JPH0937663A - Flowerpot unit - Google Patents
Flowerpot unitInfo
- Publication number
- JPH0937663A JPH0937663A JP21536295A JP21536295A JPH0937663A JP H0937663 A JPH0937663 A JP H0937663A JP 21536295 A JP21536295 A JP 21536295A JP 21536295 A JP21536295 A JP 21536295A JP H0937663 A JPH0937663 A JP H0937663A
- Authority
- JP
- Japan
- Prior art keywords
- water
- container
- soil
- pot
- bowl
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Landscapes
- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は容器中の水分を吸い
上げて上方の鉢部内の用土に供給する植木鉢ユニットに
関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flower pot unit for sucking up water in a container and supplying it to the soil in the pot above.
【0002】[0002]
【従来の技術】容器内の水分を吸い上げて上方の鉢部内
の用土に供給する植木鉢ユニットには室内装飾用の調度
として使用されるものがある。図8は、かかる従来の植
木鉢ユニットの一例を示す部分断面図である。図8にお
いて、水を保持するための容器42の上方には鉢部40
が載せられている。比較的硬い材料でできている棒状の
給水手段44は、一部が鉢部40内の用土48に埋め込
まれ、他の部分は鉢部40の底部に設けられている小孔
を介して鉢部40の外に伸長し、容器42中の水20に
浸されている。容器42中の水20は水分子の凝集力お
よび他分子との付着力により、棒状の給水手段44中を
通り、鉢部40内の用土48、更には鉢花41に供給さ
れる。このように、植木鉢ユニットには、頻繁に給水を
行わないで済むという利点がある。2. Description of the Related Art There is a flowerpot unit used for upholstery in a plant pot unit that sucks up moisture in a container and supplies it to the soil in the pot portion above. FIG. 8 is a partial cross-sectional view showing an example of such a conventional flower pot unit. In FIG. 8, a bowl 40 is provided above a container 42 for holding water.
Has been posted. A part of the rod-shaped water supply means 44 made of a relatively hard material is embedded in the soil 48 in the pot 40, and the other part is potted through a small hole provided at the bottom of the pot 40. It extends out of 40 and is submerged in water 20 in a container 42. The water 20 in the container 42 passes through the rod-shaped water supply means 44 by the cohesive force of water molecules and the adhesive force with other molecules, and is supplied to the soil 48 in the pot portion 40 and further to the pot flower 41. As described above, the flowerpot unit has an advantage that it is not necessary to supply water frequently.
【0003】[0003]
【発明が解決しようとする課題】上記の利点を有する植
木鉢ユニットにおいてもいくつかの問題がある。第1
に、水分の用土への供給は、棒状の給水手段44が用土
48と接触している面のみから行われるが、その接触面
積が小さいので用土に供給される水量は鉢花の栽培には
必ずしも十分でない。第2に鉢部40には棒状の給水手
段44が貫通するための小孔が設けられており、この小
孔を塞がないと用土が容器中の水に落下する可能性があ
る。落下した用土は容器中の水20に溶け、水20を汚
すので容器が透明容器である場合には、鑑賞上不都合で
ある。第3に容器の水20が不足して補給が必要とされ
る度に、その都度鉢部40を外すか、上方にずらして容
器開口部から水を容器に補給しなければならない。There are some problems in the flower pot unit having the above advantages. First
In addition, the water is supplied to the soil only from the surface where the rod-shaped water supply means 44 is in contact with the soil 48. However, since the contact area is small, the amount of water supplied to the soil is not always necessary for pot flower cultivation. not enough. Secondly, the bowl portion 40 is provided with a small hole through which the rod-shaped water supply means 44 penetrates, and the soil may drop into the water in the container unless the small hole is closed. The dropped soil dissolves in the water 20 in the container and pollutes the water 20, so that it is inconvenient for viewing when the container is a transparent container. Thirdly, each time the water 20 in the container is insufficient and needs to be replenished, the bowl 40 must be removed or shifted upward to replenish the container with water through the container opening.
【0004】従って、本発明は、給水手段から用土に水
分が十分に供給され、鉢部の用土が水を保持している容
器に落下することがなく、また、鉢部を移動させる手間
を必要とせず容易に水を補給することができる植木鉢ユ
ニットを提供することを目的とする。Therefore, according to the present invention, the water is sufficiently supplied to the soil from the water supply means, the soil in the pot does not drop into the container holding the water, and the labor for moving the pot is required. An object of the present invention is to provide a flowerpot unit that can easily replenish water without doing so.
【0005】[0005]
【課題を解決するための手段】上記目的を達成するため
に本発明では、鉢部内に少なくとも2次元的な広がりを
持つ水分保持手段を設け、上記の鉢部の小孔のような鉢
部内の空間を容器の低部空間に連通させる手段を塞ぐよ
うにしている。この水分保持手段に給水手段の一部を接
触させ、給水手段の他の部分は前記連通させる手段を介
して容器の底部空間に伸長させるようにしている。また
容器の底部と開口部の間に設けた支持手段と、容器の側
面で鉢部を構成するようにし、外部から容器の底部空間
に給水できるよう、底部空間に連通する注水通路手段を
設けるようにしている。In order to achieve the above object, in the present invention, a water holding means having at least a two-dimensional expansion is provided in the bowl, and the inside of the bowl such as the small hole of the bowl is provided. The means for communicating the space with the lower space of the container is closed. A part of the water supply means is brought into contact with the water holding means, and the other part of the water supply means is extended to the bottom space of the container via the means for communicating. In addition, a support means provided between the bottom and the opening of the container and a side surface of the container constitute a bowl, and a water injection passage means communicating with the bottom space is provided so that water can be supplied to the bottom space of the container from the outside. I have to.
【0006】すなわち本発明によれば、上方に開口部を
有し、下方に底部を有する容器と、前記底部と前記開口
部の間の所定位置にあって、前記容器の側面と共に用土
を収納するための鉢部を形成し、かつ前記容器の上部に
前記用土を支持する支持手段と、前記鉢部内の空間を、
前記支持手段と前記底部に挟まれて形成される前記容器
の底部空間に連通させる手段と、前記底部空間に連通し
て、外部から給水できるよう設けられた注水通路手段
と、前記鉢部内にあって少なくとも2次元的な広がりを
もち、前記連通させる手段から前記用土が前記底部空間
に流出しないよう前記連通させる手段を覆うように設け
られた吸湿性のある水分保持手段と、前記底部空間中の
水を吸い上げて前記鉢部中の前記用土に前記水を供給す
ることができるよう、一部が前記鉢部内において前記水
分保持手段に接するように取り付けられ、他の部分が前
記連通させる手段を介して前記底部空間内に伸長するよ
うに設けられた給水手段とを有する植木鉢ユニットが提
供される。That is, according to the present invention, a container having an opening at the top and a bottom at the bottom, and at a predetermined position between the bottom and the opening, the soil is stored together with the side surface of the container. Forming a bowl for, and supporting means for supporting the soil on the top of the container, and the space in the bowl,
A means for communicating with the bottom space of the container formed between the supporting means and the bottom, a water injection passage means provided for communicating with the bottom space and allowing water to be supplied from outside, and in the bowl portion. And at least a two-dimensional spread, and a hygroscopic water retaining means provided so as to cover the communicating means so that the soil does not flow out of the communicating means into the bottom space; In order to suck up water and supply the water to the soil in the pot part, a part is attached in contact with the water holding means in the pot part, and another part is connected through the means for communicating. And a water supply means provided so as to extend into the bottom space.
【0007】[0007]
【発明の実施の形態】以下図面と共に本発明の実施の形
態を好ましい実施例によって説明する。図1は本発明の
第1実施例を説明する部分断面図であり、鉢花22が植
えられた状態を示している。図2は各部材の容器12へ
の組立て方を示す組立図で、容器12の側面の一部を切
り取った様子が示されている。図1において容器12は
底部27を有する円筒状になっており、容器12の開口
部と底部27の間の中央付近の位置には、外径が容器1
2の内径とほぼ等しく、内周が外周と同心円で中央が丸
く切り取られた形の環状の補助部材15が容器12の底
部27に平行になるよう容器12の側面に取り付けられ
ている。この補助部材15の上には支持板13が取り外
し可能に載せられている。支持板13は外径が容器12
の内径にほぼ等しい円板状のもので、中央部に小孔24
が設けられている。支持板13は容器12の開口部と支
持板13で挟まれる容器12の側面と共に用土18を収
納するための鉢部26を形成している。支持板13及び
補助部材15は支持手段を構成する。また、支持板13
と底部27に挟まれるようにして容器12内に底部空間
28が形成されている。この底部空間28に連通するよ
うに容器12の側面には、注水口17が設けられてい
る。この注水口17を介して容器12の底部空間28に
水が補給される。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a partial cross-sectional view illustrating a first embodiment of the present invention, showing a state in which potted flowers 22 are planted. FIG. 2 is an assembly diagram showing how to assemble each member into the container 12, and shows a state in which a part of the side surface of the container 12 is cut off. In FIG. 1, the container 12 has a cylindrical shape having a bottom portion 27, and an outer diameter of the container 1 is located near the center between the opening portion of the container 12 and the bottom portion 27.
An annular auxiliary member 15 having a shape substantially equal to the inner diameter of 2, the inner circumference of which is concentric with the outer circumference and the center of which is cut off is attached to the side surface of the container 12 so as to be parallel to the bottom 27 of the container 12. The support plate 13 is detachably mounted on the auxiliary member 15. The outer diameter of the support plate 13 is the container 12
It has a disk shape that is almost equal to the inner diameter of
Is provided. The support plate 13 forms a pot 26 for accommodating the soil 18 together with the opening of the container 12 and the side surface of the container 12 sandwiched between the support plates 13. The support plate 13 and the auxiliary member 15 constitute a support means. In addition, the support plate 13
A bottom space 28 is formed in the container 12 so as to be sandwiched by the bottom 27. A water injection port 17 is provided on the side surface of the container 12 so as to communicate with the bottom space 28. Water is supplied to the bottom space 28 of the container 12 through the water injection port 17.
【0008】用土18は椀状の水分保持部材14に入れ
られて、水分保持部材14と共に鉢部26に収納される
こととなる。椀状の水分保持部材14は鉢部26の内部
の形状に合うように天然パルプ原料のペーパータオルで
作ったものである。このペーパータオルにはライオン株
式会社製のリード(商標)を用いることができる。支持
板13の小孔24は椀状の水分保持部材14に覆われる
ので用土18が容器12の底部27に落下することはな
い。The soil 18 is put into the bowl-shaped water holding member 14 and is stored in the bowl portion 26 together with the water holding member 14. The bowl-shaped water holding member 14 is made of a paper towel made of natural pulp so as to fit the shape of the inside of the bowl 26. Reed (trademark) manufactured by Lion Corporation can be used for this paper towel. Since the small holes 24 of the support plate 13 are covered with the bowl-shaped water holding member 14, the soil 18 does not drop on the bottom 27 of the container 12.
【0009】支持板13の上には、いくつかの紐状の給
水部材16の一端が支持板13と椀状の水分保持部材1
4の間に挟まれて小孔24を中心として放射状に広がる
ようように取り付けられている。この紐状の給水部材1
6の他端は支持板13の小孔24を通過して容器12の
底部空間28に溜められる水20に浸されることとな
る。紐状の給水部材16は不織布を縦250mm、横1
20mmの長方形に切り取り、横方向に巻いたもので、
その横方向の断面は直径5mmの円形になるようにして
ある。この不織布としては台所排水用水切りゴミ袋であ
る呉羽化学工業株式会社製のダストマン○(商標)に使
用されているものを用いることができる。On the support plate 13, one end of several string-shaped water supply members 16 and the support plate 13 and the bowl-shaped water holding member 1 are provided.
It is attached so as to be sandwiched between 4 and to spread radially around the small hole 24. This string-shaped water supply member 1
The other end of 6 passes through the small hole 24 of the support plate 13 and is immersed in the water 20 stored in the bottom space 28 of the container 12. The string-shaped water supply member 16 is made of non-woven fabric with a length of 250 mm and a width of 1
It is cut in a rectangle of 20 mm and wound in the horizontal direction.
The cross section in the transverse direction is circular with a diameter of 5 mm. As this non-woven fabric, the one used in Dustman® (trademark) manufactured by Kureha Chemical Industry Co., Ltd., which is a drainage garbage bag for kitchen drainage, can be used.
【0010】次にこの植木鉢ユニットの鉢花22への給
水過程について説明する。容器12の底部空間28に溜
められた水20は、水分子の凝集力及び他分子との付着
力により紐状の給水部材16に浸透する。浸透した水分
は紐状の給水部材16中を通り椀状の水分保持部材14
に供給される。椀状の水分保持部材14は、用土18と
の接触面を介して鉢花22に十分な量の水分を供給す
る。Next, the process of supplying water to the potted flower 22 of this flower pot unit will be described. The water 20 stored in the bottom space 28 of the container 12 penetrates into the string-shaped water supply member 16 by the cohesive force of water molecules and the adhesive force with other molecules. The permeated water passes through the cord-shaped water supply member 16 and the bowl-shaped water holding member 14
Is supplied to. The bowl-shaped water holding member 14 supplies a sufficient amount of water to the potted flower 22 through the contact surface with the soil 18.
【0011】次に第2実施例について説明する。図3は
各部材の容器12への組立て方を示す組立図で、容器1
2の側面の一部を切り取った様子が示されている。第2
実施例が第1実施例と構成上異なる点は、椀状の水分保
持部材14に代えて平板状の水分保持部材30が用いら
れている点と、環状の補助部材15に代えて、容器12
の内周を3等分するように3個の突起部34が容器12
に取り付けられている点である。この3個の突起部34
の上に平板状の水分保持部材13を載せるのである。他
は第1実施例と同様である。Next, a second embodiment will be described. FIG. 3 is an assembly diagram showing how to assemble each member into the container 12.
It is shown that a part of the side surface of 2 is cut out. Second
The difference between the first embodiment and the first embodiment in structure is that a flat plate-shaped water holding member 30 is used instead of the bowl-shaped water holding member 14 and that the container 12 is replaced with the annular auxiliary member 15.
The three protrusions 34 divide the inner circumference of the container into three equal parts.
Is the point attached to. These three protrusions 34
The flat plate-shaped moisture holding member 13 is placed on the above. Others are the same as the first embodiment.
【0012】用土との接触面積を大きくする点では椀状
の水分保持部材14の方が有利であるが、平板状の水分
保持部材30の方が製造上の工程数の面から生産性が高
く、かつコストの面から有利であると考えられる。ま
た、用土18を支持する支持板13を容器12内の所定
の位置に保持する点で環状の補助部材15を容器12に
取り付ける方が強度的に優れているが、コストの面から
は3個の突起部34を容器12に取り付ける方が有利で
あると考えられる。The bowl-shaped water holding member 14 is more advantageous in terms of increasing the contact area with the soil, but the flat plate-shaped water holding member 30 has higher productivity in terms of the number of manufacturing steps. In addition, it is considered to be advantageous in terms of cost. Further, it is better to attach the annular auxiliary member 15 to the container 12 in terms of holding the support plate 13 that supports the soil 18 at a predetermined position in the container 12, but from the viewpoint of cost, three pieces are provided. It may be advantageous to attach the projection 34 of the container to the container 12.
【0013】次の第3実施例及び第4実施例は第1実施
例の構成の一部を変更したものである。第3実施例で
は、第1実施例の腕状の水分保持部材14に代えて、第
2実施例の平板状の水分保持部材30が用いられてお
り、他は第1実施例と同様である。第4実施例では第1
実施例の環状の補助部材15に代えて、第2実施例の3
個の突起部34が容器12に取り付けられており、他は
第1実施例と同様である。The following third and fourth embodiments are obtained by partially modifying the configuration of the first embodiment. In the third embodiment, the flat-shaped water holding member 30 of the second embodiment is used instead of the arm-shaped water holding member 14 of the first embodiment, and the rest is the same as in the first embodiment. . In the fourth embodiment, the first
Instead of the annular auxiliary member 15 of the embodiment, the third embodiment 3 is used.
The individual protrusions 34 are attached to the container 12, and the other points are the same as in the first embodiment.
【0014】容器12としては、容器12の底部空間2
8に溜められた水の量が外部からよく見えるような透明
のものが望ましい。たとえば、第1乃至第4実施例で口
径5〜8cmの透明アクリルパイプの一方の開口部に底
部27を設けたものを用いることができる。この場合、
第2実施例及び第3実施例のように、平板状の水分保持
部材30を使用すると、鉢部26の側面を通して外部か
ら用土が見えてしまい外観上好ましくない場合もある。
そこで鉢部26の側面に該当する容器12の内面にアル
ミホイル等の透明でなく、かつ耐水性のフィルムを設
け、用土を覆うことにより外観を良くすることができ
る。As the container 12, the bottom space 2 of the container 12 is used.
It is desirable to use a transparent material so that the amount of water stored in 8 can be seen well from the outside. For example, in the first to fourth embodiments, a transparent acrylic pipe having a diameter of 5 to 8 cm and a bottom portion 27 provided at one opening can be used. in this case,
When the flat plate-shaped moisture holding member 30 is used as in the second and third embodiments, the soil may be seen from the outside through the side surface of the bowl portion 26, which may be undesirable in appearance.
Therefore, by providing a non-transparent and water-resistant film such as aluminum foil on the inner surface of the container 12 corresponding to the side surface of the bowl portion 26 and covering the soil, the appearance can be improved.
【0015】また、第1乃至第4実施例の容器12の開
口部を長くしたり、環状にして植付面積を大きくする
と、複数の鉢花の植付けも可能である。まず、容器12
の開口部を長くした実施例について説明する。図4及び
図5は、第5実施例を説明する斜視図及び組立図であ
る。図4は、複数の鉢花62が植えられ、容器52に水
が溜められている状態を示している。容器52は、長方
形の開口部を有する箱状の形をしていて、開口部の長方
形の長辺が短辺よりもかなり長いものになっている。ま
た、第1乃至第4実施例と同様に、容器52は透明なも
のが望ましく、図4では透明アクリル製のものを用いた
場合を示している。Further, a plurality of potted flowers can be planted by lengthening the opening of the container 12 of the first to fourth embodiments or by making it annular so as to increase the planting area. First, the container 12
A description will be given of an embodiment in which the opening of the above is lengthened. 4 and 5 are a perspective view and an assembly view for explaining the fifth embodiment. FIG. 4 shows a state in which a plurality of potted flowers 62 are planted and water is stored in the container 52. The container 52 is in the shape of a box having a rectangular opening, and the rectangular long side of the opening is considerably longer than the short side. Further, as in the first to fourth embodiments, the container 52 is preferably transparent, and FIG. 4 shows the case where a transparent acrylic container is used.
【0016】この容器52の内部には、第1実施例の場
合と大きさ及び形状が異なる支持板53、水分保持部材
54及び補助部材55が設けられている。補助部材55
は、外周の長さ及び形状が容器52の内周の長さ及び形
状とほぼ等しい長方形の平板から中央部分をこの長方形
を縮小した形に切り取って除いたものである。補助部材
55は、容器52の開口部と底部67の間の中央付近の
位置に底部67に平行になるよう容器52の側面に取り
付けられている。Inside the container 52, there are provided a support plate 53, a moisture holding member 54 and an auxiliary member 55 which are different in size and shape from those of the first embodiment. Auxiliary member 55
Is a rectangular flat plate whose outer peripheral length and shape are substantially the same as the inner peripheral length and shape of the container 52, and the central portion is cut out in a reduced shape. The auxiliary member 55 is attached to the side surface of the container 52 so as to be parallel to the bottom 67 at a position near the center between the opening of the container 52 and the bottom 67.
【0017】この補助部材55の上には、支持板53が
取り外し可能に載せられている。支持板53は、長さ及
び形状が容器52の内周の長さ及び形状とほぼ等しい長
方形の平板である。支持板53の長手方向の中心線上に
は、平板上の中心線を等間隔に分けるようにいくつかの
小孔24が設けられている。水分保持部材54は、高さ
が容器52の高さの半分程度の容器状のもので、容器5
2に入れた場合に、側面及び底面が容器52の側面及び
支持板53に密着するよう寸法が考慮されている。A support plate 53 is removably placed on the auxiliary member 55. The support plate 53 is a rectangular flat plate whose length and shape are substantially the same as the length and shape of the inner circumference of the container 52. On the center line of the support plate 53 in the longitudinal direction, some small holes 24 are provided so as to divide the center line of the flat plate at equal intervals. The water-retaining member 54 has a container shape whose height is about half the height of the container 52.
The dimensions are taken into consideration so that the side surface and the bottom surface come into close contact with the side surface of the container 52 and the support plate 53 when placed in the second container.
【0018】容器52の外側には、注水口57が取り付
けられている。また、複数の紐状の給水部材16が小孔
24の数だけ均等に組分けされ、組ごとに各小孔に第1
実施例と同様に配置されている。このため、水分保持部
材54にあまねく水分を行き渡らせることが可能となっ
ている。他は第1実施例と同様である。A water injection port 57 is attached to the outside of the container 52. In addition, a plurality of cord-shaped water supply members 16 are evenly grouped by the number of the small holes 24, and each group has a first group of small holes.
It is arranged similarly to the embodiment. For this reason, it is possible to spread the water throughout the water holding member 54. Others are the same as the first embodiment.
【0019】以下の第6乃至第8実施例は第5実施例の
一部を変化させたものである。第6実施例では、第5実
施例の水分保持部材54から側面54Aを取り除いた平
板状の水分保持部材が用いられている。また、補助部材
55に代えて、容器52の開口部と底部67の間の中央
付近に位置して容器52の内周を均等に分割するように
第2実施例の突起部34が取り付けられている。他は第
5実施例と同様である。第7実施例では、第5実施例の
水分保持部材54に代えて、第6実施例の平板状の水分
保持部材が用いられており、他は第5実施例と同様であ
る。第8実施例では、第5実施例の補助部材55に代え
て第6実施例のように突起部34が取り付けられてお
り、他は第5実施例と同様である。The following sixth to eighth embodiments are modifications of the fifth embodiment. In the sixth embodiment, a flat plate-shaped water holding member obtained by removing the side surface 54A from the water holding member 54 of the fifth embodiment is used. Further, instead of the auxiliary member 55, the protrusion 34 of the second embodiment is attached so as to be located near the center between the opening of the container 52 and the bottom 67 and divide the inner circumference of the container 52 evenly. There is. Others are the same as the fifth embodiment. In the seventh embodiment, the flat water retaining member of the sixth embodiment is used instead of the moisture retaining member 54 of the fifth embodiment, and the other points are the same as those of the fifth embodiment. In the eighth embodiment, the protrusion 34 is attached as in the sixth embodiment in place of the auxiliary member 55 of the fifth embodiment, and the other points are the same as in the fifth embodiment.
【0020】次に第1乃至第4実施例の容器12の開口
部を環状にした実施例について説明する。図6及び図7
は、第9実施例を説明する斜視図及び組立図である。図
6は、複数の鉢花が植えられ、容器72に水が溜められ
ている状態を示している。容器72は、中心軸方向の長
さ及び肉厚がほぼ等しく、外径の異なる第1円筒部91
及び第2円筒部92と、外周及び内周が同心円で外径が
第1円筒部91の外径とほぼ等しく、内径が第2円筒部
92の内径にほぼ等しい環状の底部93とを有してい
る。中心軸が重なるように第2円筒部92が第1円筒部
91に入れられ、第1及び第2円筒部91、92が挟む
空間の一方を隙間なく閉じるように環状の底部93が第
1及び第2円筒部91、92に取り付けられている。ま
た、第5実施例と同様に、容器72は透明なものが望ま
しく、図6では透明アクリル製のものを用いた場合を示
している。Next, a description will be given of an embodiment in which the opening of the container 12 of the first to fourth embodiments is annular. 6 and 7
[FIG. 9] is a perspective view and an assembly view for explaining a ninth embodiment. FIG. 6 shows a state in which a plurality of potted flowers are planted and water is stored in the container 72. The container 72 has a first cylindrical portion 91 of which the length and the wall thickness in the central axis direction are substantially equal and the outer diameters are different.
And a second cylindrical portion 92, and an annular bottom portion 93 having an outer circumference and an inner circumference that are concentric circles, an outer diameter substantially equal to the outer diameter of the first cylindrical portion 91, and an inner diameter substantially equal to the inner diameter of the second cylindrical portion 92. ing. The second cylindrical portion 92 is placed in the first cylindrical portion 91 so that the central axes thereof overlap, and the annular bottom portion 93 has the first and second annular bottom portions 93 so as to close one of the spaces sandwiched by the first and second cylindrical portions 91, 92 without a gap. It is attached to the second cylindrical portions 91 and 92. Further, as in the fifth embodiment, it is desirable that the container 72 is transparent, and FIG. 6 shows the case where a transparent acrylic container is used.
【0021】この容器72の内部には、第1実施例の場
合と大きさ及び形状が異なる支持板73、水分保持部材
74及び補助部材75が設けられている。補助部材75
は、外周及び内周が同心円になっている環状の平板で、
外径は第1円筒部91の内径にほぼ等しくなっている。
補助部材75は、容器72の開口部と底部93の間の間
の中央付近の位置に底部93に平行になるよう第1円筒
部91の内側の側面に取り付けられている。Inside the container 72, there are provided a support plate 73, a moisture holding member 74 and an auxiliary member 75 which are different in size and shape from those of the first embodiment. Auxiliary member 75
Is an annular flat plate whose outer and inner circumferences are concentric,
The outer diameter is substantially equal to the inner diameter of the first cylindrical portion 91.
The auxiliary member 75 is attached to the inner side surface of the first cylindrical portion 91 at a position near the center between the opening of the container 72 and the bottom 93 so as to be parallel to the bottom 93.
【0022】この補助部材75の上には支持板73が取
り外し可能に載せられている。支持板73は、外周及び
内周が同心円になっている環状の平板で、外径は第1円
筒部91の内径にほぼ等しく、内径は第2円筒部92の
外径にほぼ等しくなっている。この支持板73には、外
周及び内周と同心円で直径が外径及び内径の平均値に等
しい円周上に、この円周を等間隔に分けるようにいくつ
かの小孔24が設けられている。水分保持部材74は、
高さが容器72の高さの半分程度の容器状のもので、容
器72に入れた場合に、側面及び底面が容器72の側面
及び支持板73に密着するよう寸法が考慮されている。A support plate 73 is removably mounted on the auxiliary member 75. The support plate 73 is an annular flat plate whose outer and inner circumferences are concentric, and its outer diameter is substantially equal to the inner diameter of the first cylindrical portion 91 and its inner diameter is substantially equal to the outer diameter of the second cylindrical portion 92. . The support plate 73 is provided with a number of small holes 24 on a circle concentric with the outer circumference and the inner circumference and having a diameter equal to the average value of the outer diameter and the inner diameter. There is. The water retention member 74 is
The container has a height of about half the height of the container 72, and is dimensioned so that the side surface and the bottom surface are in close contact with the side surface of the container 72 and the support plate 73 when the container 72 is put into the container 72.
【0023】容器72の外側には注水口77が取り付け
られている。また、複数の紐状の給水部材16が小孔2
4の数だけ均等に組分けされ、組ごとに各小孔24に第
1実施例と同様に配置されている。このため、水分保持
部材74にあまねく水分を行き渡らせることが可能とな
っている。他は第1実施例と同様である。A water injection port 77 is attached to the outside of the container 72. In addition, a plurality of cord-shaped water supply members 16 are provided in the small holes 2
4 are equally divided into groups, and each group is arranged in each small hole 24 in the same manner as in the first embodiment. For this reason, it is possible to spread the water throughout the water holding member 74. Others are the same as the first embodiment.
【0024】以下の第10乃至第12実施例は第9実施
例の一部を変化させたものである。第10実施例では、
第9実施例の水分保持部材74から側面74A、74B
を取り除いた平板状の水分保持部材が用いられている。
また、補助部材75に代えて、容器72の開口部と底部
93の間の中央付近に位置して容器72の第1円筒部9
1の内周及び第2円筒部92の外周を均等に分割するよ
うに第2実施例の突起部34が取り付けられている。他
は第9実施例と同様である。第11実施例では、第9実
施例の水分保持部材74に代えて第10実施例の平板状
の水分保持部材が用いられており、他は第9実施例と同
様である。第12実施例では、第9実施例の補助部材7
5に代えて、第10実施例のように突起部34が取り付
けられており、他は第9実施例と同様である。The following tenth to twelfth embodiments are a modification of the ninth embodiment. In the tenth embodiment,
From the moisture holding member 74 of the ninth embodiment to the side surfaces 74A, 74B
A flat plate-shaped moisture holding member from which the water is removed is used.
Further, instead of the auxiliary member 75, the first cylindrical portion 9 of the container 72 is located near the center between the opening of the container 72 and the bottom 93.
The protrusion 34 of the second embodiment is attached so as to equally divide the inner circumference of 1 and the outer circumference of the second cylindrical portion 92. Others are the same as the ninth embodiment. In the eleventh embodiment, the flat water retention member of the tenth embodiment is used instead of the water retention member 74 of the ninth embodiment, and the other points are the same as those of the ninth embodiment. In the twelfth embodiment, the auxiliary member 7 of the ninth embodiment is used.
Instead of 5, the protrusion 34 is attached as in the tenth embodiment, and the rest is the same as in the ninth embodiment.
【0025】なお、第6実施例、第7実施例、第10実
施例及び第11実施例で、容器52、72に透明なもの
を用いると、第2実施例及び第3実施例で透明な容器1
2を用いた場合と同様に容器52、72の側面を通して
外部から用土が見えてしまい、外観上好ましくない場合
がある。この場合も、容器52、72の用土が見える部
分の容器52、72の内面にアルミホイル等を設け、用
土を覆うことにより外観を良くすることができる。In the sixth, seventh, tenth, and eleventh embodiments, when transparent containers 52 and 72 are used, the second and third embodiments are transparent. Container 1
As in the case of using No. 2, the soil may be seen from the outside through the side surfaces of the containers 52 and 72, which may be undesirable in appearance. Also in this case, the appearance can be improved by providing an aluminum foil or the like on the inner surface of the container 52, 72 in the portion where the soil of the container 52, 72 is visible and covering the soil.
【0026】上記の各実施例で、水分保持部材14、3
0、54、74には、天然パルプの他、保水性のあるフ
ェルトシートや海綿及び高吸水性ポリマー含有の吸水材
等が利用可能である。給水部材16には水分子の凝集力
及び他分子との付着力を利用できる吸水性のものも利用
可能で、糸、フェルトシート及び綿布が例として挙げら
れる。フェルトシートや綿布は巻いたり重ねたりするこ
とで水の吸引力を高めることができる。In each of the above embodiments, the moisture holding members 14, 3
For 0, 54, and 74, in addition to natural pulp, a water-retaining felt sheet, a sponge, and a water-absorbent material containing a superabsorbent polymer can be used. As the water supply member 16, a water-absorbing member that can utilize the cohesive force of water molecules and the adhesive force with other molecules can be used, and examples thereof include threads, felt sheets, and cotton cloth. A felt sheet or cotton cloth can be wound or stacked to increase the suction power of water.
【0027】また、鉢花22、62の種類、土の種類に
よっては鉢花22、62に必要とされる水の量が異な
り、鉢花22、62に過剰に給水すると根腐れを起こ
し、給水量が少なければ乾燥して枯れてしまうこともあ
る。本発明の植木鉢ユニットでは土の種類、鉢花22、
62の種類によって水分保持手段の材質、形状等を工夫
することで鉢花22、62に適切な量の水分を供給する
ことが可能である。たとえば、図2の椀状の水分保持部
材14の側面の高さを鉢部26の奥行きを上限として変
えたり、あるいは椀状の水分保持部材14の側面に一定
の間隔で穴を設け、穴の数を増減することで、水分保持
部材14と用土18の接触面積を調節し、適切な量の水
分を供給することができる。The amount of water required for the potted flowers 22, 62 differs depending on the type of potted flowers 22, 62 and the type of soil. If the potted flowers 22, 62 are excessively supplied with water, root rot will occur and water will be supplied. If the amount is small, it may dry and die. In the flowerpot unit of the present invention, the type of soil, the potted flower 22,
It is possible to supply an appropriate amount of water to the potted flowers 22, 62 by devising the material, shape, etc. of the water holding means depending on the type of 62. For example, the height of the side surface of the bowl-shaped water holding member 14 may be changed with the depth of the bowl portion 26 as the upper limit, or holes may be provided at regular intervals on the side surface of the bowl-shaped water holding member 14 to form holes. By increasing or decreasing the number, the contact area between the moisture holding member 14 and the soil 18 can be adjusted, and an appropriate amount of moisture can be supplied.
【0028】上記の第1乃至第4実施例では、補助部材
15又は突起部34で支持板13を支えるようにしてい
るが、補助部材15又は突起部34を設けずに、支持板
13の外径を容器12の内径とほぼ等しくするか、又は
わずかに小さくして直接、底部27に平行な状態で容器
12の内周面に接着するかネジ止めして固定するように
してもよい。また、同様の方法で、第5乃至第12実施
例の支持板53、73を固定するようにしてもよい。In the above-described first to fourth embodiments, the support member 13 or the protrusion 34 supports the support plate 13. However, the auxiliary member 15 or the protrusion 34 is not provided, and the support member 13 or the outside of the support plate 13 is not provided. The diameter may be approximately equal to or slightly smaller than the inner diameter of the container 12, and may be directly adhered to the inner peripheral surface of the container 12 in parallel with the bottom portion 27 or fixed by screwing. Further, the support plates 53 and 73 of the fifth to twelfth embodiments may be fixed by the same method.
【0029】[0029]
【発明の効果】以上説明したように、本発明によれば、
少なくとも2次元的な広がりをもつ水分保持手段が設け
られ、かつ給水手段に接触しているので図8の従来例で
は給水手段が直接用土に接していたのに対して、本発明
では水分保持手段が給水手段に代って用土に面すること
となる。水分保持手段と用土の接触面積は図8の従来例
の給水手段と用土との接触面積よりはるかに大きく取る
ことができるので、用土に供給される水量は改善され、
容器の底部空間に水が十分ある限り、鉢花の水不足の心
配がない。As described above, according to the present invention,
Since the water holding means having at least a two-dimensional spread is provided and is in contact with the water supplying means, the water supplying means was in direct contact with the soil in the conventional example of FIG. Will face the soil instead of the water supply means. Since the contact area between the water holding means and the soil can be set to be much larger than the contact area between the water supply means and the soil in the conventional example of FIG. 8, the amount of water supplied to the soil is improved,
As long as there is sufficient water in the bottom space of the container, there is no risk of water shortage in pot flowers.
【0030】鉢花の栽培で鉢花の種類、土の種類によっ
ては鉢花に必要とされる水の量は異なる。鉢花に過剰に
給水すると根腐れを起こし、給水量が少なければ乾燥し
て枯れてしまうこともある。鉢花への給水を適切に行う
ことは、鉢花の栽培をする者の経験に負うところが大き
い。しかるに、本発明の植木鉢ユニットでは、鉢花の種
類、土の種類によって水分保持手段及び給水手段の材
質、形状等を工夫することで鉢花に適度な量の水を供給
することが可能である。すなわち鉢花や、土の種類に応
じて水分保持手段や給水手段の材質、形状等が工夫され
た植木鉢ユニットを用いれば鉢花への給水に十分な経験
を積んでいなくても鉢花を栽培することが可能である。In cultivating potted flowers, the amount of water required for potted flowers varies depending on the type of potted flower and the type of soil. Excessive watering of potted flowers causes root rot, and if the amount of watering is small, it may dry and die. Proper watering of potted flowers largely depends on the experience of those who grow potted flowers. However, in the flower pot unit of the present invention, it is possible to supply an appropriate amount of water to the potted flower by devising the material, shape, etc. of the water retention means and the water supply means depending on the type of potted flower and the type of soil. . In other words, if you use a flowerpot unit in which the material, shape, etc. of the water retention means and water supply means are devised according to the type of soil and the type of soil, It can be cultivated.
【0031】本発明によれば、水分保持手段は、鉢部
の、給水手段が貫通する小孔を覆うように取り付けられ
るので用土は鉢部内に保持され、この小孔を通過して用
土が容器の底部空間の水に溶け、水を汚すことはない。
本発明によれば容器に水を注入するための注水通路手段
が設けられているので、容器の底部空間の水が不足して
補給が必要とされるとき用土を支える支持手段を移動さ
せることなく容易に水を供給することができる。この注
水通路手段から肥料を水に溶かしたものや液体肥料を容
器の底部空間に注入すると、容器の底部空間から給水手
段及び水分保持手段を介し、肥料が鉢花に供給されて都
合が良い。According to the present invention, since the water holding means is attached so as to cover the small hole of the pot portion through which the water supply means penetrates, the soil is held in the pot portion, and the soil passes through the small hole and the soil is put into the container. It dissolves in the water in the bottom space of the and does not pollute the water.
According to the present invention, since the water injection passage means for injecting water into the container is provided, without moving the support means for supporting the soil when water in the bottom space of the container is insufficient and replenishment is required. Water can be easily supplied. When the fertilizer dissolved in water or liquid fertilizer is injected into the bottom space of the container from the water injection passage means, it is convenient that the fertilizer is supplied from the bottom space of the container to the potted flower via the water supply means and the water holding means.
【0032】また、本発明は鉢花の栽培に限らず野菜の
栽培にも都合が良い。本発明を野菜の栽培に適用した場
合においても、注水通路手段を通じて野菜の栽培に必要
な水や水溶性の肥料あるいは液体肥料を容器の底部空間
に容易に補給でき、給水手段や水分保持手段の作用によ
りこれらの水や肥料を鉢部に吸い上げ、適度に野菜に供
給することができるため、手間をかけることなく野菜の
栽培を行うことができる。Further, the present invention is not limited to the cultivation of potted flowers and is convenient for the cultivation of vegetables. Even when the present invention is applied to vegetable cultivation, water or water-soluble fertilizer or liquid fertilizer necessary for vegetable cultivation can be easily supplied to the bottom space of the container through the water injection passage means, and the water supply means and the water retention means can be used. By the action, these water and fertilizer can be sucked up into the bowl and appropriately supplied to the vegetables, so that the vegetables can be cultivated without trouble.
【0033】なお図1及び図2に示すように、水分保持
手段14の形状を、用土を内部に保持するために椀状と
することにより次のような効果(1)〜(4)がある。As shown in FIGS. 1 and 2, the following effects (1) to (4) can be obtained by forming the water holding means 14 into a bowl shape for holding the soil inside. .
【0034】(1)椀状の水分保持手段を用いることに
より、下部の給水手段により吸い上げられた水分が、椀
状の水分保持手段の底部から毛細管現象により、上部側
壁部へと上がって行き、したがって内部の用土の下部か
ら上部にわたって一様に給水を行うことができる。(1) By using the bowl-shaped water holding means, the moisture sucked up by the lower water supply means rises from the bottom of the bowl-shaped water holding means to the upper side wall portion by the capillary phenomenon. Therefore, water can be uniformly supplied from the lower part to the upper part of the inner soil.
【0035】(2)椀状の水分保持手段を用いることに
より、植え替え時などに、椀状の水分保持手段ごと植木
鉢から用土を取り出すことが可能であり、用土の再利用
上便利である。すなわち、鉢内の用土の成分配合を上部
と下部とで変えている場合、用土をそのままの形状で外
部へ取り出せれば成分配合に応じた分別が可能である。
そのままの形状で取り出せない場合は、用土が混合して
しまい分別不可能となる。(2) By using the bowl-shaped water holding means, it is possible to take out the soil from the flower pot together with the bowl-shaped water holding means at the time of replanting, which is convenient for reusing the soil. That is, when the composition of the soil in the pot is changed between the upper part and the lower part, if the soil can be taken out to the outside in the same shape, it is possible to sort according to the component composition.
If it cannot be taken out in its original shape, the soil will be mixed and it will be impossible to separate it.
【0036】(3)椀状の水分保持手段を用いると、草
花の養生や植え変えの目的で容器から鉢部を取り外し、
鉢に直接給水する方法に切り替え、その後再び容器に戻
すような場合に、鉢部を取り外さなくても、椀状の水分
保持手段ごと取り出したり、戻したりすることができ、
便利である。さらに、鉢部が破損するようなことがあっ
ても、用土がこぼれ落ちることがなく、鉢部の交換もワ
ンタッチで行える。(3) If a bowl-shaped water holding means is used, the pot is removed from the container for the purpose of curing and replanting the flowers,
If you switch to a method of directly supplying water to the bowl and then return it to the container again, you can take out and return with the bowl-shaped water holding means without removing the bowl part,
It is convenient. Furthermore, even if the pot is damaged, the soil does not spill and the pot can be replaced with one touch.
【0037】(4)水分保持手段と給水手段が別個の物
体であり、かつ給水手段の一部が水分保持手段の底部下
面にのみ当接するよう配されていることにより、植え替
え時などに給水手段が不要となったときに、これを引き
出すことにより容易に取り外すことが可能である。(4) Since the water holding means and the water supply means are separate objects, and a part of the water supply means is arranged so as to abut only on the lower surface of the bottom of the water holding means, the water supply is carried out at the time of replanting. When the means becomes unnecessary, it can be easily removed by pulling it out.
【図1】本発明の植木鉢ユニットの第1実施例を説明す
る部分断面図である。FIG. 1 is a partial sectional view illustrating a first embodiment of a flowerpot unit of the present invention.
【図2】本発明の植木鉢ユニットの第1実施例で支持
板、給水部材及び水分保持部材の容器への組み立て方を
説明する組立図である。FIG. 2 is an assembly diagram for explaining a method of assembling the support plate, the water supply member, and the moisture holding member into the container in the first embodiment of the flowerpot unit of the present invention.
【図3】本発明の植木鉢ユニットの第2実施例で支持
板、給水部材及び水分保持部材の容器への組み立て方を
説明する組立図である。FIG. 3 is an assembly diagram for explaining a method of assembling a support plate, a water supply member, and a moisture holding member into a container in a second embodiment of the flowerpot unit of the present invention.
【図4】本発明の植木鉢ユニットの第5実施例を説明す
る斜視図である。FIG. 4 is a perspective view illustrating a fifth embodiment of the flowerpot unit according to the present invention.
【図5】本発明の植木鉢ユニットの第5実施例で支持
板、給水部材及び水分保持部材の容器への組み立て方を
説明する組立図である。FIG. 5 is an assembly diagram for explaining how to assemble a support plate, a water supply member, and a moisture holding member into a container in a fifth embodiment of the flowerpot unit of the present invention.
【図6】本発明の植木鉢ユニットの第9実施例を説明す
る斜視図である。FIG. 6 is a perspective view for explaining a ninth embodiment of the flowerpot unit of the present invention.
【図7】本発明の植木鉢ユニットの第9実施例で支持
板、給水部材及び水分保持部材の容器への組み立て方を
説明する組立図である。FIG. 7 is an assembly diagram for explaining how to assemble a support plate, a water supply member, and a moisture holding member into a container in a ninth embodiment of the flowerpot unit of the present invention.
【図8】従来の植木鉢ユニットの一例を説明する部分断
面図である。FIG. 8 is a partial cross-sectional view illustrating an example of a conventional flower pot unit.
【符号の説明】 12,42,52,72 容器 13,53,73 支持板(支持手段) 14,30,54,74 水分保持部材 15,55,75 補助部材(補助手段) 16 紐状の給水部材 17,57,77 注水口(注水通路手段) 18,48 用土 20 水 22,41,62 鉢花 24 小孔 26,40 鉢部 27,67,93 底部 28 底部空間 30 平板状の水分保持部材 34 突起部 44 棒状の給水手段 54A,74A,74B 水分保持部材の側面 91 第1円筒部 92 第2円筒部[Explanation of Codes] 12, 42, 52, 72 Container 13, 53, 73 Support Plate (Supporting Means) 14, 30, 54, 74 Moisture Retaining Member 15, 55, 75 Auxiliary Member (Auxiliary Means) 16 String-like Water Supply Members 17,57,77 Water injection port (water injection passage means) 18,48 Soil 20 Water 22,41,62 Potted flowers 24 Small holes 26,40 Pots 27,67,93 Bottom 28 Bottom space 30 Flat water retention member 34 Protrusions 44 Rod-shaped Water Supply Means 54A, 74A, 74B Sides of Moisture Retaining Member 91 First Cylindrical Section 92 Second Cylindrical Section
Claims (3)
る容器と、 前記底部と前記開口部の間の所定位置にあって、前記容
器の側面と共に用土を収納するための鉢部を形成し、か
つ前記容器の上部に前記用土を支持する支持手段と、 前記鉢部内の空間を、前記支持手段と前記底部に挟まれ
て形成される前記容器の底部空間に連通させる手段と、 前記底部空間に連通して、外部から給水できるよう設け
られた注水通路手段と、 前記鉢部内にあって少なくとも2次元的な広がりをも
ち、前記連通させる手段から前記用土が前記底部空間に
流出しないよう前記連通させる手段を覆うように設けら
れた吸湿性のある水分保持手段と、 前記底部空間中の水を吸い上げて前記鉢部中の前記用土
に前記水を供給することができるよう、一部が前記鉢部
内において前記水分保持手段に接するように取り付けら
れ、他の部分が前記連通させる手段を介して前記底部空
間内に伸長するように設けられた給水手段とを有する植
木鉢ユニット。1. A container having an opening at the top and a bottom at the bottom, and a pot at a predetermined position between the bottom and the opening for accommodating soil along with the side surface of the container. Forming means and supporting means for supporting the soil on the upper part of the container, a space in the bowl portion, means for communicating with the bottom space of the container formed between the supporting means and the bottom portion, A water injection passage means provided so as to communicate with the bottom space so that water can be supplied from the outside, and has at least a two-dimensional expansion in the bowl portion so that the medium does not flow out of the bottom space from the communication means. A hygroscopic water-retaining means provided so as to cover the communicating means, and part of the water so that the water in the bottom space can be sucked up to supply the water to the soil in the bowl portion. In the bowl Mounted so as to be in contact with the water holding means have, flowerpot unit and a water supply means for the other portion is provided so as to extend to the bottom space through the means for communicated said communication.
とを特徴とする請求項1記載の植木鉢ユニット。2. The flower pot unit according to claim 1, wherein the water retaining means has a bowl shape.
特徴とする請求項1又は2記載の植木鉢ユニット。3. The flower pot unit according to claim 1, wherein the water supply means has a string shape.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21536295A JPH0937663A (en) | 1995-08-01 | 1995-08-01 | Flowerpot unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP21536295A JPH0937663A (en) | 1995-08-01 | 1995-08-01 | Flowerpot unit |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0937663A true JPH0937663A (en) | 1997-02-10 |
Family
ID=16671042
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP21536295A Withdrawn JPH0937663A (en) | 1995-08-01 | 1995-08-01 | Flowerpot unit |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0937663A (en) |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2387307A (en) * | 2002-04-09 | 2003-10-15 | Keith Handfield | Removable soil support structure for garden pots and planters |
JP2004507233A (en) * | 2000-08-01 | 2004-03-11 | ジョン ファソック | Bottom water supply type flower pot with ventilation function |
WO2004030444A1 (en) | 2002-10-04 | 2004-04-15 | Heimo Zimmermann | Modular container system for cultivating plants |
WO2009132380A1 (en) * | 2008-05-01 | 2009-11-05 | Moisture Matic Pty. Ltd. Acting As Trustee For The Moisture Matic Trust | Watering device |
CN105265209A (en) * | 2015-09-11 | 2016-01-27 | 丁国平 | Water-saving flower pot |
CN107455164A (en) * | 2017-08-22 | 2017-12-12 | 郑照阳 | A kind of flowerpot |
CN108738856A (en) * | 2018-06-20 | 2018-11-06 | 李依富 | Novel combination type environmental protection implant system |
CN112806139A (en) * | 2020-12-31 | 2021-05-18 | 广西壮族自治区亚热带作物研究所(广西亚热带农产品加工研究所) | Water and fertilizer co-application method for improving fertilizer and water absorption efficiency of fruit trees |
CN115500171A (en) * | 2022-09-30 | 2022-12-23 | 成都菜可爱科技有限公司 | Planting pot, planting mechanism and planting method thereof |
-
1995
- 1995-08-01 JP JP21536295A patent/JPH0937663A/en not_active Withdrawn
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2004507233A (en) * | 2000-08-01 | 2004-03-11 | ジョン ファソック | Bottom water supply type flower pot with ventilation function |
GB2387307A (en) * | 2002-04-09 | 2003-10-15 | Keith Handfield | Removable soil support structure for garden pots and planters |
WO2004030444A1 (en) | 2002-10-04 | 2004-04-15 | Heimo Zimmermann | Modular container system for cultivating plants |
US8607501B2 (en) | 2008-05-01 | 2013-12-17 | Moisture Matic Pty Ltd | Watering device |
GB2471813A (en) * | 2008-05-01 | 2011-01-12 | Moisture Matic Pty Ltd | Watering device |
GB2471813B (en) * | 2008-05-01 | 2013-08-28 | Moisture Matic Pty Ltd | Watering device |
WO2009132380A1 (en) * | 2008-05-01 | 2009-11-05 | Moisture Matic Pty. Ltd. Acting As Trustee For The Moisture Matic Trust | Watering device |
AU2009242954B2 (en) * | 2008-05-01 | 2014-05-22 | Moisture Matic Pty. Ltd. Acting As Trustee For The Moisture Matic Trust | Watering device |
CN105265209A (en) * | 2015-09-11 | 2016-01-27 | 丁国平 | Water-saving flower pot |
CN107455164A (en) * | 2017-08-22 | 2017-12-12 | 郑照阳 | A kind of flowerpot |
CN108738856A (en) * | 2018-06-20 | 2018-11-06 | 李依富 | Novel combination type environmental protection implant system |
CN112806139A (en) * | 2020-12-31 | 2021-05-18 | 广西壮族自治区亚热带作物研究所(广西亚热带农产品加工研究所) | Water and fertilizer co-application method for improving fertilizer and water absorption efficiency of fruit trees |
CN115500171A (en) * | 2022-09-30 | 2022-12-23 | 成都菜可爱科技有限公司 | Planting pot, planting mechanism and planting method thereof |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
A300 | Withdrawal of application because of no request for examination |
Free format text: JAPANESE INTERMEDIATE CODE: A300 Effective date: 20021001 |