KR102259101B1 - Continuous nutrient and oxigen supply type flowerpot for both soil and nutrient solution growing - Google Patents

Abstract

As the disclosed pots for continuous nutrient and oxygen supply-type soil nutrient solution cultivation include a water level indicator member, the level of at least one of water and nutrient solution contained in the case member can be easily and in real time recognized from the outside There is this.

Description

Continuous nutrient and oxigen supply type flowerpot for both soil and nutrient solution growing}

The present invention relates to a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation.

The essential requirements for growing potted crops are sunlight, water, and air. In order to grow crops through potted plants, it is important to properly supply the above three factors.

It is that of the patent literature presented below that can be presented as an example of a potted plant for such crop cultivation.

However, according to the conventional potted plant including the above patent document, the nutrients in the soil contained in the pots for planting crops are gradually depleted over time.In order to resupply these depleted nutrients, the soil itself must be ground through pulverization. Thus, not only is the supply of nutrients cumbersome, but there is also a problem that stresses the crops and causes the crops to die.

In addition, in order to be supplied to the crops, the water in the pots is not properly supplied with oxygen, so that the water becomes rotten, and such rotten water has a problem that adversely affects the crops.

In addition, there is a problem that the level of water or nutrient solution in the pot is not easily recognized from the outside and in real time.

Public Utility Model No. 20-2011-0002377, Publication date: 2011.03.09., Name of design: Flowerpot set in which decorative flowerpots and drip trays are integrated into the flowerpot stand

An object of the present invention is to provide a potted plant for cultivation of nutrient solution for continuous nutrient and oxygen supply capable of supplying continuous nutrients in which the level of water or nutrient solution in the pot can be easily recognized in real time from the outside.

Another object of the present invention is to provide a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation capable of stably supplying nutrients and oxygen to crops planted in pots without pulverization.

A potted plant for cultivation of nutrient solution for soil capable of supplying continuous nutrients and oxygen according to an aspect of the present invention includes a case body and a digestive powder assembly protruding from each corner of the case body in an arc-shaped cross section of a predetermined curvature, and the case A case member in which at least one of water and nutrient solution is accommodated in a lower portion of the body and the fire extinguishing powder assembly; A partition body that hangs on a certain height inside the case body, a partition extension that hangs on a certain height inside the fire extinguishing powder assembly while being connected to the partition body, and a certain depth recessed downward from the partition body to the case member And a body-side concave protrusion contained in the received liquid, and an extension-side concave protrusion formed downward from the partition extension to a predetermined depth to be contained in the liquid received in the case member, and the liquid phase received in the lower portion of the case member A partition member that is caught at a certain height, the soil is supported thereon, and a part of the soil is drawn into the body-side concave protrusion and the extension-side concave protrusion to come into contact with the liquid accommodated in the lower portion of the case member; A water level display member for displaying a level of at least one of water and nutrient solution accommodated in the case member; A digestive meal member that is detachably coupled to the digestive component assembly and capable of planting a crop planted in the soil above the partition member and a separate crop; Upper spacer member; And an upper input member;
A plurality of the partition members protrude to be spaced apart from each other from the partition body and the partition extension member, further comprising a partition side fixing protrusion through which a lower end of a predetermined portion of the upper space member is caught and fixed,
The upper spacer member includes an upper spacer body that is placed at a certain height from the partition member above the partition member in the case member, an upper spacer extension body extending outward from the upper spacer body, and the upper spacer body and the A plurality of upper and lower extensions each extending a predetermined length downward of the upper spaced extension body and each lower end of which is fixed to the fixing protrusions on each of the compartments, and a predetermined length respectively extending upwards of the upper spaced body and the upper spaced extension body for the fire extinguishing. It includes a plurality of upper upper extensions over which the sub-member spans the upper part, and a plurality of upper spaced fixing protrusions protruding to be spaced apart from each other at the upper end of the upper spaced body and the upper spaced extension body so that the lower end of the upper upper extension body is fixed. ,
In a state in which the partition member is installed inside the case member, when the upper spacer member is inserted into the case member, the upper lower extension members are fixed to the respective partition side fixing protrusions, and accordingly, the upper spaced body and The upper spaced extension body can be fixed at a height spaced apart from the partition member at a predetermined distance above the partition member,
In a state in which the partition member and the upper spacer member are installed in the case member, when the fire extinguishing extinguishing member is raised, the fire extinguishing extinguishing member is caught on the upper part of each upper upper extension body and the upper spaced body and the upper spaced extension member The fire extinguishing powder member can be hooked and fixed on a certain height from,
One side of the fire extinguishing powder member is caught inside the case member, the other side of the fire extinguishing powder member is caught on the upper part of the upper upper extension,
The upper spaced body, the upper spaced extension, the upper lower extension, and the upper upper extension are formed with mesh-shaped holes so that air and water can pass through,
The upper input member is coupled to the upper part of the upper upper extension body in a state in which the extinguishing powder member is engaged, fixes the extinguishing powder member, and serves as a passage through which at least one of fertilizer and water is injected from the outside of the upper side, and the upper side It becomes a channel through which oxygen is supplied from outside,
The upper input member is in communication with the upper upper extension, so that at least one of fertilizer and water injected through the upper input member, and oxygen supplied through the upper input member can spread into the soil through the upper upper extension. It is characterized by being.

According to the potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation combined use of the soil nutrient solution cultivation capable of supplying continuous nutrients and oxygen according to an aspect of the present invention, since the potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation includes a water level indicator member There is an effect that the level of at least one of the liquids can be easily recognized from the outside and in real time.

1 is a perspective view showing an exploded view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a first embodiment of the present invention.
2 is a cross-sectional view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the first embodiment of the present invention.
3 is another cross-sectional view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the first embodiment of the present invention.
4 is a perspective view showing a combined state of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the first embodiment of the present invention.
5 is a perspective view of a partition member applied to a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the first embodiment of the present invention, viewed obliquely from above.
6 is a perspective view of a partition member applied to a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the first embodiment of the present invention as viewed obliquely from below.
7 is a perspective view showing an exploded view of a digestive component constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a second embodiment of the present invention.
Figure 8 is a cross-sectional view showing a combined state of the digestive component constituting the potted plant for continuous nutrient and oxygen supply possible type soil nutrient solution cultivation according to the second embodiment of the present invention.
9 is a perspective view showing an exploded view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a third embodiment of the present invention.
10 is a perspective view showing a case member constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a third embodiment of the present invention.
11 is a cross-sectional view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a third embodiment of the present invention.
12 is another cross-sectional view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a third embodiment of the present invention.
13 is a perspective view showing a combined state of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention.
14 is a perspective view showing an exploded view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention.
FIG. 15 is a perspective view showing a partition member constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention.
16 is a perspective view showing an upper spacer member constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention.
17 is a cross-sectional view showing a combined state of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention.

Hereinafter, a potted plant for cultivation of nutrient solution for continuous nutrient and oxygen supplying type soil according to embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view showing an exploded view of a pot for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a first embodiment of the present invention, and FIG. 2 is a continuous supply of nutrients and oxygen according to the first embodiment of the present invention Fig. 3 is a cross-sectional view of a potted plant for cultivation of nutrient solution for soil type, and Fig. 3 is another sectional view of a potted plant for cultivation of nutrient solution for continuous nutrient and oxygen supply type according to the first embodiment of the present invention. It is a perspective view showing a combined state of a pot for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to an embodiment, and FIG. 5 is a potted plant for continuous nutrient and oxygen supply possible type soil nutrient solution cultivation according to the first embodiment of the present invention. It is a perspective view of the applied partition member from above, and FIG. 6 is a perspective view of the partition member applied to the potted plant for cultivating continuous nutrients and oxygen supplying type soil nutrient solution according to the first embodiment of the present invention as viewed obliquely from below.

Referring to FIGS. 1 to 6 together, the pot 100 for cultivating a continuous nutrient and oxygen supply-type soil nutrient solution according to the present embodiment includes a case member 110, a partition member 120, and a extinguishing powder member 130 ).

The case member 110 includes a case body 111 and a fire extinguisher assembly 112 protruding from each corner of the case body 111 in an arc-shaped cross section of a predetermined curvature, and the case body 111 And at least one of water and nutrient solution is accommodated in the lower portion of the digestive component assembly 112.

The case body 111 is exemplarily formed in a shape in which two pairs of flat plates facing each other form four sides, and long-term water such as lost water or tube water is planted in the soil of the coin pot portion inside the case body 111.

The fire extinguishing powder assembly 112 is formed to gradually narrow (tapered) downward at each corner of the case body 111, and is formed to protrude further outward than each corner of the case body 111.

In this embodiment, the ratio of the portion to which the extinguishing extinguishing extinguishing member 130 is applied to the extinguishing extinguishing extinguishing assembly 112 is relatively compared to the portion opened while the extinguishing extinguishing extinguishing assembly 112 communicates with the case body 111 Is formed larger. For example, when a virtual circle is drawn by extending the curved surface of the extinguishing extinguisher assembly 112, the portion where the extinguishing extinguishing extinguishing member 130 is applied to the actual wall portion of the extinguishing extinguishing extinguishing assembly 112 is the extinguishing extinguishing assembly ( It is a virtual circular portion of 112) and is formed relatively larger than the portion that is open toward the inside of the case body 111. Then, the extinguishing powder member 130 can be stably supported on the extinguishing powder assembly 112.

The upper end of the case body 111 and the fire extinguishing powder assembly 112 is opened, and the lower end thereof is closed by a base plate. Then, soil in which crops can be planted may be contained in the case member 110 by the case body 111 and the digestive powder assembly 112.

The case body 111 and the fire extinguishing powder assembly 112 are further formed with a locking projection 113 protruding in the inward direction, so that the partition member 120 can be caught on the locking projection 113.

The partition member 120 is connected to the partition body 121 on a predetermined height inside the case body 111, and is connected to the partition body 121 while being caught on a predetermined height inside the fire extinguishing powder assembly 112. In the partition extension 122, the body-side depressed protrusion 124, which is formed downward from the partition body 121 to a certain depth and is contained in the liquid accommodated in the case member 110, and the partition extension 122 Includes an extension-side concave protrusion 125 which is formed downwardly to be depressed to a certain depth to be immersed in the liquid contained in the case member 110, and is caught at a certain height of the liquid contained in the lower part of the case member 110, and the upper part thereof The soil is supported, and a portion of the soil is introduced into the body-side concave protrusion body 124 and the extension-side concave protrusion body 125 to come into contact with the liquid accommodated in the lower portion of the case member 110.

The partition body 121 is formed in the form of a square plate, and the partition extension member 122 is formed to protrude in the shape of an arc of a predetermined curvature at each corner of the partition body 121, so that the partition member 120 is caught. When caught in the jaw 113 and installed inside the case member 110, the partition member 120 divides the interior of the case member 110 into upper and lower spaces. Water and air layers are formed in the lower space inside the case member 110 partitioned by the partition member 120, and soil is formed in the upper space inside the case member 110 partitioned by the partition member 120. Becomes acceptable.

The partition body 121 and the partition extension 122 are formed in a form capable of air flow, such as being formed in a net shape, so that the air under the partition member 120 passes through the partition member 120 to the partition member. (120) It can be supplied to the upper soil.

Each lower portion of the body-side concave protrusion 124 and the extension-side concave protrusion 125 is immersed in a liquid accommodated in the lower portion of the case member 110, and the body-side concave protrusion 124 and the A plurality of through holes are also formed on each surface of the elongated body-side concave protrusion 125. Then, the body side recessed protrusion body 124 and the extension body side recessed protrusion body 125 is also in a state in which some of the soil on the upper portion of the partition member 120 is drawn in, so that the body side recessed protrusion body 124 and Air and liquid inside the case member 110 can be supplied to the soil through each through hole of the protrusion 125 on the extension side.

An upper protrusion 114 protruding upward from the center of the bottom 115 of the case member 110 is formed under the case member 110, and the upper protrusion 114 is formed on the partition member 120. The locking body 123 that can be caught is formed to protrude upward. In addition, a protrusion-side pore 116 is formed in the upper portion of the upper protrusion 114 to allow external air raised through the upper protrusion 114 to flow into the case member 110, and the A locking body side pore 126 is formed in the locking body 123 to allow air in the space below the partition member 120 to communicate with the soil above the partition member 120.

When formed as described above, the upper protrusion 114 is caught by the locking body 123 and the partition member 120 is stably coupled to the inside of the case member 110, while the upper protrusion 114 Accordingly, external air may be raised and supplied to the air layer between the liquid hole inside the case member 110 and the lower side of the partition member 120 through the protrusion side pores 116, so that the inside of the case member 110 In addition to the continuous supply of fresh oxygen to the soil, it is possible to prevent the liquid contained in the lower portion of the case member 110 from rotting.

The digestive component 130 is detachably coupled to the digestive component assembly 112, and a crop 10 and a separate crop 20 planted in the soil above the partition member 120 can be planted. will be.

In detail, the extinguishing extinguishing member 130 includes a extinguishing extinguishing body 131 formed in a cylindrical shape so as to be inserted into the extinguishing extinguishing extinguishing assembly 112, and the extinguishing extinguishing body 131 is the extinguishing extinguishing assembly 112 A fire extinguishing extinguishing body 132 formed in a strip shape at the center or lower portion of the extinguishing extinguishing body 131 so as to be caught on the upper part of the fire extinguishing extinguishing body 131, and a soil support 133 supporting the soil contained in the extinguishing extinguishing body 131 Includes.

The soil support 133 is formed in a net shape to allow air flow.

The bottom surface of the extinguishing extinguishing body 131 is opened or a hole is formed to allow air flow, and the soil support 133 has a support positioned at a predetermined height from the bottom of the extinguishing extinguishing body 131. Then, an air layer is formed between the soil support 133 and the soil in contact with the bottom surface of the digester body 131, so that oxygen can be continuously supplied to the soil on the soil support 133, and the soil The compost fermentation gas generated inside can be removed by flowing to the outside.

In the present embodiment, the extinguishing extinguishing extinguishing body 132 is formed in a shape that is recessed to the inside of the extinguishing extinguishing body 131 to a certain depth, so as to protrude to the inside of the extinguishing extinguishing body 131. Then, while the extinguishing extinguishing extinguishing member 132 can be caught on the upper end of the extinguishing extinguishing extinguishing unit 112, the soil support 133 can be caught on the inner protruding portion of the extinguishing extinguishing extinguishing member 132 .

Annual fruits and vegetables may be planted in the digestion member 130.

When water is supplied for the growth of crops planted in the digestive element 130, the nutrients contained in the digestive element 130 naturally flow into the soil inside the case member 110, which is a part of the main pot. When this process is repeated and all the nutrients in the soil contained in the extinguishing extinguishing member 130 are exhausted, the extinguishing extinguishing member 130 is removed to contain the nutrient-rich soil again, and then again placed in the extinguishing extinguishing member 132. Can be combined. Then, it is possible to continuously supply nutrients to the soil in the case member 110 without dividing the soil in the case member 110, which is a part of the main pot.

Reference numeral 101 denotes a liquid supply pipe supplying liquid into the case member 110, and reference numeral 102 denotes an overflow pipe that overflows when an excessive amount of liquid is supplied into the case member 110.

On the other hand, the continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pot 100 further includes a liquid supply member 140 that can supply the liquid into the case member 110.

The liquid supply member 140 includes a liquid container 141 containing a liquid supplied into the case member 110, a cover 142 covering an upper portion of the liquid container 141 so as to be opened and closed, and the liquid container A liquid level sensor 143 that senses the level of the liquid contained in 141, and an external water source when the level of the liquid sensed by the liquid level sensor 143 is relatively lower than a preset level ) And a liquid supply body 144 capable of supplying liquid to the liquid receptor 141.

Liquid may be supplied manually by opening the cover 142.

When formed as described above, the liquid supply member 140 can automatically supply the liquid into the case member 110, thereby enabling a stable and continuous liquid supply.

As described above, as the continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pot 100 includes a case member 110, a partition member 120, and a extinguishing powder member 130, the case member ( Since liquid (or water), nutrients, and oxygen can be continuously supplied to the crops planted in the main pot of 110), long-term water such as lost water and tubular water can be cultivated in the main pot of the case member 110 without pulverization. While possible, it is possible to simultaneously cultivate annual fruits and vegetables in the digestion member 130.

Hereinafter, a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to second embodiments of the present invention will be described with reference to the drawings. In carrying out this description, descriptions that are overlapping with those already described in the first embodiment of the present invention will be replaced therewith, and will be omitted here.

7 is a perspective view showing an exploded view of a digestive component constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a second embodiment of the present invention, and FIG. 8 is a second embodiment of the present invention. It is a cross-sectional view showing the combined state of the digestive component constituting the potted plant for cultivation of continuous nutrients and oxygen supply possible type soil nutrient solution.

7 and 8 together, in this embodiment, the extinguishing extinguishing member 230 is composed of a extinguishing extinguishing body 231, a extinguishing extinguishing extinguishing body 232, and a soil support 233, the fire extinguishing The extinguishing body 232 is formed in a form protruding out of the fire extinguishing body 231 in a belt shape.

Hereinafter, a potted plant for cultivation of nutrient solution for continuous nutrient and oxygen supply capable soil nutrient solution according to third embodiments of the present invention will be described with reference to the drawings. In carrying out this description, descriptions overlapping with those already described in the first and second embodiments of the present invention described above will be replaced therewith, and will be omitted here.

9 is a perspective view showing an exploded view of a pot for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a third embodiment of the present invention, and FIG. 10 is a continuous supply of nutrients and oxygen according to another embodiment of the present invention A perspective view showing a case member constituting a potable type soil nutrient solution cultivation combination pot, Figure 11 is a cross-sectional view of a continuous nutrient and oxygen supply possible type soil nutrient solution cultivation potted plant according to a third embodiment of the present invention, and Fig. 12 is a view Another cross-sectional view of a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the third embodiment of the present invention.

9 to 12 together, in this embodiment, a mesh member 350 that can prevent the invasion of external pests is further installed.

The mesh member 350 includes a mesh 353 formed in a mesh shape to allow air flow while preventing the invasion of external pests, an expansion part 352 that holds the mesh 353 to be spread, and a partition member. The lower portion is inserted and erected in the locking body 323 protruding upward, and the spreading portion 352 includes a post 351 formed at the upper end thereof.

The mesh member 350 is installed detachably.

When formed as described above, while preventing the invasion of external pests, air flow may be possible.

In addition, the potted plant 300 for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the present embodiment includes a water level display member 360 that displays the level of at least one of water and nutrient solution accommodated in the case member 310. Include more.

In detail, the water level display member 360 includes a water level display buoy 365 and a buoy guide 361.

The buoy guide 361 protrudes from an inner wall of the case member 310, for example, an inner wall of one of the inner walls of the case body 111, and the water level indicator buoy ( 365) is formed with a through hole so that it can be raised and lowered to indicate the water level. Then, the water level display buoy 365 does not fall arbitrarily by the buoy guide 361 and can be elevated while being guided according to the water level in the case member 310.

The water level indicator buoy 365 is formed in the form of a long rod with a predetermined length, and is guided along the through hole in the buoy guide 361 and can be elevated and lowered, and a lower portion of the buoy rod 366 A buoyant body 367 that is formed in the buoy rod 366 and is floated on at least one of water and nutrient solution in the case member 310 and is linked to the water level in the case member 310 while applying a load so that the buoy rod 366 does not fall. ).

When the water level in the case member 310 fluctuates, the position of the buoy body 367 floating in the case member 310 changes in connection with the fluctuating water level, and at this time, the buoy rod 366 It is possible to stably rise and fall along the buoy guide 361.

The water level in the case member 310 may be displayed according to the height at which the buoy rod 366 is exposed to the outside. In this case, a display capable of displaying the water level on the buoy rod 366, for example, a rainbow color By forming the mark, the water level in the case member 310 can be easily recognized from the outside even by looking at the buoy rod 366 only.

For example, since a rainbow color is sequentially displayed on the surface of the buoy rod 366, it is possible to recognize the water level by looking at the exposed color of the buoy rod 366.

As described above, as the continuous nutrient and oxygen supply-type soil nutrient solution cultivation pot 300 includes the water level display member 360, at least one of water and nutrient solution accommodated in the case member 310 The water level can be recognized easily and in real time from the outside.

In addition, in this embodiment, the continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pot 300 further includes a network installation flange 316.

The net installation flange 316 protrudes from the case member 310 in an outer direction, and at least some of the distal ends of the net 353 are coupled, so that the net 353 is fixed to the case member 310. , So that the mesh 353 is expanded in a form that is relatively expanded in the outer direction of the case member 310.

The net installation flange 316 is formed in the form of a flange protruding from the outer wall portion between each fire extinguisher assembly 312 in the case body 311 to the outside, and a fixing means (not shown) such as a bolt penetrates The coupling hole 317 is formed. The fixing means passing through the mesh 353 penetrates the coupling hole 317, so that the mesh 353 can be fixed to the mesh installation flange 316.

Hereinafter, a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to fourth embodiments of the present invention will be described with reference to the drawings. In carrying out this description, descriptions overlapping with those already described in the first to third embodiments of the present invention described above will be replaced therewith, and will be omitted here.

13 is a perspective view showing a combined state of a pot for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention, and FIG. 14 is a continuous supply of nutrients and oxygen according to a fourth embodiment of the present invention A perspective view showing an exploded view of a potted plant for nutrient solution cultivation of a possible type, and FIG. 15 is a perspective view showing a partition member constituting a potted plant for growing nutrient solution for continuous nutrient and oxygen supply type according to the fourth embodiment of the present invention 16 is a perspective view showing an upper spacer member constituting a potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to a fourth embodiment of the present invention, and FIG. 17 is a fourth embodiment of the present invention. It is a cross-sectional view showing a combined state of a potted plant for continuous nutrient and oxygen supply-type soil nutrient solution cultivation.

13 to 17 together, the potted plant 400 for continuous nutrient and oxygen supply type soil nutrient solution cultivation according to the present embodiment includes a case member 410, a partition member 420, and a digestive powder member 430 Together, it further includes an upper spacer member 470 and an upper input member 480.

In this embodiment, the partition member 420 is provided with the partition body 421, the partition extension 422, the body side recessed protrusion body 424, and the extension side recessed protrusion body 425, and the partition side fixing protrusion 427 ).

A plurality of the partition side fixing protrusions 427 protrude from the partition body 421 and the partition extension body 422 so as to be spaced apart from each other, and a certain portion of the upper spacer member 470, in detail, an upper lower extension body (to be described later) ( It is fixed by hanging the lower end of 475).

The upper spacer member 470 includes an upper spacer body 471 that is placed at a certain height from the partition member 420 above the partition member 420 in the case member 410, and the upper spacer body ( The upper spaced extension body 472 extending outward from 471, and the upper spaced body 471 and the upper spaced extension body 472 respectively extend a predetermined length downward to each of the fixed protrusions 427 on each of the compartments. Each of the plurality of upper and lower extensions 475 with the lower ends fixed, the upper spaced body 471 and the upper spaced extension 472 extend for a predetermined length, so that the fire extinguishing powder member 430 spans the upper portion thereof. A plurality of upper upper extension body 478, and a plurality of upper spaced protruding so as to be spaced apart from each other at the upper end of the upper spaced body 471 and the upper spaced extension body 472 so that the lower end of the upper upper extension body 478 is fixed It includes a fixing protrusion 477.

When the partition member 420 is installed inside the case member 410, when the upper spacer member 470 is inserted into the case member 410, the respective partition-side fixing protrusions 427 The upper and lower extensions 475 are fixed, and accordingly, the upper spaced body 471 and the upper spaced extension 472 are above the partition member 420 at a height spaced apart from the partition member 420 by a predetermined interval. Can be fixed.

In a state in which the partition member 420 and the upper spaced member 470 are installed inside the case member 410, when the extinguishing extinguishing member 430 is raised, the extinguishing extinguishing extinguishing member 430 is positioned above each upper side. It is caught on the upper portion of the extension body 478 so that the fire extinguishing powder member 430 can be hooked and fixed at a predetermined height from the upper spaced body 471 and the upper spaced extension body 472.

One side of the extinguishing powder member 430 is caught inside the case member 410, and the other side of the extinguishing powder member 430 is caught on the upper portion of the upper upper extension body 478.

The upper spaced body 471, the upper spaced extension body 472, the upper lower extension body 475, and the upper upper extension body 478 are formed with mesh-shaped holes, so that air and water can be freely penetrated. have.

The upper input member 480 is coupled to the upper portion of the upper upper extension member 478 in a state in which the digestive component member 430 is caught, and fixes the digestive component member 430, and fertilizer and fertilizer from the outside of the upper side. It becomes a passage through which at least one of the water is injected, and a passage through which oxygen is supplied from the upper side.

The upper input member 480 is in communication with the upper upper extension member 478, so that at least one of fertilizer and water injected through the upper input member 480 and oxygen supplied through the upper input member 480 Is able to spread into the soil through the upper upper extension 478. Accordingly, fertilizer, water, and oxygen can be supplied not only through the lower side of the continuous nutrient and oxygen-supplyable type soil nutrient solution cultivation pot 400, but also through the upper and lower sides.

As described above, as the upper spacer member 470 is further installed together with the partition member 420, the phenomenon that the soil accommodated in the case member 410 is compacted by its own weight can be prevented, and accordingly Fertilizer, water, and oxygen may be more smoothly supplied to the soil through the partition member 420 as well as the upper spacer 470, and gas formed in the soil may be discharged more smoothly.

In this embodiment, the case member 410 has a leaf that is relatively tall such as lost water in the inner soil of the case member 410 and can form a shade above the continuous nutrient and oxygen supply type soil nutrient solution cultivation pot 400 A perennial plant is planted, and accordingly, a shade is formed on the digestive component member 430 by the leaves of the perennial plant, so that the cultivation of ginseng, lettuce, etc., which can be cultivated in the digestive component member 430 under such shade, is cultivated in a semi-dark environment Plants can be planted.

It is inserted into the styrofoam in the digestive component 430, it is also possible to break, and a cedar tree that is grown by cutting the stem of a plant and planting it to form roots is also possible.

Reference numeral 485 denotes a solar member, which receives solar heat from the solar member 485 to form hot water and then supplies it into the case member 410, or generates electricity by receiving sunlight from the solar member 485. Next, electricity required for the operation of the continuous nutrient and oxygen supply-type soil nutrient solution cultivation pot 400 may be supplied.

In the above, the present invention has been shown and described with respect to specific embodiments, but those of ordinary skill in the art variously modify the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. And it will be appreciated that it can be changed. However, it is intended to clearly reveal that all of these modifications and variations are included within the scope of the present invention.

According to the potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation capable of supplying continuous nutrients and oxygen according to an aspect of the present invention, the level of water or nutrient solution in the pot can be easily recognized in real time from the outside, and continuously nutrient to the crops planted in the pots without pollination And oxygen can be stably supplied, so the industrial applicability is high.

100: Potted plant for continuous nutrient and oxygen supply type soil nutrient solution cultivation
110: case member
120: partition member
130: no digestive meal
140: liquid supply member
316: mesh mounting flange
360: absence of water level indication
361: Buoy Guide
365: water level indicator buoy

Claims (7)

A case body and a fire extinguishing agent assembly protruding in an arc-shaped cross section of a predetermined curvature at each corner of the case body, and at least one of water and a nutrient solution is accommodated in the lower portion of the case body and the fire extinguishing powder assembly. Case member;
A partition body that hangs on a certain height inside the case body, a partition extension that hangs on a certain height inside the fire extinguishing powder assembly while being connected to the partition body, and a certain depth recessed downward from the partition body to the case member And a body-side concave protrusion contained in the received liquid, and an extension-side concave protrusion formed downward from the partition extension to a predetermined depth to be contained in the liquid received in the case member, and the liquid phase received in the lower portion of the case member A partition member that is caught at a certain height, the soil is supported thereon, and a part of the soil is drawn into the body-side concave protrusion and the extension-side concave protrusion to come into contact with the liquid accommodated in the lower portion of the case member;
A water level display member for displaying a level of at least one of water and nutrient solution accommodated in the case member;
A digestive meal member that is detachably coupled to the digestive component assembly and capable of planting a crop planted in the soil above the partition member and a separate crop;
Upper spacer member; And
Includes; an upper input member,
A plurality of the partition members protrude to be spaced apart from each other from the partition body and the partition extension member, further comprising a partition side fixing protrusion through which a lower end of a predetermined portion of the upper space member is caught and fixed,
The upper spacer member
An upper spaced body that is placed on a predetermined height from the partition member above the partition member in the case member,
An upper spaced extension extending outward from the upper spaced body,
A plurality of upper and lower extensions each extending a predetermined length downwards of the upper spaced body and the upper spaced extension and each having its lower end fixed to the respective partition side fixing protrusions,
A plurality of upper upper extensions each extending a predetermined length above the upper spaced body and the upper spaced extension so that the fire extinguishing unit member spans the upper part,
And a plurality of upper spaced fixing protrusions protruding so as to be spaced apart from each other on the upper spaced body and the upper end of the upper spaced extension body so that the lower end of the upper upper extension body is fixed,
In a state in which the partition member is installed inside the case member, when the upper spacer member is inserted into the case member, the upper lower extension members are fixed to the respective partition side fixing protrusions, and accordingly, the upper spaced body and The upper spaced extension can be fixed at a height spaced apart from the partition member at a predetermined distance above the partition member,
In a state in which the partition member and the upper spacer member are installed inside the case member, when the fire extinguishing extinguishing member is raised, the fire extinguishing extinguishing member is caught on the upper part of each upper upper extension body and the upper spaced body and the upper spaced extension member The fire extinguishing powder member can be hooked and fixed on a certain height from,
One side of the fire extinguishing powder member is caught inside the case member, and the other side of the fire extinguishing powder member is caught on the upper part of the upper upper extension,
The upper spaced body, the upper spaced extension, the upper lower extension, and the upper upper extension are formed with mesh-shaped holes so that air and water can pass through,
The upper input member is coupled to the upper part of the upper upper extension body in a state in which the extinguishing powder member is caught, and fixes the extinguishing powder member, and serves as a passage through which at least one of fertilizer and water is injected from the outside of the upper side, and the upper side It becomes a channel through which oxygen is supplied from the outside,
The upper input member is in communication with the upper upper extension, so that at least one of fertilizer and water injected through the upper input member, and oxygen supplied through the upper input member can spread into the soil through the upper upper extension. Potted for continuous nutrient and oxygen supply type soil nutrient solution cultivation, characterized in that there is. The method of claim 1,
The ratio of the portion to which the extinguishing extinguishing element member is applied to the extinguishing extinguishing extinguishing assembly is formed relatively larger than that of a portion opened while the extinguishing extinguishing extinguishing member is in communication with the case body,
The absence of digestive meals
Digestive body,
A fire extinguishing extinguishing member for the extinguishing extinguishing body to be caught on the upper part of the extinguishing extinguishing extinguishing assembly,
A potted plant for continuous nutrient and oxygen supply-type soil nutrient solution cultivation, characterized in that it comprises a soil support for supporting the soil contained in the digestive body. The method of claim 1,
An upper protrusion protruding upward from the bottom surface of the case member is formed at a lower portion of the case member,
The partition member has a locking body that can be caught by the upper projection is formed to protrude upward,
Protrusion-side pores are formed in the upper portion of the upper protrusion to allow external air raised through the upper protrusion to flow into the case member,
A potted pot for continuous nutrient and oxygen supply type soil nutrient solution cultivation, characterized in that the locking body is formed with pores on the locking body to allow air in the space under the partition member to communicate with the soil on the upper side of the partition member. The method of claim 1,
The continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pots
A liquid container containing liquid supplied into the case member,
A cover for opening and closing the upper portion of the liquid container,
A liquid level sensor that detects the level of the liquid contained in the liquid container,
And a liquid supply member including a liquid supply body capable of supplying liquid to the liquid container from the outside when the level of the liquid sensed by the liquid level sensor is relatively lower than a preset level. Potted plant for nutrient and oxygen supply type soil nutrient cultivation. The method of claim 1,
The continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pots
Including; a net member capable of preventing the invasion of external pests
The continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pots
Protruding from the case member in an outer direction, at least a portion of the distal end of the net member is coupled, so that the net member is fixed to the case member, and the net member is relatively further expanded in the outer direction of the case member Network installation flange to be unfolded as; Continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pots further comprising a. delete The method of claim 1,
The continuous nutrient and oxygen supply possible type soil nutrient solution cultivation pots
Use of the sun to generate hot water by receiving solar heat and then supply it to the inside of the case member and/or to generate electricity by receiving sunlight and then supply electricity required for the operation of the continuous nutrient and oxygen supply-type soil nutrient solution cultivation pot. Member; continuous nutrients and oxygen supply possible type soil nutrient solution cultivation combined pots, characterized in that it further comprises.

Images