KR101663865B1 - Nutrient solution soil flowerpot and flowerpot supporting member applied at the nutrient solution soil flowerpot and flowerpot inner member - Google Patents

Abstract

A pollen receiving member and a pollen inner member which are applied to the nutrient solution combined pot and the nutrient solution combination pot are disclosed.
The disclosed nutrient solution combination pot includes a pot body containing soil in which a crop can be planted; A roof member covering the pot body; A pollen receiving member body to which the pollen receiving body can be supported and in which a nutrient solution is accommodated and an air layer is formed in the nutrient solution accommodated therein and a nutrient solution inflow and outflow pipe for introducing the nutrient solution into the pot support member body or discharging the nutrient solution contained in the pot support member body, And a pot supporting member covering the top of the pot supporting member body and supporting a soil contained in the potting main body and forming a through hole; And a control unit for controlling the pollen receiving unit body so as to supply the nutrient solution contained in the pollen receiving unit body to the soil which is received through the through holes of the pollen receiving lid, An air communication connection pipe communicating with the air layer formed on the pollen receiving member body; and an air communicating pipe connected to the pollen receiving member body through the air communication connecting pipe, And an air communicating protruding tube protruding from the ventilation member body so as to be supplied to the soil contained in the pot supporting cap and communicating with the air communicating pipe.
According to the pollen receiving member applied to the nutrient solution combination pot and the nutrient solution combination pot disclosed above, since the nutrient solution combination pot includes the pollen main body, the roof member, the pollen receiving member, and the ventilating member, It is possible to prevent the supply of excessive moisture to the crop due to the roof member and to inhibit the propagation of various germs and to prevent the insect access to the crop by the side net of the roof member and to suppress the use of the pesticide, It is possible to cultivate both the nutrient solution and the soil together with the nutrient solution in the soil and the pollen support member of the pot, and oxygen can be smoothly supplied to the upper, lower and central roots of the pollen body, Is planted in each of a plurality of nutrient solution soil pots, and the plurality of nutritive soil pots are connected to each other The nutrient solution can be supplied so that a plurality of crops can be cultivated together and the pot support member is partitioned by the partition wall so that water is supplied to one side of the pot support member and nutrient solution is supplied to the other side And can be applied to a variety of cultivation methods such as cultivation, etc. If the pot is lifted, the crop can be removed together with the soil with the roots, so that the crops can be easily replaced and cleaned, the nutrient solution and air can be continuously supplied to the crops, It is possible to increase the production amount of crops and to cultivate roots which can not be cultivated in a nutrient solution cultivation as a nutrient solution soils cultivating the nutrient solution in combination with the nutrient solution soils.

Description

TECHNICAL FIELD [0001] The present invention relates to a pollutant receiving member and a pollen internal member which are applied to a nutrient solution combined with a nutrient solution and a nutrient solution pot,

The present invention relates to a nutrient solution combined pot and a pot support member and an inner pot member to be applied to the nutrient solution soil pot.

There are two methods of cultivating crops such as vegetables and fruits: nutrient cultivation and soil cultivation. These two cultivation methods have different characteristics.

First, the nutrient solution cultivation is a method in which crops are cultivated by soaking the lower part of the crops in the nutrient solution containing the nutrients necessary for growing the crops, thereby enabling long-term cultivation of the crops and constant supply of the nutrients to the crops. On the other hand, It is impossible to cultivate. Such literature on hydroponic cultivation is the registered patent No. 10-0453572 (registered on October 11, 2004, entitled: Nutrient Solution Growth System and Nutrient Solution Growth Method Using Root Block Bag) presented below.

On the other hand, soil cultivation is a method of cultivating crops by planting roots of crops in the soil while supplying compost to the soil. After a certain period of time, the nutrients of the compost are washed away in water and the nutrients are decomposed In the early days, the crop grows well without disease, but as the time passes, the supply of nutrients deteriorates and crops can not maintain their long life. The literature on such soil cultivation is disclosed in Japanese Patent Application Laid-Open No. 10-2002-0077740 (published on Oct. 14, 2002, entitled "Method for producing agricultural soil (soil for cultivating crops)").

Conventionally, when crops are cultivated in the rainy season in the rainy season, various bacterial diseases are caused in crops due to high humidity due to a lot of rain. Therefore, in order to prevent such bacterial diseases, crops are cultivated by putting umbrella on them.

In order to prevent damages such as aphids, various moths and pests, it has been necessary to spray pesticides for eliminating such aphids, various moths, and insect pests in crops. As a result, residual pesticides of crops have been a problem.

Therefore, it is required to solve such a problem and to develop a pot for both nutrient and soil so as to have both the advantages of cultivating crops and cultivating soil.

Registered Patent No. 10-0453572, Date of Registration: October 11, 2004, Title of the invention: Nutrient Solution Growing System and Nutrient Solution Cultivation Method Using Root Block Bag Published Japanese Patent Application No. 10-2002-0077740, Publication Date: October 14, 2002. Title of the Invention: Method for producing agricultural soil (soil for cultivating crops)

It is an object of the present invention to provide a nutrient solution pot for both crop cultivation and soil cultivation, and a pot supporting member and an inner pot member to be applied to the nutrient solution soil pot.

Another object of the present invention is to provide a nutrient solution combined with a nutrient solution capable of preventing a bacterial disease due to a lot of rain, and a pot support member and an inner pot member to be applied to the nutrient solution pot.

It is still another object of the present invention to provide a nutrient solution combination pot for inhibiting the spraying of pesticides for eliminating aphids, various moths and pests, and a pot supporting member and an inner pot member applied to the nutrient solution pot.

According to an aspect of the present invention, there is provided a nutrient solution combination plant comprising: a pot body containing soil in which a crop can be planted; A roof member covering the pot body; A pollen receiving member body to which the pollen receiving body can be supported and in which a nutrient solution is accommodated and an air layer is formed in the nutrient solution accommodated therein and a nutrient solution inflow and outflow pipe for introducing the nutrient solution into the pot support member body or discharging the nutrient solution contained in the pot support member body, And a pot supporting member covering the top of the pot supporting member body and supporting a soil contained in the potting main body and forming a through hole; And a control unit for controlling the pollen receiving unit body so as to supply the nutrient solution contained in the pollen receiving unit body to the soil which is received through the through holes of the pollen receiving lid, An air communication connection pipe communicating with the air layer formed on the pollen receiving member body; and an air communicating pipe connected to the pollen receiving member body through the air communication connecting pipe, And an air communicating protruding tube protruding from the ventilation member body so as to be supplied to the soil contained in the pot supporting cap and communicating with the air communicating pipe.

The pollen support member applied to the nutrient solution-supporting pot according to one aspect of the present invention is a pollen support member in which the pollen body containing the soil to which the crop can be planted can be supported and the nutrient solution is received, Body; A nutrient solution inflow / outflow pipe for introducing the nutrient solution into the pot support member body or discharging the nutrient solution contained in the pot support member body; A pollen receiving cover which covers an upper end of the pollen receiving member body and in which the soil contained in the pollen body is supported and through holes are formed; An outside air inflow pipe extending upwardly through the pot support lid so that external air communicates with the air layer inside the pot support member body; And a partition wall that spatially divides the inside of the pollen receiving member body so that the nutrient solution contained in the pollen receiving member body is separated from each other.

The pollen internal member applied to the nutrient solution combination pot according to one aspect of the present invention comprises: a pollen internal member body installed inside the pollen to which the nutrient solution is supplied at the bottom and the crop can be planted; And at least one converging extension extending in a relatively tapered shape toward the downward direction from the pot interior member body, wherein the convergent extension has an upper portion accommodating the soil planted with the crop, and the lower portion of the converging extension portion Is contained in the nutrient solution contained in the pot.

According to one aspect of the present invention, the nutrient solution supporting pot and the potted inner member are applied to the nutrient solution-combined pot and the nutrient solution-containing pot, and the nutrient solution-containing pot includes the pot body, the roof member, the pot support member, Accordingly, even when growing crops such as the rainy season, excessive moisture supply to the crops is prevented by the roof members, so that the propagation of various germs can be suppressed, and the side net of the roof member prevents the insect access to the crops, And the roots of the crop can be applied to the soil in the pollen body and the nutrient solution in the pollen support member so that the nutrient solution can be cultivated in combination with the nutrient solution and the soil and oxygen can be smoothly supplied to the upper, Can grow smoothly, and many crops are planted in a plurality of nutrient solution pots, So that the nutrient solution can be supplied so that a plurality of crops can be cultivated together and the pot support member is partitioned by the partition wall so that water is supplied to one side of the pot support member, Can be applied to various cultivation methods such as the nutrient solution can be supplied, and if the pot is lifted, the crop can be removed together with the soil with the roots so that the crop can be easily replaced and cleaned, And it is possible to increase the production amount of crops, and it is also possible to cultivate root plants which can not be cultivated in a nutrient solution cultivation as a nutrient solution combined cultivation, There is an effect that can be cultivated.

Brief Description of the Drawings Fig. 1 is a cross-sectional view of a nutrient solution pot according to an embodiment of the present invention, viewed from above.
FIG. 2 is a perspective view of a ventilating member applied to a nutrient solution-purpose pot according to an embodiment of the present invention, viewed from above at an angle; FIG.
3 is a sectional view of a ventilation member applied to a nutrient solution pot according to an embodiment of the present invention;
FIG. 4 is a perspective view of a ventilating member coupled to a pot supporting member applied to a nutrient solution-collecting pot according to an embodiment of the present invention, viewed from above.
FIG. 5 is a perspective view of a part of a pot receiving member applied to a nutrient solution-collecting pot according to an embodiment of the present invention, viewed from above at an angle; FIG.
FIG. 6 is a perspective view of a plurality of pots combined with nutrient solution according to an embodiment of the present invention, which is obliquely viewed from above. FIG.
FIG. 7 is a cross-sectional view showing a soil mixed with a nutrient solution according to an embodiment of the present invention. FIG.
FIG. 8 is a perspective view of a pollen receiving member applied to a nutrient solution-collecting pot according to an embodiment of the present invention, viewed from an oblique view from above, before a general pollen is combined.
FIG. 9 is a perspective view showing an inner part of a flowerpot applied to a nutrient solution pot according to another embodiment of the present invention. FIG.
10 is a sectional view showing a state in which an inner pot member is installed in a nutrient solution pot according to another embodiment of the present invention;

Hereinafter, reference will be made to the nutrient solution combination pot and the pot support member and pot interior member applied to the nutrient solution soil pot according to an embodiment of the present invention with reference to the drawings.

2 is a perspective view of a ventilating member applied to a nutrient solution pot according to an embodiment of the present invention, which is obliquely viewed from above; FIG. 1 is a cross- And FIG. 3 is a cross-sectional view of a ventilating member applied to a nutrient solution-combining pot according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a ventilating member applied to a nutrient solution- FIG. 5 is a perspective view of a part of a pollen receiving member applied to a nutrient solution-collecting pot according to an embodiment of the present invention, which is obliquely seen from above, FIG. 6 is a cross- FIG. 7 is a perspective view of the sewage sludge collecting pot according to the embodiment of the present invention, FIG. 8 is a cross-sectional view showing a state in which a common flower pot is combined with a nutrient solution supporting pot according to an embodiment of the present invention, This is a perspective view.

1 to 8, the nutrient solution combining pot 100 according to the present embodiment includes a pot body 140, a roof member 150, a pot support member 120, a ventilation member 110, .

The pollen main body 140 includes a pollen main body 141 in which the soil is contained and a pollen main body flange 142 formed along the upper edge of the pollen main body 141 ).

An insertion hole is formed in the flowerpot body flange 142 and the lower end of the roof support pillars 151 of the roof member 150 to be described later is inserted into the insertion hole, 150 may be erected.

The roof member 150 covers the pollen body 140 and includes a roof supporting column 151 on which the lower end is inserted by being inserted into the insertion hole, A crop roof support (153) formed across the inside of the crop roof frame (152); a support structure (154) supported on the crop roof support (153) And a side net 155 in the form of a net extending downward from each side of the crop roof frame 152.

The crop roof frame 152 is formed in a shape and a width to cover the flowerpot body 140 and the crop roof support body 153 is formed in a shape crossing the crop roof frame 152, The roof 154 is made of transparent vinyl or the like and is fixed to the crop roof frame 152 while covering the crop roof support 153.

The transparent roof 154 prevents rainwater or the like from passing through the sunlight while preventing rainwater or the like from being excessively poured into the crop planted in the pot body 140 under the roof member 150.

The side net 155 is formed in the form of a net covering each side of the crop roof frame 152 so as to prevent the insects from approaching the crop planted in the pollen body 140, It is possible to suppress the use of pesticides for eradicating such insect pests and the like, thereby enabling cultivation of environmentally friendly crops. The side net 155 may be detachably coupled to the crop roof frame 152.

The pollen receiving member 120 can support the pollen body 140 and includes a pollen receiving member body 121, nutrient solution inflow / outflow pipes 122, 123, 125 and 126, a pollen receiving lid 127, An external air inlet pipe 128, and a partition wall 124.

The pollen receiving member body 121 is formed in the same shape as the pollen body 140, for example, in the form of a square box, and the pollen body 140 can be supported on the top thereof, An air layer is formed above the nutrient solution.

The pollen receiving lid 127 covers the upper end of the pollen receiving member body 121 to receive the soil contained in the pollen receiving body 140 and to form a through hole. The pollen receiving lid 127 can be detachably attached to the pollen receiving member body 121 As shown in FIG. The pollen receiving lid 127 may be formed in the form of a fine mesh so that air can be circulated while the soil does not fall down. The through hole is formed such that a part of the pollen receiving lid 127 in the form of such fine- And the air communication protrusion pipe supporting member 130, which will be described later, is coupled.

The outside air inflow pipe 128 extends upward through the pollen receiving lid 127 so that external air communicates with an air layer inside the pollen receiving member body 121, So that it can protrude above the soil through the soil of the soil. External air can then be exchanged with the air layer inside the pollen receiving member body 121 below the pollen receiving lid 127 through the external air inlet pipe 128.

The partition wall 124 spatially divides the inside of the pollen receiving member body 121 so that the nutrient solution contained in the pollen receiving member body 121 is separated from each other. For example, as shown in FIG. 4, the partition wall 124 divides the inside of the pollen receiving member body 121 into two spaces, and the nutrient solution contained in the spaces separates the partition wall 124 Do not mix directly.

The nutrient solution inflow / outflow pipes 122, 123, 125 and 126 infuse the nutrient solution into the pot support member body 121 or discharge the nutrient solution contained in the pot support member body 121.

Specifically, the nutrient solution inflow / outflow pipes 122, 123, 125 and 126 are connected to a first pipe (not shown) formed on one side of one side space formed by partitioning the inside of the pollen receiving member body 121 by the partition wall 124 A second pipe 123 formed on the other side of the one space formed by partitioning the interior of the pollen receiving body 121 with the partition wall 124 so as to face the first pipe 122, A third pipe 125 formed on one side of the other space defined inside the pollen receiving member body 121 by the partition wall 124 and a second pipe 125 formed on one side of the third pipe 125, And a fourth pipe 126 formed in the other side of the other space formed inside the pollen receiving member body 121 by the partition wall 124.

When the nutrient solution flows into the pollen receiving member body 121 through the first pipe 122, the nutrient solution is supplied to the crop while staying inside the pollen receiving member body 121, And the nutrient solution flows into the inside of the pot support member body 121 through the third pipe 125 so that the nutrient solution remains in the pot support member body 121, And then flows out through the fourth pipe 126.

As shown in FIG. 6, when a plurality of the nutrient solution pots 100 are connected to each other, one nutrient solution combining pot 100 (closest to the nutrient solution pump 162 on the basis of FIG. 6) Is connected to a nutrient solution main piping 160 provided with a nutrient solution pump 162 for pumping a nutrient solution in a nutrient solution reservoir 163 and the first pipeline 122 of the nutrient solution pot 100 The second pipe 123 is connected to the first pipe 122 of the neighboring nutrient solution combination pot 100 (located in the middle with respect to the bar shown in Fig. 6). The fourth pipe 126 of the one nutrient solution pot 100 is connected to the nutrient solution return main pipe 161 for returning the nutrient solution to the nutrient solution reservoir 163 and the one nutrient solution pot 100 Is connected to the fourth pipe 126 of the other nutrient solution pot 100 adjacent to the first nutrient solution.

The first pipe 122 of the other nutrient solution combined pot 100 (the most distant from the nutrient solution pump 162 on the basis of FIG. 6) is connected to the other nutrient solution pot 100 And the second piping 123 of the another nutrient solution combining pot 100 is connected to the third piping 125 of the another nutrient solution combining pot 100, And the fourth pipe 126 of the second nutrient solution pot 100 is connected to the third pipe 125 of the other nutrient solution pot 100.

The nutrient solution pumped up by the nutrient solution pump 162 in the nutrient solution reservoir 163 is partitioned by the partition wall 124 of the nutrient solution combining pot 100, Space is formed by the partition wall (124) of the another nutrient solution combining pot (100) formed by partitioning by the partition wall (124) of the other nutrient solution soil pot A first side space formed by partitioning the one nutrient solution combination pot (100) and a second side space formed by the partition wall (124) of the one nutrient solution combined pot (100) ) And the other side space formed by the partition wall (124) of the another nutrient solution combined pot (100), and then flows into the nutrient solution reservoir (163) Circulating as it enters It is.

Of course, the three nutrient solution pots 100 are connected by the piping connection method as described above, and may be connected to various other numbers.

The ventilation member 110 includes a ventilation member body 111, an air communication connection pipe 113, and an air communication protrusion pipe 112.

The ventilation member body 111 houses the soil descended below the pot support lid 127 through the through hole of the pot support lid 127 and is placed in the soil below the pot support lid 127, Is contained in the nutrient solution contained in the pot support member body (121) so that the nutrient solution contained in the member body (121) can be supplied.

The vent member body 111 is formed in the shape of a circular cylinder with its lower end closed and a plurality of holes 114 are formed as a whole so that the nutrient solution and the air in the pot support member body 121 pass through the holes 114, Can be introduced into the soil in the ventilation member body (111).

The air communicating connection pipe (113) communicates with the air layer formed on the pollen receiving member body (121). One side of the air communication connecting pipe 113 communicates with the inside of the pollen receiving member body 121 through the air communicating member body 111 and the other side of the air communication connecting pipe 113 communicates with the air communicating / Communicates with the inside of the air communication protruding pipe (112).

The air communicating protruding pipe 112 is connected to the air communicating pipe 113 so that the air of the air layer formed in the pollen receiving member body 121 flows through the air communicating pipe 113 and is supplied to the soil contained in the pollen body 140 Protrudes from the ventilation member body 111 and extends to the air above the pot support lid 127 and communicates with the air communication connection pipe 113.

A plurality of holes 114 are formed in the air communication connection pipe 113 so that the air is introduced through the air communication connection pipe 113 through the holes 114 and then raised through the air communication connection pipe 113 Air can be fed into the soil.

The air communication connecting pipe 113 protrudes from the bottom surface of the ventilation member body 111 at a predetermined height and the protrusion height of the air communication connecting pipe 113 passes through the pot support cap 127, And is formed at a height that can be inserted into the soil inside the pot body 140.

The nutrient solution pot (100) further includes an air communicating projecting tube supporting member (130).

The air communicating protrusion pipe supporting member 130 includes a support member body 131 formed along an edge of the through hole of the pot support lid 127 and a support member body 131 extending from the support member body 131 to the support member body 131, An air communicating protrusion tube support body 132 which is formed at a distal end of the support extension body 133 and is supported while the air communication protrusion tube 112 passes through the inner hole 134, And the soil in the pot body 140 may descend through the space 135 between the support member body 131 and the air communication protrusion tube support 132 into the ventilation member body 111 And the air communication protrusion tube 112 is supported by the air communication protrusion tube support body 132.

For example, the support member body 131 is formed in the shape of a circular ring, and the air communication protrusion tube support 132 is formed in a circular ring shape having a relatively small diameter as compared with the support member body 131, The support extension 133 connects the support member body 131 and the air communication protrusion tube support 132. A plurality of the support extensions 133 may be formed at positions spaced apart from each other.

The soil inside the pollen body 140 can be partly lowered into the interior of the ventilation member body 111 between the support member body 131 and the air communication protrusion tube support 132.

On the other hand, the nutrient solution-combining pot 100 is a bulging portion of the hearth, and is installed in the bank 10 where crops can be planted. Reference numeral 11 denotes a trough which is a concave portion between the troughs 10.

7, the roof member 150 and the upper part of the pollen body 140 are exposed above the ridge 10, and the lower part of the pollen body 140 and the pollen receiving unit 120 Are embedded in the soil 10, and a plurality of nutrient solution pots 100 are connected to each other as shown in FIG. 6, so that the nutrient solution can be circulated.

8, the pollen receiving unit 120 and the pneumatic communication protruding pipe support member 130 are connected to each other using only the pollen receiving member 120 and the air communication protruding pipe support member 130, May be placed on the tube support member (130).

At this time, a nutrient solution absorber 60 such as a nonwoven fabric formed in the form of a long bar is erected by the air communicating projecting tube supporting member 130, and the lower part of the nutrient solution absorber 60 is located inside the pot support member 120 And the upper part of the nutrient solution absorption body 60 is inserted into the general pot 50 through the lower part of the general pot 50. [ Then, the nutrient solution in the pot support member 120 can be supplied into the general pot 50 through the nutrient solution absorption body 60. Therefore, the composition of the nutrient solution combining pot 100 can be applied to the general pot 50. [

Meanwhile, the pollen supporting member 120 applied to the nutrient solution combination pot 100 according to the present embodiment can support the pollen main body 140 containing the soil to which the crop can be planted, And a nutrient solution supply pipe 122, 123, and 123 for discharging the nutrient solution contained in the pot support member body 121, respectively, A pollen receiving lid 127 covering the upper end of the pollen receiving member body 121 to receive the soil contained in the pollen receiving body 140 and having a through hole formed therein, An outside air inflow pipe 128 extending upward from the outside of the inside of the pollen receiving member body 121 to allow external air to communicate with an air layer inside the pollen receiving member body 121,The nutrient solution contained in the needle body member 121 includes a partition wall 124 such that each segment.

As described above, since the nutrient solution combining pot 100 includes the potting main body 140, the roofing member 150, the pot support member 120, and the ventilation member 110, even when growing crops such as rainy season, It is possible to prevent the supply of excessive moisture to the crop due to the member 150 and to suppress the propagation of various germs and to prevent the pest access to the crop by the side net 155 of the roof member 150, Since the roots of the crop can be applied to the soil in the pollen main body 140 and the nutrient solution in the pollen supporting member 120, it is possible to cultivate both the nutrient solution and the soil, and oxygen can be supplied to the upper, So that the crops can smoothly grow well. A large number of crops are planted in a plurality of nutrient solution pots 100, and the plurality of nutrient solution pots 100 are connected to each other, It can be A plurality of crops can be cultivated together and the pot support member 120 is partitioned by the partition wall 124 so that water is supplied to one side of the pot support member 120 and nutrient solution is supplied to the other side And it is possible to apply various cultivation methods such as cultivation method and so on. When the flask supporting lid 127 is lifted only, the crop can be removed together with the soil with the roots so that the crops can be easily replaced and cleaned. And it is possible to prevent the excessive nutrient solution from being supplied unnecessarily to the soil, so that the yield of the crop can be increased and the cultivation of the root plant, which is not cultivated in the nutrient solution cultivation, It is possible to cultivate it.

Hereinafter, reference will be made to the nutrient solution combination pot according to another embodiment of the present invention and the pot support member and pot interior member applied to the nutrient solution soil pot. In carrying out the above description, the description overlapping with the embodiment of the present invention described above will be omitted and omitted here.

FIG. 9 is a perspective view showing an inner part of a pot according to another embodiment of the present invention, and FIG. 10 is a perspective view showing a pot inner member installed in a nutrient solution pot according to another embodiment of the present invention. Sectional view.

Referring to FIGS. 9 and 10 together, in this embodiment, the pollen internal member 270 is installed in the nutrient solution-combining pot 200.

The above-described roof member may be installed in the nutrient solution-combining pot 200. As one of the roof members, a roof supporting column 251, a transparent roof 254, a side net 255 and the like are shown in FIG.

The pollen inner member 270 is disposed inside a pollen pot, in particular, inside the pollen receiving member body 221 in which the nutrient solution is supplied to the bottom and the crop can be planted, so that the soil is raised on the plant so that the crop can be directly planted The lower part is contained in the nutrient solution.

At the bottom of the pollen receiving member body 221, a nutrient solution is contained, and an air layer is formed in the nutrient solution.

Here, the pollen receiving member body 221 may be shown as being integrated with the pollen body (reference numeral 140 in the first embodiment described above) in which the soil is contained, which is an example, The pollen receiving member body and the pollen body may be applied as they are.

Nitrogen liquid inflow / outflow pipes 222 and 223 are formed in the pollen receiving member body 221 so that the nutrient solution can be supplied from the outside and then flow out to the outside. Specifically, the nutrient solution inflow / outflow pipes 222 and 223 include a first pipe 222 formed on one side of the pollen receiving member body 221 and a second pipe 222 formed on one side of the pollen receiving member body 221 And a second pipe 223 formed on the other side of the second pipe 221.

Reference numeral 228 denotes an air passage overhole formed in the pollen receiving member body 221 so as to allow the air layer in the pollen receiving member body 221 to communicate with outside air.

The pollen inner member 270 includes a pollen inner member body 271 installed inside the pollen inner part body 271 and at least one converging extension part 273 extending in a relatively narrowed shape from the pollen inner member body 271 toward the downward direction, And a lower portion of the convergent extension portion 272 is connected to the nutrient solution accommodated in the pot support member body 221. The convergent extension portion 272 is formed on the upper portion of the convergent extension portion 272, .

The upper part of the pollen inner member body 271 is opened and the converging extension part 272 is formed in a shape that becomes relatively narrower from the open upper end of the pollen inner member body 271 toward the lower part thereof, A plurality of converging extensions 272 are formed side by side, and upper ends of the respective converging extensions 272 adjacent to each other are connected to each other. A plurality of converging extensions 272 are formed in the pot interior member body 271 so that the converging extensions 272 are tapered toward the lower part of the pot interior member body 271. Accordingly, The lower portion of each converging extension portion 272 is contained in the nutrient solution at the bottom of the pot support member body 221 and the nutrient solution is introduced into the soil receiving hole 273, Lt; / RTI >

Reference numeral 274 denotes a plurality of through holes formed through the pollen inner member body 271 and the convergent extension portion 272 so as to penetrate the air inside the pollen receiving member body 221 through the through holes 274 The nutrient solution can be introduced into the convergent extension part 272.

Reference numeral 275 denotes a dividing wall receiving recess formed in the central bottom portion of the pot interior member body 271 so as to be depressed upwardly and a reference numeral 220a denotes an inside of the pot support receiving member body 221, ) Are not mixed with each other. When the pot interior member 270 is inserted into the pot support member body 221, the partition wall 220a is accommodated in the partition wall receiving groove 275.

As described above, as the pot interior member 270 includes the pot interior member body 271 and the convergent extension portion 272, the soil on which the crop is planted is placed on the convergent extension portion 272 The lower part of the convergent extension part 272 can be accommodated in the nutrient solution contained in the pot support body 221 and the lower part of the convergent extension part 272, which is narrowed toward the lower part, Excess nutrient solution can be prevented from being contained in the nutrient solution and air can be supplied to the convergent extension portion 272 through the middle portion and the upper portion of the convergent extension portion 272 which is relatively wider than the lower portion of the convergent extension portion 272, 272). ≪ / RTI >

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the following claims And can be changed. However, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

According to one aspect of the present invention, the potting support member and the pollen internal member applied to the nutrient solution combination pot and the nutrient solution combination pot can be combined with crop cultivation and soil cultivation, and bacterial diseases due to a large proportion can be prevented , Aphids, various moths, pests and the like can be suppressed, so that the use thereof is high in the industry.

110: ventilation member 120: pot support member
140: pot body 150: roof member

Claims (5)

A pot body containing the soil to which the crop can be planted;
A roof member covering the pot body;
A pollen receiving member body in which the pollen main body can be supported and the nutrient solution is received and an air layer is formed in the nutrient solution contained therein,
A nutrient solution inflow / outflow pipe for introducing the nutrient solution into the pot support member body or discharging the nutrient solution contained in the pot support member body,
A pollen receiving member including a pollen receiving lid which covers an upper end of the pollen receiving member body and in which the soil contained in the pollen receiving body is supported and through holes are formed;
The pollen receiving lid is received in the body of the pollen receiving member so that the soil falling down under the pollen receiving lid is received through the through holes of the pollen receiving lid and the nutrient solution contained in the pollen receiving member body is supplied to the soil descending beneath the pollen receiving lid In the nutrient solution, the vent member body,
An air communication connection pipe communicating with an air layer formed on the pollen receiving member body,
Wherein the air in the air layer formed in the pollen receiving member body protrudes from the ventilation member body so as to be introduced into the pollen receiving lid through the air communication connecting pipe and to be supplied to the soil contained in the pollen main body, A vent member including an air communication protrusion tube communicated with the connector; And
A support member body formed along an edge of the through hole of the pot support lid, a support extension body extending from the support member body to the inside of the support member body, and an air communicating protrusion tube formed at a distal end of the support extension body, The air communicating protrusion tube support being supported while being supported by the air communicating protrusion tube support, and the soil in the pollen body can be lowered into the air communicating member body through a space between the supporting member body and the air communicating protrusion tube support, And the air communicating protrusion tube is supported by the air communicating protrusion tube supporting member. delete The method according to claim 1,
The pollen receiving member
An outside air inflow pipe extending upward from the inside of the flowerpot supporting lid so that external air communicates with an air layer inside the flowerpot supporting member body;
And a partition wall for partitioning the inside of the pot support member body so that the nutrient solution contained in the pot support member body is separated from each other. delete delete

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