JPH09121682A - Magnetic belt for growing plant for plant growing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the size, sweetness and softness of a fruit of a fruit tree, etc., and improve the fertilizer effect by placing a plurality of magnetized permanent magnets in contact with the circumference of the stalk or trunk of a plant. SOLUTION: A plant such as fruit tree is grown by attaching a plurality of permanent magnets 3 held in a packaging bag belt 2 to the circumference of a stalk or trunk of the plant at a height not higher than 2m from the ground. Preferably, the surface magnetic flux density of the magnetic belt 1 containing plural permanent magnets in the packaging bag belt 2 is 300-1,600G and the residual magnetic flux density Br of the permanent magnet is 3,200-4,500G and the intrinsic coercive force iHc is 1,800-5,500 Oe.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic belt for growing plants and a growing method for growing plants by magnetically attaching a magnet to the stems of plants such as vegetables and fruit trees.

[0002]

2. Description of the Related Art Conventionally, plants are generally grown by applying water or fertilizer.

[0003]

[Problems to be Solved by the Invention] However, even if water or fertilizer is appropriately applied, root rot may occur or the fertilizer effect may not be fully utilized due to environmental changes during growth and a decrease in oxygen concentration. There is a problem that the fruit is small in size and has little sweetness, and a method for solving the above problems by a simple method has been desired. An object of the present invention is to solve the above-mentioned problems, to provide a method for growing a plant which has good workability and is effective for growing a plant, and a means therefor.

[0004]

The present invention is to solve the above problems by a simple method. That is, this is a method in which a plurality of magnetized permanent magnets are put in contact with the periphery of the stem before the flowering of the plant. It is desirable that the attachment position is within 2 m from the ground, around the stem. More effectively, it is preferable to mount within 1 m. Further, the plurality of permanent magnets is a magnetic belt housed in a belt-shaped envelope, the surface magnetic flux density of the magnetic belt is 300 to 1600 G, and the permanent magnet has a residual magnetic flux density Br of 3200 to 4500 G and an intrinsic coercive force iHc. Is preferably 1800 to 5500 Oe.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION By mounting a magnetic belt housed in a packaging bag so as to abut on the periphery of a plant stem,
In the process of growing, it brings about a growth promoting effect compared to the conventional fertilization alone. In particular, it is considered that nutrients such as nitrogen, phosphorus, and potassium that are sucked up from the roots along with water are activated by the magnetic field and growth is promoted. Due to the growth promotion by the magnetic force of this magnetic field, the fruit is large and the sweetness and hardness are increased. Normally, about 90% of the plant is water,
Various reactions related to growth in the plant body are performed as ionic reactions. Therefore, if a magnetic field is present in such a reaction process, it is considered that those reactions are affected in some way. In particular, plant growth proceeds through cell membranes, etc., so the growth effect under physical conditions such as the strength of the magnetic field and the period under the magnetic field environment was different from that of ordinary fertilizer alone. The result is obtained. Next, the present invention will be described in more detail with reference to examples.

[0006]

【Example】

(Example 1) An example of the magnetic belt used in FIG. 1 is shown.
As shown in FIG. 1, a magnetic belt 1 is a belt-shaped one in which a magnetized permanent magnet 3 is embedded in a bag-shaped packaging bag 2 made of cloth, rubber, urethane, resin, etc. It has a structure that can be removed by winding it around the stem stem. As shown in FIG. 2, two of the magnetic belts were wrapped around the trunk of pear tree (Kosui) 50 cm above the ground and fixed with velcro. The magnetic properties of the permanent magnet used are such that Br is 4000 G, iHc is 4000 Oe, and the surface magnetic flux density is 650 G. The magnetic belt is worn in April before flowering. The magnetic belt remained wrapped until it was fruited and harvested. 250 per bottle
There are ~ 300 harvests. The size and hardness of the pears that were harvested in September and were fitted with a magnetic belt and those that were not.
The sugar content was measured and compared. The results are shown in Tables 1 to 3.
Table 1 is a comparison result of size, Table 2 is hardness, and Table 3 is a comparison result of sugar content.

[0007]

[Table 1]

[0008]

[Table 2]

[0009]

[Table 3]

In Table 1, the size indication is 4L to SS.
There are 6 levels up to and 4L shows the maximum. As a result, the tree pear with the magnetic belt has a larger proportion of 2L, has less M, and tends to have larger fruits. Table 2 shows the results of measuring and comparing four randomly selected pieces using a fruit hardness meter. Pear with a magnetic belt tends to be harder, which is preferable because it lasts longer. Table 3
Is a result of measuring and comparing six randomly selected pieces using a sugar content meter, and the pear with a magnetic belt tends to be sweeter.

Example 2 A belt similar to the magnetic belt used in Example 1 was attached to a peach tree. One magnetic belt is installed for each tree, and the installation position is 1 m above the ground. Similar to Example 1, a tree with a magnetic belt and a tree without a magnetic belt were randomly selected to compare hardness and sugar content. The results are shown in Tables 4 and 5.

[0012]

[Table 4]

[0013]

[Table 5]

Table 4 shows five randomly selected peaches,
The average value of hardness measured at 4 points per piece is shown. From this, it is preferable that the tree peach with the magnetic belt has a high hardness and lasts a long time. Table 5 shows the average value of the sugar content obtained by measuring 5 randomly selected peaches at 5 locations per peach. From this, it can be seen that the sweetness of the tree peach with the magnetic belt is sweeter than that without it.

[0015]

EFFECTS OF THE INVENTION By using the plant growth method and magnetic belt of the present invention, there are growth effects such that the fruits are large, the sweetness is increased, the hardness is increased, and the plants last longer.

[Brief description of the drawings]

FIG. 1 Example of magnetic belt

[Figure 2] Plant with a magnetic belt attached

[Explanation of symbols]

 1 magnetic belt, 2 bag, 3 permanent magnet

Claims (5)

[Claims] 1. A method for growing plants, wherein a plurality of magnetized permanent magnets are brought into contact with and attached to the periphery of the stems of the plants to grow them. 2. A method for growing a plant, wherein a plurality of permanent magnets are brought into contact with and attached to a periphery of a trunk of a fruit tree within 2 m from the ground so as to grow the plant. 3. A magnetic belt comprising a plurality of permanent magnets housed in a belt-shaped bag. 4. The surface magnetic flux density of the magnetic belt is 300 to 1.
The magnetic belt according to claim 3, wherein the magnetic belt is 600G. 5. The residual magnetic flux density Br of the permanent magnet is 3200.
~ 4500G, intrinsic coercive force iHc is 1800-5500
The magnetic belt according to claim 3, wherein the magnetic belt is Oe.