FR3033126A1 - HIGH HEEL SHOES - Google Patents

Abstract

The proposed high heel shoe includes a foot support surface of a person including a toe portion (5) for receiving toe portions of a person's foot, a forefoot portion (6), for receiving a metatarsal region of a person's foot, a mid-foot portion (7) corresponding to the location of a mid-foot region of a person's foot, and a portion of heel (8) for receiving a heel region of a person's foot. The forefoot portion (6) of the support surface in the region of its transfer to the midfoot portion (7) comprises two regions located at different distances from the support surface plane: a region metatarsophalangeal joint area support of the small toe (9) and a metatarsophalangeal joint area support region of the big toe (10).

Description

The present invention relates to the light industry, in particular, women's footwear, namely, high-heeled shoes. According to various studies, regular use of high-heeled shoes has been found to cause negative changes in the functioning of the locomotor system, the cardiovascular system, the respiratory and urinary systems, the brain and the spinal cord. Some of these changes, for example, shortening of the Achilles tendon, are a direct consequence of the position of the leg in the high-heeled shoe and do not depend on the design of the shoe. Some other changes, for example, the concentration of the load on the front part of a foot, in particular, on the anchoring of the foot under the metatarsophalangeal joint of the big toe, and consequently, the transverse platypodia and Hallux valgus, the circulatory disorder due to compression / expansion of soft tissues, can be reduced or even eliminated by changing the shape of the base portion of shoes and improving its comfort of support. Various solutions are known, designed to improve the comfort of wearing shoes with high heels / very high. For example, a shank for medium / high heel shoes is disclosed in RU 2438542 C1, providing improved comfort of shoes, which includes a thin, one-piece front portion, located at the upper plane of the fascicular plantar region, a rear portion, located on the upper surface of the inclined heel, and a middle portion, connecting the two portions above and curved in accordance with a sernene shank region shape. Also, a high heel shoe is disclosed in RU 2432890 25 Cl, and is designed to provide better comfort and better wearing. The shoe includes a support surface for a person's foot including a toe portion for receiving toe portions of a person's foot; a forefoot portion, for receiving a metatarsal region of a person's foot, a mid-foot portion, corresponding to a location of a region-30 foot mid-foot of a person; and a heel portion for receiving a heel region of a person's foot. In addition, the shoe contains a foot core support member 3033126, made from a conforming material or compression damping of a certain compression deformation factor. The support member is located in the mid-section of the shoe and has a convex shape so that its contour and height are sufficient to provide contact and support for the central portion of a person's foot to provide support. rounded transferring a load from the fascicular plantar area to the central and heel parts of a person's foot. However, in the known solutions, the main load is supported by the support surface under the metatarsophalangeal joint of the big toe, resulting in the deformation of the toes of the foot and the tip of the shoe, as well as the instability of the foot. because small vertical offsets of the body's weight can result in a significant increase in muscle effort required to maintain balance. Figures 1 and 2 schematically show the main foot support areas and the foot forces in these areas in the known high heel shoes. The main foot support areas 1, 2 to 3-are located in different planes not parallel to each other. Two of them (zones 2 and 3) are not parallel to the bearing surface 4, which causes the generation of the displacement forces Fd3 and Fd2 in the heel region and in the metatarsal articulation region. phalangeal of the little toe correspondingly. These forces are partially compensated by the frictional forces, and by muscle forces of the foot, are partially transferred to the top of the shoe. The part of the toes of the foot is compressed in the tip of the shoe by these forces, which causes the deformation of the toes of the foot and the tip of the shoe. Horizontal projections of the aforementioned forces tend to turn the foot inward relative to the support surface (a phenomenon called "clubfoot"). Projections of the vertical plane of the above forces try to turn the foot outward in its tibiotarsal joint (a phenomenon called "ankle tower"). Maintaining a upright upright position requires muscle tension that compensates for said forces. The main load is carried by zone 1 supporting the metatarsophalangeal joint of the big toe. The transfer of the load to the heel region of the person's foot is difficult because, together with a greater load on the heel, the displacement force also increases, requiring additional muscle tension for its compensation. It should be noted that, in conventional high-heeled shoes, the foot often loses contact with the shoe in the support region of the metatarsophalangeal joint of the little toe, which reduces the overall stability of the system. An object of the invention is the elimination or reduction of the abovementioned disadvantages of the known solutions, namely the increase in the comfort of the wearing of high / high heel shoes thanks to the redistribution of charges acting on various sections of the surface. foot support.

This object is achieved with a high heel shoe comprising a support surface for a foot of a person, comprising: a toe portion for receiving toe portions of a person's foot; a forefoot part, to receive a metatarsal region of the foot of a person; a half-foot portion, corresponding to a location of a mid-foot region of the foot of a person; and a heel portion for receiving a heel region of a person's foot. According to the invention, the forefoot portion of the support surface in the region of its transfer to the mid-foot portion comprises two regions located at different distances from the support plane region: a support region of the metatarsophalangeal hinge area of the small toe and a metatarsophalangeal hinge area support region of the big toe, wherein a distance from the metatarsophalangeal hinge area support region of the small toe to the support surface is at least 5 mm longer than the distance from the metatarsophalangeal joint area support region of the big toe to the support surface, and a surface of the metatarsal joint area support region. The phalangeal region of the small toe is formed such that, at least at one point thereof, the tangent to the line formed by its intersection with the plane parallel to the plane perpendicular to the support plane and passed Through the most distant points of the heel portion and the toe portion of the boot, the shoe is inclined relative to the support surface at an angle not greater than 100 in amplitude. absolute. The location of the metatarsophalangeal hinge area support region of the little toe is substantially horizontal (ie, parallel to the support surface), and elevating this region relative to the area support region 3033126 metatarsophalangeal joint of the big toe allows full contact of the metatarsophalangeal joint area of the small toe with the support surface. In addition, the shape of the support surface for a person's foot better corresponds to the anatomy of the foot, thus increasing an area of contact of the foot to a support surface, which improves a uniformity of pressure distribution of the foot. foot on the shoe. In addition, the position of the foot is statically balanced, there is no rotational and moving force, and small movements of the weight-bearing vertical of the body are compensated by a redistribution of the load between the support surfaces. . Preferably, a tangent in the heel portion transition region to the mid-foot portion at the line formed by the intersection of the support surface with the plane perpendicular to the support surface and passing through the points further apart from the heel portion and the toe portion of the shoe is inclined relative to the support surface at an angle of not more than 15 °. This makes it possible to increase the load portion carried by the heel region of a person's foot, which helps to reduce the displacement and / or rotation forces acting on the foot, and, therefore, no additional effort. It is necessary to compensate for them, which further improves the comfort of the use of the shoes. The present invention is illustrated by the drawings. Figures 1 and 2 show a schematic presentation in different projections of a static foot position in the high-heeled shoe of traditional geometry; Figures 3 and 4 show the same schematic presentation, but for the high heel shoe according to the present invention; Figure 5 shows the shoe according to the present invention, in perspective view with the top conventionally removed from the shoe; Figure 6 shows the shoe with the foot received from a user, in lateral view with a longitudinal section passing in the region of a metatarsophalangeal big-toe joint; Figure 7 shows a section through plane II in Figure 5; FIG. 8 represents a section through plane I in FIG.

As shown schematically in Figures 3 and 4, the main foot support regions 1, 2 and 3 of the shoe are located in different pl-years, but they are parallel or almost parallel to the plane 4 of the support. An angle of inclination of the heel support region 3 is small, so a small displacement force is compensated for by the friction force. Figure 5 shows the high heel shoe according to the present invention with the top conventionally removed from the shoe. The shoe includes a foot support surface of a person including a toe portion 5, for receiving toe portions of a person's foot, a forefoot portion 6, adapted to receive a metatarsal region of a person's foot, a mid-foot portion 7, corresponding to the location of the mid-foot region of a person's foot, and a heel portion 8, to receive a heel region. the foot of a person. The forefoot portion 6 of the support surface in the transition zone at the mid-foot portion 7 contains two regions located at different distances from the support surface plane 4: a support region of metatarsophalangeal hinge area of the small toe 9 and a metatarsophalangeal joint area support region of the big toe 10. The metatarsophalangeal joint area support region of the little toe 9 is located at a distance L1 of the support surface plane 4 (see FIG. 7); the metatarso-phalangeal joint region support region of the big toe 10 is located at a distance L2 from the support surface plane 4 (see FIG. 6), the distance L1 being at least 1 mm longer than the distance L2. Since the surfaces of the regions 9 and 10 should correspond to the parts of the foot shape which they support, and are substantially flat but concave double curved surfaces, the distances from each of said regions 9 and 10 to the surface plane of 4 are measured from this plane at the points closest thereto of these surfaces of the regions 9 and 10. In addition, the surface of the metatarsophalangeal joint area support region of the little toe 9 is arranged in such a way that that at least in a point 30 thereof a tangent to the line formed by its intersection with the plane II parallel to the plane I (see Figure 5), perpendicular to the support surface plane 4 and passing through the points further apart from the heel portion and the toe portion of the boot is inclined relative to the support surface at an angle α of not more than 100 in absolute amplitude (see FIG. ). In addition, a tangent in the transition zone from the heel portion region 8 to the mid-foot portion region 7 to the line formed by the intersection of the support surface with the plane I perpendicular to the surface plane 4 and passing through the points furthest apart from each other from the heel portion and the toe portion of the shoe are inclined at the angle (3 with respect to the surface plane of the support 4, not exceeding 15 ° Thus, the main foot support surfaces are located in different planes, but, in fact, are parallel to the support surface The angle of inclination of the part surface of the heel is low, so said displacement force is also low and is compensated by the friction force, with the boot part 8 of the shoe having a higher load compared to the known shoes. at the heel area of the foot only presents no difficulty because the displacement force is weak. In addition, an increase in the bead load results in an increase in the friction force, which compensates for the displacement force. The use of the shoe according to the present invention allows the following advantages: - the complete support of the metatarsophalangeal articulation zone of the little toe; - the statically balanced position of the foot; the additional loading of the heel, substantially eliminating the rotational and displacement forces, which require additional efforts for their compensation; - Increasing the contact area of the foot to the support surface, because the shape of the support surface better matches the anatomy of the foot, which, in turn, improves uniformity of foot pressure distribution. on the shoe.

Accordingly, the shoe of the present invention provides support comfort, reducing the problems involved in wearing high / high heel shoes.

Of course, the invention is not limited to the embodiments described above and shown, from which we can provide other modes and other embodiments, without departing from the scope of the present invention. 'invention.

Claims (2)

REVENDICATIONS1. A high heel shoe comprising a support surface for a foot of a person, comprising: a toe portion (5) for receiving toe portions of a person's foot; a forefoot portion (6) for receiving a metatarsal region of a person's foot; a mid-foot portion (7) corresponding to the location of a mid-foot region of a person's foot; and a heel portion (8), for receiving a heel region of a person's foot, characterized in that the forefoot portion (6) of the support surface in the area of its transfer to the portion The midfoot (7) comprises two regions at different distances from the supporting surface plane: a metatarsophalangeal hinge region support region of the little toe (9) and a zone support region. of metatarsophalangeal hinge of the big toe (10), wherein a distance from the metatarsophalangeal joint area support region of the small toe (9) to the support surface plane is at least 5 mm greater than distance from the metatarsophalangeal joint area support region of the big toe (10) to the support surface plane, and a surface of the metatarsophalangeal joint area support region of the small toe (9) is formed in such a way that, at least in one of the latter, the tangent to the line formed by its intersection with the plane (II) parallel to the plane (I) perpendicular to the support plane (4) and passing through the points furthest away from each other the heel portion (8) and the toe portion (5) of the boot are inclined with respect to the support surface plane (4) at an angle of not greater than 100 in absolute amplitude. Shoe according to claim 1, characterized in that a tangent in the transition zone from the heel portion (8) to the mid-foot portion (7) to the line formed by the intersection of the surface. with the plane (I) perpendicular to the support surface plane (4) and passing through the points furthest apart from each other from the heel portion and the toe portion of the shoe is inclined with respect to the support surface at an angle not exceeding 15 °.