WO2016003051A1

WO2016003051A1 - Stack-type plant cultivation and humidification apparatus

Info

Publication number: WO2016003051A1
Application number: PCT/KR2015/002707
Authority: WO
Inventors: 김희수
Original assignee: 김희수
Priority date: 2014-06-30
Filing date: 2015-03-19
Publication date: 2016-01-07
Also published as: KR200474989Y1

Abstract

A stack-type plant cultivation and humidification apparatus is disclosed. The disclosed stack-type plant cultivation and humidification apparatus includes a water-coffering wall body having a primary drain hole and a secondary drain hole, wherein water in a flowerpot member passes through a drain hole of a column member side, and then is blocked by the water-coffering wall body such that the water rises to the height of the water-coffering wall body along the primary drain hole, and then is drained through the secondary drain hole. According to the disclosed stack-type plant cultivation and humidification apparatus, water in a flowerpot can be drained while the outflow of soil in the flowerpot is prevented.

Description

Stacked plant cultivation humidifier

The present invention relates to a layered plant cultivation humidification device.

It is a layered plant cultivation humidifier that can grow both indoors and humidify the indoor space.

An example of such a layered plant cultivation humidifier is Patent No. 10-0827773 (Registration Date: April 29, 2008, the name of the invention: multi-stage detachable interior pot and humidifier).

However, according to the related art disclosed in the patent document, etc., when water is drained from each pot stacked in multiple stages, drainage is made through a drain hole simply formed at the bottom of each pot, and accordingly, only water is drained through the drain hole. Rather than being drained, there was a problem that the soil in the pot was also leaked.

The object of the present invention is to provide a layered plant cultivation humidification device that can drain the water in the pot while preventing the soil spills.

Laminated plant cultivation humidification device according to an aspect of the present invention is a pot member for providing a space in which the plant is grown; And a pillar member penetrating the plant member to allow the plant member to be positioned at a predetermined height.

The flower pot member and the pillar member may be stacked in multiple stages in such a manner that the flower pot member penetrates the flower pot member so that the flower pot member is caught on a predetermined height of the pillar member, and another pillar member is placed on the flower pot member. Can and

The pillar member includes a pillar member body and a pillar member side drain hole formed below the pillar member body.

The flower pot member is set to a certain height along the periphery of the flower pot member body and the hole through which the pillar member penetrates from the flower pot member body, and the water flowing through the drain hole on the pillar member side is blocked to rise to a certain height and then drained. Includes a wall to make,

The water barrier wall includes a water barrier wall that is erected at a predetermined height along the periphery of a hole through which the pillar member penetrates in the pollen member body, and an inner surface of the pillar member placed on the plant pot member among the pillar members stacked in multiple stages and the water barrier wall. A primary drainage hole formed as a space for drainage therebetween, and a secondary drainage hole for allowing water beyond the water barrier to be drained to the outside,

After the water on the pot member member passes through the drain member hole on the pillar member side, the water barrier is blocked by the wall and ascended by the height of the water barrier wall along the primary drain hole, and then drained through the secondary drain hole. do.

Laminated plant cultivation humidification device according to another aspect of the present invention is a pot member for providing a space in which the plant is grown; And a pillar member penetrating the plant member to allow the plant member to be positioned at a predetermined height.

The plant pot member is a planter member body consisting of a flat planter bottom surface on which plants can be grown and a planter wall erected to a certain height along the outer periphery of the planter bottom surface, and the planter member body from the planter bottom surface on the planter member body. It comprises a drainage hole on the side of the pot member formed on the height,

The water on the pot member is passed through the pillar member side drain hole, it is blocked by the pot wall is characterized in that it is raised by the height of the pot wall and then drained through the pot member side drain hole.

According to the laminated plant cultivation humidification device according to the present invention, as the water wall includes the water wall, the primary drain hole, and the secondary drain hole, the water on the pot member passes through the drain member side drain hole, The drainage is delayed until it is blocked by the wall and rises up to the height of the wall, and after the water level rises up to the height of the wall along the primary drain hole, the water cannot drain through the wall and through the secondary drain hole. Therefore, the soil which can flow with the water toward the water wall can be automatically supplied to the multi-stage potted plant member and the pillar member without being blocked by the water barrier wall, and the water is supplied to the pillar member in the process of supplying the water. As part of the water flowing down evaporates, it is possible to humidify the room. Thus, water in the pot can be drained while preventing soil leakage in the pot. There is an effect that becomes possible.

1 is a perspective view showing a stacked plant cultivation humidification device according to an embodiment of the present invention.

Figure 2 is a perspective view showing a state in which the pot member and the pillar member constituting the stacked plant cultivation humidification device according to an embodiment of the present invention is separated.

3 is an enlarged view of a portion A shown in FIG.

Figure 4 is a perspective view showing a water tank member constituting the stacked plant cultivation humidification device according to an embodiment of the present invention.

Figure 5 is a cross-sectional view showing a stacked plant cultivation humidification device according to an embodiment of the present invention.

FIG. 6 is an enlarged view of a portion B shown in FIG. 5. FIG.

FIG. 7 is an enlarged view of a portion C shown in FIG. 5.

Figure 8 is a perspective view of a stacked plant cultivation humidification device according to another embodiment of the present invention.

Figure 9 is a sectional view showing a stacked plant cultivation humidification device according to another embodiment of the present invention.

FIG. 10 is an enlarged view of a portion D shown in FIG. 9. FIG.

11 is a cross-sectional view showing a mobile plant pot constituting the stacked plant cultivation humidification device according to another embodiment of the present invention.

Hereinafter, a stacked plant cultivation humidification device according to embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a stacked plant cultivation humidification device according to an embodiment of the present invention, Figure 2 is a pollen member and a pillar member constituting the stacked plant cultivation humidification device according to an embodiment of the present invention is separated Figure 3 is a perspective view showing, Figure 3 is an enlarged view of the portion A shown in Figure 2, Figure 4 is a perspective view showing a water tank member constituting a stacked plant cultivation humidification device according to an embodiment of the present invention, 5 is a cross-sectional view showing a stacked plant cultivation humidification apparatus according to an embodiment of the present invention, Figure 6 is an enlarged view of the portion B shown in Figure 5, Figure 7 is an enlarged view of the C portion shown in Figure 5 It is also.

1 to 7 together, the stacked plant cultivation humidification device 100 according to the present embodiment is a potted member 150 that provides a space in which plants are grown, and penetrates the potted member 150 The flower pot member 150 may include a pillar member 130 positioned at a predetermined height, and the flower pot member 150 and the pillar member 130 may be freely formed at a desired height by being stacked in multiple stages. It is.

The pillar member 130 penetrates the pollen member 150 and the pollen member 150 is caught on a predetermined height of the pillar member 130, and the other pillar member 130 is the pollen member 150. The pot member 150 and the pillar member 130 may be stacked in a multi-stage manner in a manner of being placed on the plate.

The pillar member 130 includes a pillar member body 131 and a pillar member side drain hole 132 formed under the pillar member body 131.

In detail, the pillar member body 131 is formed in a shape in which the upper portion is cut off, that is, the diameter thereof gradually increases from the upper portion to the lower portion, such that water flows down by the gravity along the outer wall of the pillar member body 131. Is formed so that, the pot member 150 is inserted into the pillar member body 131 is fixed while being inserted only a certain depth so that the pot member 150 is fixed on a predetermined height of the pillar member body 131 To be able.

The flower pot member 150 is set to a certain height along the periphery of the flower pot member body 151 and the hole through which the pillar member 130 passes from the flower pot member body 151 and the pillar member side drain hole 132. It includes a water wall 155 to block the water flowing through the ascended to a certain height and then drained.

The plant member 151 has a through-hole formed at a central portion thereof so that the upper portion of the pillar member 130 can pass therethrough, and the water barrier wall 155 has a circular shape along the periphery of the through-hole of the plant member 151. Is built.

When the pillar member 130 penetrates the pollen member body 151, the pollen member 150 is fixed over a predetermined height of the pillar member 130, and at this time, the water barrier wall 155 The pillar member 130 penetrates the outer surface of the pillar member 130 to be in contact with the pillar member 130.

The water barrier wall 155 includes a water barrier wall 156, a primary drain hole 157, and a secondary drain hole 158.

The water barrier wall 156 is erected at a predetermined height along the periphery of the through-hole through which the pillar member 130 passes through the pollen member body 151 to prevent the flow of water. The inner surface of the water wall 156 is in contact with the outer surface of the pillar member 130 to which the pot member 150 is coupled, the outer surface of the water wall 156 is the other one placed on the pot member 150 In contact with the inner surface of the pillar member 130.

The primary drain hole 157 is disposed between the inner surface of the other pillar member 130 and the outer surface of the water barrier wall 156 among the pillar members 130 stacked in multiple stages. It is formed as a space for drainage, the outer circumferential surface of the water barrier wall 156 is formed in a recessed shape to a predetermined depth in the vertical direction, a plurality of the water barrier is formed along the outer circumferential surface of the wall 156.

The secondary drain hole 158 is formed as a space for drainage between the outer surface of the pillar member 130 to which the pot member 150 is fixed and the inner surface of the water wall 156, and the water wall 156 ) Is formed in a shape in which the inner peripheral surface is recessed to a predetermined depth in the vertical direction, a plurality of the water film is formed along the inner peripheral surface of the wall (156). The water level rises in the primary drain hole 157 and the water beyond the water barrier wall 156 is drained toward the outer surface of the pillar member 130 through the secondary drain hole 158 and the pillar member 130. It can flow along the outer surface of).

On the other hand, the stacked plant cultivation humidification device 100 further includes a water tank member 170, and a cover member 110.

The tank member 170 is mounted on the lowermost pillar member 130 among the pillar members 130 stacked in multiple stages, and passes through the pillar member 130 and the pollen member 150 stacked in multiple stages. Finally, the flow of water is received, and the received water can be pumped up again.

In detail, the water tank member 170 is disposed at the bottom of the pot member 150 and the pillar member 130 stacked in multiple stages to accommodate the water drainage member body 171 and the water tank member body ( A central protrusion 172 to which the pillar member 130 at the lowermost side of the pillar member 130 stacked in multiple stages is formed to protrude to a central portion of the center 171 and the central protrusion 172. A plurality of foreign substances in the water introduced through the pillar member side drain hole 132 of the pillar member 130 fitted in the up and down directions along the outer circumferential surface of the central protrusion 172 such that only water is lifted while being caught by the central protrusion 172. The central protrusion side drainage hole 173 is formed, and the pump 176 that is raised along the central protrusion side drainage hole 173 can pump water received beyond the central protrusion 172.

Reference numeral 174 denotes a control panel for controlling the pump 176 and the like on and off, and reference numeral 175 denotes a power connection unit connected to a power source to supply electrical energy to the pump 176 and the like.

The lid member 110 includes a lid member body 111 mounted on the pillar member 130 at the top of the pillar members 130 stacked in multiple stages, and a bottom surface 112 of the lid member body 111. A through water supply pipe 113 formed to penetrate through the pump 176 to be introduced into an upper portion of the cover member body 111, and disposed at an upper end of the through water supply pipe 113 so as to pass through the water; It includes a water distribution body 115 so that the water raised by the water supply pipe 113 bumps and spreads downward.

Reference numeral 114 is a cover member side through hole which is formed on the side surface of the cover member body 111 to allow the water contained in the cover member body 111 to flow.

The lower end of the through-water supply pipe 113 and the pump 176 is connected by a connecting pipe.

The water distributor 115 may include a water distributor fixing part 116 fixed to the through water supply pipe 113 and the water distributor fixing part so as to be spaced apart from an upper end of the through water supply pipe 113 to a predetermined height ( The height forming part 117 protruding from the 116 and the water spreading part 118 formed at an upper end of the height forming part 117 and the water raised through the through water supply pipe 113 may be bumped and spread downward. Include.

The water spreading part 118 may be formed in various shapes such as a flat plate shape of a predetermined area, a curved shape curved downward, and a hat shape.

Hereinafter, with reference to the drawings will be described the operation of the stacked plant cultivation humidification device 100 according to this embodiment.

First, the pollen member 150 spans the pillar member 130, and the other pillar member 130 is placed on the pollen member 150 spanning the pillar member 130. A plurality of the flower pot members 150 and the plurality of the pillar member 130 is in such a way that the other flower pot member 150 spans the other pillar member 130 placed on the member 150. It is stacked in multiple stages. In addition, the tank member 170 is coupled to a lower end of the pillar member 130 of the pillar members 130 stacked in multiple stages, and the pillar member at the top of the pillar members 130 stacked in multiple stages ( 130, the cover member 110 is coupled to the top.

In this state, when the pump 176 of the water tank member 170 is operated, water in the water tank member 170 is sprinkled up and then spread by the water distributor 115, and the lid member body 111. ), And the received water flows down through the cover member 110 through hole, and flows down along the outer surface of the pillar member 130 under the cover member 110.

As described above, as the water flows along the outer surface of the pillar member 130, humidification of the room may be performed.

Water flowing along the outer surface of the pillar member 130 reaches the pot member 150 to supply water to the plant planted on the pot member 150 while wetting the soil on the pot member 150. .

Water supplied to the pot member 150 is introduced into the pillar member 130 through the pillar member side drain hole 132, and soil is mixed in the water.

As described above, the water introduced into the pillar member 130 is blocked by the water barrier wall 156 and the drainage is delayed until the water level is reached along the primary drain hole 157, and the water level is delayed. Once reached, the water barrier is drained through the secondary drain hole 158 beyond the wall 156. In this process, soil in the water introduced into the pillar member 130 may be blocked by the water barrier wall 156 to prevent loss of water.

Water drained through the secondary drain hole 158 flows along the outer surface of the pillar member 130 on which the pollen member 150 is spread, and the other pollen placed at the bottom of the pillar member 130. It may be supplied to the member 150.

As the above water flow process is repeated in the pot member 150 and the pillar member 130 stacked in multiple stages, humidification of the room and water supply to the plant are made.

As described above, as the water barrier wall 155 includes the water barrier wall 156, the primary drain hole 157, and the secondary drain hole 158, the water on the pot member 150 becomes the pillar. After passing through the member side drain hole 132, the drainage is delayed until it is blocked by the water wall 156 and filled up to the height of the water wall 156, and the water film along the primary drain hole 157. Only after the water level rises by the height of the wall 156 can the water be drained through the secondary drain hole 158 beyond the water barrier wall 156, so that the water barrier flows in with the water toward the wall 156. Soil may be automatically supplied to the pot member 150 and the pillar member 130 stacked in multiple stages without being blocked by the water barrier wall 156, and in the process of supplying the water Humidification to the room while part of the water flowing along the pillar member 130 evaporates This can be done, so that the water in the pot can be drained while preventing soil spillage in the pot.

Hereinafter, with reference to the drawings will be described with respect to the stacked plant cultivation humidification apparatus according to another embodiment of the present invention. In carrying out this description, descriptions overlapping with those already described in the above-described embodiments of the present invention will be replaced with the description thereof, and will be omitted herein.

8 is a perspective view showing a stacked plant cultivation humidification device according to another embodiment of the present invention, Figure 9 is a sectional view showing a stacked plant cultivation humidification device according to another embodiment of the present invention, Figure 10 is in FIG. 11 is an enlarged view of part D, and FIG. 11 is a cross-sectional view illustrating a mobile flower pot constituting the stacked plant cultivation humidification device according to another embodiment of the present invention.

8 to 11 together, the stacked plant cultivation humidifying apparatus 200 according to the present embodiment is a planter member 250 that provides a space in which plants are grown, and penetrates the planter member 250 through the planter member 250. It includes a pillar member 230 to position the pot member 250 on a predetermined height, the pillar member 230 penetrates the pot member 250 to the predetermined height of the pillar member 230 The pollen member 250 is caught, and the pollen member 250 and the pillar member 230 may be stacked in multiple stages in such a manner that the other pillar member 230 is placed on the pollen member 250.

The pillar member 230 includes a pillar member body 231 and a pillar member side drain hole 232 formed under the pillar member body 231.

The pillar member body 231 may be formed in a rectangular box shape with an open front surface.

A coupling pillar 234 having a shape protruding downward is formed below the pillar member 230, and a coupling pillar coupling hole portion 237 having a coupling hole formed thereon is formed above the pillar member 230. Then, the pillar member 230 is coupled to the coupling pillar coupling hole 237 of the pillar member 230 positioned on the upper side of the pillar member 230 stacked on the plurality of pillar members 230. The lamination can be made stably.

In this embodiment, the pot member 250 is composed of a flat planter bottom surface 252 on which plants can be grown and a potted wall 253 formed at a predetermined height along the circumference of the planter bottom surface 252. Potted plant member body 251 and a potted plant member side drain hole 254 formed on the potted wall 253 through a predetermined height from the potted bottom surface 252.

The pot member side drain hole 254 is formed in the pot member body 251 is formed so that a plurality of spaced apart from each other on a predetermined height.

When formed as described above, water on the pot member 250 passes through the pillar member side drain hole 232, and then is blocked by the pot wall 253 so that the water level is increased by the height of the pot wall 253. Since the water can be drained through the pollen member side drain hole 254 only, water can be drained while preventing the loss of soil in the pot member 250.

The pillar member 230 is a guide portion 235 for guiding the water drained through the pollen member side drain hole 254, and the water guided along the guide portion 235 is the front of the pillar member 230 It includes a water guide supply hole 236 formed through the pillar member body 231 to flow along.

The guide part 235 is formed in an inclined surface shape inclined toward the lower end to the upper portion of the pillar member 230, the flower pot mounted on the upper side of the pillar member 230, the guide portion 235 is formed Water drained through the pollen member side drain hole 254 of the member 250 falls on the guide part 235 and then flows down along the guide part 235, and the flowed water is guided by the water guide. It is supplied to the front surface of the pillar member 230 through a supply hole 236 and flows down along the front surface of the pillar member 230.

On the other hand, the stacked plant cultivation humidification device 200 further includes a removable flower pot 280 that is detachably installed on the pillar member 230, the plant can be grown.

The mobile flower pot 280 is a pot-shaped movable potted body 281 in the form of an open front, and a water drop hole 284 through which the water is allowed to flow through the rear side of the movable potted body 281 in the vertical direction And a potted plant formed through the potted plant body 281 toward the water dropping hole 284 so that some of the water flowing along the water dropping hole 284 is supplied to the potted plant body 281. And a body through hole 283.

In addition, the movable planter 280 is spaced apart from the rear of the movable planter body 281 at a predetermined interval to form the water drop hole 284 between the movable planter body 281 and the movable planter body 281 A rear panel 282 connected to the rear panel 282 and the upper side of the rear panel 282 and the movable flower pot body 281 are formed relatively larger than the water drop hole 284 so as to smoothly introduce water. A water inlet 286 and a movable flower pot coupling hole 285 is formed in the back of the back panel 282.

The front of the pillar member 230 is formed with a plurality of mobile potted planting protrusions 233 that can be fitted into the mobile potted plant coupling hole 285. The plurality of movable potted planting protrusions 233 are formed over the pillar member 230, and according to which of the plurality of movable potted planting protrusions 233 are inserted into the movable potted planting hole 285. The position of the movable flower pot 280 in the front of the pillar member 230 can be selected, the position can be easily changed according to the user's preference.

Hereinafter, the operation of the stacked plant cultivation humidification apparatus 200 according to the present embodiment will be described with reference to the accompanying drawings.

In a state in which the plurality of flower pot members 250 and the pillar members 230 are stacked, water to be flowed along the front surface of the pillar members 230 is supplied to the movable flower pot 280 and then the pillar members 230. ) Is accommodated in the pot member 250 is mounted.

The water contained in the flower pot member 250 passes through the pillar member side drain hole 232 and is blocked by the flower pot wall 253 to increase its water level, and the water level is increased in the flower pot member side drain hole 254. When the water is reached, only water is discharged to the outside through the potted member side drain hole 254 to be drained.

Water drained as described above is guided along the guide portion 235 of the other pillar member 230 located below the pot member 250 flows down, and then the water guide supply hole 236 It is supplied to the front of the pillar member 230 through the flow along the front of the pillar member 230.

On the other hand, the mobile planter 280 presented in this embodiment is proposed to be applied in the second embodiment, but may be equally applicable to the first embodiment. In addition, the concave-convex coupling method has been proposed in such a way that the mobile flower pot 280 is coupled to the pillar member 230, but in addition to the movable flower pot 280 and the pillar member 230. Various other methods may be applied, such as a method of installing and attaching.

While the present invention has been shown and described with respect to specific embodiments, those skilled in the art can variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And that it can be changed. Nevertheless, it is intended to be clear that all such modifications and variations are included within the scope of the present invention.

According to the layered plant cultivation humidification device according to an aspect of the present invention, since the water in the pot can be drained while preventing the outflow of soil in the pot, it is said that the industrial applicability is high.

Claims

Pollen members which provide a space in which plants are grown; And

And a pillar member penetrating the plant member to allow the plant member to be positioned at a predetermined height.

The flower pot member and the pillar member may be stacked in multiple stages in such a manner that the flower pot member penetrates the flower pot member so that the flower pot member is caught on a predetermined height of the pillar member, and another pillar member is placed on the flower pot member. Can and

The pillar member includes a pillar member body and a pillar member side drain hole formed below the pillar member body.

The flower pot member is set to a certain height along the periphery of the flower pot member body and the hole through which the pillar member penetrates from the flower pot member body, and the water flowing through the drain hole on the pillar member side is blocked to rise to a certain height and then drained. Includes a wall to make,

The water barrier wall includes a water barrier wall that is erected at a predetermined height along the periphery of a hole through which the pillar member penetrates in the pollen member body, and the inner surface of the pillar member placed on the pollen member among the pillar members stacked in multiple stages and the water barrier wall. A primary drainage hole formed as a space for drainage therebetween, and a secondary drainage hole for allowing water beyond the water barrier to be drained to the outside,

After the water on the pot member member passes through the drain member hole on the pillar member side, the water barrier is blocked by the wall and ascended by the height of the water barrier wall along the primary drain hole, and then drained through the secondary drain hole. Stacked plant cultivation humidifier.
The method of claim 1,

A plurality of primary drain holes are formed in the vertical direction along the outer circumferential surface of the water wall,

Laminated plant cultivation humidification device, characterized in that the plurality of secondary drain holes are formed in the vertical direction along the inner circumferential surface of the water wall so as to correspond to the primary drain holes.
The method of claim 1,

The laminated plant cultivation humidification device

A water tank member including a water tank member body disposed at a lower end of the pollen member and the pillar member stacked in multiple stages to receive drained water, and a pump capable of pumping water contained in the water tank member body; And

The cover member body which is mounted on the pillar member at the top of the pillar members stacked in multiple stages, and the through water supply pipe which is formed through the cover member body so that the water pumped up by the pump flows into the upper part of the cover member body. And a cover member disposed at an upper end of the through water supply pipe, the cover member including a water distributor configured to strike water raised by the through water supply pipe to spread downward.
Pollen members which provide a space in which plants are grown; And

And a pillar member penetrating the plant member to allow the plant member to be positioned at a predetermined height.

The flower pot member and the pillar member may be stacked in multiple stages in such a manner that the flower pot member penetrates the flower pot member so that the flower pot member is caught on a predetermined height of the pillar member, and another pillar member is placed on the flower pot member. Can and

The pillar member includes a pillar member body and a pillar member side drain hole formed below the pillar member body.

The plant pot member is a planter member body consisting of a flat planter bottom surface on which plants can be grown and a planter wall erected to a certain height along the outer periphery of the planter bottom surface, and the planter member body from the planter bottom surface on the planter member body. It comprises a drainage hole on the side of the pot member formed on the height,

The water on the pot member is passed through the pillar member side drain hole, the plant is blocked by the plant wall wall is raised by the height of the potted wall and then drained through the pot member member drain hole characterized in that drained through Device.
The method of claim 4, wherein

The pillar member is

A guide part for guiding the water drained through the pollen member side drain hole;

And a water guide supply hole formed through the pillar member body so that water guided along the guide portion can flow along the front surface of the pillar member.
The method of claim 1,

The laminated plant cultivation humidification device

Stackable plant cultivation humidification device further comprises; removable planter detachably installed in the pillar member, the plant can be grown.
The method of claim 6,

The removable flower pot

Removable planter body,

A water drop hole formed in the rear side of the movable planter body in a vertical direction to allow water to flow therethrough;

Multi-layered plant cultivation humidification, characterized in that it comprises a movable potted body through-hole formed in the movable potted body through the water dropping hole so that a portion of the water flowing along the water dropping hole is supplied to the movable potted body. Device.
The method of claim 4, wherein

The laminated plant cultivation humidification device

Stackable plant cultivation humidification device further comprises; removable planter detachably installed in the pillar member, the plant can be grown.
The method of claim 8,

The removable flower pot

Removable planter body,

A water drop hole formed in the rear side of the movable planter body in a vertical direction to allow water to flow therethrough;

Multi-layered plant cultivation humidification, characterized in that it comprises a movable potted body through-hole formed in the movable potted body through the water dropping hole so that a portion of the water flowing along the water dropping hole is supplied to the movable potted body. Device.