JP4212160B2 - Potted slats and flowerpots - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
[Technical Field] The present invention relates to a pot for a pot and a flower pot with improved drainage and heat insulation.
[0002]
[Prior art]
Generally, a flower pot is composed of a flower pot main body formed in a cylindrical shape or a dish shape whose upper side is open, and a slat attached to the bottom thereof. And as a flowerpot which has the characteristic in a slat, there exists a thing of Japanese Utility Model Laid-Open No. 3-92950. This flower pot will be described with reference to FIG.
[0003]
The flower pot 1 is composed of a deep-bottomed dish-shaped flower pot body 2 and a slat 3 attached to the bottom 2A.
[0004]
The snowboard 3 is composed of a disk-shaped flat plate portion 4, a rising wall portion 5 formed by being raised from the periphery of the flat plate portion 4, and a leg portion 6 formed on the lower surface of the flat plate portion 4. Yes.
[0005]
The flat plate part 4 is provided with a drain hole 7 for draining water poured from the upper part to the bottom part of the flower pot body 2. A drainage hole 8 is also provided in the rising wall portion 5.
[0006]
[Problems to be solved by the invention]
By the way, although the drain hole 7 is provided in the flat plate part 4 of the snowboard 3, since the flat plate part 4 is formed in flat surface shape, drainage property is bad. That is, a water-immersed layer, which will be described later, is formed on the upper surface of the flat plate portion 4 by capillary action due to surface tension, which is a characteristic of water. This soaking layer is a phenomenon that occurs when a large amount of water is poured. When a large amount of water flows into the soil, it penetrates into the soil particles and then enters between the soil particles, so Is a decrease. This is due to a capillary phenomenon in the surface tension that is a characteristic of water. If the particles such as soil are small, a thick water-immersed layer is formed accordingly. And in this part, there is a problem that there is almost no flow of water and drainage efficiency becomes worse.
[0007]
In the case of the flower pot 1 having the above-described configuration, the rising wall portion 5 of the slat 3 is in direct contact with the inner wall of the flower pot main body 2, so that external heat is easily transmitted. That is, when the snowboard 3 is mounted in the flower pot main body 2 and soil or the like is put therein, the rising wall portion 5 is slightly expanded by the weight of the soil or the like and pressed against the inner wall of the flower pot main body 2. For this reason, when the temperature around the flower pot 1 becomes high, as in the case where the flower pot 1 is placed on concrete that is highly reflected in midsummer, the flower pot body 2 is heated, and the heat is transferred from the inner wall of the flower pot body 2. It is transmitted directly to Sunoko 3 and heats the soil inside. In particular, the soil in the space surrounded by the flat plate portion 4 and the rising wall portion 5 of the snowboard 3 is likely to be heated, but the roots of the plant are concentrated in this portion, and the plant is adversely affected. There is a point.
[0008]
The present invention has been made in view of the problems as described above, and an object thereof is to provide a pot for a pot and a flower pot with improved drainage and heat insulation.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problem, the potted slat according to the first invention is a potted slat that is attached to the bottom of a flower pot body to form a bottom space. The outer periphery of the flat plate Rachi A rising wall portion formed vertically and provided with a vertically long drain hole over the entire length in the vertical direction, and formed on the upper portion of the rising wall portion toward the outside, and the inner wall of the plant pot body And the rising wall portion are supported at a predetermined interval, and a separation portion that forms a heat insulating layer therebetween, and a flat plate portion that is formed to be recessed in a conical shape or a pyramid shape that narrows downward. In addition, a vertically long drainage hole is provided over the entire length in the vertical direction, and it is composed of legs that guide the water reaching the flat plate part and discharge it to the bottom side of the flower pot body, The rising wall portion is set to a height similar to or higher than the leg portion. It is characterized by that.
[0010]
With the above configuration, a heat insulating layer is formed between the inner wall of the flower pot main body and the rising wall part in the isolation part, so that heat from the outside of the flower pot main body is transmitted to the flower pot main body and then blocked by the heat insulating layer. The This prevents the inside of the flower pot body from being abnormally heated.
[0011]
In addition, when water is poured from the upper side in a state where a potted sword and soil are put in the inside of the plant pot body and the tree is planted, the water soaks into the soil. At this time, water exceeding the water holding capacity such as soil flows down, reaches the rising wall portion, and gradually falls from the vertically long drain hole to the bottom portion of the flower pot body. In addition, water that has reached the flat plate part falls to the bottom of the flower pot body from the drainage hole provided on the entire surface of the flat plate part, but due to the capillary phenomenon due to the surface tension that is the characteristic of water, The water-immersed layer of about several centimeters is formed. However, since the hole is a hollow hole in the leg part, a water-immersed layer is not formed, and the water flows down into the leg part, and from the vertically long drain hole provided over the entire length in the vertical direction to the bottom of the flower pot body. Fall.
[0012]
A flowerpot according to a second invention is characterized by comprising a flowerpot body for planting plants and the like by putting soil or the like therein, and the potted slats according to the first invention.
[0013]
By the said structure, the drainage property and heat insulation of a flowerpot can be improved.
[0014]
A flowerpot according to a third invention is characterized in that, in the flowerpot according to the second invention, a longitudinal groove is provided on the inner wall of the flowerpot main body to form a space with the isolation part of the potted slats. To do.
[0015]
By the said structure, air permeability and heat insulation improve by the space formed between a vertical groove and an isolation | separation part.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[First Embodiment]
The flower pot 11 according to the present embodiment is configured as shown in FIGS. 1 and 3 to 8. The flower pot 11 is mainly composed of a flower pot body 12 and a potted slat 13.
[0017]
As shown in FIGS. 1 and 3 to 5, the flower pot main body 12 is formed in a deep-bottomed dish shape with a narrow bottom and a wide open top. Specifically, the flower pot main body 12 includes a bottom plate portion 12A that forms a bottom portion and a side wall portion 12B that forms an outer peripheral wall. A drain port 12 </ b> C for discharging water accumulated in the bottom plate portion 12 </ b> A to the outside is provided at the bottom portion (near the bottom plate portion 12 </ b> A) of the side wall portion 12 </ b> B that forms the outer periphery of the flower pot body 12. A lid 14 is attached to the drain port 12C.
[0018]
A raised portion 12D having a circular planar shape and a trapezoidal side shape is formed at the center of the bottom plate portion 12A. In order to stably support the potted stool 13 on the side of the flowerpot body 12 by being fitted into a wall drainage hole 18A of the potted slat 13 described later at the boundary between the bottom plate part 12A and the side wall part 12B of the flowerpot body 12. The locking plate 15 is provided. The locking plates 15 are provided at equal intervals at six positions in the boundary portion. Out of the six locking plates 15 each, a locking projection 16 is provided in the vicinity of the inner side of the two opposing locking plates 15. The locking protrusion 16 is for fitting into a locking hole 26 of a leg 19 of the potting slat 13 (described later) to position and fix the potting slat 13 to the bottom plate portion 12A of the flower pot main body 12. .
[0019]
As shown in FIGS. 1 and 6 to 8, the potted slats 13 are attached to the bottom of the flower pot main body 12 to form a bottom space. The potted slat 13 mainly includes a flat plate portion 17, a rising wall portion 18, a leg portion 19, and an isolation portion 20.
[0020]
The flat plate portion 17 is formed in a disc shape, and a flat plate portion drain hole 17A is provided in a portion excluding the leg portion 19. The flat plate portion drain hole 17 </ b> A is configured by a large number of small holes arranged in a grid pattern on the entire flat plate portion 17.
[0021]
The rising wall portion 18 is formed to rise from the outer peripheral edge of the flat plate portion 17 so as to open upward and outward. The rising wall portion 18 is provided with a large number of wall portion drain holes 18A over the entire circumference thereof. This wall drain hole 18A is formed by a vertically long slit that reaches the flat plate portion 17 at the lower end from the upper end of the rising wall portion 18. By making the wall drain hole 18A into a vertically long slit, the water flowing down from the top flows out smoothly without resistance and falls to the bottom of the flower pot body 12. A folded portion 18B is formed at the lower portion of the rising wall portion 18. The folded portion 18B is formed by inflating the boundary portion of the rising wall portion 18 with the flat plate portion 17 inward in a curved shape. As a result, the water flowing down along the inside of the rising wall portion 18 flows out from the wall drain hole 18A and is received by the folded portion 18B, and efficiently flows out from the wall drain hole 18A of this portion to the outside. To do. As described above, the wall drainage hole 18A and the folded portion 18B are provided in the rising wall 18 to improve drainage.
[0022]
The leg portions 19 are for forming a space between the flat plate portion 17 and the bottom plate portion 12 </ b> A of the flower pot main body 12, and seven legs 19 are provided below the flat plate portion 17. Note that the seven arrangement intervals of the leg portions 19 are set to such an extent that the water-immersed layer can be reduced. This differs depending on conditions such as the size of the flat plate drainage hole 17A of the flat plate portion 17 and the size of the flower pot main body 12, and so is set by experiment or the like according to each flower pot 11.
[0023]
Each leg portion 19 includes a side wall portion 19A formed in an inverted conical shape that narrows downward, and a bottom plate portion 19B formed at the lower end of the side wall portion 19A.
[0024]
The side wall 19A is provided with a leg drain hole 19C. The leg drain hole 19C is formed by a vertically long slit extending from the upper part of the side wall part 19A to the bottom plate part 19B. As a result, the leg drain hole 19C is poured from the upper part of the flower pot body 12 and reaches the flat plate part 17 so as to be guided downward and discharged to the bottom plate part 12A side of the flower pot body 12. The specific operation in this case will be described later.
[0025]
Of each leg 19, the center leg 19D is short and the surrounding leg 19E is long. Thereby, the center leg part 19D contacts the raised part 12D of the bottom plate part 12A of the flower pot main body 12, and the surrounding leg part 19E contacts the bottom plate part 12A around the raised part 12D. At the center of the bottom plate portion 19B of the surrounding leg portion 19E, there is provided a locking hole 26 that is fitted and fixed to the locking projection 16 of the bottom plate portion 12A of the flower pot body 12.
[0026]
The isolation | separation part 20 isolate | separates the inner wall of the flowerpot main body 12, and the raising wall part 18, and prevents it from contacting directly. The isolation part 20 forms an air layer between the inner wall of the flower pot body 12 and the rising wall part 18 to form a heat insulating space. The isolation portion 20 is formed in a flange shape directed outward at the upper end portion of the rising wall portion 18. This isolation part 20 is in contact with the inner wall of the flower pot main body 12 and separates the periphery of the rising wall part 18 from the inner wall of the flower pot main body 12 at a certain distance.
[Action]
In the flower pot 11 configured as described above, a potted snowboard 13 is attached to the bottom of the flower pot main body 12, and soil or the like is put in to plant a tree.
[0027]
When water is poured from the upper part of the flowerpot body 12, the water soaks into the soil. At this time, the water spreads throughout the soil, but water cannot be retained beyond the water retention capacity of the soil, so the water exceeding the water retention capacity flows downward, and the pots Reach up to 13. The water that has flowed down the peripheral portion reaches the rising wall portion 18 of the potted snowboard 13 and falls along the inner wall surface. A part of the water falling along the inner wall surface flows out from the vertically long wall drain hole 18A and falls to the bottom plate 12A of the flower pot main body 12 as it is.
[0028]
On the other hand, the water that has reached the flat plate portion 17 of the potting snowboard 13 passes through the flat plate portion drain hole 17A of the flat plate portion 17 and falls to the bottom plate portion 12A of the flower pot main body 12. At this time, all of the water reaching the flat plate portion 17 does not fall from the flat plate portion drain hole 17A, and a water-immersed layer of several centimeters is formed on the upper side of the flat plate portion 17.
[0029]
This water-immersed layer is made of a flat plate portion 17. At the position of the leg 19, water falls into the inverted conical leg 19, so that a water immersion layer is not possible. Furthermore, since the water-immersed layer on the upper side of the leg portion 19 is eliminated, the surrounding water is drawn into the leg portion 19. Furthermore, since the space | interval of the leg part 19 is arrange | positioned so that a water immersion layer can be reduced, the water immersion layer which can be formed on the upper side of the flat plate part 17 reduces significantly.
[0030]
Furthermore, since the leg 19 has an inverted conical shape, the width becomes narrower as it goes to the lower part in the leg 19 and the water pressure increases accordingly, so the water that has fallen into the leg 19 is drained from the leg. It is pushed out from the hole 19C. Moreover, since the leg drain hole 19C is formed over the entire length of the leg 19 in the longitudinal direction, it is efficiently pushed out by the entire leg 19 and falls to the bottom plate 12A. Further, as described above, since the leg portions 19 are arranged at intervals at which the water-immersed layer can be efficiently reduced, the water that has flowed down to the upper side of the flat plate portion 17 does not form the water-immersed layer and forms the bottom plate portion 12A. Fall.
[0031]
On the other hand, in places where the ambient temperature is high, such as on concrete with strong reflection during midsummer daytime, the flower pot body 12 is heated, and the heat is transmitted into the flower pot body 12. The heat transmitted to the inner wall of the flower pot main body 12 is blocked by the heat insulating layer formed between the inner wall of the flower pot main body 12 at the isolation part 20 of the pot planting slat 13, and is hardly transferred to the potted snow slat 13. Absent.
[effect]
As described above, the flat plate portion 17 of the potted snowboard 13 is provided with the flat plate portion drain hole 17A, and the upright wall portion 18 provided with the vertically long wall portion drain hole 18A is provided above the flat plate portion 17, so that the flat plate portion Since the leg part 19 provided with the vertically long leg part drainage hole 19C is provided below 17, drainage can be efficiently drained from the entire potted slat 13, and drainage performance is greatly improved.
[0032]
Moreover, since the isolation | separation part 20 was provided in the upper end part of the raising wall part 18, and the heat insulation layer was formed between the inner wall of the flower pot main body 12, the heat from the outside was interrupted | blocked by the heat insulation layer, and the pot 13 Is not transmitted to As a result, the potted slats 13 where the roots of the plant are concentrated are not heated so much that adverse effects on the plant can be minimized.
[0033]
[Second Embodiment]
The flower pot of this embodiment is a hanging pot. 9 to 12 show the overall configuration of the hanging pot 31. FIG. The hanging pot 31 is mainly composed of a flower pot main body 32, a hanging rod 33 for suspending the flower pot main body 32, and a potted slat 34 mounted in the flower pot main body 32.
[0034]
The flower pot main body 32 is formed in a bowl shape. A large number of vertical grooves are formed on the entire outer periphery of the flower pot body 32. This groove is formed in a circular arc shape with a cross-sectional shape protruding outward, and improves the appearance. At the same time as the appearance of the longitudinal groove, the longitudinal groove is a longitudinal groove recessed in an arc shape on the inner surface. Thereby, the potted slats 34 to be described later are supported by point contact to suppress heat transfer, and the air permeability is improved by the space formed between the isolation part 40 and the recessed vertical groove.
[0035]
A drain hole 32A is formed in the lower part of the flower pot body 32, and a lid 32B is attached. At the center of the bottom of the flower pot main body 32, there is provided a locking projection 32C for fitting in a locking hole 39D of a potting slat 34, which will be described later, for positioning and supporting the potting slat 34. Supporting protrusions 32 </ b> D are provided at equal intervals at five positions on the entire inner circumference of the middle portion of the inner surface of the flower pot main body 32 in the vertical direction. This supporting protrusion 32D is formed in a small plate-like shape, and is fitted into a slit-like wall drain hole 38A of a potting slat 34, which will be described later, to stably support the potting slat 34. The upper end portion of the flower pot main body 32 is folded outward and provided with three locking holes 32E in which the hanging rod 33 is locked.
[0036]
The suspension bar 33 is engaged with the engagement hole 32E of the flower pot main body 32 to suspend the flower pot main body 32. The suspension bar 33 is divided into three parts corresponding to the three locking holes 32E, and is connected to the hook part 33A, one at the upper end part.
[0037]
As shown in FIG. 12, the potted slats 34 are mounted in the flower pot main body 32 to form a space at the bottom of the flower pot main body 32. The potted slat 34 is configured as shown in FIGS. The potted slat 34 mainly includes a flat plate portion 37, a rising wall portion 38, a leg portion 39, and an isolation portion 40.
[0038]
The flat plate portion 37 is formed in a disk shape, and a large number of flat plate portion drain holes 37A are provided. The flat plate portion drain hole 37A is configured by a large number of small holes arranged in a grid pattern on the entire flat plate portion 37 except for the leg portion 39. Reference numeral 37B denotes a substantially spherical raised portion that covers the lid 32B without contacting the lid 32B attached to the drain hole 32A.
[0039]
The rising wall portion 38 is formed to rise from the outer peripheral edge of the flat plate portion 37 so as to open upward and outward. The rising wall 38 is provided with a large number of wall drain holes 38A over the entire circumference. Similar to the first embodiment, the wall drain hole 38A is formed by a vertically long slit that reaches the flat plate portion 37 at the lower end from the upper end of the rising wall 38 to improve drainage.
[0040]
The leg portion 39 is for forming a space between the flat plate portion 37 and the bottom plate portion of the flower pot main body 32, and one leg portion 39 is provided at the lower center of the flat plate portion 37. The reason why the leg portion 39 is made one is that the flat plate portion 37 is narrow and can be sufficiently handled by one leg portion 39. That is, it is because the water-immersed layer can be efficiently reduced with one leg 39. In other words, the leg portion 39 is set to a size that can effectively reduce the water immersion layer.
[0041]
The leg portion 39 is composed of a side wall portion 39A formed in an inverted conical shape that narrows downward, and a bottom plate portion 39B formed at the lower end of the side wall portion 39A.
[0042]
The side wall portion 39A is provided with a leg drain hole 39C. The leg drain hole 39C is formed by a vertically long slit extending from the upper part of the side wall part 39A to the bottom plate part 39B. At the center of the bottom plate portion 39B, there is provided a locking hole 39D that is fitted and fixed to the locking projection 32C of the flowerpot body 32.
[0043]
The isolation part 40 is formed in a flange shape facing outward at the upper end part of the rising wall part 38 in the same manner as the isolation part 20 of the first embodiment.
[Action]
In the hanging pot 31 configured as described above, a potted stool 34 is mounted in a flowerpot main body 32, and soil is placed to plant a tree. And it is suspended by the eaves etc. with the suspension rod 33 suspended.
[0044]
When water is poured from the upper part of the flower pot main body 32, it reaches the potted slats 34 in the same manner as in the first embodiment. At this time, the water that has reached the rising wall portion 38 of the potted snowboard 34 flows out from the vertically long wall drain hole 38A.
[0045]
The water that has reached the flat plate portion 37 of the potted snowboard 34 is drawn into the leg portion 39 and falls to the bottom of the flowerpot body 32.
[0046]
Moreover, in the heat insulation layer formed of the isolation | separation part 40, transmission of the heat from the outside is interrupted | blocked and it does not transmit to the part of the potted sword 34.
[0047]
These specific actions are the same as those of the potted slat 13 of the first embodiment.
[0048]
Furthermore, in this embodiment, since a space is formed between the isolation part 40 and the inner wall surface of the flower pot main body 32 by the vertical groove provided in the flower pot main body 32, the air permeability between the flower pot main body 32 and the isolation part 40 is formed. As a result, heat transfer can be more reliably interrupted.
[effect]
As described above, also in the case of the present embodiment, the drainage performance is greatly improved and the adverse effect of heat can be minimized as in the case of the flower pot 11 of the first embodiment.
[0049]
[Third Embodiment]
The flower pot of this embodiment is a wall hanging pot. 16 to 22 show the overall configuration of the wall hanging pot 41. FIG. The wall hanging pot 41 is mainly composed of a flower pot main body 42 and a pot planting slat 43 mounted in the flower pot main body 42.
[0050]
The flowerpot main body 42 has a semicircular planar shape and is shaped like a bowl half in length. A large number of vertical grooves are formed in the wall surface on the front side of the flower pot main body 42 as shown in FIG. The vertical grooves are designed to improve aesthetics and air permeability as in the case of the vertical grooves of the second embodiment.
[0051]
A drain hole 42A is formed in the lower part on the back side of the flower pot main body 42 (see FIG. 18), and a lid 42B is attached. At the center of the bottom portion of the flower pot main body 42, a locking protrusion 42C is provided for fitting in a locking hole of a potting slat 43, which will be described later, for positioning and supporting the potting slat 43. Support protrusions 42 </ b> D are provided at two positions on the middle portion in the vertical direction of the inner surface (see FIG. 17) on the front side of the flower pot main body 42. This supporting protrusion 42D is formed in a small plate-like shape like the locking protrusion 32C of the second embodiment, and is fitted into the slit-like wall drain hole of the potting slat 43 to fit the potting slat 43 is supported stably.
[0052]
On the back surface of the flower pot main body 42, nail holes 42E for fitting the wall hanging pot 41 to the wall or the like by fitting with nails driven into the wall or the like are provided in two places.
[0053]
As shown in FIG. 20, the potted slats 43 are mounted in the flower pot main body 42 to form a space at the bottom of the flower pot main body 42. The potted slats 43 are configured as shown in FIGS. 21 and 22. The potted slats 43 mainly include a flat plate portion 45, a rising wall portion 46, a leg portion 47, and an isolation portion 48.
[0054]
The flat plate portion 45 is the same as the flat plate portion 37 of the second embodiment except that it is formed in a semi-disc shape. The same applies to the rising wall portion 46, the leg portion 47, and the isolation portion 48.
[Action]
In the wall hanging pot 41 configured as described above, a potted slat 43 is mounted in a flower pot main body 42, and soil or the like is put therein to plant a tree. Then, the flower pot body 42 is hung on the wall or the like by fitting the nail hole 42E into the nail hitting the wall or the like.
[0055]
The water poured from the upper part of the flower pot main body 42 is treated by the potted slats 43 and dropped to the bottom of the flower pot main body 42 as in the second embodiment.
[0056]
In addition, in the heat insulating layer formed by the isolation part 48, heat transfer from the outside is blocked and does not reach the potted slats 43.
[0057]
Furthermore, a space is formed between the isolation portion 48 and the inner wall surface of the flower pot main body 42 by the vertical groove provided in the flower pot main body 42, air permeability is improved, and heat transfer is more reliably blocked.
[effect]
As described above, also in the case of the present embodiment, the drainage performance is significantly improved and the adverse effect due to heat can be minimized as in the second embodiment.
[0058]
[Fourth Embodiment]
The flower pot of this embodiment is a type of pot placed on the floor, as in the first embodiment. 23 to 31 show the overall configuration of the flower pot 51. FIG. The flower pot 51 is formed in a rectangular shape in plan view, and is mainly composed of a flower pot main body 52 and potted slats 53 mounted in the flower pot main body 52.
[0059]
The flower pot 51 according to the present embodiment has substantially the same configuration as the flower pot 11 of the first embodiment except that it is rectangular.
[0060]
As shown in FIGS. 23 to 25, the flower pot main body 52 is formed in a deep quadrangular shape and includes a bottom plate portion 52 </ b> A and a side wall portion 52 </ b> B. A drain port 52C is provided at the bottom of the side wall 52B.
[0061]
A raised portion 52D having a rectangular planar shape and a trapezoidal side surface is formed at the center of the bottom plate portion 52A. Locking plates 55 are provided at four positions on the boundary between the bottom plate portion 52A and the side wall portion 52B. The protrusion 52D is provided with two locking projections 56 for positioning and fixing the potted slats 53.
[0062]
As shown in FIGS. 26 to 31, the potted slat 53 is attached to the bottom of the flower pot main body 52 to form a bottom space. This potted slat 53 is mainly composed of a flat plate portion 57, a rising wall portion 58, a leg portion 59, and an isolation portion 60. The flat plate portion 57, the rising wall portion 58, the leg portion 59, and the separating portion 60 are slightly different in shape and number, but the flat plate portion 17, the rising wall portion 18 and the leg portion 19 of the first embodiment are used. And the function similar to the isolation part 20 is provided.
[0063]
Also in the flower pot 51 comprised as mentioned above, there can exist an effect | action and effect similar to the flower pot 11 of the said 1st Embodiment.
[0064]
[Modification]
(1) In addition, in each said embodiment, although the leg part (19 grade | etc.,) Was formed in cone shape (semi-cone shape), pyramid shape etc. may be sufficient. Also in this case, the same operations and effects as those of the above embodiments can be achieved.
(2) In each of the above embodiments, the height of the rising wall portion (18 etc.) is set to about half the height of the side wall portion of the flower pot main body, but up to the upper limit height of soil etc. put in the flower pot main body May be higher.
[0065]
【The invention's effect】
As described above in detail, according to the present invention, the following effects can be obtained.
(1) The flat plate portion of the potted slats is provided with a drain hole, the upper portion of the flat plate portion is provided with a rising wall portion having a vertically long drain hole, and the bottom portion of the flat plate portion is provided with a vertically long drain hole. Since the legs are provided, drainage can be efficiently drained from the entire potted slats, and drainage is greatly improved.
[0066]
Since the isolation wall is provided at the top of the rising wall and the heat insulating layer is formed between the inner wall of the plant pot body, the heat from the outside is blocked by the heat insulating layer and is directly transmitted to the pots for potting. Can be prevented. As a result, the potted slats where the roots of the plant are concentrated are not heated so much that adverse effects on the plant can be minimized.
[Brief description of the drawings]
FIG. 1 is a front sectional view showing a flowerpot according to a first embodiment of the present invention.
FIG. 2 is a front sectional view showing a conventional flower pot.
FIG. 3 is a front view showing the flower pot main body of FIG. 1;
4 is a plan view showing the flower pot body of FIG. 1. FIG.
5 is a rear view showing the main body of the flower pot of FIG. 1. FIG.
6 is a plan view showing the potted slats of FIG. 1. FIG.
7 is a front view showing the potted slats of FIG. 1. FIG.
FIG. 8 is a plan view showing a state in which pot plants for the plant pot body of FIG. 1 are mounted.
FIG. 9 is a front view showing a hanging pot according to a second embodiment of the present invention.
10 is a front view showing the flower pot body of FIG. 9. FIG.
11 is a plan view showing the flower pot main body of FIG. 9. FIG.
12 is a plan view showing a state in which pot plants are mounted on the flower pot body of FIG. 9. FIG.
13 is a plan view showing the potted slats of FIG. 9. FIG.
14 is a front view showing the potted slats of FIG. 9. FIG.
15 is a front cross-sectional view showing the potted slats of FIG. 9. FIG.
FIG. 16 is a front view showing a wall hanging pot according to a third embodiment of the present invention.
17 is a plan view showing the flower pot body of FIG. 16. FIG.
18 is a rear view showing the flower pot main body of FIG. 16. FIG.
19 is a cross-sectional view taken along line AA in FIG.
20 is a plan view showing a state in which pot plants are mounted on the plant pot body of FIG. 16. FIG.
FIG. 21 is a front view showing the potted slats of FIG. 16;
22 is a plan view showing the potted slats of FIG. 16. FIG.
FIG. 23 is a front view showing a flower pot body according to a fourth embodiment of the present invention.
24 is a plan view showing the flower pot main body of FIG. 23. FIG.
25 is a side view showing the flower pot main body of FIG. 23. FIG.
26 is a plan view showing the potted slats of FIG. 23. FIG.
FIG. 27 is a front view showing the potted slats of FIG.
28 is a side view showing the potted slats of FIG. 23. FIG.
FIG. 29 is a plan view showing a state in which pot plants are mounted on the pot body in FIG.
30 is a front cross-sectional view showing a state in which pot plants are mounted on the flower pot main body of FIG. 23. FIG.
31 is a side cross-sectional view showing a state in which pot plants are mounted on the flower pot body of FIG. 23. FIG.
[Explanation of symbols]
11: Flower pot, 12: Flower pot main body, 12A: Bottom plate part, 12B: Side wall part, 12C: Drainage port, 12D: Raised part, 13: Pot for sunflower, 14: Lid, 15: Locking plate, 16: Engagement Stop projection, 17: Flat plate portion, 17A: Flat plate portion drain hole, 18: Standing wall portion, 18A: Wall portion drain hole, 18B: Folded portion, 19: Leg portion, 19A: Side wall portion, 19B: Bottom plate portion, 19C: Leg drain hole, 20: Isolation part, 26: Locking hole.

Claims (3)

In potting gridiron which is mounted on the bottom of the flower pot body forming the bottom space, the vertical overall length and the flat plate portion which has drain holes provided on the entire surface, while being formed by raising Chi outer periphery or al elevational of the flat plate portion A vertical wall with a vertically long drain hole, and an outward wall formed at the top of the vertical wall, with the inner wall of the plant pot body and the vertical wall spaced at a fixed interval And the insulating part that forms a heat insulating layer therebetween, and the flat plate part is formed in a conical shape or a pyramid shape that narrows downward and vertically drains over its entire length in the vertical direction. A hole is provided, and is composed of a leg portion that guides water that has reached the flat plate portion and discharges it to the bottom side of the flower pot body,
The pot for a potted plant , wherein the rising wall portion is set to a height equal to or higher than that of the leg portion .  A flower pot comprising a flower pot main body in which soil or the like is placed to plant plants and the like, and the potted slats according to claim 1.  3. The flower pot according to claim 2, wherein a longitudinal groove is provided on an inner wall of the flower pot main body to form a space with the isolated portion of the potted slats.

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