KR20170036369A - Fermentation unit for flowerpot and fermentation long life flowerpot comprising thereof - Google Patents

Abstract

A fermentation longevity flowerpot comprising a potting fermentation unit and the potting fermentation unit is disclosed.
The disclosed potting fermentation unit includes a fermentation chamber member that can be detachably inserted into a pot and provides a space in which food waste can be received and fermented; And a lid member covering the fermentation chamber member, wherein the food waste contained in the fermentation chamber is fermented to supply nutrients to crops planted in the pots.
According to the fermentation longevity pollen unit including the potting fermentation unit and the potting fermentation unit, since the potting fermentation unit includes the fermentation chamber member and the lid member, the food waste continuously fed to the fermentation chamber member is fermented, It is possible to continuously supply the nutrients to the planted crops. Therefore, it is possible to continuously supply nutrients to the pots without the use of the potting soil.

Description

[0001] The present invention relates to a fermentation unit for a flowerpot and a fermentation long life flowerpot comprising a potting unit and a potting unit,

The present invention relates to a fermentation longevity flower pot including a potting fermenting unit and the potting fermentation unit.

It is difficult to cultivate fruit trees or perennial plants unless they change the soil of the pots to supply nutrients such as organic matter in the conventional general pots, and it is difficult to cultivate the pots Work also had a cumbersome disadvantage.

Examples of such conventional pots are the following patent documents.

In particular, there has been a demand for pollen that can be used for flowerpots and perennial plant cultivation by using pollen without the use of potting soil in the domestic space where the potting space can be limited to the veranda space.

Public Utility Model No. 20-2011-0002377, Disclosure Date: Mar. 3, 2011. Title of Design: Flowerpot with decorative pot and water tray integrated in pot Registration No. 10-1046650, Date of Registration: June 29, 2011. Title of the invention: a planting pot for vegetable planting, a retaining wall provided with pots, and a method for constructing a retaining wall

It is an object of the present invention to provide a potting fermenting unit capable of continuously supplying nutrients to pots without the use of potting soil, and a fermenting pot flowerpot comprising the potting fermenting unit.

According to one aspect of the present invention, there is provided a potting fermentation unit comprising: a fermentation chamber member detachably insertable into pots, the fermentation chamber member providing a space in which food waste can be received and fermented; And a lid member covering the fermentation chamber member,

And the food waste contained in the fermentation chamber is fermented to supply nutrients to crops planted in the pots.

The fermentation longevity flower pot including the potting fermenting unit according to one aspect of the present invention includes a pot body containing soil in which a crop can be planted; A pollen receiving member which can support the pollen body and receives the nutrient solution and has an air layer formed in the nutrient solution contained therein; A partition member disposed between the pot body and the pot support member such that the pot body and the pot support member are partitioned to support the soil in the pot body and having a plurality of through holes; And the lower portion of the nutrient solution in the pot support member extends to a certain depth from the partition member toward the pot support member, and the lower portion of the nutrient solution in the pot support member is inserted into the through- A ventilated nutrient supply member in which the soil descending beneath the partition member through the hole is received; The air in the air layer in the pollen receiving unit is supplied into the soil in the pollen main body while being communicated with other through holes of the plurality of through holes formed in the partition member so as to extend to a certain height from the partition member toward the pollen main body A ventilation member for allowing the ventilation member; And a potting fermenting unit including a fermentation chamber member which is detachably insertable on the potting main body and provides a space in which food garbage is received and fermented, and a lid member covering the fermentation chamber member,

And the food waste contained in the fermentation chamber is fermented to supply nutrients to crops planted in the pots.

According to the fermentation longevity pollen pot including the potting fermenting unit and the potting fermenting unit according to one aspect of the present invention, since the potting fermenting unit includes the fermentation chamber member and the lid member, the food garbage It is possible to continuously supply the nutrients to the plants planted in the pots, so that the nutrients can be supplied to the pots continuously without the operation of the pots.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view schematically showing a potted fermentation pot including a potting fermentation unit according to an embodiment of the present invention; FIG.
FIG. 2 is a perspective view showing a state in which a potting fermenting unit according to an embodiment of the present invention is combined. FIG.
FIG. 3 is a perspective view showing a pollen unit for pollen according to an embodiment of the present invention separated. FIG.
FIG. 4 is a perspective view showing an air layer forming member constituting a potting fermentation unit according to an embodiment of the present invention; FIG.
FIG. 5 is a perspective view showing a blanched powder member constituting a potting fermentation unit according to another embodiment of the present invention. FIG.

Hereinafter, a fermented pot flower pot including the potting fermenting unit and the potting fermenting unit according to the embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a cross-sectional view schematically showing a fermentation longevity pollen pot including a potting fermenting unit according to an embodiment of the present invention. FIG. 2 is a perspective view showing a potting fermenting unit according to an embodiment of the present invention, FIG. 3 is a perspective view showing a pollen unit for pollen according to an embodiment of the present invention separated, FIG. 4 is a perspective view showing an air layer forming member constituting a pollen unit for pollen according to an embodiment of the present invention, to be.

1 to 4 together, the potting fermenting unit 170 according to the present embodiment includes a fermentation chamber member 180 and a lid member 171.

The fermentation longevity pollen 100 according to the present embodiment includes the pollen main body 110, the pollen receiving member 130, the partition member 120, the ventilated nutrient solution supply member 150, the vent member 140, And the potting unit 170 for potting.

The fermentation chamber member 180 is detachably inserted into the pot body 110 and provides a space in which food waste can be received and fermented.

The lid member 171 covers the fermentation chamber member 180.

The pollen main body 110 includes a body of a pollen main body 110 in which soil is contained and a pollen main body flange 111 formed along an upper edge of the main body of the pollen main body 110 ).

The pollen receiving member 130 can support the pollen body 110 and the nutrient solution is received therein and an air layer is formed in the nutrient solution contained therein.

That is, the pollen receiving member 130 is formed with a nutrient solution and an air layer, and the pollen main body 110 is placed on the pollen receiving member 130.

Reference numeral 131 denotes a supply pipe through which the nutrient solution or moisture can be supplied from outside to the pot support member 130.

Reference numeral 132 is formed to extend outwardly of the pollen receiving member 130 so as to communicate with the inside of the pollen receiving member 130 and is made of a transparent material, So that the user can easily perceive the water level.

The upper portion of the level observing member 132 is opened and the operator may arbitrarily supply the nutrient solution or moisture from the outside through the level observing member 132.

The partition member 120 is disposed between the pot body 110 and the pot support member 130 such that the pot body 110 and the pot support member 130 are partitioned, The soil is supported, and a plurality of through holes are formed.

The partition member 120 is formed so that the soil contained in the pot body 110 is supported and the plurality of through holes are spaced apart from each other by covering the upper end of the pot support member 130.

The partition member 120 may be formed in the form of a fine mesh so that air can be circulated without falling down. The through-hole is formed such that a part of the partition member 120 having such a fine mesh shape penetrates .

The ventilated nutrient solution supply member 150 extends from the partitioning member 120 to a certain depth toward the pollen receiving member 130 while communicating with a part of the plurality of through holes formed in the partitioning member 120, The bottom portion of the nutrient solution in the pot support member 130 contains the lower portion thereof and the soil that has descended through the partition member 120 through the through hole is received therein.

A plurality of communication holes 151 may be formed in the vented nutrient solution supply member 150 so that the soil in the vented nutrient solution supply member 150 and the air in the air layer can be vented to each other through the communication hole 151 Of course, the nutrient solution can also be supplied to the soil in the aeration nutrient supply member 150.

The ventilation member 140 is extended from the partitioning member 120 toward the flowerpot body 110 at a predetermined height while communicating with other through holes among the plurality of through holes formed in the partitioning member 120, So that the air in the air layer in the member 130 can be supplied into the soil in the pot body 110.

A plurality of communication holes 141 are formed in the ventilation member 140 so that the air in the air support layer 130 in the pot support member 130 flows through the ventilation member 140, (110). ≪ / RTI >

A plurality of the ventilation members 140 are formed on the partition member 120 so as to extend upward from the partition member 120 and protrude into the soil inside the pot body 110 And a plurality of the ventilated nutrient solution supply members 150 are formed on the basis of the partition member 120 so that the ventilated nutrient solution supply members 150 are formed in the lower part of the partition member 120, So that the air and the nutrient solution in the inside of the pollen receiving unit 130 are communicated with each other.

The aeration member 140 and the aeration nourishment solution supply member 150 may be integrally formed with the partition member 120.

In this embodiment, the fermentation chamber member 180 includes a plurality of divided fermentation bodies 181 and 182, fermentation body flanges 183 and 184, and air channel formation protrusions 185 and 186.

The plurality of divided fermented products 181 and 182 are separated from each other and can independently receive food waste. The separated fermented products 181 and 182 can be inserted into the upper part of the flowerpot body 110 in a state where they are in contact with each other, The divided fermented products 181 and 182 of the divided fermented products 181 and 182 can be independently attached and detached without affecting the other divided fermented products 181 and 182.

The lid member 171 is also constituted by divided lid members 172 and 173 capable of independently covering the respective divided fermented products 181 and 182. The lid members 171 and 172 are provided with through- A hole 174 is formed so that the crop planted in the fermentation chamber member 180 can be penetrated.

The fermentation body flanges 183 and 184 extend outward along the upper outer edges of the divided fermentation bodies 181 and 182 so that the divided fermentation bodies 181 and 182 are caught by the pollen. In detail, each of the fermentation body flanges 183 and 184 is caught on the plant body flange 111.

The air flow path forming protrusions 185 and 186 protrude outward from the outer surfaces of the divided fermentation bodies 181 and 182 and are arranged between the inner surface of the pot body 110 and the outer surfaces of the divided fermentation bodies 181 and 182 Thereby forming a flow hole of air.

As the air flow path forming protrusions 185 and 186 are formed, external air flows along the space between the pot body 110 and each of the divided fermentation bodies 181 and 182, and the soil in the pot body 110 As shown in FIG.

Each of the divided fermentation bodies 181 and 182 is formed with a curved surface having a predetermined curvature at a portion where the fermented bodies 181 and 182 come into contact with each other. When the divided fermentation bodies 181 and 182 are brought into contact with each other, A fire extinguisher storage hole 188 is formed at the center of the fire extinguisher storage space. The digestion-containing holes 188 are preferably circular.

The potting fermentation unit 170 includes a digestion member 190 detachably received in the digestion-containing holes 188 and capable of planting crops.

The fire extinguisher member 190 is detachably inserted into the fire extinguisher storage hole 188 and the soil 20 is accommodated in the interior 193 so that the crop 20 can be planted.

The fire extinguisher 190 may be separated into a plurality of fire extinguishers 190 by assembling the fire extinguisher 190 in a state where the plurality of pieces 191 and 192 are aligned. If the digested material 190 is small enough not to be suitable for crops, the digested material 190 can be easily removed by separating the digested material 190 into a plurality of digested fragments 190 .

A flange is formed on the lower part of the extinguishing powder 190 so that the extinguishing powder 190 can be stably lifted onto the soil contained in the pot body 110.

According to the above configuration, the food waste contained in the fermentation chamber member 180 is fermented to supply nutrients to the crops planted in the pots.

The plurality of air flow holes 187 may be formed on the outer surface and the bottom surface of the fermentation chamber member 180, The air flow inside and outside the fermentation chamber member 180 can be freely made through the air flow hole 187 and the moisture supplied through the soil contained in the pot body 110 from the nutrient solution contained in the pot support member 130 As a result, the fermentation chamber member 180 can be smoothly fermented within the fermentation chamber member 180.

As described above, since the potting fermentation unit 170 includes the fermentation chamber member 180 and the lid member 171, the food waste continuously supplied to the fermentation chamber member 180 is fermented, It is possible to continuously supply the nutrients to the pots without the use of potting soil.

The fermentation longevity pollen 100 is formed to protrude from the bottom of the pollen receiving member 130 to the height of the air layer of the pollen receiving member 130, And a ventilation overflow member (160) for communicating outside air of the pollen receiving member (130).

The ventilation overflow member 160 may be integrally formed with the pot support member 130 in a raised center portion of the bottom surface of the pot support member 130, Thereby forming an opening hole 161. As shown in Fig.

The height of the ventilation overflow member 160 is set to a height corresponding to a preset appropriate level of the nutrient solution contained in the pot support member 130. The open hole 161 does not come in contact with the nutrient solution and the air layer in the pot support member 130 through the open hole 161 is in contact with the outside air And when the level of the nutrient solution received in the pot support member 130 exceeds the preset appropriate level, the air can be passed through the opening hole 161 of the ventilation overflow member 160, A part of the nutrient solution can overflow, so that the nutrient solution level in the pot support member 130 can be maintained at a proper amount.

The fermented longevity pollen 100 according to the present embodiment further includes an air layer forming member 101 disposed in the soil within the pollen body 110 and forming an air layer inside the pollen body 110 .

The air layer forming member 101 includes a lower plate 104 formed in the form of a plate having a predetermined area and an upper plate 103 formed in a plate shape having a predetermined area over the lower plate 104, A support 105 for connecting the upper plate 103 and the lower plate 104 while forming a space for forming an air layer between the lower plate 104 and the upper plate 103, And a root through hole 107 formed through the upper plate 103 and through which the roots of the crop planted in the pot body 110 can pass.

The support 105 is installed in a columnar shape between the upper plate 103 and the lower plate 104 so that air can flow between the upper plate 103 and the lower plate 104.

Reference numeral 108 denotes an air flow hole formed in the upper plate 103 and / or the lower plate 104.

Since the air layer can be formed by the air layer forming member 101 in the soil inside the pot body 110 when the fermented long pot flower 100 is formed as described above, , The soil is hardened and the supply of oxygen to the root of the crop becomes insufficient, so that the crop can be prevented from being damaged or dying.

Hereinafter, a fermented pot flower pot including the potting fermenting unit and the potting fermenting unit according to another embodiment of the present invention will be described with reference to the drawings. In carrying out the above description, the description overlapping with the content already described in the embodiment of the present invention described above will be omitted here.

FIG. 5 is a perspective view showing a blanched powder component constituting a potting fermenting unit according to another embodiment of the present invention. FIG.

Referring to Fig. 5, in this embodiment, the digestion element 290 includes digestive bodies 291 and 292 and digestive fractions extension 294 and 295.

The digestive bodies 291 and 292 can be accommodated in digestive-matter-containing holes and provide a space in which crops can be planted.

The digestion lower extension 294 and 295 may extend from the bottom of the digestive body 291 and 292 and may be positioned below the divided fermentation bodies. The digestion lower extension 294 and 295 support the respective divided fermentation bodies and flow out from the respective divided fermentation bodies through the inlet holes 296 formed in the upper surface of the digestion lower extension 294 and 295 So that the fermentation liquid can be introduced.

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 the fermentation longevity pollen pot including the potting fermenting unit and the potting fermenting unit according to an aspect of the present invention, it is possible to continuously supply nutrients to the pollen without the operation of the potting soil, so that the potential for industrial use is high .

100: fermented longevity pollen 110: pollen body
120: partition member 130: pot support member
140: ventilation member 150: ventilated nutrient solution supply member
170: potted fermentation unit 171: lid member
180: no fermentation chamber

Claims (5)

A fermentation chamber member that can be detachably inserted into the pot and provides a space in which food waste can be received and fermented; And
And a lid member covering the fermentation chamber member,
Wherein the food waste contained in the fermentation chamber member is fermented to supply nutrients to crops planted in the pots. The method according to claim 1,
Wherein the fermentation chamber member comprises a plurality of divided fermentation bodies separated from each other and capable of independently receiving food wastes,
A fermentation body flange extending outward along an upper outer periphery of each of the divided fermentation bodies to allow the respective divided fermentation bodies to be caught by the pollen,
And an air flow passage protrusion protruding outward from an outer surface of each of the divided fermentation bodies to form air flow holes between the pots and the divided fermentations,
When the divided fermented bodies are brought into contact with each other, digestive-matter-containing holes are formed at the center of each of the divided fermented bodies,
The potting fermentation unit
And a fire extinguishing agent detachably received in the fire extinguisher receiving hole,
Wherein the digestive component is separated into a plurality of digestive components. 3. The method of claim 2,
The digestion element
A digestive body capable of being accommodated in the digestive-matter-containing hole and providing a space in which a crop can be planted,
And a lower extruding part extending from a lower portion of the digestive body to be positioned below the respective divided fermenting bodies. A pot body containing the soil to which the crop can be planted;
A pollen receiving member which can support the pollen body and receives the nutrient solution and has an air layer formed in the nutrient solution contained therein;
A partition member disposed between the pot body and the pot support member such that the pot body and the pot support member are partitioned to support the soil in the pot body and having a plurality of through holes;
And the lower portion of the nutrient solution in the pot support member extends to a certain depth from the partition member toward the pot support member, and the lower portion of the nutrient solution in the pot support member is inserted into the through- A ventilated nutrient supply member in which the soil descending beneath the partition member through the hole is received;
The air in the air layer in the pollen receiving unit is supplied into the soil in the pollen main body while being communicated with other through holes of the plurality of through holes formed in the partition member and extending from the partition member to a predetermined height toward the pollen main body A ventilation member for allowing the ventilation member; And
A pollen unit for potting comprising a fermentation chamber member detachably inserted into an upper portion of the pollen body and providing a space in which food waste can be received and fermented, and a lid member covering the fermentation chamber member,
Wherein the food waste contained in the fermentation chamber is fermented to supply nutrients to crops planted in the pots. 5. The method of claim 4,
The fermentation longevity flower pot
And an air layer forming member disposed in the soil in the pot body to form an air layer inside the soil in the pot body,
The air layer forming member
A lower plate formed in a plate shape having a predetermined area,
An upper plate formed in the form of a plate having a predetermined area over the lower plate so as to be spaced apart from the lower plate by a predetermined distance,
A support for connecting the upper plate and the lower plate while forming a space for forming an air layer between the lower plate and the upper plate;
And a root through-hole formed through the lower plate and the upper plate, respectively, through which the roots of the crop planted in the pot body can pass.

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