US20030217507A1

US20030217507A1 - Pot plant stand with air cleaning function and plant pot for the stand

Info

Publication number: US20030217507A1
Application number: US10/419,423
Authority: US
Inventors: Billy Wolverton; Hiroharu Mizukoshi; Toshio Yamaguchi
Original assignee: Individual
Current assignee: Individual
Priority date: 2002-05-27
Filing date: 2003-04-21
Publication date: 2003-11-27
Also published as: JP2004049215A; JP4155805B2

Abstract

This invention relates to a pot plant stand which purifies the air by passing the air through soil holding a plant root and an exchangeable plant pot used for the stand. The pot plant stand having an air cleaning function, which can exchange the plant pot without grubbing up the soil, which can cause a large quantity of air to pass through the soil, and which is easy to maintain is obtained.

The pot plant stand includes: a water container storing water in a bottom; a plant pot inserted into the water container; and a fan absorbing the air in an upper space between the water container and the plant pot, and the plant pot includes: a partition wall dividing an interior of the plant pot into a planting section and a vent section at a height position lower than an outer wall of the plant pot, and having no air permeability; an air hole communicating the vent section with the upper space at a position lower than an upper edge of this partition wall and higher than the water level of the water stored in the water container; and water holes communicating the planting section, the vent section and the bottom of the water container with one another at a position lower than the water level of the water stored in the water container.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is based upon Japanese patent applications Serial Nos. 2002-152780, filed May 27, 2002 and 2002-354737 filed Nov. 28, 2002.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable

REFERENCE TO A “MICROFICHE APPENDIX”

Not applicable

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a pot plant stand which has an air cleaning function. More particularly, the present invention relates to a pot plant stand which cleans the air by causing the air to pass through natural or artificial soil which holds the roots of plants, and to an exchangeable plant pot used therefor.

2. General Background of the Invention

It is known that microorganisms multiply in the soil in which a certain plant is planted decompose or destroy toxins in the air. Pot plant stands for cleaning the air using them have been proposed. The pot plant stand proposed in, for example, Japanese Patent Application Laid-Open No. 2000-166388 is comprised of a plant pot, a water container which contains the pot, and a fan which causes the air to pass through the soil of the plant pot. The plant pot has a water hole provided on the bottom thereof, and a plurality of air holes provided at equal height positions on the upper portion of the peripheral wall thereof. The water container has an opening, into which the plant pot is inserted, provided on the upper surface thereof, and supports the inserted plant pot while giving spaces around the plant pot and on the bottom of the plant pot. The air inlet of the inlet tube of the fan is opened to the upper portion of the water container. A flexible ring seal having an inner peripheral edge and an upper edge in contact with the outer periphery of the inserted plant pot is provided on the upper portion of the water container.

In the pot plant stand, if the plant pot in which a plant is planted is inserted into the water container, and water is poured into the plant pot, then surplus water flows from the water hole into the water container and the water level can be checked by a water-level gauge. When the fan is rotated, the air in the room is absorbed from the upper surface of the soil in the plant pot, passed through the interior of the soil and through the air hole, the upper surface of the water container and the inlet tube, absorbed by the fan, and discharged again into the room. When exchanging one pot plant for another, it suffices to take out the plant pot and to put a plant pot in which a new plant is planted.

The pot plant stand with the above-stated structure requires only small installation space and simple operation for the exchange of plants. The pot plant stand described in this document is also comprised of a light source (an incandescent lamp) which illuminates the plant planted in the plant pot to thereby accelerate photosynthesis, and which sterilizes the air discharged from the fan into the room.

In this document, protection measures for protecting the soil put in the plant pot from being overflowed from the water hole and the air holes are also described. As the protection measures for the air hole, many small holes from which the soil does not flow out are provided, a mesh filter is attached, and a hood-like shield collar is provided inside the air hole.

A similar pot plant stand is described in Japanese Utility Model Registration No. 3041734. The pot plant stand described in this document differs from that described in Japanese Patent Application Laid-open No. 2000-166388 in that soil is also filled into a water container according to the above-stated structure and transparent holes for causing the air and water to pass through are provided in the periphery and the entire bottom of a plant pot.

The water stored in the bottom of the

water container

52 is supplied to the soil filled into the plant pot of the pot plant stand described in Japanese Patent Application Laid-Open No. 2000-166388. When the fan is driven, the air flows into the air hole from the upper surface opening of the plant pot via the gaps of the soil. In passing through the soil, the air is cleaned by microorganisms in this soil. In order to effectively clean the room air, the quantity of the air that passes through the soil may be increased. However, when passing through the soil, the air takes out moisture in the soil. As a result, if the air in large quantities flows into the soil, the moisture necessary to grow the plant is deprived of from the soil, hampering the growth of the plant and killing the plant.

To avoid this problem, the fan is driven intermittently to prevent the moisture content of the soil from excessively transpiring, or the air is caused to pass through only the upper portion of the soil away from the plant root so as not to dry the soil in which the plant root is struck. These methods, however, deteriorate the air cleaning function of the microorganisms in the soil.

Further, according to Japanese Utility Model Registration No. 3041734, the soil is also filled into the water container around the plant pot. Due to this, when the plant as well as the plant pot is exchanged for another, it is necessary to grub up the soil around the plant pot. Compared with the stand wherein no soil is filled into the surrounding of the plant pot, it takes labor to conduct the plant pot exchange operation.

BRIEF SUMMARY OF THE INVENTION

In summary, the present invention seeks to attain a pot plant stand which allows exchanging a plant pot for another without the need to grub up soil around the plant pot, which causes the air in large quantities to pass through the soil in which many microorganisms cleaning the air live and which contains much moisture to thereby allow effective air cleaning, which prevents a plant from being killed even if the air passes through the soil continuously, which is easy to maintain, and which has an air cleaning function.

A preferred embodiment would include a pot plant stand having an air cleaning function according to the invention which solves the problems, includes: a water container storing water in a bottom; a plant pot inserted into the water container while closing an upper surface opening of the water container; and a fan absorbing the air in an upper space formed between the water container and the plant pot, and the plant pot includes: a partition wall dividing an interior of the plant pot into a planting section and a vent section at a height position lower than an outer wall of the plant pot, and having no air permeability; an air hole communicating the

vent section

5 with the upper space at a position lower than an upper edge of the partition wall and higher than water level of the water stored in the water container; and water holes communicating the planting section, the vent section and the bottom of the water container with one another at a position lower than the water level of the water stored in the water container.

An additional embodiment includes a pot plant stand having an air cleaning function according to the invention, includes: a water container storing water in a bottom; a plant pot supported by the water container while dipping a bottom of the plant pot with the water stored in the water container and closing an upper surface opening of the water container; and a fan communicated with an upper space of the water container, characterized in that the plant pot includes: a partition wall dividing an interior of the plant pot into a planting section and a vent section, and having no air permeability; a water hole communicating the planting section with the bottom of the water container under a water surface of the water stored in the water container; communication holes communicating the planting section with the vent section under the water surface; and an air hole formed at a position right on the water surface of the water stored in the water container, and communicating the vent sections with the upper space of the water container, in that the water hole and the air hole comprises protection means for protecting leakage of soil in the plant pot, and in that the planting section and the vent section of the plant pot are filled with the soil.

An additional embodiment includes a plant pot used for the above-stated pot plant stand according to the present invention, which includes: a partition wall dividing an interior of the plant pot into a central planting section and a surrounding vent section at a height position lower than an outer wall, and having no air permeability; an air hole penetrating the outer wall at a position lower than an upper edge of the partition wall; and water holes penetrating a base plate of the plant pot, a bottom of the partition wall and/or a bottom of the outer wall to thereby communicate the planting section, the vent section and an exterior of the plant pot with one another at a position lower than the vent hole.

Further, a plant pot according to the invention includes: a partition wall dividing an interior of the plant pot into a planting section and a vent section, and having no air permeability; a water hole penetrating a base plate of the planting section; water holes communicating the planting section with the vent section on a bottom of the plant pot; and an air hole communicating the vent section with an exterior of the plant pot at a position higher than the water holes, characterized in that the planting section and the vent section of the plant pot are filled with soil.

The water holes of the plant pot having the above-stated structure can be provided in the bottom of the partition wall, the bottoms of the planting section and the vent section, or the bottoms of the planting section and the side wall of the vent section, and they can be provided in plural or in combination. The vent holes are preferably provided as many vertical slits or small holes distributed vertically and horizontally in the lower portion of the outer wall. Among the slit or small holes, those under the water surface of the water contained in the water container serve as air holes and those on the water surface serve as air holes. The partition wall preferably has such a height as to be lower than the outer wall so as not to appear on the upper surface of the soil when filling the soil into the plant pot.

It is necessary that water and the air are held in the soil in which phanerophytes are rooted. The root of an ordinary phanerophyte is rotten and the phanerophyte is withered if it is held for long time with its root dipped into water. In the soil of the plant pot having the bottom dipped with water, the water that is sucked up by the capillary action as well as the air are being held. If the air is caused to pass through the soil which holds the water and air in this state, then the water transpires, the water content of the soil decreases, and the plant root cannot absorb sufficient water.

According to the pot plant stand of the present invention, when the fan is driven to cause the room air to pass through the soil of the plant pot, the air does not pass through the central or planting section of the plant pot defined by the partition wall. Due to this, the water in the soil of the central or planting section through which the root of the plant grows is not taken out by the pass-through air. Even if a large quantity of air constantly passes through the soil, the plant does not wither away because of the dried soil.

On the other hand, organic matters produced in the central or planting section and microorganisms multiplied therein are diffused into the water and active even in the soil of the peripheral or vent section. The soil on the water surface of the vent section is deprived of moisture content by the pass-through air one after another, and new water rises and enters the soil by the capillary action. Thanks to this action, the air which passes through the peripheral or vent section is always affected by the action of the microorganisms in the soil, thus obtaining an effective air purification action.

It is preferable that the water is caused to pass through the soil as near the water surface as possible, and it is, therefore, desirable that the air holes are opened to the portions right on the water surface of the water contained in the water container. This water surface moves up and down by the repetition of supply and transpiration of water. Therefore, if the vertical slits or small holes distributed vertically and horizontally are provided in the lower portion of the outer wall, those on the water surface among the slits or small holes act as air holes. Consequently, even if the water surface moves up and down, the most preferable vent state can be obtained.

It is preferable that the height of the partition wall is such that the partition wall does not appear on the surface of the soil filled into the plant pot. In addition, for the smooth movement of the organic matters and microorganisms, it is considered that the air holes are preferably provided in the bottom of the partition wall.

BRIEF DESCRIPTION OF THE DRAWINGS

For a further understanding of the nature, objects, and advantages of the present invention, reference should be had to the following detailed description, read in conjunction with the following drawings, wherein like reference numerals denote like elements and wherein: [0026]
FIG. 1 is a sectional view showing one embodiment of a plant pot. [0027]
FIG. 2 is an explanatory view showing the relationship between the root of a plant in the plant pot and the flowing air. [0028]
FIG. 3 is a perspective view of the first embodiment of a pot plant stand. [0029]
FIG. 4 is a sectional view of the pot plant stand in the first embodiment. [0030]
FIG. 5 is a perspective view of the pot plant stand in the second embodiment. [0031]
FIG. 6 is an exploded perspective view showing the fan attachment structure of the pot plant stand in the second embodiment. [0032]
FIG. 7 is a longitudinal sectional view of the pot plant stand in the third embodiment. [0033]
FIG. 8 is a perspective view showing an example of using the pot plant stand in the third embodiment as a smoke dividing counter. [0034]
FIG. 9 is a sectional view showing one example of a pot plant stand of a conventional structure.[0035]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIGS. 1 and 2 show one embodiment of a plant pot according to the present invention. FIG. 1 is a longitudinal sectional view, and FIG. 2 is an explanatory view for typically showing a planting state and air flow in soil. A [0036] plant pot 1 shown therein includes a gently conical outer wall, and a base plate 3 integral with the outer wall 2, and has a cylindrical partition wall 6 which divides the inside of the plant pot into a central planting section 4 and a surrounding vent section 5, provided in the plant pot. The base plate of the planting section 4 is provided with many water holes 7, and the lower portion of the outer wall 2 is provided with many vertical slits 8. The slits 8 are provided to extend vertically on the water surface of water contained in a water container to be described later, the parts of the slits on the water surface serve as air holes 8 a and the parts thereof under the water surface serve as water holes 8 b. While the partition wall 6 does not permeate the air, it is preferable to provide a water hole 7 a in the part under the water surface.
An [0037] outer flange 10 engaged with the cover 9 of the water container to be described later, and serving a handgrip to be used when the plant pot 1 is taken out are provided on the upper portion of the outer wall 2 integrally. In addition, a plurality of legs 11 are formed integrally with the bottom of the outer wall 2. The legs 11 are effective in handling the plant pot according to the present invention similarly to an ordinary plant pot when plants are planted in the plant pot 1.
As shown in FIG. 2, this plant pot is constituted so that the [0038] root 13 of a plant 12 to be planted extends into the soil of the planting section 4 inside the partition wall 6 and so that the vent section 5 becomes an air pass-through area in which the air flows from the upper surface of the soil 14 filled into the plant pot toward the slits 8.
FIGS. 3 and 4 show the first embodiment of a pot plant stand according to the present invention. FIG. 3 is a perspective view for seeing through the interior of the pot plant stand, and FIG. 4 is a longitudinal sectional view thereof. The [0039] external box 20 of the pot plant stand consists of a water container 21 of an upper stage and a base 22 of a lower stage. The water container 21 is put while being stacked on the base 22. The base 22 is divided into an upper air room 23 and a lower machine room 24 by a partition wall 19.
In the [0040] machine room 24, a fan 25 is installed, the air inlet of which penetrates the partition wall 19 and is opened to the air room 23. Many slit-like air outlets 26 are provided in the outer wall of the base 22. Though not shown, a cylindrical filter for dust removal is fitted into the interior of each air outlet.
A [0041] switch 27 for stopping the operation of the fan 25 is attached to the outer wall of the base 22. In addition, a drain hole 28 for removing dew drops by the dew condensation of water in the air room 23 is provided in one part of the bottom of the air room 23, and a drain pipe 29 is connected to this drain hole.
When the [0042] water container 21 is stacked on the base 22, the base plate 32 of the water container closes the upper surface of the base 22 to thus create the closed air room 23. Air pipes 30 which are opened in the upper portion of the water container 21 are built on the four portions of the outer periphery of the base plate 32, respectively. A vertically elongated water-level window 31 into which a transparent plate is fitted is provided on the lower portion of the outer wall of the water container 21. Index lines for the highest level and the lowest level are cut in the water-level window.
The ring-[0043] like cover 9 is fitted into the upper opening of the water container 21. While hooking the outer flange 10 on the ring-like cover 9, the plant pot 1 described with reference to FIGS. 1 and 2 is inserted into the water container 21. Although not shown in FIGS. 3 and 4, this plant pot 1 is filled with the soil in a manner shown in FIG. 2, and a plant of such a type as to multiply microorganisms having the air cleaning function on its root is planted in the soil.
When pouring water into the plant pot installed in the [0044] water container 21, the water which passes through the soil flows into the water container 21 through the water holes 7 and slits 8 and a predetermined quantity of water stays on the bottom of the water container 21. The index lines of the water-level window 31 are set such that even at the lowest level, the bottom of the soil in the plant pot 1 is dipped with the water that stays in the water container 21 and at the highest level, the slits 8 on the outer wall of the plant pot 1 are opened on the water surface with sufficient areas. Further, this highest level should be such that the root of the plant planted in the plant pot 1 is not rotten.
If the pot plant stand with the above-stated structure is installed in a room and the [0045] fan 25 is driven, the air in the room is absorbed from the upper surface of the soil of the plant pot into the soil, passed through the upper half portions 8 a of the slits 8, absorbed from the upper space of the water container 21 above the water surface into the air pipe 30, passed through the fan 25 via the air room 23, and discharged again from the slits 26 of the base into the room. When the air passes through the soil 14 in the plant pot, toxins contained in the air are removed by bacterium multiplied in this soil, thus the room air is cleaned. If the level of the water in the water container 21 lowers, water is poured into the plant pot 1 from the above to replenish water.
FIGS. 5 and 6 show the second embodiment of the pot plant stand according to the present invention. The pot plant stand in the second embodiment is constituted such that the [0046] water container 21 is a plane angular, rectangular container, and the machine room 24 having the fan 25 contained therein is attached to one portion of the side surface of the container 21. The relationship between the structure of the plant pot 1 and the water level of water in the water container 21 is the same as that described in the first embodiment. In addition, similarly to the first embodiment, the water level of the water container 21 can be visually recognized using the water-level window 31.
As shown in FIG. 6, an [0047] opening 33 through which the air inlet of the fan 25 is inserted is provided in one portion of the side wall of the water container 21, and the machine room 24 is attached to the water container 21 while being screwed into the container. The cover 34 of the machine room is provided with a slit-like air outlet 35, and a germicidal UV lamp 36 is attached into the air outlet. Although not shown in FIG. 6, a switch for stopping the operation of the fan 25 and a switch for turning on/off the UV lamp 36 are provided on a control panel attached to the cover 34 of the machine room.
According to the pot plant stand in this second embodiment, similarly to the first embodiment, the [0048] fan 25 is rotated, whereby the air in the room in which this pot plant stand is installed is absorbed from the upper surface of the soil, filled into the plant pot 1, into the soil, passed through the upper space 15 of the water container to the fan 25 via the air holes 8 a, and discharged again from the air outlet 35 into the room. The discharged air is cleaned by microorganism when passing through the soil in the plant pot. Further, if the germicidal lamp 36 is turned on, the air is sterilized, as well.
The pot plant stand according to the present invention can be used as a partition for defining a smoker-permitted reception room provided on a non-smoking floor or as a smoke divider (smoker's table) in a smoking corner. In this case, as shown in FIGS. 7 and 8, the structure of the pot plant stand in which a plurality of [0049] plant pots 1 are aligned and attached to the water container 21 formed on the upper portion of a plane rectangular external box 201 s desirable. FIG. 7 shows an example of using the pot plant stand as the smoke dividing partition. The plant pot is almost equal in structure to that in the first embodiment.
In this example, three [0050] plant pots 1 are aligned in the plane rectangular water container 21, and two fans 25 are provided to cause the air to pass through the soil in these plant pots. In addition, in this example, an exhaust room 38 is provided on the lower portion of the machine room 24. In this exhaust room, the same germicidal UV lamp 36 as that in the second embodiment is installed, and an activated carbon filter 39 for adsorbing the smell remaining in the exhausted air is installed in the rectangular air outlet 35 provided on the side surface of the external box. The structure and function of the stand are equal to those in the first embodiment. The lower end of the air pipe 30 which absorbs the air in the upper space of the water container is opened to the air room 23, and a groove-like drain guide 40 is provided on the bottom of the air room. The air in the air room 23 is absorbed by the fan 25 installed in the machine room 24, and the discharged air from the fan is introduced into the exhaust room 38 through an exhaust duct 41. The air discharged into the exhaust room is sterilized by the UV lamp 36, deodorized by the activated carbon filter 39, and discharged from the air outlet 35 into the room. The structure of each plant pot 1 is equal to that shown in FIG. 1.
FIG. 9 illustrates a pot plant stand proposed in, for example, Japanese Patent Application Laid-Open No. 2000-166388 is comprised of a [0051] plant pot 51, a water container 52 which contains the pot, and a fan 53, which causes the air to pass through the soil of the plant pot 51. The plant pot 51 has a water hole 54 provided on the bottom thereof, and a plurality of air holes 55 provided at equal height positions on the upper portion of the peripheral wall thereof. The water container 52 has an opening, into which the plant pot is inserted, provided on the upper surface thereof, and supports the inserted plant pot while giving spaces around the plant pot and on the bottom of the plant pot. The air inlet of the inlet tube 56 of the fan 53 is opened to the upper portion of the water container 52. A flexible ring seal 57 having an inner peripheral edge and an upper edge in contact with the outer periphery of the inserted plant pot 51 is provided on the upper portion of the water container 52.
In the pot plant stand, if the [0052] plant pot 51 in which a plant is planted is inserted into the water container 52, and water is poured into the plant pot, then surplus water flows from the water hole 54 into the water container 52 and the water level can be checked by a water-level gauge 58. When the fan 53 is rotated, the air in the room is absorbed from the upper surface of the soil in the plant pot, passed through the interior of the soil and through the air hole 55, the upper surface of the water container and the inlet tube 56, absorbed by the fan 53, and discharged again into the room. When exchanging one pot plant for another, it suffices to take out the plant pot 51 and to put a plant pot in which a new plant is planted.
The pot plant stand with the above-stated structure requires only small installation space and simple operation for the exchange of plants. The pot plant stand described in this document is also comprised of a light source (an incandescent lamp) [0053] 59 which illuminates the plant planted in the plant pot to thereby accelerate photosynthesis, and which sterilizes the air discharged from the fan 53 into the room.
In this document, protection measures for protecting the soil put in the [0054] plant pot 51 from being overflowed from the water hole 54 and the air holes 55 are also described. As the protection measures for the air hole 55, many small holes from which the soil does not flow out are provided, a mesh filter is attached, and a hood-like shield collar is provided inside the air hole.

Parts List

[0055] 1 plant pot
[0056] 2 outer wall
[0057] 3 base plate
[0058] 4 planting section
[0059] 5 vent section
[0060] 6 partition wall
[0061] 7 water holes
[0062] 7 a water holes
[0063] 8 vertical slits
[0064] 8 a air holes
[0065] 8 b water holes
[0066] 9 cover
[0067] 10 flange
[0068] 11 legs
[0069] 12 plant
[0070] 13 root
[0071] 14 soil
[0072] 15 upper space
[0073] 19 partition wall
[0074] 20 external box
[0075] 21 water container
[0076] 22 base
[0077] 23 upper air room
[0078] 24 lower machine room
[0079] 25 fan
[0080] 26 slits
[0081] 27 switch
[0082] 28 drain hole
[0083] 30 air pipes
[0084] 31 window
[0085] 32 base plate
[0086] 33 opening
[0087] 34 cover
[0088] 35 air outlet
[0089] 36 germicidal lamp
[0090] 38 exhaust room
[0091] 39 carbon filter
[0092] 41 exhaust duct
[0093] 51 plant pot
[0094] 52 water container
[0095] 53 fan
[0096] 54 water hole
[0097] 55 air hole
[0098] 56 inlet tube
[0099] 57 ring seal
[0100] 58 water-level gauge
[0101] 59 an incandescent lamp
The foregoing embodiments are presented by way of example only; the scope of the present invention is to be limited only by the following claims. [0102]

Claims

1. A pot plant stand having an air cleaning function, the pot plant stand comprising: a water container storing water in a bottom; a plant pot inserted into the water container while closing an upper surface opening of the water container; and a fan absorbing the air in an upper space formed between the water container and the plant pot, wherein the plant pot comprises: a partition wall dividing an interior of the plant pot into a planting section and a vent section at a height position lower than an outer wall of the plant pot, and having no air permeability; an air hole communicating the vent section with the upper space at a position lower than an upper edge of the partition wall and higher than water level of the water stored in the water container; and water holes communicating the planting section, the vent section and the bottom of the water container with one another at a position lower than the water level of the water stored in the water container.

2. A pot plant stand having an air cleaning function, the pot plant stand comprising: a water container storing water in a bottom; a plant pot supported by the water container while dipping a bottom of the plant pot with the water stored in the water container and closing an upper surface opening of the water container; and a fan communicated with an upper space of the water container, characterized in that the plant pot comprises: a partition wall dividing an interior of the plant pot into a planting section and a vent section, and having no air permeability; a water hole communicating the planting section with the bottom of the water container under a water surface of the water stored in the water container; communication holes communicating the planting section with the vent section under the water surface; and an air hole formed at a position right on the water surface of the water stored in the water container, and communicating the vent section with the upper space of the water container, in that each of the vent hole and the air hole comprises protection means for protecting leakage of soil in the plant pot, and in that the planting section and the vent section of the plant pot are filled with the soil.

3. A plant pot for a pot plant stand having an air cleaning function, the plant pot comprising: a partition wall dividing an interior of the plant pot into a central planting section and a surrounding vent section at a height position lower than an outer wall, and having no air permeability; an air hole penetrating the outer wall at a position lower than an upper edge of the partition wall; and water holes penetrating a base plate of the plant pot, a bottom of the partition wall and/or a bottom of the outer wall to thereby communicate the planting section, the vent section and an exterior of the plant pot with one another at a position lower than the vent hole.

4. A plant pot for a pot plant stand having an air cleaning function, the plant pot comprising: a partition wall dividing an interior of the plant pot into a planting section and a vent section, and having no air permeability; a water hole penetrating a base plate of the planting section; water holes communicating the planting section with the vent section on a bottom of the plant pot; and an air hole communicating the vent section with an exterior of the plant pot at a position higher than the water holes, characterized in that the planting section and the vent section of the plant pot are filled with soil.