JP2006129989A - Sole insert of shoe - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To relieve the swelling and fatigue of feet by improving the blood circulation in the feet by bringing out more effects of negative ions and a magnet. <P>SOLUTION: A plurality of lines of negative ion generating dots 8 made of a negative ion generating fine powder material are applied to a material 2 used in the sole insert of a shoe at regular intervals in the linear direction. Magnetism generating dots 10 made of fine powder permanent magnets are applied in dots to gaps among the negative generating dots 8 so that negative ions and magnetism are alternately generated in the respective lines. Accordingly, the dot matrix consisting of the negative ion generating dots 8 and the magnetism generating dots 10 is formed on the material 2. An adhesive surface to be pasted to the shoe is formed on the material 2, and release paper 12 is detachably bonded to the adhesive surface. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an insole for footwear used for treatment of cold feet, bruises, sprains and the like.

Negative ions are said to act on the human body to keep the entire tissue weakly alkaline, activate the metabolism in the body and normalize the function of the autonomic nerves, thereby making you feel tired and restoring health. , Recently attracted attention. Conventionally, a sticking magnetic treatment tool in which permanent magnet particles are adhesively fixed to the central portion of an adhesive sheet is conventionally known as a sticking treatment tool for treating a defective state by being attached to the skin of a human body. In addition, a treatment tool for sticking a human body in which a powder or granular material of a negative ion generating substance is adhered to the surface of a base material composed of a permanent magnet is conventionally known (see, for example, Patent Document 1). Further, a shoe in which a magnetic material or an aluminum metal that generates negative ions is attached to an insole of the shoe is conventionally known (for example, see Patent Document 2). Also, insoles that generate negative ions and magnetism are conventionally known (see, for example, Patent Document 3).
JP 2001-218790 A JP 2002-223803 A Registration No. 3104148 Utility Model Gazette

Because humans walk upright, blood in the body stays at the tip of the foot that is farthest from the heart due to attractive forces, causing the feet to become swollen, heavy, or feel tired. Legs get cold due to blood flow. If you leave this as it is, you will get sick and get sick. Negative ion-generating fine powder ore has the effect of invisible wavelengths and waves activating cells in the body and promoting blood flow. In addition, fine powder permanent magnets also have an effect of promoting blood flow in the body by an invisible magnetic field. By placing two types of minerals on the insole of footwear, these two types of minerals emit invisible wavelengths, waves and magnetic fields, so that blood flows smoothly without staying on the toes and soles. Protect your feet from getting cold and lead to a healthy body.

A conventional insole in which two types of negative ions and minerals that generate magnetism are arranged, as shown in Patent Document 3, is a magnet in which a negative ion sheet is partially arranged. The arrangement does not generate energy uniformly. For this reason, the distribution of magnetism and negative ions is biased, and the effects of negative ions and magnetism cannot be synergistically and efficiently extracted.
The present invention aims to solve the above problems.

In order to achieve the above object, the present invention comprises a material 2 cut to fit footwear such as shoes, slippers, sandals and the like, and a negative ion generating fine powder material, and a plurality of lines on the base 2 at regular intervals in a linear direction. The negative ion generation dots 8 coated in the form of dots and the fine powder permanent magnets are arranged so that negative ions and magnetism are alternately generated in the respective rows at a distance between the negative ion generation dots 8 of the respective rows. It consists of the magnetic generation dots 10 applied in the form of dots.
Further, the present invention is characterized in that an adhesive layer 4 is provided on the bottom surface of the material 2 and a release paper 6 is adhered to the adhesive layer 4.
Further, the present invention is characterized in that the negative ion generating dots 8 and the magnetic generating dots 10 are printed on the material 2 by printing means.

The present invention can uniformly generate negative ions and magnetism over almost the entire area of the insole, and can synergistically exhibit the effect of the two kinds of minerals.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
First, a material for a foot insole such as leather, synthetic bark, synthetic resin, and cloth is prepared as the material 2. An adhesive layer 4 made of an adhesive is formed on the back surface of the material 2, and a release paper 6 is adhered to the adhesive layer 4. Next, a plurality of negative ion-producing fine ores in the form of dots at regular intervals on the material 2 are printed or applied in the vertical direction by using a printing means (not shown) or an appropriate applying means (not shown). Then, this operation is repeated while shifting a predetermined amount in the line feed direction, and negative ion generating dots 8 made of fine ion ores generating negative ions are printed or coated on the material 2 as a whole as a matrix.

Next, fine powder permanent magnets are printed or coated in a dot shape using printing means or appropriate coating means at positions where the negative ion generating dots 8 are spaced apart to form the magnetic generation dots 10 on the material 2. To do. The fine powder permanent magnet may be a microencapsulated ferrite magnet or the like. Next, the material 2 is cut into an insole shape together with the release paper 6 to form an insole 12. The insole 12 is drawn with dotted cut lines 14 corresponding to several dimensions so that it is convenient to cut the insole 12 according to the size of the footwear.

The user adjusts the size of the insole 12 by cutting the insole 12 with scissors along the desired cut line 14 in accordance with the size of the footwear. The insole 12 has an adhesive layer 4 formed on its bottom surface and a release paper 6 adhered to the bottom so that it can be easily attached to footwear such as sandals and slippers. In this case, as shown in FIG. 2, it is not necessary to provide an adhesive layer or release paper. FIG. 2 shows a manufacturing process for an insole without an adhesive layer, which is almost the same as the manufacturing process for an insole with an adhesive layer shown in FIG.

  When using the insole 12, the release paper is peeled off from the material 2, and the insole 12 is affixed to sandals or slippers. The insole 12 without the adhesive layer for the shoe sole is inserted and arranged in the shoe sole as it is. From the insole 12, negative ions and magnetism arranged alternately in a matrix form appear uniformly, and these wavelengths, waves and magnetic fields activate the cells in the sole of the foot, and promote blood flow efficiently. Let

It is explanatory drawing of this invention. It is explanatory drawing of other embodiment of this invention.

Explanation of symbols

2 material
4 Adhesive layer 6 Release paper 8 Negative ion generation dot 10 Magnetic generation dot 12 Insole 14 Cut line

Claims (3)

Material 2 cut to fit footwear such as shoes, slippers, sandals, etc., and negative ions made of fine powder material of negative ions and coated in dots at regular intervals over a plurality of lines on the base 2 Magnetic generation dots comprising a generation dot 8 and a fine powder permanent magnet and applied in the form of dots so that negative ions and magnetism are alternately generated in each row at an interval between the negative ion generation dots 8 in each row. An insole for footwear characterized by consisting of ten. The insole for footwear according to claim 1, wherein an adhesive layer 4 is provided on a bottom surface of the material 2, and a release paper 6 is adhered to the adhesive layer 4. The insole for footwear according to claim 1, wherein the negative ion generating dots 8 and the magnetic generating dots 10 are printed on the material 2 by printing means.

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