JP3662280B2 - Flower pot with water supply function - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a flower pot with a water supply function having a water supply function capable of continuing to supply water to the roots of flowers for a long period of time. Related to flowerpots.
[0002]
[Prior art]
In general, in a flower pot for planting flowers, the soil or a substitute material is filled without any gaps, and the flowers are planted in the soil. Then, water is regularly drained with a paddle so that the soil does not dry.
[0003]
An example of a flowerpot for planting such a flower is shown in FIG. The flower pot of this figure is described in Japanese Utility Model Laid-Open No. 5-91288, and is configured as a hanging pot suspended from a ceiling or the like.
[0004]
This hanging pot is composed of an upper frame 1, two side frames 2, and a lower frame 3, which are laminated to form an integral hanging bowl. A notch 4 for planting flowers is formed between the frames 1 to 3, and the flowers are planted in the notches 4. The hanging bowl is suspended by a hanging string (not shown).
[0005]
[Problems to be solved by the invention]
By the way, in the above-mentioned hanging pot, water is supplied by pouring water from above with a paddle or the like. In this case, the poured water permeates the entire interior of the pot and sufficiently damps the soil filled inside.
[0006]
However, in the case of a hanging bowl, there is a problem that the inside is easy to dry due to the aspect of being suspended, and water must be frequently used.
[0007]
The present invention has been made in view of the problems as described above, and an object thereof is to provide a flower pot with a water supply function capable of prolonging a period in which water supply is necessary.
[0008]
[Means for Solving the Problems]
In order to solve the above-described problem, the flower pot with a water supply function according to the first invention is configured to have a certain volume by a peripheral wall that covers the outer periphery, and the flower plant is planted from the periphery so that the whole is covered with the flower. In a flowerpot configured to include a support column penetrating the main body and forming the support column in a hollow shape to store water therein, one end is inserted into the support column and the other end is disposed on the root side of the flower A water supply member that gradually supplies water to the roots of the flowers by capillary action, the main body is divided into a plurality of frames, and an inner cylinder is provided at the center of each frame, The lower inner cylinder is provided with a stepped portion having a larger inner diameter at a portion that is locked to the support column, and an outer diameter that is increased toward the lower side so that the support column locks each inner cylinder. Each inner cylinder fits to each step of The strut in Rukoto, characterized in that the fixed integrally supported through each frame stacked.
[0009]
The flower pot with a water supply function according to the second aspect of the invention is characterized by comprising a suspension member for suspending the main body from above.
[0010]
A flower pot with a water supply function according to a third aspect of the present invention includes a lower support member that supports the main body from below.
[0011]
[Action]
In 1st invention, the water stored in the support | pillar is supplied to the root of a flower little by little by the capillary phenomenon of a water supply member. Thereby, it becomes possible to continue supplying water to the flowers for a long time, and the number of times of watering can be greatly reduced.
[0012]
In the second invention, when the suspension member is hung from the ceiling or the like, the inside is easily dried. In such a case, the water supply function of the present invention is particularly effective.
[0013]
In the case of the third invention, as in the case of the second invention, the inside is easily dried, and the water supply function of the present invention is effective.
[0014]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0015]
[Configuration of the first embodiment]
The flower pot with a water supply function according to the present embodiment has the configuration shown in FIGS.
[0016]
This flower pot with a water supply function is configured as a two-stage stacked hanging pot 11. Specifically, as shown in FIG. 1 and FIG. 2, a pot body 12 that is formed in a substantially spherical shape by a peripheral wall that covers the outer periphery, is planted with flowers from the periphery, and is entirely covered with flowers, and this pot body 12. And a suspension rod 13 as a suspension member that suspends the suspension from a ceiling or the like so as to be rotatable.
[0017]
The bowl body 12 includes each frame (upper frame body 14 and lower frame body 15) divided into two stages, a support column 16 that supports these in a stacked state, and a support column 16 inserted into each of the frame bodies 14 and 15. And a tightening knob 17 for fixing and supporting the whole in the state. All of these parts are formed of synthetic resin by injection molding or the like.
[0018]
The upper frame 14 constitutes the upper part of the spherical bowl body 12 and is configured as shown in FIGS. 3 and 4. The upper frame body 14 includes a peripheral wall 21 constituting a part of a spherical surface, a fitting portion 22 having a U-shaped cross-section formed in an annular shape toward the lower end edge of the peripheral wall 21, and the center of the peripheral wall 21. It is comprised from the inner cylinder 23 provided in the part toward the up-down direction. The inner cylinder 23 is supported by ribs 24 on the peripheral wall 21 side. The rib 24 is provided only at the upper end portion of the peripheral wall 21.
[0019]
On the upper edge of the peripheral wall 21, U-shaped cutouts 26 are provided at equal intervals at six positions. A thin film (not shown) that is thin and can be easily broken is integrally formed in the notch 26 at the time of injection molding or the like of the upper frame 14. The flower is put out from the notch 26 in a state of being planted inside the stacked hanging pot 11. At this time, the thin film is cut according to the size of the stem of the flower. Furthermore, the upper end of the peripheral wall 21 is provided with locking holes 27 for locking the tips of the suspension bars 13 at three positions at equal intervals. The locking hole 27 is formed in a shape in which two circular holes having a small upper side and a large lower side are combined, and the tip of the suspension rod 13 is inserted from the large hole and locked to the small hole.
[0020]
At the lower end of the inner cylinder 23, a reduced diameter flange 23A formed by reducing the diameter inward is provided. The diameter-reduced flange 23 </ b> A is engaged with a first step portion 16 </ b> C of the support column 16 described later to constitute a part of the spherical bowl body 12. The inner diameter of the lower end of the inner cylinder 23 is set slightly larger than the outer diameter of the upper end of the inner cylinder 34 of the lower frame 15 described later. As a result, the inner cylinder 34 of the lower frame body 15 is fitted into the inner cylinder 23 of the upper frame body 14, and the reduced diameter flange 23 </ b> A comes into contact with the upper end of the inner cylinder 34 of the lower frame body 15. And the lower frame 15 are fitted to each other so as not to be displaced. Furthermore, water supply ports 31 are provided at two opposing positions on the side of the inner cylinder 23 of the upper frame 14. A water supply string 45 described later is passed through the water supply port 31.
[0021]
The lower frame 15 constitutes the lower part of the spherical bowl body 12 and is configured as shown in FIGS. The whole is constituted by a dish-shaped peripheral wall 33, and an inner cylinder 34 is provided at the center of the peripheral wall 33. On the upper edge of the peripheral wall 33, U-shaped cutouts 35 are provided at six positions at equal intervals. The cutout 35 is provided with a thin film similar to the upper frame 14.
[0022]
The inner diameter of the inner cylinder 34 is set to be slightly larger than the outer diameter of the lower column part 16B of the column 16 described later. Furthermore, the lower end portion 34A of the inner cylinder 34 is formed by providing a step portion having the same shape as the second step portion 16D so that the second step portion 16D of the support column 16 can be fitted. Accordingly, the lower frame body 15 and the support column 16 are fitted so as not to rotate with each other, and the lower frame body 15 constitutes the lower part of the spherical bowl body 12.
[0023]
The frame bodies 14 and 15 having the above-described configuration are set so as to overlap each other and overlap each other with a small volume. Specifically, as shown in FIGS. 11 and 12, the upper frame body 14 is housed upside down in the lower frame body 15, so that the overall volume can be reduced to almost one-half of the pot body 12. It has become. This is to prevent bulkiness during storage and transportation.
[0024]
As shown in FIGS. 7 to 10, the support column 16 is formed with a diameter reduced in two stages upward. The upper pillar portion 16A having a small diameter is set to a diameter that allows the reduced diameter flange 23A of the inner cylinder 23 of the upper frame body 14 to be fitted. The lower column part 16B is set to a diameter that allows the inner cylinder 42 of the lower frame 15 to be fitted.
[0025]
A first step portion 16C and a second step portion 16D are formed at the lower end portions of the column portions 16A and 16B, respectively. The upper frame body 14 and the lower frame body 15 are supported by the step portions 16C and 16D, respectively. As shown in FIG. 9, the second step portion 16 </ b> D is formed in a state in which a part of a circle is cut off, and does not rotate with each other in a state of being fitted to the lower end portion 34 </ b> A of the inner cylinder 34 of the lower step frame 15. Yes.
[0026]
A male screw 16E is formed at the upper end of the support column 16, and a tightening knob 17 is screwed into the male screw 16E. As shown in FIG. 10, the support column 16 is a container that is hollow inside and can store water. A water inlet 41 is provided on the upper end surface of the support column 16. Water for supplying water to the flowers is poured into the support column 16 from the water inlet 41. Water supply ports 42 are provided at two opposing positions on the side surface of the upper column portion 16 </ b> A of the column 16. The water supply port 42 has the same size and shape as the water supply port 31 provided in the inner cylinder 23 of the upper frame body 14, and each water supply port 31, 42 is matched. The water supply port 42 of the column 16 is formed as follows. That is, the support column 16 is formed by blow molding so as to have two protrusions 43 as shown by a two-dot chain line in FIG. 10, and each protrusion 43 is cut off later to form each water supply port 42. Yes.
[0027]
As shown in FIG. 1, a water supply string 45 as a water supply member for supplying water to the roots of the flowers little by little by capillarity is disposed between the pot body 12 and the support 16. The water supply string 45 is in a state where the water supply port 42 of the support column 16 and the water supply port 31 of the upper frame 14 are aligned, and one end is planted in the bottom of the support column 16 and the other end is planted in the pot body 12. Arranged on the side. As a material of the water supply string 45, a cloth such as cotton is mainly used.
[0028]
As shown in FIGS. 2 and 11, the suspension bar 13 includes three long linear bar portions 13 </ b> A arranged, a hook 13 </ b> B rotatably provided at the upper end of the bar portion 13 </ b> A, It is comprised from the head 13C provided in the lower end of the part 13A. The head portion 13 </ b> C is formed in a substantially hemispherical shape having a diameter larger than that of the rod-shaped portion 13 </ b> A, and is fitted into the locking hole 27 of the upper frame body 14. The head 13C is provided with a protrusion 13D inserted into the locking hole 27 and a diameter-enlarged portion 13E provided at the tip of the protrusion 13D to prevent the protrusion 13D from falling off.
[0029]
As shown in FIG. 1, the tightening knob 17 is mainly fitted to the cylindrical portion 17A having an internal thread 51 on the inner surface and the inner cylinder 23 of the upper frame 14 to position the upper frame 14 from above. It is schematically configured from an expanded diameter portion 17B to be supported and a support portion 17C that is held and tightened or loosened by hand. Further, the support portion 17C is formed in a dish shape, and has a pipe portion 17D that fits into the water injection port 41 of the support column 16 at the center thereof, and functions as a funnel for pouring water into the support column 16. Yes.
[0030]
[Operation of the first embodiment]
The stacked hanging pot 11 configured as described above is disassembled and packaged small as shown in FIGS. 11 and 12 at the time of factory shipment or storage. That is, as shown in FIG. 12, the upper frame body 14 is stored in the lower frame body 15 upside down. As a result, the volume is almost halved.
[0031]
Each member such as the overlapped frames 14 and 15, the support column 16, and the suspension rod 13 is inserted into a container such as a case A indicated by a broken line in FIG. 11 to reduce the entire volume. Here, the rod-like portion 13A of the locking portion 13 can be accommodated in the case A by being bent as shown by a two-dot chain line in the drawing.
[0032]
When planting flowers, do the following: First, the support column 16 is inserted into the inner cylinder 34 of the lower frame 15 from below. The second step portion 16D of the support column 16 is fitted to the lower end portion 34A of the inner cylinder 34. Then, soil or a substitute for soil is put into the lower frame 15, a flower is planted in the soil, and the tip of the flower is taken out from each notch 35 of the lower frame 15. At this time, the thin film formed in the notch 35 is cut out according to the diameter of the flower stem. Since this thin film is thin and weak, when the flower grows and the stem grows large, the thin film is spread by the stem.
[0033]
Next, the upper frame body 14 is inserted into the support column 16 and overlapped on the lower frame body 15. At this time, the water supply port 31 of the support column 16 and the water supply port 42 of the inner cylinder 23 are aligned with each other. Further, the upper edge of the peripheral wall 33 of the lower frame body 15 is fitted to the fitting portion 22 of the upper frame body 14, and the inner cylinder 23 of the upper frame body 14 is fitted to the inner cylinder 34 of the lower frame body 15. . At this time, the reduced diameter flange 23 </ b> A of the inner cylinder 23 of the upper frame 14 is in contact with and supported by the first step 16 </ b> C of the column 16. As a result, the upper-stage frame body 14 and the lower-stage frame body 15 are fitted to each other while being supported by the support columns 16 so as not to be displaced from each other, thereby forming the spherical bowl body 12. In this state, the water supply string 45 is inserted into the water supply ports 31 and 42 to connect the inside of the pot body 12 and the inside of the support column 16. Next, soil or the like is put into the upper frame 14. Plant the flower on this soil and put out the tip of the flower from the notch 26. In the case of the notch 26, the thin film is cut into an appropriate size as described above.
[0034]
Next, the tightening knob 17 is screwed into the male screw 16 </ b> E of the column 16. As a result, the enlarged diameter portion 17B of the tightening knob 17 is fitted to the inner cylinder 23 of the upper frame body 14, and the support section 17C presses the inner cylinder 23 from the upper side to fix and support the upper frame body 14 on the column 16 side. To do. Further, the upper frame body 14 fixedly supports the lower frame body 15. As a result, by tightening the tightening knob 17, the whole frame body 14, 15 is fixedly supported integrally with the frame 16 and 15 being fitted to the column 16.
[0035]
Next, each head 13C of the hanging rod 13 is hooked in the locking hole 27 of the upper frame 14, and the hook 13B is hung on the ceiling or the like. As a result, the laminated hanging pot 11 is suspended from a window, an eaves, a veranda or the like. At this time, the suspension bar 13 is a bar material that does not bend very much, and even if only the bowl body 12 is held by hand, the suspension bar 13 can be maintained in the state of extending upward, so that only the bowl body 12 is held by hand. The hook 13B can be easily hung on the ceiling or the like.
[0036]
On the other hand, when watering the flowers, water is poured into the tightening knob 17 with a jug or the like. In the tightening knob 17, the water accumulated on the upper side is poured into the support column 16 from the pipe portion 17D. The water stored in the support 16 is gradually supplied to the roots of the flowers by the capillary phenomenon of the water supply string 45. And the water is regularly replenished in anticipation of the time when the water in the column 16 has decreased.
[0037]
Further, when the inside of the bowl body 12 is extremely dry, water is poured directly from the upper side of the bowl body 12 without using the tightening knob 17. As a result, water penetrates to the bottom of the lower frame 15 through the inside of the soil and the inner walls of the frames 14 and 15. At this time, since the connecting portions of the frames 14 and 15 are covered by the fitting portion 22, water flows along the fitting portion 22 to the inner side wall of the lower lower frame 15. As a result, water does not leak out. Further, since each of the notches 26 and 35 is provided with a thin film to minimize the opening, water leakage from the notches 26 and 35 is prevented.
[0038]
Moreover, since the hook 13B of the hanging rod 13 is rotatably supported with respect to the rod-shaped portion 13A, the bowl body 12 can be freely rotated. Thereby, this pot main body 12 is appropriately rotated so that the light planted on the entire circumference of the pot main body 12 is sufficiently exposed to light.
[0039]
[Effect of the first embodiment]
As described above, the support column 16 is formed into a hollow shape, water is stored inside, and water is gradually supplied to the roots of the flowers by the capillary phenomenon by the water supply string 45, so that the period of time required for water supply is prolonged. , Can reduce the number of watering.
[0040]
Moreover, in the case of the structure suspended from the ceiling or the like by the suspension bar 13, the inside of the bowl body 12 is easy to dry, which is particularly effective.
[0041]
Furthermore, since the fitting part 22 was provided in the lower end edge part of the surrounding wall 21 of the upper stage frame 14, the water which flows through the connection part of each frame 14 and 15 is prevented reliably leaking outside from this connection part. can do. Further, since the thin film is provided in each of the notches 26 and 35, it is possible to reliably prevent water from leaking out from the notches 26 and 35.
[0042]
[Configuration of Second Embodiment]
The flower pot with a water supply function according to the present embodiment has the configuration shown in FIGS.
[0043]
The flower pot with a water supply function of the present embodiment is configured as a three-stage stacked hanging pot 51. The overall structure of the laminated hanging pot 51 is substantially the same as that of the laminated hanging bowl 11 of the first embodiment. Specifically, as shown in FIG. 13, it is schematically configured from a bowl main body 52 and a suspension bar 53.
[0044]
The bowl body 52 is divided into three stages (upper frame body 54, middle frame body 55, and lower frame body 56), a support column 57 that supports these in a stacked state, and a clamp that supports the whole. And a knob 58.
[0045]
As shown in FIGS. 13 to 15, the upper frame body 54 includes a peripheral wall 61, a fitting portion 62 formed at the lower end edge of the peripheral wall 61, and an inner cylinder 63 provided at the center of the peripheral wall 61. It is composed of The inner cylinder 63 is supported by ribs 64 on the peripheral wall 61 side.
[0046]
A notch 66 is provided at the upper edge of the peripheral wall 61, and a thin film (not shown) is formed in the notch 66. Furthermore, the upper end of the peripheral wall 61 is provided with locking holes 67 at three positions.
[0047]
A reduced diameter flange 63 </ b> A is provided at the lower end portion of the inner cylinder 63. Water supply ports 71 are provided at two opposite positions on the side of the inner cylinder 63. A water supply string 75 is passed through the water supply port 71.
[0048]
The middle frame 55 has substantially the same configuration as the upper frame 54, and is as shown in FIGS. The entirety is provided at a peripheral wall 76 constituting a part of the spherical surface, a fitting portion 77 having a U-shaped cross section formed annularly downwardly at a lower end edge of the peripheral wall 76, and a central portion of the peripheral wall 76. And an inner cylinder 78. The inner cylinder 78 is supported by ribs 79 on the peripheral wall 76 side. The rib 79 is provided only at the lower end of the peripheral wall 76. Notches 80 are provided at six positions on the upper edge of the peripheral wall 76. The cutout 80 is provided with a thin film.
[0049]
The inner diameter of the inner cylinder 78 is set in accordance with the second step portion 57E of the support column 57. An annular wall 78A is provided at the lower end of the inner cylinder 78 so as to match the outer diameter of the upper end of the inner cylinder 84 of the lower frame 56. The annular wall 78A is fitted into the inner cylinder 84 of the lower frame 56 so that the middle frame 55 and the lower frame 56 are fitted to each other so as not to be displaced.
[0050]
The lower frame 56 constitutes the lower part of the spherical bowl body 52, and is configured as shown in FIGS. The whole is composed of a dish-shaped peripheral wall 83 and an inner cylinder 84 provided at the center of the peripheral wall 83. A notch 85 is provided at the upper edge of the peripheral wall 83. The cutout 85 is provided with a thin film. An inner diameter and a lower end shape of the inner cylinder 84 are formed according to the support column 57.
[0051]
The frame bodies 54, 55, and 56 having the above configuration are set so as to overlap each other to have a small volume. Specifically, as shown in FIG. 25, an upper frame body 54 is accommodated upside down inside a middle frame body 55, and a lower frame body 56 is accommodated inside the upper frame body 54, thereby reducing the overall volume. The main body 52 can be reduced to about one third. This is to prevent bulkiness during storage and transportation.
[0052]
As shown in FIGS. 20 to 23, the support column 57 is formed with a diameter reduced in three stages upward. The upper pillar portion 57 </ b> A having a small diameter is set to a diameter with which the reduced diameter flange 63 </ b> A of the inner cylinder 63 of the upper frame 54 can be fitted. The middle column portion 57B is set in accordance with the inner cylinder 78 of the middle frame 55. The lower column portion 57C is set in accordance with the inner cylinder 84 of the lower frame body 56.
[0053]
A first step portion 57D, a second step portion 57E, and a third step portion 57F are formed at the lower ends of the column portions 57A, 57B, and 57C, respectively. Each of the step portions 57D, 57E, and 57F supports the upper frame member 54, the middle frame member 55, and the lower frame member 56, respectively.
[0054]
A male screw 57G is formed at the upper end portion of the column 57. The column 57 is a container that is hollow inside and can store water. A water inlet 41 is provided on the upper end surface of the support column 57. A water supply port 87 is provided in the upper column portion 57 </ b> A of the column 57. As shown in FIG. 13, a water supply string 75 is disposed between the pot body 52 and the support column 57.
[0055]
The suspension bar 53 and the tightening knob 58 have the same configuration as the suspension bar 13 and the tightening knob 17 of the first embodiment.
[0056]
[Operation and effect of the second embodiment]
In the laminated hanging pot 51 configured as described above, the upper frame body 54, the middle frame body 55, and the lower frame body 56 are respectively stacked, and a water supply string 75 is mounted therein, and the column 57 and the tightening knob 58 are used. The whole is fixed and supported integrally. As a result, the same operations and effects as the first embodiment are achieved.
[0057]
[Modification]
In addition, in each said Example, although the case where the bowl main body 12 and 52 was divided | segmented into 2 or 3 was demonstrated to the example, even if it divides into 1 or 4 or more, the effect | action and effect similar to each said Example Can be played.
[0058]
Furthermore, in each said Example, although the case where the bowl main bodies 12 and 52 were suspended from the upper side with the suspension rods 13 and 53 was demonstrated to the example, even if it supports from the lower side, the effect | action and effect similar to each said Example are demonstrated. Can play. As means for supporting the bowl bodies 12 and 52 from the lower side, a tripod and a mounting table for supporting the lower frame bodies 15 and 56 from the lower side, a rod-like stand integrally connected to the support columns 16 and 57, and the like. Used.
[0059]
Moreover, in the said Example, although the case where the bowl main bodies 12 and 52 were formed in the spherical shape was demonstrated to the example, you may make the bowl main bodies 12 and 52 other shapes, such as a rectangular parallelepiped. For example, in the case of a rectangular parallelepiped, it is formed into a barrel-like shape with a bulge so that they can be stored together.
[0060]
In each of the above embodiments, the suspension rods 13 and 53 are integrally formed. That is, although the three rod-shaped portions 13A are integrally formed, they may be formed as separate members as shown in FIGS. Specifically, the rod-shaped portion 91 and the hook 92 are configured as separate members. A locking ring 91 </ b> A is provided at the upper end of the rod-shaped portion 91. At the base end portion of the hook 92, three locking claws 93 for locking the locking ring 91 </ b> A of the rod-shaped portion 91 are provided at equal intervals. When the suspension bar is configured in this manner, as shown in FIG. 28, the rod-shaped portion 91 and the hook 92 can be stored in a box or the like in a separated state, and can be packed smaller than the above embodiments. It becomes like this.
[0061]
In each of the above embodiments, the suspension rod 13 and the like are configured by including the three rod-shaped portions 13A, but may be configured by one rod-shaped portion 13A. In this case, for example, a rod-shaped portion support portion that supports the rod-shaped portion 13A is provided at the upper portion of the center portion of the support portion 17C of the tightening knob 17, and about three ribs are extended from the peripheral portion of the support portion 17C. The part support part is supported. Furthermore, instead of the suspension bar 13, another suspension member such as a string may be used.
[0062]
【The invention's effect】
As described above in detail, according to the present invention, the following effects can be obtained.
[0063]
(1) A water supply member is provided to store water in the struts that penetrate the main body and connect the inside of the struts and the roots of the flowers to supply water little by little by capillary action. , Can reduce the number of watering.
[0064]
(2) The number of times water is similarly applied to the flower pot with a water supply function in which the main body is divided into a plurality of frames and the struts are fixedly supported integrally through the stacked frames. Can be reduced.
[0065]
(3) When the main body is suspended from the upper side by the suspension member, the inside of the main body is particularly easy to dry, so it is effective to provide the water supply function of the present application.
[0066]
(4) Even when the main body is supported from the lower side by the lower support member, the inside of the main body is easily dried, and it is effective to provide the water supply function of the present application.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing a pot body of a flower pot with a water supply function according to a first embodiment of the present invention.
2 is a front view showing a state in which a hanging rod is attached to the bowl body of FIG. 1. FIG.
FIG. 3 is a plan view showing an upper frame body of a bowl body.
FIG. 4 is a partially broken side view showing the upper frame body of the bowl body.
FIG. 5 is a plan view showing a lower frame body of a bowl body.
FIG. 6 is a partially broken side view showing a lower frame body of a bowl body.
FIG. 7 is a front view showing a column.
FIG. 8 is a side view showing a column.
FIG. 9 is a plan view showing a column.
FIG. 10 is a side sectional view showing a column.
FIG. 11 is a schematic plan view showing a state in which a bowl main body, a hanging rod, a support column and the like are packed.
FIG. 12 is a schematic side view showing a state in which a bowl main body, a hanging rod, a support column and the like are packed.
FIG. 13 is a side sectional view showing a flower pot with a water supply function according to a second embodiment of the present invention.
FIG. 14 is a plan view showing an upper frame body of a bowl body according to a second embodiment.
FIG. 15 is a partially broken side view showing an upper frame body of a pot body according to a second embodiment.
FIG. 16 is a plan view showing a middle frame body of the bowl body.
FIG. 17 is a partially broken side view showing the middle frame body of the bowl body.
FIG. 18 is a plan view showing a lower frame body of a bowl body.
FIG. 19 is a partially broken side view showing a lower frame body of a bowl body.
FIG. 20 is a front view showing a column.
FIG. 21 is a side view showing a column.
FIG. 22 is a plan view showing a column.
FIG. 23 is a side sectional view showing a column.
FIG. 24 is a schematic plan view showing a state in which a bowl body, a hanging rod, a support column, and the like are packed.
FIG. 25 is a schematic side view showing a state in which a bowl main body, a hanging rod, a support column and the like are packed.
FIG. 26 is a front view showing a hook and a rod-like portion as a modification of the hanging rod.
27 is a rear view showing the hook of FIG. 26. FIG.
FIG. 28 is a schematic plan view showing a state in which a bowl main body, a hanging rod, a support column and the like are packed.
FIG. 29 is an exploded perspective view showing a conventional hanging pot.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Laminated type hanging pot, 12 ... Bowl main body, 13 ... Hanging rod, 14 ... Upper frame body, 15 ... Lower frame body, 16 ... Support | pillar, 17 ... Tightening knob, 17D ... Pipe part, 31, 42 ... Water supply port, 45. Water supply string.

Claims (3)

In a flower pot that is configured with a constant volume by a peripheral wall that covers the outer periphery and is configured with a main body that is planted with flowers from the surroundings and covered entirely with flowers,
A support column penetrating the main body is provided, and the support column is formed into a hollow shape so that water is stored therein. It has a water supply member that supplies the roots of the flowers,
The main body is divided into a plurality of frame bodies, and an inner cylinder is provided at the center of each frame body, and the inner cylinder on the lower side of the inner cylinders has a larger inner diameter at a portion that is locked to the support column. The strut includes a step portion whose outer diameter is increased toward the lower side so as to lock the inner cylinders, and the struts are stacked by fitting the inner cylinders to the step portions of the struts. A flower pot with a water supply function , wherein each of the frame bodies is fixedly supported integrally . In the flower pot with a water supply function according to claim 1 ,
A flower pot with a water supply function, comprising a suspension member for suspending the main body from above. In the flower pot with a water supply function according to claim 1 ,
A flower pot with a water supply function, comprising a lower support member for supporting the main body from below.

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