JPH0216605Y2 - - Google Patents

Description

【考案の詳細な説明】 〔産業上の利用分野〕 本考案は、植木鉢の土壌が植物にとつて適度な
湿り具合に長期間維持されるように工夫した水タ
ンク付植木鉢に関するものである。[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a flower pot with a water tank that is devised so that the soil in the flower pot can be maintained at an appropriate moisture level for plants for a long period of time.

〔従来の技術〕[Conventional technology]

鉢植え植物の水管理で重要なことは、常に鉢土
に適度な湿り具合を保たせることである。植物の
根は水分を吸収するとともに呼吸も行つており、
この根呼吸が阻害される現象が根腐れであり、水
分過多の場合に発生する。鉢土は本来固有の飽和
含水率を有しているが、植物にとつて適度な湿り
具合の鉢土は、含水率がこの飽和含水率よりはる
かに低く根呼吸に十分な残留空気層を保つた状態
である。故に、鉢土に水を供給する場合は、その
量を制御調節して、鉢土が本来固有の飽和含水率
よりはるかに低い含水率に維持されるよう留意し
なければならない。 The important thing in water management for potted plants is to always keep the potting soil at an appropriate level of moisture. Plant roots absorb water and also breathe.
Root rot is a phenomenon in which root respiration is inhibited, and occurs when there is too much moisture. Potted soil inherently has a saturated moisture content, but potted soil that is moderately moist for plants has a moisture content that is much lower than this saturated moisture content and maintains a sufficient residual air layer for root respiration. It is in a state of Therefore, when supplying water to potting soil, care must be taken to control and adjust the amount so that the potting soil is maintained at a water content well below its natural saturated water content.

しかるに従来、鉢土の乾燥を防止する一般的な
方法として、鉢の下に水皿を置いて鉢土の一部が
水中に没する事によつて水分を吸水させる方法、
あるいは実開昭49−23441号公報にて開示される
如く吸水性多孔質物からなる植木鉢の壁面からも
水皿の水分を吸い上げて鉢土に浸透させる方法が
取られている。これらの方法は、鉢土の吸水に制
限がないので含水飽和状態に達していわゆる水分
過多による根腐れが起こり易いこと、水皿を深く
すると鉢土の水没部も深くなつて根腐れが更に起
こり易いので水量を多くできないこと、水面から
の直接蒸発による無駄使いがある為長持ちさせら
れないこと、水位が下がると水分の吸水が十分に
行われないこと、更に水皿の存在自体が美観を損
ない又水が溢れ易いため取扱いや運搬が不便にな
る事等の問題があつた。 However, conventionally, a common method to prevent potted soil from drying out is to place a water tray under the pot and allow some of the potted soil to absorb water by submerging it in water.
Alternatively, as disclosed in Japanese Utility Model Publication No. 49-23441, a method has been adopted in which water in a water tray is sucked up from the wall surface of a flower pot made of a water-absorbing porous material and allowed to permeate into the potting soil. With these methods, there is no limit to the water absorption of the potting soil, so the water content reaches a saturated state and root rot is likely to occur due to excessive water content.If the water tray is deepened, the submerged part of the potted soil also becomes deeper, causing further root rot. It is difficult to increase the amount of water because it is easy to use, it cannot be used for a long time because it is wasted due to direct evaporation from the water surface, it does not absorb enough water when the water level drops, and the presence of a water tray itself spoils the aesthetic appearance. Additionally, there were other problems, such as inconvenience in handling and transportation because water easily overflowed.

一方、上記問題点を解決する為に、実開昭57−
28636号公報にて開示される如く植木鉢本体の外
周に中空密閉状の貯水室を設け、該貯水室に連通
する植木鉢本体の上端部に補給及び自給用の通孔
を常時開口するとともに、該貯水室に連通する内
壁下部に水出口を開設し、更に該水出口に水流出
量制限用のフイルターを設けた自給水植木鉢が提
供されているが、貯水室は上部に通孔を有する開
放型であるため、該貯水室内の水はその水圧のた
め鉢土の乾湿に関係なくフイルターの特性に応じ
て水出口から定量流出し続けるので、水分の供給
過多や過少が起こり、根腐れや根枯れ防止の目的
が十分に達成されないといつた問題点を有してい
た。 On the other hand, in order to solve the above problems,
As disclosed in Publication No. 28636, a hollow sealed water storage chamber is provided on the outer periphery of the flowerpot body, and a through hole for replenishment and self-sufficiency is always open at the upper end of the flowerpot body communicating with the water storage chamber, and the water storage chamber is Self-watering flower pots have been provided that have a water outlet at the bottom of the inner wall that communicates with the chamber, and a filter for restricting the amount of water flowing out of the water outlet. Due to its water pressure, the water in the water storage chamber continues to flow out from the water outlet in a fixed amount according to the characteristics of the filter, regardless of the dryness or humidity of the potting soil, resulting in over- or under-supply of water, which prevents root rot and root wilt. The problem was that the objectives were not fully achieved.

〔考案が解決しようとする問題点〕[Problem that the invention attempts to solve]

本考案が前述の状況に鑑み、解決しようとする
ところは、外観や取扱いが通常の植木鉢と全く同
様でありながら、水を補給することなく鉢土が植
物にとつて適度な湿り具合に長期間保持され、根
腐れや根枯れを防止できるように工夫した水タン
ク付植木鉢を提供する点にある。 In view of the above-mentioned situation, the present invention aims to solve the problem by creating a plant pot that looks and handles exactly the same as a regular flower pot, but keeps the soil in the pot at an appropriate moisture level for the plants for a long period of time without replenishing water. To provide a flowerpot with a water tank that is designed to retain water and prevent root rot and root withering.

〔問題点を解決するための手段〕[Means for solving problems]

本考案は、前述の問題解決の為に、表面が吸水
性多孔質物の内壁と下端部外周全縁若しくは一部
を除いて非透水性外壁を有する略筒状の内鉢の上
下端縁と、非透水性の略筒状の外鉢の上端内縁及
び底部上面との接合部を防水シールして一体連結
し、前記内鉢と外鉢間に形成される気密環状中空
部を水タンクとなし、該水タンクの最上部に設け
た注水口に気密蓋を着脱自在に取付けるととも
に、下端部において該水タンク内に露出した吸水
性多孔質物の部位を導水路となした水タンク付植
木鉢を構成した。 In order to solve the above-mentioned problem, the present invention includes upper and lower edges of a substantially cylindrical inner pot, which has an inner wall of a water-absorbing porous material on the surface and an outer wall that is impermeable except for the entire or part of the outer circumference of the lower end; A non-water permeable, substantially cylindrical outer bowl is integrally connected with the inner edge of the upper end and the upper surface of the bottom by waterproof sealing, and the airtight annular hollow part formed between the inner bowl and the outer bowl is used as a water tank; A flower pot with a water tank is constructed in which an airtight lid is detachably attached to a water inlet provided at the top of the water tank, and a water-absorbing porous material exposed in the water tank at the lower end is used as a conduit. .

〔作用〕[Effect]

以上の如き内容からなる本考案の水タンク付植木
鉢の作用を以下に述べる。 The operation of the flowerpot with water tank of the present invention having the above-mentioned contents will be described below.

今、水タンクに注水口より水を注入すると、水
はそれ自体の水圧で底部に露出している導水路を
通つて吸水性多孔質物を湿らせる同時に内壁から
内鉢の内部へにじみ出るが、気密蓋にて注水口を
密閉すると水の流出に伴う内部減圧が生じ、その
負圧と水圧とのバランスがとれて水の流出は停止
しようとする。ところが、吸水性多孔質物は毛細
管現象による吸水性と通気性とを共有しているの
で、水はその吸水力で吸い出されると同時に代わ
つて同等量の空気がやはり導水路を通つて水タン
ク内に吸入される。この水と空気の置換作用は、
吸水性多孔質物が飽和状態となつて吸水限界に達
すると停止する。 Now, when water is injected into the water tank from the water inlet, the water flows through the water conduit exposed at the bottom under its own water pressure, moistens the water-absorbing porous material, and at the same time oozes out from the inner wall into the inner bowl, but is airtight. When the water inlet is sealed with a lid, internal pressure is reduced as water flows out, and the negative pressure and water pressure are balanced and water attempts to stop flowing out. However, since water-absorbing porous materials share water absorption and air permeability through capillary action, water is sucked out by its water-absorbing power, and at the same time an equal amount of air flows through the water conduit into the water tank. is inhaled. This displacement effect between water and air is
When the water-absorbing porous material becomes saturated and reaches its water absorption limit, it stops.

次に、内鉢の内部へ鉢土を入れると、鉢土自体
も吸水性があるので、吸水性多孔質物の含有水分
を内壁から奪い取り、必然的に吸水性多孔質物は
未飽和状態となつて前述の水と空気の置換作用が
連鎖的に促される。こうして水タンクの水が吸水
性多孔質物を媒体にして連続的に鉢土に供給され
続けるが、鉢土全体が吸水限界状態に達すると停
止する。 Next, when potting soil is poured into the inner pot, since the potting soil itself is water-absorbing, the moisture contained in the water-absorbing porous material is taken away from the inner wall, and the water-absorbing porous material inevitably becomes unsaturated. The above-mentioned water and air displacement action is promoted in a chain reaction. In this way, water from the water tank is continuously supplied to the potting soil using the water-absorbing porous material as a medium, but it stops when the entire potting soil reaches its water absorption limit state.

ここでいう鉢土の吸水限界状態とは、鉢土が吸
水性多孔質物から水分を奪い取る場合の相対的吸
水力の限界状態を指すのであつて、その時の含水
率は飽和状態のそれより遥かに低い値である事が
実験で試されている。この時鉢土は、残留空気層
を十分含み、植物にとつて根腐れの心配のない適
度な湿り具合の状態が保持される事となる。 The water absorption limit state of potting soil here refers to the limit state of relative water absorption power when potting soil takes water from water-absorbing porous materials, and the water content at that time is far higher than that in the saturated state. A low value has been tested in experiments. At this time, the potting soil contains a sufficient amount of residual air, and the plant is kept at an appropriate level of moisture without worrying about root rot.

実際の使用時は、鉢土の表面から水分が常に蒸
散しているが、前述の如き連鎖的作用により、そ
れと同等量の水分が水タンクより随時補給され、
鉢土は常に適度な一定の含水率に維持される。ま
た、夏期等気温が高い時期は蒸発量が増加して水
分過多に陥る恐れがあるが、水タンク内の空気の
膨張及び蒸気圧の上昇によつて内圧が高まつて水
分の補給が増加し、やはり常に適度な湿り具合が
保持される事となる。 During actual use, water constantly evaporates from the surface of the potted soil, but due to the chain reaction described above, an equivalent amount of water is constantly replenished from the water tank.
Potting soil is always maintained at a moderate and constant moisture content. Additionally, during periods of high temperature such as summer, the amount of evaporation increases and there is a risk of overhydration, but the internal pressure increases due to the expansion of the air in the water tank and the rise in vapor pressure, increasing the amount of water replenishment. After all, an appropriate level of moisture is maintained at all times.

〔実施例〕〔Example〕

次に添付図面に示した実施例に基づき更に本考案
の詳細を説明する。 Next, the present invention will be further explained in detail based on the embodiments shown in the accompanying drawings.

第１図に示す如く、素焼等の高密度な吸水性多
孔質物１を素材とした略筒状の内鉢４の外周面に
おいて、その下端部外周全縁若しくは一部を生地
のまま残して他の全面に防水被膜を施して非透水
性外壁３を形成する。このようにした内鉢４をこ
れより十分に大きな非透水性の有底筒状の外鉢５
の内側に嵌め込んで、前記内鉢４の上下端縁と該
外鉢５の上端内縁及び底部上面との接合部６を防
水シールして一体連結し、該内鉢４と外鉢５間に
形成される気密環状中空部を水タンク７となし、
該水タンク７の最上部に設けた注水口８に気密蓋
９を着脱自在に取付ける。尚、本実施例では外鉢
５を有底筒状となしたが、内鉢４を有底筒状とな
すことも勿論可能である。そして、前記水タンク
７の下端部において該水タンク７内に露出した吸
水性多孔質物１の部位を導水路１０となし、該導
水路１０を通して水タンク７から内鉢４の内部へ
水を供給するようになしている。 As shown in FIG. 1, on the outer circumferential surface of a substantially cylindrical inner pot 4 made of a high-density water-absorbing porous material 1 such as bisque ware, the whole or a part of the outer circumference of the lower end is left intact. A water-impermeable outer wall 3 is formed by applying a waterproof coating to the entire surface. The thus constructed inner pot 4 is replaced by a water-impermeable bottomed cylindrical outer pot 5 which is sufficiently larger than the inner pot 4.
The upper and lower edges of the inner pot 4 and the inner edge of the upper end and the upper surface of the bottom of the outer pot 5 are integrally connected by waterproof sealing. The formed airtight annular hollow part is used as a water tank 7,
An airtight lid 9 is detachably attached to a water inlet 8 provided at the top of the water tank 7. In this embodiment, the outer bowl 5 is formed into a cylindrical shape with a bottom, but it is of course possible to form the inner bowl 4 into a cylindrical shape with a bottom. The portion of the water-absorbing porous material 1 exposed in the water tank 7 at the lower end of the water tank 7 is used as a water conduit 10, and water is supplied from the water tank 7 to the inside of the inner bowl 4 through the water conduit 10. I'm trying to do that.

更に本考案の実施態様には次のようなものがあ
る。 Further embodiments of the present invention include the following.

(A) 内鉢４の構造を、第２図及び第３図に示す如
く、素焼等の吸水性多孔質物１で成型して外壁
３に防水被膜１１を施すに当たり、その下端部
外周全縁に細い帯状又は下端部外周に複数の小
面積部分からなる斑紋状の生地露出部を設け
て、該露出部を導水路１０となしたものであ
る。(A) As shown in FIGS. 2 and 3, the structure of the inner pot 4 is molded from a water-absorbing porous material 1 such as unglazed ceramics, and when applying the waterproof coating 11 to the outer wall 3, the entire outer periphery of the lower end is coated. A thin band-like or mottled fabric exposed portion consisting of a plurality of small area portions is provided on the outer periphery of the lower end portion, and the exposed portion is used as a water conduit 10.

この場合、吸水性多孔質物１の緻密度や露出
部の面積の調整により透水量をコントロールし
て、鉢土の湿り具合を制御できる。 In this case, the amount of water permeation can be controlled by adjusting the density of the water-absorbing porous material 1 and the area of the exposed portion, thereby controlling the wetness of the potted soil.

(B) 内鉢４の構造を、第４図に示す如く、非透水
性素材１２で成型してその下部において内外に
貫通する小孔を適当数穿ち、内壁に不織布等の
透水性多孔質シート１３を張りつけて、該透水
性多孔質シート１３の下端部をそれぞれの小孔
に密栓状に嵌め込み挿入して外壁即ち水タンク
７内にその露出部を臨ませたものとなした。(B) As shown in Fig. 4, the structure of the inner bowl 4 is made of a non-water-permeable material 12, with an appropriate number of small holes penetrating inside and outside in its lower part, and a water-permeable porous sheet such as non-woven fabric on the inner wall. 13, and the lower end of the water-permeable porous sheet 13 was fitted and inserted into each small hole in the form of a tight plug, so that the exposed portion was exposed to the outer wall, that is, inside the water tank 7.

この場合、透水性多孔質シート１３の緻密度
や露出部の面積の調整により透水量をコントロ
ールして、鉢土の湿り具合を制御できる。 In this case, the amount of water permeation can be controlled by adjusting the density of the water-permeable porous sheet 13 and the area of the exposed portion, thereby controlling the wetness of the potting soil.

〔考案の効果〕[Effect of idea]

以上にしてなる本考案の水タンク付植木鉢によ
れば、表面が吸水性多孔質物の内壁と下端部外周
全縁若しくは一部を除いて非透水性外壁を有する
略筒状の内鉢の上下端縁と、非透水性の略筒状の
外鉢の上端内縁及び底部上面との接合部を防水シ
ールして一体連結し、前記内鉢と外鉢間に形成さ
れる気密環状中空部を水タンクとなし、該水タン
クの最上部に設けた注水口に気密蓋を着脱自在に
取付けるとともに、下端部において該水タンク内
に露出した吸水性多孔質物の部位を導水路とな
し、実際の使用時には水タンクを密閉したので、
通常、水圧及び吸水性多孔質物の吸水力と水タン
ク内負圧とのバランスがとれて水の流出は停止し
ているが、鉢土が水分過少になるとこのバランス
がくずれ導水路部での空気との置換作用により水
が補給される。この作用は鉢土と吸水性多孔質物
との相対的吸水力に起因し、その吸水限界状態に
達するまで持続する。この吸水限界状態にある鉢
土、その固有の飽和含水率よりはるかに低い含水
率に保たれ、十分な残留空気層を保有しているの
で、植物にとつて適度な湿り具合の状態にある。 According to the above-described flower pot with a water tank of the present invention, the upper and lower ends of the substantially cylindrical inner pot have an inner wall whose surface is made of a water-absorbing porous material and an outer wall which is impermeable except for the entire outer periphery or part of the lower end. The joints between the rim, the upper inner edge of the non-water permeable substantially cylindrical outer bowl, and the upper surface of the bottom are integrally connected by waterproof sealing, and the airtight annular hollow space formed between the inner bowl and the outer bowl is used as a water tank. In addition, an airtight cover is removably attached to the water inlet provided at the top of the water tank, and the water-absorbing porous material exposed inside the water tank at the bottom end is used as a water conduit. I sealed the water tank,
Normally, the water pressure and water absorption power of the water-absorbing porous material are balanced with the negative pressure inside the water tank, and water stops flowing out. However, if the potting soil becomes too moist, this balance is disrupted and the air in the conduit becomes Water is replenished by the displacement action with This effect is caused by the relative water absorption power of the potting soil and the water-absorbing porous material, and continues until the water absorption limit state is reached. This potting soil, which is at the limit of water absorption, is kept at a water content much lower than its own saturated water content and has a sufficient residual air layer, so it is in a state of appropriate moisture for plants.

即ち、本考案の水タンク付植木鉢は、蒸発量と
等量の水分が補給されるので、鉢土はその固有の
飽和含水率よりはるかに低い含水率に維持され
て、水分の供給過多過少による根腐れ根枯れが起
こらず、蒸発量以上の水を必要としない節約効果
がある。また、水タンクが密閉型なので、気温が
上がり蒸発量が増加しても水タンクの内圧上昇に
より水補給を増加して鉢土の含水率を安定させ、
植木鉢が傾いたり揺れたりしても水が溢れること
はなく、更に水の供給過多がないので植木鉢の底
から溢れる水を受ける受け皿を必要とすることも
ない。よつて、本考案の水タンク付植木鉢は、一
般の植木鉢と同様の扱い方でありながら、鉢土を
常に適度な湿り具合に維持する自己調節機能を有
した自動吸水植木鉢である。 In other words, in the flowerpot with a water tank of the present invention, water is replenished in an amount equal to the amount of evaporation, so the potting soil is maintained at a water content much lower than its own saturated water content, and the potting soil is maintained at a water content much lower than its own saturated water content, which prevents water from being supplied too much or too little. Root rot and root wilt do not occur, and there is a saving effect of not requiring more water than evaporation. In addition, since the water tank is a closed type, even if the temperature rises and the amount of evaporation increases, the internal pressure of the water tank increases, increasing water supply and stabilizing the moisture content of the potted soil.
Even if the flowerpot is tilted or shaken, water will not overflow, and since there is no oversupply of water, there is no need for a saucer to catch water overflowing from the bottom of the flowerpot. Therefore, the flower pot with a water tank of the present invention is an automatic water-absorbing flower pot that can be handled in the same way as a general flower pot, but has a self-regulating function that keeps the soil in the pot at an appropriate level of moisture.

また、本考案の水タンク付植木鉢は、水タンク
の容量次第で１ケ月間放置しても問題のないこと
が実証ずみであり、また水タンクに水を満たした
まま日々水やりを行つても差し支えないばかり
か、その間水タンク内の水の消費が節約できた。
更に、サボテンのような乾燥状態を好む植物に対
しては、導水路部を小さくすることによつて鉢土
の含水率を極端に低くできるのである。 In addition, it has been proven that the flower pot with a water tank of the present invention can be left for a month without any problem depending on the capacity of the water tank, and even if the water tank is filled with water and watered every day. Not only was this not a problem, it also saved water consumption in the water tank during that time.
Furthermore, for plants that prefer dry conditions, such as cacti, by making the conduit portion smaller, the water content of the potting soil can be extremely reduced.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本考案の水タンク付植木鉢の断面図、
第２図は内鉢の一部破断斜視図、第３図は内鉢の
他の実施例を示す一部破断斜視図、第４図は内鉢
の更に他の実施例を示す一部破断斜視図である。 １……吸水性多孔質物、２……内壁、３……非
透水性外壁、４……内鉢、５……外鉢、６……接
合部、７……水タンク、８……注水口、９……気
密蓋、１０……導水路、１１……防水被膜、１２
……非透水性素材、１３……透水性多孔質シー
ト。 Figure 1 is a cross-sectional view of the flower pot with a water tank of the present invention.
Fig. 2 is a partially cutaway perspective view of the inner pot, Fig. 3 is a partially cutaway perspective view showing another embodiment of the inner pot, and Fig. 4 is a partially cutaway perspective view showing yet another embodiment of the inner pot. It is a diagram. 1... Water-absorbing porous material, 2... Inner wall, 3... Impermeable outer wall, 4... Inner pot, 5... Outer pot, 6... Joint, 7... Water tank, 8... Water inlet , 9... Airtight lid, 10... Water conduit, 11... Waterproof coating, 12
... Non-water permeable material, 13... Water permeable porous sheet.

Claims (1)

【実用新案登録請求の範囲】 １ 表面が吸水性多孔質物１の内壁２と下端部外
周全縁若しくは一部を除いて非透水性外壁３を
有する略筒状の内鉢４の上下端縁と、非透水性
の略筒状の外鉢５の上端内縁及び底部上面との
接合部６を防水シールして一体連結し、前記内
鉢４と外鉢５間に形成される気密環状中空部を
水タンク７となし、該水タンク７の最上部に設
けた注水口８に気密蓋９を着脱自在に取付ける
とともに、下端部において該水タンク７内に露
出した吸水性多孔質物１の部位を導水路１０と
なしたことを特徴とする水タンク付植木鉢。 ２ 前記内鉢４として、略筒状の吸水性多孔質物
１の外側面に、導水路１０となる下端部外周全
縁を除いて防水被膜を施して非透水性外壁３を
形成した内鉢４を用いてなる実用新案登録請求
の範囲第１項記載の水タンク付植木鉢。 ３ 前記内鉢４として、略筒状の吸水性多孔質物
１の外側面に、導水路１０となる下端部外周の
複数の小面積部分を除いて防水被膜を施して非
透水性外壁３を形成した内鉢４を用いてなる実
用新案登録請求の範囲第１項記載の水タンク付
植木鉢。 ４ 前記内鉢４として、略筒状の非透水性素材１
２の下端部外周に内外に貫通する複数の小孔を
穿設し、該非透水性素材１２の内壁に透水性多
孔質シート１３を張設するとともに、該シート
１３の下端部を前記小孔に密栓状に挿入して導
水路１０を形成した内鉢４を用いてなる実用新
案登録請求の範囲第１項記載の水タンク付植木
鉢。[Claims for Utility Model Registration] 1. The upper and lower edges of a substantially cylindrical inner pot 4 having an inner wall 2 whose surface is a water-absorbing porous material 1 and an outer wall 3 which is impermeable except for the whole or part of the lower edge of the outer periphery. The inner edge of the upper end and the upper surface of the bottom part 6 of the non-water permeable substantially cylindrical outer bowl 5 are waterproof sealed and integrally connected, and the airtight annular hollow part formed between the inner bowl 4 and the outer bowl 5 is formed. A water tank 7 is provided, and an airtight lid 9 is removably attached to a water inlet 8 provided at the top of the water tank 7, and a portion of the water-absorbing porous material 1 exposed inside the water tank 7 is guided at the lower end. A flowerpot with a water tank characterized by having 10 waterways. 2 The inner pot 4 is an inner pot 4 in which a water-impermeable outer wall 3 is formed by applying a waterproof coating to the outer surface of a substantially cylindrical water-absorbing porous material 1 except for the entire outer periphery of the lower end, which becomes the water conduit 10. A flowerpot with a water tank according to claim 1 of the utility model registration claim, which uses the above. 3 As the inner pot 4, a water-impermeable outer wall 3 is formed by applying a waterproof coating to the outer surface of the substantially cylindrical water-absorbing porous material 1, except for a plurality of small area portions on the outer periphery of the lower end that will become the water conduit 10. A flower pot with a water tank according to claim 1, which uses an inner pot 4 having a water tank. 4 As the inner pot 4, a substantially cylindrical non-water permeable material 1
A plurality of small holes penetrating inside and outside the outer periphery of the lower end of the material 12 are made, a water permeable porous sheet 13 is stretched over the inner wall of the non-water permeable material 12, and the lower end of the sheet 13 is inserted into the small holes. A flower pot with a water tank according to claim 1, which uses an inner pot 4 which is inserted in a sealed manner to form a conduit 10.