CN207693046U - The sufficient magnetic force infrared ray insole of bow - Google Patents

Abstract

The utility model provides a magnetic infrared insole for arched feet, which relates to the technical field of health-care footwear, and solves the technical problems that the insole in the prior art cannot effectively massage flat feet and has no infrared energy circulation function. The arched foot magnetic infrared insole includes an insole body, the upper surface of the insole body can accommodate the entire sole of the foot, the insole body includes the center of the foot area and the heel area, and when the arched foot magnetic infrared insole is placed in the shoe, the center of the foot area is higher than the heel area; Negative ion powder exists in the insole body, and the insole body is equipped with magnets corresponding to at least some of the acupoints on the sole of the foot; the far infrared rays formed by the interaction between the magnet and the anion powder can penetrate at least some of the acupoints on the user's feet, and the anode of the magnet and the negative ion powder produce The infrared energy can be absorbed by the cathode of the magnet. The utility model is used for producing effective massage for people with flat feet and providing continuous infrared energy circulation function.

Description

Arch foot magnetic infrared insole

technical field

The utility model relates to the technical field of health-care footwear, in particular to an arched foot magnetic infrared insole.

Background technique

The insoles on the market now have far-infrared functions, or magnetic insoles, which are used for physical therapy of the feet in this way.

The applicant finds that the prior art has at least the following technical problems: the insole lacks an ergonomic design, and the center of the foot of a normal human body is all "bow" shaped. If the foot massage is not in place, if the user's foot arch is missing and there are symptoms of flat feet, this kind of insole will not have a big effect on people with flat feet; while the insole with far infrared function, its infrared energy will volatilize Non-persistent, messy and no infrared energy cycling.

Utility model content

The purpose of the utility model is to provide arch foot magnetic infrared insoles to solve the technical problems in the prior art that the insoles cannot effectively massage flat feet and have no infrared energy circulation function. The many technical effects that can be produced by the preferred technical solutions among the many technical solutions provided by the utility model are described in detail below.

In order to achieve the above object, the utility model provides the following technical solutions:

The arched foot magnetic infrared insole provided by the utility model includes an insole body, the upper surface of the insole body can accommodate the entire sole of the foot, and the insole body includes the center of the foot area and the heel area. When the arched foot magnetic infrared insole is placed in the shoe , the arch area is higher than the heel area;

Negative ion powder exists in the insole body, and the insole body is provided with a magnet at least part of the acupuncture points on the sole of the foot; the far-infrared rays formed by the interaction between the magnet and the negative ion powder can penetrate at least part of the acupuncture points on the user's feet , the infrared energy generated by the anode of the magnet and the negative ion powder can be absorbed by the cathode of the magnet.

Further, the insole body includes a functional layer and a surface covering layer, the negative ion powder is evenly mixed in the functional layer, and the covering layer is attached to the upper surface of the functional layer and can accommodate the entire sole of the foot.

Further, a buffer portion is provided at the front end of the bottom of the functional layer.

Further, the cushioning part is a grid structure, and there is a buffer space between the grid structure and the insole body.

Further, the bottom of the heel of the functional layer is provided with a heel to ensure stability.

Further, the upper surface of the functional layer is preset with a hole inlaid with the magnet, the lower part of the magnet is embedded in the hole, and the upper part of the magnet protrudes outside.

Further, the shape of the upper part of the magnet is hemispherical.

Further, a waterproof layer is also provided between the surface coating layer and the functional layer.

Further, corresponding depressions are provided on the lower surface of the overcoat layer corresponding to the positions of the magnets.

Further, the material of the functional layer is polyester resin prepared from neopentyl glycol.

The beneficial effects of the utility model are as follows: the disadvantage that the traditional insole cannot massage the arch of the foot is improved, and the arch of the foot of patients with flat feet is also effectively raised; Negative ions in the body generate infrared energy, which is then absorbed by the cathode. The intersection point of the infrared energy is more accurate, so as to achieve a circulation effect on the acupuncture points of the user's feet.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are only some embodiments of the utility model, and those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is the top view of the functional layer of arch foot magnetic force infrared insole of the utility model;

Fig. 2 is the bottom view of the functional layer of arch foot magnetic force infrared insole of the utility model;

Fig. 3 is a side view of the functional layer of the arch foot magnetic infrared insole of the utility model;

Fig. 4 is the top view of the magnetic force infrared insole functional layer of the arch foot of the utility model after the magnet is installed;

Fig. 5 is the plan view of arched foot magnetic force infrared insole of the utility model;

Fig. 6 is a bottom view of the arched foot magnetic force infrared insole of the utility model.

In the figure, 1. Functional layer; 11. Buffer; 12. Heel; 13. Hole; 2. Surface layer; 3. Magnet.

Detailed ways

In order to make the purpose, technical solution and advantages of the utility model clearer, the technical solution of the utility model will be described in detail below. Apparently, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present utility model, all other implementations obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present utility model.

As shown in Figures 1 to 6, the utility model provides an arched foot magnetic infrared insole, including an insole body, the upper surface of the insole body can accommodate the entire sole of the foot, the insole body includes the center of the foot area and the heel area, and the arched foot magnetic force When the infrared insole is placed in the shoe, the sole area is higher than the heel area;

Negative ion powder exists in the insole body, and a magnet 3 is provided on the insole body corresponding to at least part of the acupuncture points on the sole; the far infrared rays formed by the interaction between the magnet 3 and the negative ion powder can penetrate at least part of the acupuncture points on the user's feet, and the anode of the magnet 3 is connected to the The infrared energy that negative ion powder produces can be absorbed by the cathode of magnet 3.

The utility model arched foot magnetic infrared insole improves the drawbacks of traditional insoles that cannot massage the arch of the foot, and also effectively raises the arch of the foot of patients with flat feet; the arched foot magnetic infrared insole is different from ordinary high heels or inner heightening shoes Function, when the human body stands naturally, with hands on the back, fingers interlocked, palms up, when the insole is not placed in the shoe, another person presses down on the palm of the opponent with both hands, and the person who is exerted is easy to lean back or knees and when the insole is placed in the shoe, the same method will significantly improve the pressure bearing capacity of the spine and knees of the victim.

The anode of the magnet 3 and the negative ions in the functional layer 1 of the insole set at the corresponding parts of the foot points generate infrared energy, which is then absorbed by the cathode. The intersection point of the infrared energy is more accurate, so as to achieve the circulation effect on the user's foot points Infrared rays are aimed at specific acupoints, concentrated without divergence, and have stronger physiotherapy functions. There are multiple acupoints on the sole of the human foot. The utility model selects 7 typical acupoints on the sole of the foot, and sets magnets 3 at these acupoints. Through the effect of far infrared rays, these acupoints on the feet of the user are stimulated circularly. Because these acupoints Corresponding to different internal organs of the human body, it has an obvious effect on the spine, knee joints and kidney function, thus playing an anti-fatigue effect. The arched foot magnetic infrared insole is produced according to the shape of the human foot and the shoe shape. It needs to be molded in the shape of the insole. It can be made separately, and it can also be molded at one time with the outsole of the shoe (or placed in the sole) to integrate the finished shoe. , increase the overall experience of the shoes, massage feeling. During production, 0.03%-0.1% negative ion powder is mixed into the raw materials (silica gel, TPU, polyurethane, etc.) of the insole body.

As an optional embodiment, the insole body includes a functional layer 1 and a surface layer 2, the negative ion powder is evenly mixed in the functional layer 1, and the surface layer 2 is attached to the upper surface of the functional layer 1 and can accommodate the entire sole of the foot. The material of the functional layer 1 is not suitable for direct contact with human skin, so a surface coating layer 2 is pasted on the surface of the functional layer 1, and the surface coating layer 2 can be made of leather, cloth, PU and other materials.

As an optional embodiment, a buffer portion 11 is provided at the bottom and front end of the functional layer 1 . When the human body walks, the soles of the feet are under greater pressure. If there is no suitable foot equipment, walking for a long time will easily cause damage to the muscles and bones of the soles of the feet. Therefore, the utility model is installed at the front end of the bottom of the functional layer 1 The buffer part 11 is provided, and the buffer part 11 can absorb part of the impact on the sole of the human body during walking, so that the impact on the sole of the foot and even the entire leg is smaller, and the walking experience is more comfortable.

As an optional embodiment, the buffer portion 11 is a grid structure, and there is a buffer space between the grid structure and the insole body. The grid structure with buffer space between the insole body can absorb and store most of the impact and energy brought by the foot when walking. This structure has simple process, low cost and easy production.

As an optional embodiment, the bottom of the heel of the functional layer 1 is provided with a heel 12 to ensure stability. The functional layer 1 provided with the heel 12 increases the adhesion of the insole to the shoe, and can prevent the insole body from shaking or moving randomly in the shoe, increasing the stability of the insole.

As an optional embodiment, the upper surface of the functional layer 1 is preset with a hole 13 embedded with a magnet 3 , the lower part of the magnet 3 is embedded in the hole 13 , and the upper part of the magnet 3 protrudes outside. Functional layer 1 is provided with the hole 13 that is provided with mosaic magnet 3, and after inlaying like this magnetite 3 just is fixed between function layer 1 and cover layer 2, is not easy to fall off, also facilitates processing; Magnet 3 top is convex It is used to massage the acupuncture points of the human foot outside, so that not only the effect of infrared rays on the acupuncture points is provided, but also the protrusions of the magnet 3 are directly pressed to the acupuncture points of the human foot to promote the blood circulation of the acupuncture points, killing two birds with one stone.

As an optional embodiment, the shape of the upper part of the magnet 3 is hemispherical. The upper part of the magnet 3 is protruding outside to massage the acupuncture points of the human body's feet, so its shape will ensure that it will not stab or hurt the foot. The human body is harmed.

As an optional embodiment, a waterproof layer is also provided between the surface coating layer 2 and the functional layer 1 . In order to avoid foot sweat or other situations where water or liquid enters the position of the magnet 3 and affects the effect of the magnet 3, a waterproof layer is set between the surface coating layer 2 and the functional layer 1, so that the service life of the magnet 3 can be guaranteed. affected.

As an optional embodiment, corresponding depressions are provided on the lower surface of the surface layer 2 at positions corresponding to the magnets 3 . In order to make the raised part of the upper part of the magnet 3 play a better massage effect on the acupoints of the human foot, and reduce the influence of the thickness of the surface layer 2 on the protrusion of the upper part of the magnet 3, the lower surface of the surface layer 2 corresponds to the position of the magnet 3 Corresponding depressions are set, so that the height of the protrusions of the magnet 3 will not be affected, and the massage effect on the acupoints of human feet is more effective.

As an optional embodiment, the material of the functional layer 1 is polyester resin prepared from neopentyl glycol. Functional layer 1 can use silica gel, TPU, polyurethane and other materials. In this embodiment, polyester resin prepared from neopentyl glycol is used. The neopentyl structure makes polyester products have excellent chemical stability, weather resistance, The properties of chlorine resistance, heat stability and ultraviolet radiation resistance can make the functional layer 1 withstand pressure and friction, and increase its service life.

The above is only a specific embodiment of the present utility model, but the scope of protection of the present utility model is not limited thereto. Anyone familiar with the technical field can easily think of changes or changes within the technical scope disclosed by the utility model Replacement should be covered within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be based on the protection scope of the claims.

Claims (10)

1. A magnetic force infrared insole for arched foot, it is characterized in that, comprises insole body, the upper surface of described insole body can accommodate whole sole of foot, and described insole body comprises arch area and heel area, and this arched foot magnetic force infrared insole is placed When inside the shoe, the center of the foot area is higher than the heel area; Negative ion powder exists in the insole body, and the insole body is provided with a magnet at least part of the acupuncture points on the sole of the foot; the far-infrared rays formed by the interaction between the magnet and the negative ion powder can penetrate at least part of the acupuncture points on the user's feet , the infrared energy generated by the anode of the magnet and the negative ion powder can be absorbed by the cathode of the magnet. 2. arch foot magnetic force infrared insole according to claim 1, is characterized in that, described insole body comprises functional layer and overcoat layer, and described negative ion powder is evenly mixed in described functional layer, and described overcoat layer sticks It is attached to the upper surface of the functional layer and can accommodate the entire sole of the foot. 3. The arch foot magnetic infrared insole according to claim 2, characterized in that a cushioning portion is provided at the front end of the bottom of the functional layer. 4. The arch foot magnetic infrared insole according to claim 3, characterized in that, the buffer portion is a grid structure, and there is a buffer space between the grid structure and the insole body. 5. The magnetic infrared insole for arch feet according to claim 2, characterized in that, the bottom of the heel of the functional layer is provided with a heel to ensure stability. 6. The arch foot magnetic infrared insole according to claim 2, characterized in that, the upper surface of the functional layer is preset with a hole inlaid with the magnet, the lower part of the magnet is embedded in the hole, and the upper part of the magnet is convex. up outside. 7. The arch foot magnetic infrared insole according to claim 6, characterized in that the shape of the upper part of the magnet is hemispherical. 8 . The arch foot magnetic infrared insole according to claim 6 , wherein a waterproof layer is further arranged between the surface coating layer and the functional layer. 9 . The arch foot magnetic infrared insole according to claim 2 , characterized in that, corresponding depressions are provided on the lower surface of the cover layer corresponding to the positions of the magnets. 10 . 10. arch foot magnetic infrared insole according to claim 2, is characterized in that, the material of described functional layer is the polyester resin that takes neopentyl glycol as raw material preparation.