extending from the growth ingredient supply device is connected and coupled to the connection socket 31 do.

The connection socket 31 includes a socket body 311 assembled to the mounting grooves 11-1 and 11-2, and the connection plug 32 in a state provided inside the socket body 311. A plurality of rock balls 312 for maintaining/releasing the binding state, a ball guider 313 for guiding the binding operation of the lock balls 312 in a state provided inside the socket body 311, and the socket body 311 ) provided inside the sleeve 314 for controlling the guiding operation of the ball guider 313, connected to the sleeve 314 and exposed to the outside of the socket body 311 to control the operation of the sleeve 314 An operation ring 315 that can be operated by a user, and an opening/closing valve 316 for opening and closing the conduit in connection with the insertion of the connection plug 32 into the socket body 311 in a state provided inside the socket body 311 and a first spring 317 for pushing the ball guider 313 in the opposite direction to the insertion of the connection plug 32 in a state provided inside the socket body 311, and provided inside the socket body 311 A second spring 318 for pushing the sleeve 314 in the opposite direction to the insertion of the connection plug 32 in a state of being in a state where the on/off valve 316 is provided in the socket body 311 is connected to the connection and a third spring 319 for pushing in a direction opposite to the insertion of the plug 32 .

In addition, in the center of the closing end of the socket body 311, a discharge hole through which the flow of growth components introduced into the inside through the connection plug 32 leads to the inflow path 121 or the link and supporter 2 (311-1) is penetrated.

In addition, a connection member 315 - 1 coupled to the sleeve 314 is provided inside the manipulation ring 315 .

In addition, the opening/closing valve 316 has a communication hole 316-1 connected to the conduit of the connection plug 32 provided therein, and a through-hole ( 316-2) is penetrated.

In addition, the first, second, and third springs 317, 318, and 319 are preferably coil springs made by spirally winding a flexible iron rod having a large energy absorption rate.

In a predetermined position on the outer peripheral surface of the connection plug 32, when the connection socket 31 is inserted and coupled, a seating groove 321 through which the lock ball 312 provided inside the connection socket 31 is inserted. is formed.

The coupling member 4 is to enable the coupling of the link and supporter 2 or the supporting means 6 to the other corners of the upper and lower ends of the cultivation tank 1 where the one-touch coupler 3 is not mounted. , can be assembled in each mounting groove 11-1, 11-2 of the cultivation tank 1, and the tip of the separation pipe 21 or the extension pipe 22 of the link and supporter 2 or the one-touch coupler ( 3), it is preferable to form a cylindrical structure in which the tip of the connecting plug 32 can be fitted.

As described above, the drainage control means 5 is for controlling the amount of drainage of the growth components supplied to the planting space 1a of the cultivation tank 1, and as shown in FIGS. 4 and 7, the cultivation tank A base panel (51) that supports the culture soil in a state of being inserted and mounted to partition the lower part of the planting space (1a) through the discharge hole (13) penetrating through one side of the wall of (1), but allowing the drop and discharge of growth components (water) ), and a slide panel 52 which is inserted into the base panel 51 and configured to adjust the amount of displacement according to the sliding position in the inserted state.

A plurality of drainage holes 512 for dropping and discharging growth components are penetrated in the base panel 51 , and a receiving groove 511 for inserting the slide panel 52 is provided therein.

In the slide panel 52, when fully inserted into the receiving groove 511 of the base panel 51, a plurality of communication holes 521 disposed at the same position as the drain holes 512 are penetrated, and the sliding An operation handle 522 for user operation of withdrawal protrudes from one side and is gradually exposed to the outside during sliding extraction, and accordingly, an identification point 523 that enables identification of the opening degree of the drain hole 512 is located on the upper surface of the It is marked in a fixed position.

The support means 6 is for horizontal adjustment of the culture tank 1 as described above, and as shown in FIG. 3 , the culture tank 1 is disposed at the lowermost side among the plurality of culture tanks 1 stacked on each other. A seating hole 61 for receiving and supporting the lower part of the one-touch coupler 3 and the coupling member 4 mounted on each corner of the lower end of (1), and provided on the lower side of the seating hole 61 It is composed of an adjustment member 62 capable of horizontal adjustment of the cultivation tank 1 based on the length adjustment.

The operation of the system cultivation box (A) according to the present invention having the above configuration will be described in detail as follows.

First, FIGS. 8A to 9 are diagrams in use showing an embodiment of the system cultivation box according to the present invention, and FIGS. 10 and 11 are operation state diagrams showing the operation relationship of the one-touch coupler in the system cultivation box according to the present invention, 12 is an operational state diagram showing the operation relationship of the drainage control means in the system cultivation box according to the present invention, and as in FIGS. 8a and 8b, the production is planned by artificially controlling the growth environment of plants (crops) indoors. The system cultivation box (A) of the present invention can be installed and used for the purpose of maximizing limited space utilization among possible agricultural systems and constructing multi-stage cultivation facilities that increase crop management efficiency.

Specifically, with reference to FIGS. 8A and 8B , a multi-level cultivation facility is built by stacking a plurality of system cultivation boxes (A) of the present invention in a stacked structure. First, the cultivation tanks ( 1) One-touch coupler (3) connection socket 31 and a plurality of coupling members (4) in any one of the mounting grooves (11-1, 11-2) formed in the upper and lower corners and one outer wall surface install each

Here, among the supply lines 12 formed inside the wall of the culture tank 1, the mounting grooves 11-1 and the supply line 12 at the top and bottom of any one corner connected to the inflow passage 12 The connection socket 31 of the one-touch coupler 3 is respectively mounted in the mounting groove 111 of the outer wall surface of one side connected to the middle communication path 124, and the other corner portions are upper and lower mounting grooves 11-2. ) is equipped with a coupling member (4).

On the other hand, the one-touch coupler 3 and the coupling members 4 mounted on the lower corners of the cultivation tank 1 located at the lowermost side among the stacked cultivation tanks 1 are further assembled with a support means 6, , it is possible to construct a stable multi-level culture facility by horizontal adjustment of the culture tank 1 through the length adjustment of the coupling members 4 .

Subsequently, in addition to supporting the culture tanks 1 stacked together as described above, the culture tanks 1 are spaced apart from each other to provide a growing space for the crops planted in the planting space 1a of each culture tank 1 . Bar, this can be achieved simply by the mutual spacing between the cultivation tanks (1) using the link and supporter (2).

In detail, any one one-touch coupler 3 mounted on each corner of the upper end of each culture tank 1 except for the culture tank 1 disposed at the top among the culture tanks 1 stacked on top of each other and a plurality of combinations The lower end of the separation pipe 21 of the link and supporter 2 is fitted to the member 4 to form a standing state, and the lower end of each of the lower ends of the other cultivation tanks 1 disposed above the corresponding cultivation tanks 1 By fitting the upper end of the spaced pipe (2) upright as described above to any one-touch coupler (3) and the plurality of coupling members (4) mounted on the part, the upper end of the upper end by the link and supporter (2) The culture tank 1 may be supported to be spaced apart from the culture tank 1 on the lower side.

Here, by the separation pipe 21 of the link and supporter 2 in which the lower and upper ends are fitted to each of the one-touch couplers 3 of the culture tanks 1 stacked on each other, each culture tank 1 Their supply lines (12 / inlet) are connected to each other.

Next, a separate growth ingredient supply device for supplying growth ingredients necessary for crop growth is connected to the planting space 1a of all of the culture tanks 1 stacked on each other as described above, which is disposed at the lowermost side. The connection plug 32 coupled to the connection socket 31 of the one-touch coupler 3 mounted in the mounting groove 11-1 of the cultivation tank 1 of the cultivation box (A) extends from the growth ingredient supply device. It is made possible by connecting the supply pipe (h), and by performing all the processes described so far, it is possible to complete the construction of a multi-stage culture cultivation facility using the present invention.

For reference, the multi-stage cultivation system cultivation box (A) of the present invention, as shown in FIG. 9, can be used differently as a cultivation box of its own, not for the purpose of constructing a multi-stage cultivation facility.

On the other hand, the connecting plug 32 of the one-touch coupler 3 is connected to the separation pipe 21 and the extension pipe 22 of the link and supporter 2 and the supply pipe h extending from the separate growth ingredient supply device. The bar is coupled/disconnected to the connection socket 31 of the one-touch coupler 3 mounted on each corner of the upper and lower ends of the culture tank 1 and one side of the outer wall surface, which can be referred to in FIGS. 10 and 11 . .

Then, the amount of drainage of the growth component (water) supplied to the planting space 1a after being supplied to the planting space 1a of the culture tank 1 is determined by the drainage control means 5 installed in the lower part of the culture tank 1 ), which is controlled by pulling the operation handle 522 of the slide panel 52 exposed to the outside of one side of the cultivation tank 1 among the drainage control means 5, as in FIG. 12 , The slide panel 52 is slidably drawn out, and thus the communication hole 521 of the slide panel 52 is positioned at the same position as the plurality of drain holes 512 penetrating through the base panel 52 of the drain control means 5. ) can be adjusted so that the degree of opening of the volleyball ball 512 varies, and the degree of opening of the drain hole 512 at this time is a slide that is gradually exposed to the outside during the sliding extraction process of the slide panel 52 . It can be accurately identified by checking the exposure level of the identification point 523 marked at a predetermined position on the upper surface of the panel 52 .

For reference, the system cultivation box (A) according to the present invention, in addition to the use of plant (crop) cultivation, it is possible that it can be used differently for the purpose of growing various fish, insects and animals (eg, snails, etc.).

In summary, according to the system cultivation box (A) of the present invention, in the construction of a multi-stage cultivation culture facility through the stacking of multiple cultivation boxes (cultivation tanks), the cultivation tanks (1) using the link and supporter (2) In addition to supporting the spacing between each cultivation tank 1, the connection of the supply line 12 formed in each cultivation tank 1 ensures the ease of constructing a multi-level cultivation facility, as well as an essential accessory facility for supplying growth components to all the stacked cultivation boxes. Simultaneous construction is possible.

At the same time, it is possible to easily control the amount of drainage by using the drainage control means 5 provided in each cultivation tank 1, so that crops according to the growing environment and conditions that change frequently, such as changes in light intensity, temperature/humidity, carbon dioxide concentration, etc. It is possible to achieve the effect of supplying growth ingredients optimized for growth.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications, changes and substitutions within the scope without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are for explaining, not limiting, the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings . And, the protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

A : Cultivation box, 1 : Cultivation tank
1a: planting space, 2: link and supporter
3: one-touch coupler, 4: coupling member
5: drainage control means, 6: support means
11-1, 11-2: mounting groove, 12: supply line
13: discharge hole, 14: insertion hole
21: separation pipe, 22: extension pipe
31: connection socket, 32: connection plug
51: base panel, 52: slide panel
61: seating hole, 62: adjustment hole
121: inflow path, 122: transfer path
123: nozzle unit, 124: communication path
131: drain pipe, 311: socket body
311-1: discharge hole, 312: rock ball
313: ball guider, 314: sleeve
315: operating ring, 315-1: connecting member
316: on/off valve, 316-1: communication hole
316-2: through hole, 317: first spring
318: second spring, 319: third spring
321: seating groove, 511: receiving hole
512: drainage hole, 521: communication hole
522: operation handle, 523: identification point

Claims (8)

a box-type cultivation tank in which a supply line for providing a planting space and supplying a planting ingredient supplied from a separate growth ingredient supply device to the planting space is integrally formed inside a wall;
a plurality of links and supporters coupled to each corner of the upper end of the culture tank in a standing state to support the culture tanks by being spaced apart from each other when stacking a plurality of culture tanks, and to connect the supply lines of each culture tank to each other; and,
a plurality of one-touch couplers mounted on one side of the outer wall surface of the culture tank and one of the upper and lower corners, each connected to the supply line, any one of the links and supporters, and the growth ingredient supply device; A system cultivation box with
According to claim 1,
a plurality of coupling members mounted on different corners of the upper and lower portions of the cultivation tank to which the one-touch coupler is not mounted for the link and supporter coupling;
To control the amount of drainage, drainage control means provided in the lower part of the cultivation tank; and,
For horizontal adjustment of the culture tank, a plurality of support means for supporting each of the one-touch coupler and the coupling member mounted on the lower corners of the culture tank, respectively; System cultivation box, characterized in that it further comprises.
According to claim 1,
The one-touch coupler includes a connection socket assembled to a mounting groove formed on an outer wall surface and upper and lower ends of any one corner of the cultivation tank to which the supply line is connected;
A supply pipe extending from the growth ingredient supply device is connected and it is composed of a tubular connection plug coupled to the connection socket,
The connection socket includes a socket body assembled into the mounting groove, a plurality of rock balls for maintaining and releasing a binding state of the connection plug in a state provided inside the socket body, and a state provided inside the socket body. A ball guider for guiding the binding operation of the rock ball, a sleeve for controlling the guiding operation of the ball guider in a state provided inside the socket body, the sleeve is connected to the sleeve and exposed to the outside of the socket body to control the operation of the sleeve An operation ring that can be operated by a user, an on/off valve for opening and closing a conduit in connection with insertion into the socket body in a state provided inside the socket body, and the ball guider in a state provided inside the socket body are connected to the connection A first spring for pushing in a direction opposite to insertion of the plug; a second spring for pushing the sleeve in a direction opposite to insertion of a connection plug while provided inside the socket body; and the opening and closing while provided inside the socket body System cultivation box, characterized in that it comprises a third spring for pushing the valve in the opposite direction of the insertion of the connection plug.
According to claim 1,
The supply line includes an inflow passage vertically connecting the mounting grooves formed in any one corner of the upper and lower portions to which the one-touch coupler is mounted;
Consists of a transfer path extending from the inflow path to the entire wall,
In the transfer path, a plurality of nozzles for ejecting the growth component are formed at regular intervals,
In the inflow path, a communication path is formed through which the growth component supplied from the growth component supply device is initially introduced through the one-touch coupler by being connected to a mounting groove on the outer wall surface of one side of the cultivation tank to which any one-touch coupler is mounted. System cultivation box, characterized in that.
3. The method of claim 2,
The cultivation tank forms a box shape with an upper opening in which the planting space is provided for planting crops with culture soil,
Mounting grooves for mounting the one-touch coupler and the coupling member are formed in upper and lower corners and one outer wall surface,
The one-touch coupler is connected to any one of the mounting grooves in which the coupler is mounted, and the supply line for supplying the growth component to the planting space forms a predetermined path inside the wall,
A discharge hole for discharging the growth components accumulated on the floor of the planting space is penetrated at a predetermined position of the bottom,
A system cultivation box, characterized in that a horizontally long insertion hole into which the drainage control means can be inserted is penetrated through one side of the wall.
3. The method of claim 2,
The link and supporter, the lower end is fitted to any one-touch coupler and a plurality of coupling members mounted on the upper corners of the culture tank, and any one mounted on each lower edge of the other culture tank stacked on the upper side A separation pipe having an upper tip fitted to the one-touch coupler and a plurality of coupling members to support the culture tank stacked on the upper side in a spaced apart state;
It is composed of an extension pipe for extending the length of the separation pipe,
The separation pipe and the extension pipe are connected to the one-touch coupler, and the system cultivation box, characterized in that it forms a tubular shape connecting the supply line of each cultivation tank.
3. The method of claim 2,
The drainage control means supports the culture soil in a state of being inserted and mounted to partition the lower part of the planting space through a discharge hole penetrated through one side of the wall of the culture tank, and a base panel capable of dropping and discharging growth components;
It is inserted into the base panel and is composed of a slide panel in which the amount of drainage is adjusted according to the movement of the sliding position in the inserted state,
In the base panel, a plurality of drainage holes for falling and discharging growth components are penetrated, and a receiving groove for inserting the slide panel is provided therein;
In the slide panel, when fully inserted into the receiving groove, a plurality of communication holes disposed at the same position as the drain holes pass through, and a manipulation handle for user manipulation of sliding withdrawal protrudes from one side, and when sliding withdrawal is gradually performed The system cultivation box, characterized in that exposed to the outside, and an identification point capable of grasping the degree of opening of the drain hole according to the external exposure is marked at a predetermined position on the upper surface.
3. The method of claim 2,
The support means includes a seating hole for receiving and supporting any one-touch coupler and the lower portions of the plurality of coupling members mounted on each corner of the bottom of the cultivation tank disposed on the lowermost side of the plurality of cultivation tanks stacked on each other;
A system cultivation box provided at a lower side of the seating hole, and comprising an adjustment member capable of horizontal adjustment of the cultivation tank based on length adjustment according to a screw tightening method.

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