KR102444504B1 - Indoor plant cultivation device using fog phonics method - Google Patents

Abstract

The present invention relates to an indoor plant cultivation device using a fog phonics method. Since the disclosed indoor plant cultivation device using the fog phonics method comprises a main body member, a shelf member, a mist supply member and a light source irradiation member, the indoor plant cultivation device can purify indoor air, as well as suppress the growth of bacteria generated from stored water, and as mist directly supplied to the roots of plants planted in a plant pot placed on the shelf member increases an absorption rate of nutrients, the growth of the plant planted in the plant pot can be promoted.

Description

Indoor plant cultivation device using fog phonics method

The present invention relates to an indoor plant cultivation apparatus using a fog phonics method.

Indoor plant cultivation equipment is installed to grow plants in indoor spaces such as companies, homes, and restaurants. It can be cultivated, and a plurality of plants can be grown together on a shelf member in which a plurality of plants are formed in the vertical direction.

In addition, recently, as air pollution due to fine dust has become serious, air purifiers are being used a lot. As the awareness of purifying air naturally in addition to mechanical air purification is growing, the population who grows plants indoors is increasing. As it is continuously increasing, research on the indoor plant cultivation device is also increasing.

What can be presented as an example of such an indoor plant cultivation apparatus are those of the patent documents presented below.

However, according to the patent documents presented below including the conventional indoor plant cultivation apparatus, in order to grow plants indoors, a hydroponics method, that is, after moving water in a water tank to the place of the plant using a pipe, the A method of directly supplying plants is applied, and in order to apply this hydroponics method, because water is always stored in the water tank, bacteria are propagated in the water, and the water is contaminated by such bacterial propagation, so that the growth of plants is rather There is a problem of creating discomfort to users of the indoor space due to the influence of this or the insects and odors generated from the polluted water.

In order to solve this problem, water needs to be replaced frequently. Even in the same indoor space, the indoor environment constantly changes, such as wet and dry, and the water replacement cycle becomes inconsistent. There was a difficult discomfort.

Registered Patent No. 10-1415842, Registration Date: Jun. 30, 2014, Title of Invention: Indoor Plant Cultivation Device Registered Patent No. 10-2029226, Registration Date: 2019.09.30, Title of Invention: Water Purification Device Using Indoor Hydroponic Cultivation System

The present invention can purify indoor air using indoor plants, and fog phonics that sprays the mist to the plants after forming a mist using the water without directly supplying water to the plants An object of the present invention is to provide an indoor plant cultivation apparatus using the method.

An indoor plant cultivation apparatus using a fog phonics method according to an aspect of the present invention is installed indoors to grow plants, comprising: a body member constituting an outer frame; a shelf member in which a plurality of pieces are formed to be vertically spaced apart from the front surface of the body member, and a plant pot in which soil and plants for planting are accommodated; a mist supply member installed in the inner space of the body member, forming a mist using water, and then supplying the mist to the plant in the plant pot placed on the shelf member; and a light source irradiating member installed on the upper part of the body member and irradiating a light source toward the plant placed on the shelf member, wherein the mist supply member is installed at the lower inner side of the body member, and water therein The stored water tank; a mist generator installed inside the water tank to generate the mist using the water stored in the water tank; A mist flow pipe formed to be elongated by a predetermined length to flow the mist generated by the mist generator to the upper portion of the main body member, and disposed perpendicular to the mist flow pipe in the upper air inside the body member, and communicated with the mist flow pipe A mist supply pipe through which the mist flowed through the mist flow pipe is supplied to the plant, and a mist formed through the mist supply pipe toward the front of the body member and spraying the mist inside the mist supply pipe to the outside of the mist supply pipe a spray hole and a boost fan installed in the mist flow pipe and relatively increasing the flow rate of the mist flowing through the mist flow pipe, wherein the mist supply pipe has a plurality of mist jets along the longitudinal direction of the mist supply pipe The holes are formed to be spaced apart, the diameters of the plurality of mist injection holes are gradually formed to be larger as the distance from the mist flow pipe is increased, and each shelf member includes a shelf body formed in a flat plate shape with a predetermined area, and the plant pot is inserted A port insertion hole formed through the shelf body so as to protrude a predetermined length from the edge of the port insertion hole of the shelf body to cross the port insertion hole, and when the plant pot is inserted into the port insertion hole, the It includes a support protrusion for supporting the lower part of the plant pot, and when the plant pot is inserted into the port insertion hole, the support protrusion is inclined downward at a predetermined angle by the weight of the plant pot to support the plant pot, thereafter The plant pot can be prevented from being arbitrarily separated from the port insertion hole by the outer part of the plant pot spanning the inner surface of the port insertion hole, and each shelf member is formed on the support protrusion, and the support protrusion It further comprises a pot-side mist supply unit for supplying the mist to the inside of the plant pot placed on the, wherein the port-side mist supply unit is formed on a surface opposite to the surface on which the plant pot is placed among the support protrusions, and the upper part of the A mist receptor for accommodating the mist sprayed from the mist spray hole by being opened, a mist receiving groove serving as an internal space of the mist receptor, and communicating with the mist receiving groove as an internal space of the mist receptor, the mist A mist collecting groove which is located closer to the support protrusion compared to the receiving groove, and formed in a relatively narrow shape compared to the mist receiving groove so that the mist accommodated in the mist receiving groove gathers together, and the plant among the support protrusions A port insertion protrusion that protrudes from the surface on which the pot is placed, and a port insertion protrusion that is inserted into the interior of the plant pot through the lower portion of the plant pot when the plant pot is placed on the support protrusion, and is formed at the end of the port insertion protrusion and the port insertion A cutting means for cutting a lower part of the plant pot so that the protrusion is inserted into the plant pot, and the support protrusion and the port insertion protrusion are formed through and communicate with the mist collecting groove, and in the mist collecting groove and a port-side mist supply hole through which the collected mist is supplied to the inside of the plant pot, and when the plant pot is placed on the support protrusion, the lower part of the plant pot is cut by the cutting means while the The mist injection in a state in which the port insertion protrusion is inserted into the soil inside the plant pot, and the port insertion protrusion is inserted into the soil inside the plant pot, the plant pot resting on the support protrusion The mist is blown from the hall When dead, the mist sprayed from the mist spraying hole falls and collects in the mist collecting groove after being accommodated in the mist receiving groove, and the mist collected in the mist collecting groove is the pot-side mist supply hole through the plant pot It is characterized in that it can flow to the root of the plant and the soil accommodated in the interior of the.

According to the indoor plant cultivation apparatus using the fog phonics method according to an aspect of the present invention, the indoor plant cultivation apparatus using the fog phonics method includes a body member, a shelf member, a mist supply member, and a light source irradiation member Accordingly, it is possible to purify the indoor air, as well as suppress the growth of bacteria generated in the stored water, and the mist is directly supplied to the roots of plants planted in the plant pot placed on the shelf member, thereby increasing the absorption rate of nutrients. , there is an effect that can promote the growth of the plant planted in the plant pot.

1 is a perspective view showing an indoor plant cultivation apparatus using a fog phonics method according to a first embodiment of the present invention;
Figure 2 is a vertical cross-sectional view of the indoor plant cultivation apparatus using the fog phonics method according to the first embodiment of the present invention.
3 is a view showing the state of the mist supply member constituting the indoor plant cultivation apparatus using the fog phonics method according to the first embodiment of the present invention.
Figure 4 is an enlarged view of part A of Figure 2;
5 is an enlarged enlarged view of a shelf member constituting the indoor plant cultivation apparatus using the fog phonics method according to the first embodiment of the present invention.
6 is an enlarged enlarged view of a shelf member constituting an indoor plant cultivation apparatus using a fog phonics method according to a second embodiment of the present invention;

Hereinafter, an indoor plant cultivation apparatus using a fog phonics method according to embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view showing an indoor plant cultivation apparatus using a fog phonics method according to a first embodiment of the present invention, and FIG. 2 is an indoor type using a fog phonics method according to a first embodiment of the present invention. A vertical cross-sectional view of the plant cultivation apparatus, Figure 3 is a view showing the state of the mist supply member constituting the indoor plant cultivation apparatus using the fog phonics method according to the first embodiment of the present invention, Figure 4 is 2 is an enlarged view of part A, and FIG. 5 is an enlarged view of the shelf member constituting the indoor plant cultivation apparatus using the fog phonics method according to the first embodiment of the present invention.

1 to 5 , the indoor plant cultivation apparatus 100 using the fog phonics method according to the present embodiment is installed indoors to grow plants, and includes a body member 110 and a shelf member ( 120), and a mist supply member 130 and a light source irradiation member 140.

Here, the fogponics method refers to a method of directly spraying fine mist formed in the form of water particles to the roots of plants to grow crops.

The body member 110 constitutes the outer periphery of the indoor plant cultivation apparatus 100 using the fog phonics method, and is formed in a box shape having a predetermined height on the floor surface of the room.

A plurality of shelf members 120 are vertically spaced apart from the front surface of the body member 110 , and a plant pot 10 in which soil and plants for planting are accommodated are placed therein.

Each shelf member 120 includes a shelf body 121 , a port insertion hole 122 , and a support protrusion 123 .

The shelf body 121 is formed in the form of a flat plate having a relatively narrow width compared to the length.

The shelf body 121 is formed in an inclined shape while being inclined at a predetermined angle with respect to the front surface of the body member 110 .

The port insertion hole 122 is formed through the shelf body 121 so that the plant pot 10 is inserted.

A plurality of the port insertion holes 122 are formed to be spaced apart from each other in the longitudinal direction of the shelf body 121 so that a plurality of the plant pots 10 are arranged side by side in each shelf body 121 .

The support protrusion 123 protrudes a predetermined length from the edge of the port insertion hole 122 of the shelf body 121 to cross the port insertion hole 122 , and is inserted into the port insertion hole 122 . When the plant pot (10) is inserted, it supports the lower part of the plant pot (10).

The support protrusion 123 is formed in a plank shape whose length is relatively long compared to its width, and is inclined at a predetermined angle to the inside of the body member 110 by the weight of the plant pot 10 , the inclined state It is preferably made of a metal material to support the weight of the plant pot (10).

When the plant port 10 is inserted into the port insertion hole 122 in the state in which the shelf member 120 is configured as described above, the support protrusion is caused by the soil, the plant, and the weight of the plant port 10 . 123 is inclined downward at a predetermined angle to support the plant pot 10, and accordingly, an outer portion of the plant pot 10 is spanned over the inner surface of the port insertion hole 122, so that the plant pot (10) can be prevented from being arbitrarily separated from the port insertion hole (122).

In addition, when formed as described above, a plurality of the port insertion holes 122 are formed in one shelf body 121 , and the plant pots 10 are inserted one by one into each port insertion hole 122 . A plurality of the plant pots 10 are arranged in a line, and a plurality of the shelf bodies 121 are formed in the vertical direction, so that a plurality or various types of the plants can be grown together in a relatively narrow space.

The mist supply member 130 is installed in the inner space of the body member 110, and after forming a mist using water, the mist is placed on the shelf member 120. The plant pot (10) to supply the plants of

The mist supply member 130 includes a water tank 131 , a mist generator 133 , a mist flow pipe 134 , a mist supply pipe 135 , a mist injection hole 136 , and a boost fan 137 . include

The water tank 131 is installed at an inner lower portion of the body member 110 , and water is stored in an empty space therein.

Although not shown in the present embodiment, a filtering device for purifying the water may be additionally installed in the water tank 131 .

The mist generator 133 is installed inside the water tank 131 and generates the mist using the water stored in the water tank 131 , and an ultrasonic vibrator may be presented as an example. .

The mist flow pipe 134 is connected to the water tank 131 , and is formed to be elongated by a predetermined length in the vertical direction of the body member 110 , and the mist generated by the mist generator 133 is transferred to the body member 110 . ) to flow to the upper part, and it is a pipe formed to be long with a predetermined length.

A backflow prevention means 139 such as a check valve may be formed inside the mist flow pipe 134 to prevent the vertically rising mist from flowing backward while descending.

The mist supply pipe 135 is vertically disposed with the mist flow pipe 134 in the upper air inside the body member 110 , and the mist flows through the mist flow pipe 134 in communication with the mist flow pipe 134 . is to be supplied to the plant, it becomes a pipe formed to a predetermined length long.

The mist supply pipe 135 is disposed to be relatively higher than that disposed at the top of the plurality of shelf bodies 121 and is formed to be elongated in the longitudinal direction of the shelf body 121 .

The mist injection hole 136 is formed through the mist supply pipe 135 toward the front surface of the body member 110 and sprays the mist inside the mist supply pipe 135 to the outside of the mist supply pipe 135 will be.

The mist generated in the water tag flows to the mist supply pipe 135 through the mist flow pipe 134 and then is injected into the body member 110 through the mist injection hole 136, and the main body The mist sprayed into the inside of the member 110 is in direct contact with the root of the plant accommodated in the plant port 10 while freely falling.

In the mist supply pipe 135 , a plurality of mist injection holes 136 are formed to be spaced apart along the longitudinal direction of the mist supply pipe 135 .

In addition, the diameters of the plurality of mist injection holes 136 are gradually formed larger as the distance from the mist flow pipe 134 is increased, as shown in FIG. 3 .

Then, the amount of the mist sprayed from the plurality of mist injection holes 136 can be adjusted equally.

The mass flow rate of the fluid is proportional to the velocity of the fluid and the inner diameter of the pipe, and when the mist flows in the mist supply pipe 135, as it moves away from the mist flow pipe 134, the flow velocity of the mist gradually decreases. Therefore, when a plurality of the mist spraying holes 136 are formed with the same diameter, the mist is easily sprayed in a plurality of the mist spraying holes 136 that is close to the mist supply pipe 135, but a plurality of In the mist hole formed at the end of the mist supply pipe 135, the mist is not sprayed.

Therefore, as in the present embodiment, when the diameters of the plurality of mist injection holes 136 are gradually formed to be larger as the diameters of the plurality of mist injection holes 136 are farther from the mist flow pipe 134, It is possible to make the injection amount the same.

The mist sprayed through the plurality of mist injection holes 136 is directly supplied to the roots of the plants accommodated in the plant port 10 while freely falling. Then, the mist formed in the size of water particles in the form of mist is directly supplied to the root of the plant to increase the absorption rate of nutrients, thereby promoting the growth of the plant accommodated in the plant pot 10 .

At least one boost fan 137 is installed in the mist flow pipe 134 and relatively increases the flow speed of the mist flowing through the mist flow pipe 134, and an in-line fan may be presented as an example. have.

In this embodiment, two boost fans 137 are installed to be spaced apart from the mist flow pipe 134 to prevent a decrease in the flow velocity of the mist.

The mist flow pipe 134 is formed in a vertical direction on the installation surface so that the mist flows in the opposite direction to gravity, so that the rising speed of the mist can be reduced. The speed of the mist is increased by the boost fan 137 Compensation for the deceleration of the mist can be made by being relatively increased.

Reference numeral 138 denotes a mist flow fan installed in the mist flow pipe 134 so that the mist generated in the water tank 131 flows while rising to the mist supply pipe 135 installed at the distal end of the mist flow pipe 134 . As such, an inline fan or the like may be presented as an example.

The light source irradiating member 140 is installed on the body member 110 and irradiates a light source toward the plant placed on the shelf member 120 .

The light source irradiation member 140 includes a light source body 141 and a rotational force supply body 142 .

The light source body 141 irradiates a light source to the plant accommodated in the plant pot 10 , and an LED or the like may be presented as an example.

The rotational force supply body 142 rotates the light source body 141 up and down by a predetermined angle so that the light source of the light source body 141 can be evenly irradiated to the plurality of plants installed on the plurality of shelf members 120 . As an example, a stepping motor or the like may be presented.

The light source body 141 is connected to the rotation shaft 143 of the rotational force supply body 142 and rotates together with the rotation shaft 143 .

As the light source irradiation member 140 is configured as described above, from the plant placed on the upper side among the plurality of shelf members 120 to the plant placed on the lower side among the plurality of shelf members 120 . The light source of the light source body 141 may be evenly irradiated, and accordingly, the plants planted in the indoor plant cultivation apparatus 100 using the fog phonics method can grow evenly.

Reference numeral 132 denotes the recovery of mist formed in the upper part of the water tank 131 so that the remainder of the mist sprayed from the mist spraying hole 136 , except that supplied to the plant, falls freely and is recovered to the water tank 131 . it's hall

When the filtration device is installed inside the water tank 131 , the water in which the mist recovered through the mist recovery hole 132 and the mist recovered through the mist recovery hole 132 are mixed is filtered. can

Reference numeral 115 denotes an operation of the indoor plant cultivation apparatus 100 installed on the outside of the main body member 110 and using the fog phonics method, more precisely, the mist generator 133 and the boost fan 137 ) and a control member for controlling the operation of the mist flow fan 138 .

Hereinafter, an operation method of the indoor plant cultivation apparatus 100 using the fog phonics method according to the present embodiment will be described with reference to the drawings.

First, after storing the water in the water tank 131 , the mist is generated using the mist generator 133 .

The mist generated in the water tank 131 flows along the mist flow pipe 134 to the mist supply pipe 135 .

At this time, the mist flows while rising along the inside of the mist flow pipe 134 by the mist flow fan 138, and while flowing through the mist flow pipe 134, the boost fan installed in the mist flow pipe 134 ( 137), the flow speed is relatively increased by the boost fan 137.

The mist raised along the mist flow pipe 134 is moved to the mist hole pipe and then sprayed into the body member 110 through the plurality of mist jetting holes 136 .

The mist sprayed into the body member 110 through the plurality of mist injection holes 136 is supplied through the roots of the plants accommodated in the plant pot 10 while freely falling.

Among the mist injected into the body member 110 through the plurality of mist injection holes 136 , the mist that is not supplied to the roots of the plant falls freely and then passes through the mist recovery hole 132 into the water tank. (131) is recovered.

As described above, the indoor plant cultivation apparatus 100 using the fog phonics method includes the body member 110 , the shelf member 120 , the mist supply member 130 , and the light source irradiation member 140 . ), as well as being able to purify the indoor air, suppress the bacterial propagation generated in the stored water, and increase the absorption rate of nutrients by directly supplying the mist to the roots of the plant, the plant pot (10) It is possible to promote the growth of the plant planted inside the.

Hereinafter, an indoor plant cultivation apparatus using a fog phonics method according to other embodiments of the present invention will be described with reference to the drawings.

In carrying out this description, the description overlapping with the content already described in the above-described first embodiment of the present invention will be omitted here instead of it.

6 is an enlarged view of the shelf member constituting the indoor plant cultivation apparatus using the fog phonics method according to the second embodiment of the present invention.

Referring to FIG. 6 , in this embodiment, the indoor plant cultivation apparatus using the fog phonics method includes a body member, a shelf member 220 , a mist supply member, and a light source irradiation member.

The mist supply member includes a water tank, a mist generator, a mist flow pipe, a mist supply pipe, a mist injection hole, and a boost fan.

A plurality of shelf members 220 are vertically spaced apart from the front surface of the body member, and a plant pot in which soil and plants for planting are accommodated are placed therein.

Each shelf member 220 includes a shelf body 221 , a port insertion hole 222 , a support protrusion 223 , and a port-side mist supply unit 250 .

The shelf body 221 is formed in the form of a flat plate having a predetermined area.

The port insertion hole 222 is formed through the shelf body 221 so that the plant pot is inserted.

A plurality of the port insertion holes 222 are spaced apart from each other in the longitudinal direction of the shelf body 221 .

The support protrusion 223 protrudes a predetermined length from the edge of the port insertion hole 222 of the shelf body 221 to cross the port insertion hole 222 , and is inserted into the port insertion hole 222 . to support the lower part of the plant pot when the plant pot is inserted.

The port-side mist supply unit 250 is formed on the support protrusion 223, and the inside of the plant pot mounted on the support protrusion 223, more precisely, the soil accommodated in the plant pot and the root of the plant. The mist is to be supplied.

In detail, the port side mist supply unit 250 includes a mist receiver 251 , a mist receiving groove 252 , a mist collecting groove 253 , a port insertion protrusion 254 , a cutting means 255 , and a port. It includes a side mist supply hole (256).

The mist receptor 251 is formed on the opposite surface of the surface on which the plant pot is placed among the support protrusions 223, and by opening the upper part of the support protrusion 223, the mist sprayed from the mist injection hole is received while freely falling. .

A portion of the mist receptor 251 that is adjacent to the support protrusion 223 is commensurately narrower than a portion spaced from the support protrusion 223, and is generally formed in the form of a calabash cut in half along the longitudinal direction. do.

The mist receiving groove 252 is an internal space of the mist receptor 251, more precisely, an internal space of a portion of the mist receptor 251 that is spaced apart from the support protrusion 223.

The mist collecting groove 253 becomes the inner space of the mist receiver 251 and communicates with the mist receiving groove 252, and is located closer to the support protrusion 223 than the mist receiving groove 252. and is formed in a relatively narrow shape compared to the mist receiving groove 252 so that the mist accommodated in the mist receiving groove 252 is gathered together.

The mist receiving groove 252 and the mist collecting groove 253 become the inner space of the mist receptor 251 .

In the present invention, it is said that the mist is collected in the mist collecting groove 253 for the purpose of understanding the description, but as the mist is accommodated in the mist receiving groove 252, water droplets are formed, and these water droplets are collected in the mist collecting groove ( Since water is formed when it is moved to 253) and collected, it goes without saying that a predetermined amount of water is formed in the mist collecting groove 253 together with the mist within the scope of the present invention.

The pot insertion protrusion 254 protrudes from the surface on which the plant pot is placed among the support protrusions 223, and when the plant pot is placed on the support protrusion 223, through the lower part of the plant pot through the lower part of the plant pot. will be inserted inside.

The port insertion protrusion 254 is formed in a form that is gradually narrowed toward the outside to facilitate insertion of the lower portion of the plant pot.

The cutting means 255 is formed at the distal end of the port insertion protrusion 254 and cuts a portion of the lower portion of the plant pot so that the port insertion protrusion 254 is inserted into the plant pot, a knife blade, etc. can be given as an example.

The cutting means 255 is extended outwardly along the edge of the port insertion protrusion 254, and is formed in a semicircular shape to form a semicircular cutting groove in the lower portion of the plant pot, and the port insertion protrusion 254 ) is inserted into the plant pot via the incision groove formed in the lower part of the plant pot by the cutting means 255 and then comes into contact with the soil and the roots of the plant accommodated in the plant pot.

The port-side mist supply hole 256 communicates with the mist collection groove 253 while penetrating inside the support protrusion 223 and the port insertion protrusion 254 , and is collected in the mist collection groove 253 . The mist is to be supplied to the soil and the roots of the plant in the interior of the plant pot.

The port insertion protrusion 254 is formed perpendicular to the surface of the support protrusion 223 , and the mist receptor 251 is formed while forming an acute angle with respect to the support protrusion 223 .

In detail, based on a state in which the plant pot is placed on the support protrusion 223 and the support protrusion 223 is inclined at a predetermined angle, the mist receiving groove 252 is relatively compared to the mist collecting groove 253 . It is positioned high, and the mist collecting groove 253 is positioned higher than or equal to that of the port-side mist supply hole 256 .

Then, the mist accommodated in the mist receiving groove 252 is collected in the mist collecting groove 253, and the mist collected in the mist collecting groove 253 is transmitted through the port side mist supply hole 256. It can be easily fed into the interior of the plant pot.

When the plant pot is placed on the support protrusion 223 in the state in which the port-side mist supply unit 250 is configured as described above, the lower part of the plant pot is cut by the cutting means 255 and the port is inserted A protrusion 254 is inserted into the soil inside the plant pot, and the plant pot is inserted into the soil inside the plant pot with the port insertion protrusion 254 on the support protrusion 223. When the mist is sprayed from the mist spray hole in a mounted state, the mist sprayed from the mist spray hole falls and is accommodated in the mist receiving groove 252 and then collected in the mist collecting groove 253, and the mist collecting groove The mist collected at 253 can flow to the root of the plant and the soil accommodated inside the plant pot through the port-side mist supply hole 256 .

In the above, the present invention has been shown and described with respect to specific embodiments, but those of ordinary skill in the art can variously modify the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. and can be changed. However, it is intended to clearly state that all such modifications and variations are included within the scope of the present invention.

According to the indoor plant cultivation apparatus using the fog phonics method according to an aspect of the present invention, the growth of bacteria generated in stored water is suppressed, and the mist is directly supplied to the roots of the plant to increase the absorption rate of nutrients, so that the plant Since it can promote the growth of

10 : plant pot
100: indoor plant cultivation device using fog phonics method
110: body member
120: shelf member
130: mist supply member
140: light source irradiation member
250: port side mist supply unit

Claims (5)

As a plant to be installed indoors,
a body member constituting the outer frame;
a shelf member in which a plurality of pieces are formed to be vertically spaced apart from the front surface of the body member, and a plant pot in which soil and plants for planting are accommodated;
a mist supply member installed in the inner space of the body member, forming a mist using water, and then supplying the mist to the plant in the plant pot placed on the shelf member; and
a light source irradiating member installed on the upper portion of the body member and irradiating a light source toward the plant placed on the shelf member;
The mist supply member is
a water tank installed on the lower inner side of the body member and storing water therein;
a mist generator installed inside the water tank and configured to generate the mist using the water stored in the water tank;
a mist flow pipe connected to the water tank and formed to be elongated by a predetermined length in the vertical direction of the body member to flow the mist generated by the mist generator to an upper portion of the body member;
A mist supply pipe disposed perpendicular to the mist flow pipe in the upper air inside the body member and communicating with the mist flow pipe so that the mist flowing through the mist flow pipe is supplied to the plant;
a mist injection hole formed through the mist supply pipe toward the front surface of the main body member and spraying the mist inside the mist supply pipe to the outside of the mist supply pipe;
and a boost fan installed in the mist flow pipe and relatively increasing the flow rate of the mist flowing through the mist flow pipe,
A plurality of mist injection holes are formed in the mist supply pipe to be spaced apart along the longitudinal direction of the mist supply pipe,
The diameters of the plurality of mist injection holes are formed progressively larger as the distance from the mist flow pipe increases,
Each shelf member is
A shelf body formed in the form of a flat plate of a predetermined area;
a port insertion hole formed through the shelf body so that the plant pot is inserted;
A predetermined length protrudes from the edge of the port insertion hole in the shelf body to cross the port insertion hole, and includes a support protrusion for supporting the lower portion of the plant pot when the plant pot is inserted into the port insertion hole,
When the plant pot is inserted into the port insertion hole, the support protrusion is tilted downward at a predetermined angle by the weight of the plant pot to support the plant pot, and accordingly, an outer part of the plant pot is part of the port insertion hole. It can be prevented that the plant pot is arbitrarily separated from the port insertion hole by being spanned on the inner surface,
Each shelf member is
It is formed on the support protrusion and further comprises a pot-side mist supply unit for supplying the mist to the inside of the plant pot mounted on the support protrusion,
The port side mist supply unit
a mist receptor formed on the opposite surface of the surface on which the plant pot is placed among the support protrusions, and the upper part of which is opened to accommodate the mist sprayed from the mist injection hole;
and a mist receiving groove serving as an inner space of the mist receptor;
While becoming the inner space of the mist receiver, it communicates with the mist accommodating groove, is positioned closer to the support protrusion compared to the mist accommodating groove, and compared to the mist accommodating groove so that the mist accommodated in the mist accommodating groove gathers together A mist collecting groove formed in a relatively narrow shape,
A port insertion protrusion that protrudes from the surface on which the plant pot is placed among the support protrusions, and is inserted into the inside of the plant pot through the lower portion of the plant pot when the plant pot is placed on the support protrusion;
Cutting means formed at the distal end of the port insertion protrusion and cutting a lower portion of the plant pot so that the port insertion protrusion is inserted into the plant pot;
A port-side mist supply hole communicating with the mist collecting groove while penetrating inside the support protrusion and the port insertion protrusion, and allowing the mist collected in the mist collecting groove to be supplied to the inside of the plant pot,
When the plant pot is placed on the support protrusion, the lower part of the plant pot is cut by the cutting means and the port insertion protrusion is inserted into the soil inside the plant pot, and the port insertion protrusion is When the mist is sprayed from the mist spray hole in a state in which the plant pot is placed on the support protrusion in the form of being inserted into the soil in the interior of the plant pot, the mist sprayed from the mist spray hole falls and receives the mist After being accommodated in the groove, collected in the mist collecting groove, the mist collected in the mist collecting groove can flow through the port-side mist supply hole to the soil accommodated in the plant pot and to the root of the plant. An indoor plant cultivation device using the fog phonics method. delete delete delete delete

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