JP3242979U - flower pot - Google Patents

Abstract

An object of the present invention is to provide an inexpensive flowerpot that is environmentally friendly. A flowerpot (1) is formed of a bottomed tubular body which is made up of a bottom (2) and a side wall (3) and narrows toward the bottom (2). The flowerpot 1 is mainly made of cement mortar, and has a thickness of about 0.5 mm/100 cc per internal volume. Since the material is mainly mortar, the load on the environment at the time of disposal can be reduced, and the flowerpot 1 can be manufactured at a low cost because the constituent material is a common material. In addition, since the thickness is formed to be thin, the space occupied by the outer boundary with respect to the internal volume can be reduced, and the weight is reduced. [Selection drawing] Fig. 1

Description

The present invention relates to a flowerpot for planting plants.

2. Description of the Related Art Conventionally, as a flowerpot for planting a plant, a light-weight and inexpensive plastic product has been mainstream and generally sold. However, plastic flowerpots remain indefinitely without being decomposed at the time of disposal, which has become a serious problem in recent years due to their excessive burden on the environment.
In particular, vinyl chloride, which is often used due to its high weather resistance, is flame-retardant and may generate hydrogen chloride, dioxin, etc. when incinerated. It is necessary to use a high-temperature incinerator capable of processing at high temperatures, which increases processing costs.

Therefore, ceramic flowerpots are available as a material that reduces the burden on the environment at the time of disposal, but generally ceramic flowerpots are expensive because they are formed through a large number of processes.
In addition, a high-temperature kiln is required for the bisque firing and final firing processes in the pottery production process, and a large-scale equipment configuration is required.
Furthermore, the bisque firing and final firing processes require a huge amount of energy input to the high-temperature kiln, so the total environmental load including the production process is excessive (see, for example, Patent Document 1). .

JP 2014-217324 A

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and to provide an inexpensive flowerpot that takes into consideration the burden on the environment.

According to the present invention, the flowerpot is a tubular body with a bottom, which is made up of a bottom and side walls, and narrows toward the bottom.
The material is mainly cement mortar, and the thickness per internal volume is 0.6 mm/100 cc or less.

As a result, since the material is mainly cement mortar, it is possible to reduce the load on the environment at the time of disposal.

In addition, since the material is mainly cement mortar, unlike pottery, unglazed pottery, etc., a baking process is not required, and labor can be greatly saved, and the flowerpot can be provided at a lower cost. Furthermore, since a high-temperature kiln, which consumes a huge amount of energy, is not required, the overall environmental impact from production to disposal can be greatly reduced.

In addition, since the material is mainly made of cement mortar, compared to plastics, the ingredients are closer to soil, and from the perspective of soil continuity, it provides a more natural growing environment for plants. It is considered that
Therefore, the soil environment in the flowerpot can be brought closer to a natural state suitable for plant growth.

In addition, since the wall thickness per internal volume is formed as thin as 0.6 mm/100 cc or less, the space occupied by the outer boundary with respect to the internal volume can be reduced.
Therefore, it can be installed in a narrow place.

In addition, since the wall thickness per internal volume is formed as thin as 0.6 mm/100 cc or less, it has better air permeability and transpiration than plastics, and the temperature inside the flower pot does not rise easily. ing.
This prevents the internal environment of the flowerpot from being heated and humidified more than necessary.
For this reason, it is possible to maintain a proper temperature and humidity suitable for a plant growing environment.

In addition, since the wall thickness per internal volume is formed as thin as 0.6 mm/100 cc or less, the overall mass is light.
This makes it convenient to carry and suitable for mass transportation.

Furthermore, since the wall thickness per internal volume is formed as thin as 0.6 mm/100 cc or less, the absolute amount of necessary materials as a whole is reduced.
For this reason, the absolute volume is reduced during production, disposal, etc., and the load on the environment can be further reduced.

It is a perspective view of a flowerpot (1st Example). It is a perspective view of a flowerpot (2nd Example). It is a perspective view of a flowerpot (3rd Example).

Hereinafter, modes for carrying out the invention will be described based on examples.

[First embodiment]
A flowerpot 1 according to a first embodiment of the invention is shown in FIG.
In addition, the following examples disclose a specific example, and needless to say, the present invention is not limited to the following examples.

A flowerpot 1 is composed of a bottom portion 2 and a side wall portion 3, and is a cylindrical body with a bottom that narrows toward the bottom portion 2. - 特許庁
More specifically, the flowerpot 1 is a bottomed truncated cone tubular body with a side wall portion 3 gently protruding outward. Here, the bottomed truncated cone tubular body is a bottomed tubular body in which the inside of the truncated cone is hollowed out so as to form an opening.
The diameter of the open end of the flowerpot 1 is about 11.5 cm, the diameter of the bottom part 2 is about 9 cm, and the height is about 9 cm.

The flowerpot 1 is mainly made of cement mortar, to which cellulose fibers and plant-derived organic fibers are added.
It should be noted that "mainly composed of cement mortar" means that the mass % of the cement mortar component with respect to the total mass is 95% or more.

Further, since the material of the flowerpot 1 is mainly cement mortar, sand, which is generally used as a fine aggregate, is used as the aggregate.
It is also possible to further reduce the overall mass by using an artificial lightweight aggregate or the like as the aggregate.

Here, the flowerpot 1 uses sand having a general grain size of 5 mm or less as a fine aggregate. It is more preferable to use fine-grained sand, medium-grained sand, etc. up to about 500 μm.

Moreover, the compressive strength as a material of cement mortar is 70 N/mm ² or more and 150 N/mm ² or less.
Here, the compressive strength of cement mortar is a value measured by a test piece prepared according to JIS A 1132 and using a compression tester according to JIS B 7721.

The flowerpot 1 has a wall thickness of about 0.5 mm/100 cc per internal volume. Here, the thickness per internal volume of approximately 0.5 mm/100 cc means that the thickness per internal volume of the entire region of the bottom portion 2 and the side wall portion 3 is approximately 0.5 mm/100 cc. .
The thickness is the thickness of the bottom portion 2 and the side wall portion 3 in the direction normal to the inner surfaces of the bottom portion 2 and the side wall portion 3 .

More specifically, the thickness is approximately 3 mm. Here, the thickness of about 3 mm means that the thickness of the entire area of the bottom portion 2 and the side wall portion 3 is about 3 mm.
The internal volume is the volume of the space surrounded by the inner surface of the side wall portion 3 and the bottom portion 2, and the internal volume of the flowerpot 1 is approximately 600 cc.

[Effect of the first embodiment]
A flowerpot 1 is composed of a bottom portion 2 and a side wall portion 3, and is a cylindrical body with a bottom that narrows toward the bottom portion 2. - 特許庁
The material is mainly cement mortar, cellulose fiber and organic fiber are added, and the thickness per internal volume is about 0.5 mm/100 cc.

Since the material is mainly cement mortar and cellulose fiber and organic fiber are added, the load on the environment at the time of disposal can be reduced. can also be manufactured to

In addition, since the material of the flowerpot 1 is mainly cement mortar, it does not need to be baked unlike pottery, unglazed pottery, etc., so that labor can be greatly saved, and the flowerpot 1 can be provided at a lower cost. can. Furthermore, since a high-temperature kiln, which consumes a huge amount of energy, is not required, the overall environmental impact from production to disposal can be greatly reduced.

Cellulose fibers and organic fibers are added to cement mortar, which is the base material, for the purpose of increasing strength. Moreover, since these added fibers are both biodegradable, the burden on the environment at the time of disposal is small.

In addition, since the material is mainly made of cement mortar, compared to plastics, the ingredients are closer to soil, and from the perspective of soil continuity, it provides a more natural growing environment for plants. It is considered that
Therefore, the soil environment in the flowerpot 1 can be brought closer to a natural state suitable for plant growth.

In addition, since the wall thickness per internal volume is formed as thin as about 0.5 mm/100 cc, the space occupied by the outer boundary with respect to the internal volume can be reduced.
Therefore, it can be installed in a narrow place.

In addition, since the wall thickness per internal volume is as thin as about 0.5 mm/100 cc, air permeability and transpiration are improved, needless to say compared to plastics, and the temperature inside the flowerpot 1 does not rise easily. ing.
This prevents the internal state of the flowerpot 1 from being heated and humidified more than necessary.
Therefore, the flowerpot 1 can easily maintain a proper temperature and humidity suitable for the growth environment of the plant.

In addition, since air permeability and transpiration are improved, it is not necessary to provide a through hole for drainage in the bottom part 2, and it is not necessary to form a hill for drainage in the flowerpot 1. - 特許庁
Therefore, the shape of the flowerpot 1 can be made simple.
Thereby, productivity of the flowerpot 1 can be improved more.

In addition, the wall thickness per internal volume of the flowerpot 1 is about 0.5 mm/100 cc, and the wall thickness is formed as thin as about 3 mm over the entire area, so that it is very lightweight as a whole and is portable. It is also convenient and suitable for mass transportation.

In addition, since the compressive strength of cement mortar as a material is extremely high at 70 N/mm ² or more and 150 N/mm ² or less, the thickness per internal volume is about 0.5 mm/100 cc. Even if it is formed thinly, the possibility of breakage during transportation can be reduced.

Furthermore, since lighter cellulose fibers and organic fibers are added per unit volume, the total mass can be further reduced.
That is, the cellulose fibers and the organic fibers contribute not only to the increase in strength but also to the reduction in the overall mass.

In addition, since the flowerpot 1 narrows toward the bottom 2, it is easy to remove the mold toward the opening, resulting in good productivity.
In addition, even when a plurality of them are stacked in the height direction, they fit into each other to form overlapping regions in the height direction, so that the occupied region in the height direction can be reduced.
Therefore, the configuration is suitable for mass production and mass storage.

In addition, since the wall thickness per internal volume is formed as thin as about 0.5 mm/100 cc, the total amount of necessary materials is reduced in absolute terms.
Therefore, the absolute volume of the flowerpot 1 is reduced during production and disposal, and the load on the environment can be further reduced.

Further, the flowerpot 1 is a bottomed truncated conical tubular body in which the side wall portion 3 gently bulges outward.
As a result, since the side wall 3 has a so-called dome structure, a force acts in a compressing direction against an external force acting from the outer surface toward the inner surface. It has a structure that is excellent in impact resistance, has high resistance to pressure, and is hard to break.

[Second embodiment]
A flowerpot 1 according to a second embodiment of the invention is shown in FIG.
In the second embodiment, the description will focus on the parts that are different from the first embodiment.
In the figure, the same symbols are attached to the same functional objects as those of the first embodiment.

The diameter of the open end of the flowerpot 1 in the second embodiment is approximately 7 cm, the diameter of the bottom 2 is approximately 5 cm, the height is approximately 7 cm, and the internal volume is approximately 200 cc. Equivalent to size 3.
Here, the thickness of the bottom portion 2 and the side wall portion 3 of the flowerpot 1 is approximately 1 mm.
The wall thickness per internal volume of the flowerpot 1 is approximately 0.5 mm/100 cc.

[Effect of Second Embodiment]
The flowerpot 1 has a bottom portion 2 and a side wall portion 3 with a thickness of about 1 mm.
As a result, the space occupied by the outer boundary with respect to the internal volume is reduced, the weight is reduced, and the breathability, transpiration, etc. are further improved.

However, if the wall thickness of the flowerpot 1 is set to less than 1 mm with the aim of further improving the function, unevenness in the thickness distribution of the bottom portion 2 and the side wall portion 3 becomes relatively large regardless of the size of the internal volume. There is a risk that the thin portion may become the starting point and crack or chip during transportation or the like.
Therefore, the wall thickness of the flowerpot 1 must be at least 1 mm or more.

When the wall thickness of the flowerpot 1 is set to 1 mm, the compressive strength of the cement mortar should be at least 70 N/mm ² or more due to the relationship between vibration and breakage during transportation.

[Third embodiment]
A flowerpot 1 according to a third embodiment of the invention is shown in FIG.
In the third embodiment, the description will focus on the parts that differ from the first and second embodiments.
In the figure, the same symbols are assigned to the same functional objects as those of the first and second embodiments.

The flowerpot 1 has a painted surface 5 formed on the outer surfaces of the side wall portion 3 and the bottom portion 2 .
As a result, even if water is poured into the flowerpot 1, the water can be prevented from seeping out due to the protection provided by the coating film, and the configuration is suitable for use indoors.
Since the bottom portion 2 and the side wall portion 3 are not provided with drainage holes or the like, there is no concern that soil or the like will spill outside through the holes, and in this respect as well, it is suitable for use indoors. there is

The flowerpot 1 has a coated surface 5 and is not fired with glaze or the like as a waterproof measure, so it does not require a high-temperature kiln or the like and does not consume a huge amount of energy.
Therefore, the flowerpot 1 imposes little burden on the environment during production.

In addition, by using urethane paint or the like on the coated surface 5, the flowerpot 1 not only has a higher waterproof performance, but also has a bottomed truncated cone cylindrical body with the side wall portion 3 gently bulging outward. In cooperation with the dome structure, impact resistance against external force can be further enhanced.

Furthermore, since the coated surface 5 is formed on the outer surface, the external appearance can be easily greatly changed by changing the form of the coated surface 5, and a variation model having a greatly different external appearance can be easily produced.

[Modification]
Various modifications of the present invention can be considered without departing from the gist of the invention.
In the examples, the material of the flowerpot 1 was mainly cement mortar, and cellulose fiber and organic fiber were added. may be
It should be noted that the fibrous material is preferably a biodegradable material in consideration of the load on the environment at the time of disposal.

In the third embodiment, the painted surface 5 is formed on the outer surfaces of the side wall portion 3 and the bottom portion 2 , but the painted surface may be formed on the inner surface of the side wall portion 3 or the bottom portion 2 .
As a result, even if water is poured into the flowerpot 1, it is possible to further prevent moisture from seeping out due to the protection provided by the coating film.

In the embodiment, the side wall portion 3 is a bottomed truncated cone cylindrical body that gently bulges outward. It is good also as a bottom polypyramidal cylindrical body. The bottomed polypyramidal cylindrical body is a bottomed cylindrical body in which the inside of the polypyramidal body is hollowed out so as to form an opening.
Note that when the outer shape is a bottomed triangular pyramidal truncated cylindrical body, a bottomed square pyramidal truncated cylindrical body, or a bottomed hexagonal truncated pyramidal cylindrical body, it is possible to arrange more densely in a plane, so that a larger amount of cylinders can be arranged. The configuration is suitable for storage of

In addition, when the outer shape is a bottomed polygonal truncated pyramid cylindrical body, the outer surface of the side wall portion 3 is flat and is easy to smooth.
This makes it easier to apply the surface treatment, and makes it easier to further improve the aesthetic appearance.

Although no through-holes are formed in the bottom portion 2 and the side wall portions 3 in the embodiment, through-holes may be formed in the bottom portion 2 and the side wall portions 3 . As a result, drainage is improved, and root rot and the like of plants due to overwatering can be further suppressed.
Note that the number of through holes may be one or plural.

In the embodiment, the upper end portion of the side wall portion 3 of the flowerpot 1 is not formed with a crosspiece, but the upper end portion of the side wall portion 3 of the flowerpot 1 may be formed with a crosspiece. This makes it easy to take out the flowerpots 1 one by one even when a plurality of flowerpots 1 are stacked.

1 flowerpot 2 bottom 3 side wall

Claims (7)

In a bottomed tubular flowerpot consisting of a bottom and a side wall and narrowing toward the bottom,
1. A flowerpot, characterized in that the material is mainly cement mortar, and the wall thickness per internal volume is 0.6 mm/100 cc or less. In the flowerpot according to claim 1,
A flowerpot, wherein the thickness of the bottom portion and the side wall portion is 1 mm or more. In the flowerpot according to claim 1,
A flowerpot, wherein the cement mortar has a compressive strength of 70 N/mm ² or more and 150 N/mm ² or less. In the flowerpot according to claim 3,
A flowerpot, wherein no through holes are formed in the bottom portion and the side wall portion. In the flowerpot according to claim 2,
A flowerpot, wherein the cement mortar has a compressive strength of 70 N/mm ² or more and 150 N/mm ² or less. In the flowerpot according to claim 5,
A flowerpot, wherein no through holes are formed in the bottom portion and the side wall portion. In the flowerpot according to any one of claims 1 to 6,
A flowerpot, wherein a coated surface is formed on the outer surfaces of the side wall portion and the bottom portion.

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