JP2006311823A - Planting block - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a planting block preventing shift of far-infrared ray-radiating materials buried in the earth in order to grow plants due to flood or the like. <P>SOLUTION: The planting block is formed so that far-infrared ray-radiating materials are embedded in at least part of its outer surface. The far-infrared ray-radiating materials are set up to the planting block so as to hardly be flown and promote growth of the plants near the block via the far-infrared radiation effect of the materials. The far-infrared ray-radiating materials, in particular comprising Kihouseki (R), remarkably improve rooting of the plants and drastically make growth of the plants excellent. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a planting block.

It is known that far-infrared rays are effective for plant growth. In particular, a wavelength of 4 to 14 microns is called a growing light and is said to activate water and animal and plant cells. Therefore, many far-infrared radiation materials have been developed (for example, Patent Document 1), and there are methods for growing plants using the far-infrared radiation material (for example, Patent Document 2).
JP-A-6-80466 JP 2001-197831 A

  There are many far-infrared radiation materials and plant growing methods using them as described above, but when planting for river bank protection, etc., simply burying the far-infrared radiation material in the soil will cause flooding, etc. When it happens, it may be washed away by water.

  Then, let it be a subject to provide the technique which always radiates | emits the far-infrared for growing a plant, without far-infrared radiation | emission material moving by flooding.

  In addition, while water quality improvement in rivers, lakes, and oceans is required, in recent years, vegetation purification using wetlands such as Sugawara has been attracting attention as a purification technology that maintains a rich ecosystem and has a low environmental impact. From this point of view, it is considered that opportunities for planting plants such as corals will increase in the future for revetment work, and promoting the growth of these plants is also important in terms of environmental protection.

  In order to solve the above problems, the applicant of the present invention has invented a planting block characterized in that a far-infrared radiation material is embedded in at least a part of the outer surface.

  The invention of the present application is characterized in that the far-infrared radiation material is precious stone (registered trademark). Precious meteorites are preferred because they emit more far infrared light than other far infrared materials at room temperature.

  Further, the present invention is characterized in that the planting block has a base and one or a plurality of raised bodies formed integrally with the base. By providing far-infrared materials on each of the base and the raised body, multiple far-infrared rays can be emitted from different positions.

  The far-infrared radiation material embedded in at least a part of the outer surface of the planting block does not move due to flooding or the like. And the growth of a nearby plant is accelerated | stimulated by the far-infrared effect of a far-infrared radiation material. In particular, the far-infrared radiation from precious stones significantly improves the rooting of plants, and the growth is remarkably excellent.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  In FIG. 1, the planting block 100 includes a base 110 and a plurality of raised bodies 120 formed integrally with the base 110. The raised body 120 has a shape in which the upper part of the regular octagonal pyramid is cut horizontally, and a precious stone 130 is embedded in the upper surface part that is horizontal. Similarly, precious stones 130 are embedded in the upper surface of the base 110.

  The base 110 and the raised body 120 are made of concrete. Therefore, it is more durable and can be used for a long time than the one obtained by mixing and solidifying the soil material with concrete.

  The precious stone 130 is a natural mineral composed of the components shown in Table 1 below. Far-infrared radiation is large even at room temperature, and it has excellent wear resistance, impact resistance, heat resistance, and chemical resistance.

また、貴寶石だけでなく、波長４〜４０μｍ程度の遠赤外線を放射する天然鉱物または人工鉱物を遠赤外線放射材料とすることもできる。例えばトルマリン（電気石）、石英片岩、石英閃緑石、角閃石、千枚石、花崗斑石、黒曜石、医王石、麦飯石、貴陽石、長石、ゼオライトなどの１種又は２種以上が挙げられる。遠赤外線放射材料から放射される遠赤外線は植栽植物の発根を促進し、生育を良好にする効能がある。ただし、多くの遠赤外線放射材料が高温下で多量の遠赤外線を放射するのに対し、貴寶石は常温でも多量の遠赤外線を放射するので、土中に埋設する植栽ブロックの材料として好適である。

Further, not only precious stones but also natural minerals or artificial minerals that emit far-infrared rays having a wavelength of about 4 to 40 μm can be used as far-infrared emitting materials. For example, one or more of tourmaline (quartzite), quartz schist, quartz diorite, amphibolite, phyllite, granite, obsidian, meteorite, barleystone, kiyoishi, feldspar, zeolite, etc. It is done. Far-infrared radiation emitted from far-infrared radiation materials has the effect of promoting rooting of planted plants and improving growth. However, while many far-infrared emitting materials emit a large amount of far-infrared radiation at high temperatures, precious stones radiate a large amount of far-infrared radiation even at room temperature. is there.

  Next, the manufacturing method of the planting block 100 is demonstrated.

  As shown in FIG. 2, in the first stage, a precious stone 130 having a size of about 5 to 10 mm is put into a mold 200 for forming the raised body 120, and ready-mixed concrete 400 is placed there, solidified, Take care.

  As shown in FIG. 3, in the second stage, a precious stone 130 having a size of about 5 to 10 mm is placed on the bank upper part 210 of the mold 200, and the ready-mixed concrete 400 is again put on the mold 300 for forming the base 110. Place, solidify and cure.

  Since the precious stones 130 are laid before the procedure of pouring the first stage and second stage ready-mixed concrete 400 in this way, after solidification, when the planting block 100 is turned over by removing the formwork, the upper surfaces of the base 110 and the raised body 120 The precious stone 130 is buried in the part.

  The shape of the planting block 100 is arbitrary and is not limited to the illustrated one. Further, if necessary, a water passage hole can be formed at the bottom of the base 110.

  As shown in FIG. 4, the planting block 100 is embedded in a revetment or the like. This is covered with soil, and plants 500 such as corals are planted there. Far-infrared rays emitted from the precious meteorite 130 have a growing action on the root 510 of the plant 500 and promote the growth of the plant 500.

  The effect of the planting block 100 according to the present invention was investigated. On the other hand, a planting block 100 was buried on the river bank, and firewood was planted there. The other planted the bud without burying the planting block 100 next to it. And after 30 days passed, the growth of each other was compared. Then, the former bud grew faster, and the root tension and leaves were better.

  Next, the tape measure assisting tool 700 will be described.

  When the corner of the object is chamfered like the bottom surface of the base 110 shown in FIG. 5, it is difficult to measure the length h from the reference plane α with a single standard ruler. In such a case, it is inconvenient to measure two rulers in combination. In addition, a general tape measure has a hook-shaped tip and can be hooked on the corner of an object to measure the length. However, if the corner of the object is chamfered, the hook-shaped part is hooked. It is difficult to measure.

  Therefore, it is convenient to attach a tape measure assisting tool 700 as shown in FIG. 6 to the upper end of the measuring tape 800 of the tape measure.

  The tape measure assisting tool 700 has projecting portions 710, 720, and 730 and attachment portions 740 and 750. The projecting portions 710, 720, and 730 extend from the mounting portion 740 in a trifurcated manner. The attachment portion 750 is provided at a right angle to the end portion of the attachment portion 740 so that the attachment portion 750 can be attached to the upper end of the measuring tape 800.

  As shown in FIG. 7, there is a method of using a double-sided tape 760 for attaching the measuring tape assisting tool 700 to the upper end of the measuring tape 800. Further, the attachment portion 750 and the upper end of the measuring tape 800 may be fixed with a small screw. Moreover, you may fix with a rubber band.

  By attaching the tape measure auxiliary tool 700 to the upper end of the measuring tape 800, even if the corner of the object is chamfered, the projecting portions 710, 720, 730 can be hooked on the reference plane α, so that it is easy. The length h can be measured.

  Further, the number of protrusions is not necessarily three. If only the protrusion 710 can be hooked on the reference plane α, measurement is possible.

  Further, the attachment portion 740 may be bonded to the upper end of the measuring tape 800 without providing the attachment portion 750.

  Moreover, it is good also as a tape measure which provided the protrusion part in the tip collar upper part of the measuring tape 800 instead of attaching the tape measure auxiliary tool 700. FIG.

It is a perspective view of the planting block concerning this invention. It is state sectional drawing which shows the 1st step of the manufacturing process of a planting block. It is state sectional drawing which shows the 2nd step of the manufacturing process of a planting block. It is sectional drawing of the state which buried the planting block. It is a side schematic diagram of a planting block. It is a use condition figure of a tape measure auxiliary tool. It is sectional drawing which shows the use condition of a tape measure auxiliary tool.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Planting block 110 Base 120 Protruding body 130 Precious stone 200 Formwork 300 Formwork 400 Concrete 500 Plant 700 Tape measure auxiliary tool

Claims (3)

  A planting block comprising a far-infrared radiation material embedded in at least a part of an outer surface. In the planting block according to claim 1,
The planting block, wherein the far-infrared radiation material is precious stone (registered trademark). In the planting block according to claim 1 or 2,
The planting block, wherein the planting block has a base and one or more raised bodies formed integrally with the base.

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