WO2019047453A1 - Negative heel shoe having special sole pattern - Google Patents

Abstract

A negative heel shoe having a special sole pattern is provided, and is characterized in that a rear end (1) portion of the outsole has a tooth-shaped pattern that is inclined forward. By means of the shoe, specific problems caused by negative heel techniques are alleviated, and possible risk of accidents during the adaptation period is reduced. The shoe is good for preventing the heel from sliding forward, and facilitates mental ease and posture adjustment. The absolute thickness of the shoe heel is also relatively reduced. In this way, proprioception of the human body is maintained to the utmost, and gaits more conforming to healthy gaits in normal walking and closer to natural gaits are facilitated.

Description

Negative heel with special sole pattern

The present invention relates to a heel shoe having a special sole pattern, and more particularly to a heel shoe having a forward dentate structure.

The existing sole patterns can be roughly classified into three types, a columnar pattern whose edges are perpendicular to the surface of the sole, a trapezoidal or triangular pattern whose upper portion of the edge is gradually reduced, and a dentate pattern whose edges are generally inclined rearward. These patterns are aimed at shoes with flats and flat shoes, which have a positive meaning for anti-slip, but for negative heels, different designs are needed, because the mechanical state of the heel and the impact on the human body are related to the existing footwear products. Different, so special design is also needed.

The present invention is an improvement to the sole position of the international application PCT/CN99/00134 to increase safety and functionality. For the convenience of description, the sole part of the shoe is divided into seven parallel sections according to the degree of weight bearing. The proportions of the front and back lengths of the sections and the length of the front and rear of the soles are as follows: front end, 12 %; palm front, 12%; forefoot, 16%; palm, 10%; waist, 25%; hind paw, 13% and back, 12%.

In the description of this specification, the following terms of the international application PCT/CN99/00134 are also used:

The term "average weight of the forefoot" refers to the upper surface of the forefoot section of the sole when the shoe is placed on a level ground (ie, the contact surface with the foot, the sock or the insole when worn, and the bottom of the interior of the shoe) on average per square The average number of ground heights in millimeters for a centimeter of 1.5 kilograms;

The term "average load-bearing height at the rear end" refers to the upper surface of the rear end section of the sole when the shoe is placed on a horizontal floor (ie, the contact surface with the foot, the sock or the insole when worn, and the bottom surface of the interior of the shoe) on average per square The average number of heights from the ground in millimeters with a weight of 3 kg;

The inner and outer sides of the forefoot refer to the vertical bisector of the dividing line between the forefoot and the palm of the hand as the left and right sides of the boundary;

The inner side of the waist guard refers to the left and right sides divided by the vertical bisector of the boundary line between the palm front and the waist stop;

The inner side of the rear end refers to the vertical bisector of the boundary line between the rear end and the back palm as the left and right sides of the boundary;

According to this, the right side of the right foot is the inner side of the outer side, and the left side of the left side is the inner side of the outer side. That is, the side of the thumb of the foot is the inner side, and the side of the fifth finger of the foot is the outer side.

The term "average load-bearing height of the forefoot" refers to the upper surface of the inner part of the forefoot of the sole when the shoe is placed on a level ground (ie, the contact surface with the foot, the sock or the insole when worn, and the bottom surface of the interior of the shoe), The average number of ground heights per square centimeter per square centimeter, in millimeters;

The term "average load-bearing height outside the forefoot" refers to the upper surface of the outer portion of the forefoot of the sole when the shoe is placed on a level ground (ie, the contact surface with the foot, the sock, or the insole when worn, is the bottom surface of the interior of the shoe), The average number of ground heights per square centimeter per square centimeter, in millimeters;

The term "average load-bearing height at the rear end" refers to the upper surface of the inner side portion of the rear end of the sole when the shoe is placed on a horizontal floor (ie, the contact surface with the foot, the sock or the insole when worn, and the bottom surface of the interior of the shoe), on average The average number of heights from the ground in millimeters per square centimeter, in millimeters;

The term "average load-bearing height at the rear end" refers to the upper surface of the outer portion of the rear end of the shoe when the shoe is placed on a horizontal floor (ie, the contact surface with the foot, the sock, or the insole when worn, and the bottom surface of the interior of the shoe), on average The average number of heights from the ground in millimeters per square centimeter of weight, in millimeters.

The seven-segment division of the sole can also be used in this way: the front end and the last end of the insole of the shoe are connected, and are vertically divided into seven parallel segments according to the aforementioned ratio. If there are no two points at the end of the front end, such as a line or two points, the middle point of the line or the middle point of the line connecting the two points is used as the front end of the front end. The inner and outer divisions are as described above.

The term "first half of the shoe" refers to the longitudinal total length of the outsole of the shoe as a reference, and the front and rear portions are divided by the middle, the portion where the sole is located is the front half, and the portion where the heel is located is the rear half.

The average load-bearing height mentioned above is the average value calculated by the weighted average method in square centimeters.

The back tilt angle of the sole refers to the angle at which the sole is inclined backward when the current average load-bearing height is higher than the average load-bearing height of the rear end when the shoes are placed on the horizontal ground. The calculation method of the angle is as follows: the midpoint of the inner and outer boundary lines of the palm and the midpoint of the inner and outer boundary lines of the back end are the reference points, and the average load-bearing heights of the front and rear ends respectively serve as the height positions of the two points, The angle between the extension of the point line and the horizontal floor is the angle of the back of the sole.

The forefoot introversion angle refers to the angle at which the forefoot is inclined inward when the current average load-bearing height on the outside of the palm is higher than the average load-bearing height on the inside of the forefoot. The calculation method of the angle is as the vertical bisector of the inner and outer boundary lines of the forefoot, and the midpoint of the inner and outer sides of the vertical bisector is used as the reference point, and the average bearing height of the inner and outer sides is taken as the height position of the two points respectively. The angle between the extension line of the two points and the horizontal ground is the forefoot inclination angle.

The rear end inward angle is the angle at which the rear end is inclined inward when the shoe having an average outer load-bearing height at the rear end is higher than the average load-bearing height at the rear end. The calculation method of the angle is: a vertical bisector of the inner and outer boundary lines of the rear end, and the midpoint of the inner and outer sides of the vertical bisector is used as a reference point, and the average weight of the inner and outer sides is taken as the height of the two points, respectively. The angle between the extension of the two-point line and the horizontal ground is the forefoot inclination.

The international application for the fitness shoes published in PCT/CN99/00134, that is, the average weight of the forefoot of the sole is higher than the average weight of the rear end of the sole. Although it has a bad posture for adjusting the human body, there is a certain degree of lumbar muscle strain, low back pain, and cervical spondylosis. Rehabilitation. However, the details of the anti-slip performance and function have yet to be optimized, and the present invention is directed to this.

A fitness shoe having a forefoot average load-bearing height and/or an average thickness of the sole of the sole that is higher than an average load-bearing height and/or an average thickness of the rear end of the sole, wherein the outsole of the rear end portion of the sole has a forwardly inclined tooth-like convexity Pattern.

In the front-rear direction of the present invention, the part where the forefoot is located is the front part, and the part where the back end is located is the back part. The front wall of the outer bottom pattern of the rear end of the sole has an angle of less than 90 degrees with the rear end surface for ordinary ground, 85 suitable for outdoor hard ground, 80 degrees for indoor floor, and 75 degree for indoor smooth floor. The usual sole pattern, the raised pattern wall is perpendicular to the plane of the sole, or inclined to the direction of the pattern, that is, can be described as being inclined inward, which is advantageous for the manufacture of the sole mold and the yield in the sole production, and the present invention It is a functional consideration for functional shoes.

This product is mainly used for inpatients in hospitals and other medical institutions. These places have high ground finish due to hygiene considerations. The most worrying thing about wearing a heel shoe is whether it will fall backwards. The negative heel will force the weight of the person to move backwards. The force surface is relatively reduced. If the sole friction is not enough, it is easy to slip forward and the person is sitting backwards. inverted. The invention prevents the center of gravity from slipping forward to the greatest extent, and the front slip causes the direct sitting or the back to fall, and the damage is the greatest. The invention is beneficial for preventing the forward sliding of the heel part, facilitating the relaxation of the spirit and facilitating the adjustment of the posture. Mental relaxation is the premise of physical relaxation and the premise of posture correction, because the enhancement of anti-slip design has practical significance for the function of correcting posture of negative heel shoes. The greatest degree of prevention of the backwardness of the center of gravity slips, which is important for the middle-aged and older, as important as the negative and the technology itself. Make up for the specific problems caused by negative and technical, and reduce the risk of accidents that may arise during the adaptation period.

The forward flank, when the heel rolls forward and the heel is standing, the dent is forced to fall, which is equivalent to reducing the absolute thickness of the heel, under the premise of increasing the slip resistance , to the greatest extent protect the body's proprioception. From the point of view of gait, the forward flank at the back of the sole is more compliant with the healthy gait of normal walking, closer to the natural gait, and the closest to the unpatterned state when walking.

The anti-slip pattern of the sole is necessary. From the perspective of selection, the present invention has an absolute advantage in all aspects compared with the prior art, and is not limited to anti-slip, and the zigzag forms a forward slight slope. It has a guiding role and has a practical contribution to medical rehabilitation, which has significant progressive significance. From the comprehensive consideration of various patterns, from the perspective of selection, the forward flank is the best choice for the heel of the heel. Double-layered security and functionality considerations. Some functional problems have been solved at a minimum cost, with a single advantage and a comprehensive advantage.

The exercise shoe of the present invention is characterized in that the height of the forwardly inclined flank is greater than 1.5 mm, 2 mm, 4 mm, and 6 mm. The height of the pattern according to the present invention means that the average of the distance from the highest end of the pattern to the lowest end of the pattern is normal; if the height has an undulation, the average is taken as the standard. The higher the pattern of the sole, the greater the friction, but it will affect the human body's sense of body and balance, the different pattern heights, for different stages of rehabilitation. The product with a height of more than 1.5 mm is suitable for severe patients. This stage is biased towards static adaptability. The requirements for anti-slip are low. The fine pattern can minimize the sense of the body, adapt and master the essentials; the height of the pattern is greater than 2 mm product, suitable for severe indoor walking contact of severe patients, still biased to static adaptive stage, correct posture; product with height greater than 4 mm, suitable for indoor use of moderate patients, gradually adjust gait; height of pattern is greater than The 6 mm product is suitable for mild patients who have already formed the correct gait and can be used for walking indoors and outdoors. The product with a height of more than 8 mm is suitable for normal exercise and consolidation after the patient recovers.

The fitness shoe according to the present invention is characterized in that the outer side of the forefoot and/or the rear end has an average load-bearing height higher than the inner side.

The fitness shoe of the present invention is characterized in that the hardness of the dentate material is higher than Shore 70 (HA) or Rubber International Hardness 70 (IRHD) for static rehabilitation training, Shore 75 (HA) or Rubber International Hardness 75 (IRHD), Shore 80 (HA) or Rubber International Hardness 80 (IRHD) for indoor training, 85 (HA) or rubber international hardness 85 (IRHD) for outdoor fitness training, Shore 90 (HA) or Rubber International Hardness 90 (IRHD) is used for general fitness training. For different bottom conditions, the smooth ground should be relatively hard, otherwise the friction with the ground during walking will be very loud and sharp.

In the fitness shoe of the present invention, the average load-bearing height of the palm front portion is higher than the average load-bearing height of the forefoot portion, and the method for measuring the average load-bearing height of the palm front portion is the same as the method for measuring the average load-bearing height of the forefoot palm. It is conducive to forcing the center of gravity to move backwards, which is more conducive to maintaining, can better consolidate the rehabilitation effect, and is more beneficial to postpartum people, low back pain patients and patients with peace and foot, and is also beneficial to diabetic patients with forefoot ulcers.

In the fitness shoe of the present invention, the average thickness of the palm front portion is higher than the average thickness of the forefoot portion. It is conducive to forcing the center of gravity to move backwards, which is more conducive to maintaining, can better consolidate the rehabilitation effect, and is more beneficial to postpartum people, low back pain patients and patients with peace and foot, and is also beneficial to diabetic patients with forefoot ulcers.

In the fitness shoe of the present invention, the average weight-bearing height of the front part of the sole is lower than the average weight-bearing height of the forefoot part, which is beneficial to the exercise efficiency and helps to run fast and jump high.

In the fitness shoe of the present invention, the average thickness of the front part of the sole is lower than the average thickness of the forefoot part, which is beneficial to the exercise efficiency and helps to run fast and jump high.

The fitness shoe according to the present invention is characterized in that the length of the forwardly inclined flank is greater than 30 mm, 60 mm, and 80 mm. The pattern can be divided into several rows and distributed in parallel.

The fitness shoe according to the present invention has a forwardly inclined flank, and the top end of the pattern may be an acute angle as in the drawing, or may be a circular arc shape, or may be a flat plane, that is, an acute angle of the uppermost end is removed. After the shoe is worn for a period of time, the sharp angle of the top end will be worn to become a circular arc and a flat plane. In the design process, the arc shape and the plane can also be directly designed to reduce the appearance change during use.

The fitness shoe according to the present invention is characterized in that the outer pattern width of the rear end outer sole is larger than the inner side. The width of the pattern is based on the distance from the lowest point before and after the dentate pattern. The wider the pattern, the worse the deformation ability, the smaller the degree of pressure fluctuation when the force is applied, and the narrower the deformation of the inner pattern is easy to fall and become thinner, so when the heel is rolling forward, it is easy to The medial and central are skewed, which is good for guiding the gait and forming a good gait. Moreover, the width of the outer pattern is increased, and the outer wear can also be reduced.

The exercise shoe of the present invention is characterized in that the outer side of the forefoot and/or the rear end has an average load-bearing height and/or average thickness higher than the inner side. Applicable to normal arch.

The exercise shoe of the present invention is characterized in that the outer side of the forefoot and/or the rear end has an average load-bearing height and/or average thickness lower than the inner side. Used in patients with flat feet.

The fitness shoe according to the present invention is characterized in that the outer pattern hardness of the rear end outer sole is larger than the inner side. The greater the hardness of the material of the pattern, the stronger the ability of the anti-pressure to resist the deformation of the pattern, which is beneficial to maintain the state of the outer high and the low inside, which is beneficial to the guiding of the gait.

The fitness shoe of the present invention is characterized in that the outer bottom surface of the forefoot portion has forward and backward flank patterns. In the movement, the force of the forefoot is more complicated, and various forces are needed, so the dentate pattern needs to be forward and backward.

The fitness shoe according to the present invention is characterized in that the sole is inclined at an angle of 1-9 degrees, and the range is a safety angle. The sole is tilted at an angle of 2-7 degrees, which is suitable for a variety of different sports.

The fitness shoe according to the present invention is characterized in that the pattern is distributed in a C shape, and the opening faces the forefoot direction.

The fitness shoe of the present invention is characterized in that the hardness of the dentate material is higher than Shore 70 (HA) or Rubber International Hardness 70 (IRHD) for static rehabilitation training, Shore 75 (HA) or Rubber International Hardness 75 (IRHD), Shore 80 (HA) or Rubber International Hardness 80 (IRHD) for indoor training, 85 (HA) or rubber international hardness 85 (IRHD) for outdoor fitness training, Shore 90 (HA) or Rubber International Hardness 90 (IRHD).

In the fitness footwear of the present invention, the average load-bearing height and/or average thickness of the inner side of the sole waistband is greater than the average load-bearing height of the outer side of the sole waistband and/or the average thickness of less than four millimeters, less than two millimeters, the same or slightly lower than the outer side. The calculation of the thickness includes the sum of the thickness of the outsole of the shoe and the thickness of the midsole and the insole (insole). The average load-bearing height is calculated in the same way as the average load-bearing height calculation at the back end. The average load height can be used as a measure or the average thickness can be used as a measure. The upper part of the inner side of the existing negative heel shoe generally has an upward curved protrusion, which is considered to be good for supporting the arch height, but in fact, this design violates the arch mechanical structure of the arch and increases the sole. The force of the fascia (equivalent to the bowstring of the arch) will reduce the height of the arch.

The exercise shoe of the present invention is characterized in that the average load-bearing height and/or average average thickness of the rear end of the sole is less than 20 mm, or 16 mm, or 12 mm. The greater the thickness of the sole, the worse the human body feels, the worse the safety and the poorer motor function.

The fitness shoe according to the present invention is characterized in that the average thickness of the middle 1/3 portion of the waist and/or the palm rear portion of the sole is lower than the inner and outer portions. The waist and the back of the palm, which are based on the boundary line between the two, are vertically divided into three parts: the medial middle and the lateral part. The middle part is slightly lower, which is beneficial to the use of patients with calcaneal pain and plantar fasciitis. Stimulation of the force of the part. The thickness is the sum of the thickness of the outsole, the bottom and the insole (insole).

The fitness shoe according to the present invention is characterized in that the average thickness of the 1/5 portion of the waist and/or the palm rear portion of the sole is lower than the inner and outer portions. The waist and the back of the palm, which are based on the boundary between the two, are vertically divided into five parts, the middle part is slightly lower, which is beneficial to the prevention of calcaneal pain and plantar fasciitis, reducing the force on the part. stimulate.

The shoe of the present invention is characterized in that the outer surface of the forefoot and/or the rear end of the sole has an angle of less than 90 degrees with the ground, so that the portion has a shape of a narrow upper and a lower width, which can increase standing, walking and The stability of the movement.

The shoe according to the present invention is characterized in that the rear side surface of the sole bottom end of the sole has an angle of less than 90 degrees with the ground, so that the portion has a shape of a narrow upper and a lower width, which can improve the stability of standing, walking and movement. Suitable for rehabilitation exercises for the elderly and patients.

The shoe of the present invention is characterized in that the inner side surface of the forefoot and/or the rear end of the sole has an angle of less than 90 degrees with the ground, so that the portion has a shape of a narrow upper and a lower width, which can increase standing, walking and The stability of exercise is suitable for middle-aged and elderly people.

The shoe according to the present invention is characterized in that the inner side surface of the forefoot and/or the rear end of the sole has an angle of more than or equal to 90 degrees with the ground, so that the portion has a vertical or upper width and a narrow shape, which is advantageous for the portion. The flexibility of exercise is suitable for adolescent sports.

The shoe according to the present invention is characterized in that the lower surface of the rear half of the rear end portion of the sole is inclined toward the rear upper side, and may be a flat surface or a curved surface. It can be a continuous transition. Relatively smooth is more conducive to the flexibility of movement. It can also be a transition between sections. The interval is excessive, there will be undulations and patterns, which can improve the friction.

The shoe according to the present invention is characterized in that: the forefoot of the sole is mounted with two or more nut structures, and the lower surface of the nut structure is recessed on the surface of the sole of the portion, and is recessed by more than two millimeters. If necessary, you can use screws to install external parts, increase the height of the forefoot, and usually close with screws.

The shoe according to the present invention is characterized in that the sole is equipped with a film pressure sensor having at least one portion, a sensing point or a sensor density of more than 10, 30, and 60 per square centimeter. The sensor can be mounted anywhere on the midsole, inland, insole and field of the shoe. The greater the density of the sensing point or sensor, the more specific the response to motion and the greater the judgment.

The front half of the sole of the present invention refers to the extension line of the boundary line between the waist and the back of the palm, and divides the bottom of the shoe into two parts, the front part of which is the front part and the rest is the back part. As the high and low shoes in front of the sole, the increase in the height of the front half of the sole also increases the weight of the front half, increases the weight ratio before and after, and the situation is top-heavy. This has an adverse effect on the pace start and gait cycle in sports, mainly influencing the running speed and jumping height. It is understandable as an orthopedic rehabilitation shoe, but it is insufficient if it is used as a sports shoe. The lower the ratio of the weight of the front half to the back half of the sole, the more favorable the sports performance, so as a sports shoe, the weight of the front half of the sole should be reduced as much as possible, or the weight of the rear half of the sole should be increased. The front half of the sole is light and the rear half is heavy. For walking and running, it has an optimal guiding effect on gait and is suitable for sports shoes. The specific method, for the front half of the sole, can reduce the structural volume or reduce the specific gravity of the material. The increase in weight in the rear half of the sole may be to increase the structural volume or increase the specific gravity of the material. This change has extended the application range of front high and low shoes to the field of sports shoes, making greater contributions to human health.

The ratio of the weight of the front half to the back half of the sole is less than 1.65:1, which is suitable for rehabilitation after Achilles tendon rupture; the ratio of the weight of the front half to the back half of the sole is less than 1.6:1, suitable for moderate strain of Achilles tendon. Rehabilitation training for patients; the ratio of the weight of the front half to the back half of the sole is less than 1.55:1, which is suitable for rehabilitation training of patients with mild achilles tendon; the ratio of the weight of the front half to the back half of the sole is less than 1.50:1 It is suitable for static functional exercise of patients with severe flat feet; the ratio of the weight of the front half to the back half of the sole is less than 1.45:1, which is suitable for walking rehabilitation of patients with lumbar disc herniation; the ratio of the weight of the front half to the back half of the sole is lower than 1.4:1, suitable for walking rehabilitation exercise in patients with lumbar disc herniation; the ratio of the weight of the first half to the back half of the sole is less than 1.35:1, suitable for walking rehabilitation exercise for patients with lumbar muscle strain; the first half and the second half of the bottom of the shoe The weight ratio is less than 1.3:1, which is suitable for ordinary people's normal running and daily exercise; the ratio of the weight of the front half to the back half of the sole is less than 1.25:1, suitable for all kinds of ball sports; the first half and the second half of the bottom of the shoe The weight ratio is less than 1.2:1, It is suitable for the rehabilitation of diabetic foot patients.

In the fitness shoe of the present invention, the bottom outer surface area of the front half of the sole is greater than 1 square centimeter, and the bottom outer surface area refers to the contact surface with the ground when the shoe is placed on the horizontal ground, and if there is a stud, the stud tip The area is the calculation standard. The larger the area, the stability of the movement.

In the fitness shoe of the present invention, the splicing seam of the inner material of the shoe is less than or equal to two, so that it is convenient for the diabetic foot patient to use, and for the case of rupture, the number of flat seams is less than one.

In the fitness shoe of the present invention, the outer load-bearing height of the forefoot and/or the rear end is higher than the inner average load-bearing height, which can prevent the foot from being inverted, which is beneficial for correction and formation of a correct gait. The average outer load-bearing height of the forefoot and/or the back end is better than the inner average load-bearing height of 2.5 mm.

In the fitness shoe of the invention, the back tilt angle of the sole is greater than 2 degrees, which is beneficial to the forced center of gravity shifting function and the increase of the exercise intensity; the back tilt angle of the sole is greater than 3.5 degrees, which can improve the sports performance.

The fitness shoe of the present invention has an average load-bearing height of less than 18 mm at the rear end of the sole, which is beneficial to the human body feeling and increases stability; the average load-bearing height of the rear end of the sole can also be 15 mm, and the body feels better; the rear end of the sole The average load-bearing height can also be less than 13 mm, which is more suitable for sports shoes.

In the fitness shoe of the present invention, the average load-bearing height on the inner side of the waist stop is lower than or equal to the average load-bearing height on the outer side of the waist stop, so as to avoid protruding of the part, causing traction on the plantar fascia and damaging the health of the arch.

The fitness shoe of the present invention can also add a sheet-like structure to the inner portion of the back of the shoe, and the sheet-like structure is located in the inner portion of the back of the shoe, facing the inner cavity of the shoe, and the heel or heel of the foot when worn. The socks in the sputum area are in contact. The combination of the sheet structure and the inner lining can be glued or seamed. The sheet structure has an area of more than 3 square centimeters, and may be various shapes such as a circle, an ellipse, a semicircle, a square diamond, etc., and the sheet material may be natural leather, artificial leather or textile, and the thickness of the sheet structure is lower than 2 mm, the function of the sheet structure is to adjust the friction and friction coefficient. It can also be used with different application materials to reduce the friction coefficient of the shoe-like structure. Thus, when used initially, the habit of moving forward will cause the heel to The rear cavity of the shoe moves up and down, which produces a feeling that the shoe does not follow the foot, which hinders walking. When the center of gravity is in the heel area, the feeling of not following the foot disappears, which makes the shoe have a reminding effect on the posture, and is realized at the lowest cost.

The solution of the invention is also improved for the application of shoes for diabetic patients, and an unexpected rehabilitation treatment effect can be obtained. First of all, the stitching seam of the inner material of the shoe is less than or equal to two, one or no better, which can reduce the friction with the skin and avoid damage to the skin and wound.

For the diabetic shoes, the weight distribution of the sole is also pay attention to. The existing negative heel shoes, due to the increase of the thickness of the front half of the sole, the weight of the front half of the sole is large, the walking is the upper part of the instep and the toe is increased, and the friction is also larger. It is also difficult to lift the foot, which is not good for the wound on the instep and the upper part of the toe. To this end, it is necessary to reduce the weight of the front half of the sole, while increasing the weight of the second half, thus forming a lever force, which is more conducive to the forefoot is raised, which is also beneficial to the elderly.

The total weight of a pair of shoes should be less than 1.5 kg, preferably less than 1 kg.

From the front and rear weight distribution of the shoes, the preventive type of products, the weight of the first half of the shoes, the proportion of the total weight of the shoes, less than 60%; the forefoot appears slightly ruptured, the weight of the first half of the shoes, the proportion of the total weight of the shoes, Less than 55%; the forefoot has a moderate rupture, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 50%; the forefoot is severely ruptured, the weight of the first half of the shoe, the proportion of the total weight of the shoe , less than 45%; the risk of cutting-off, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 40%;

The front and rear weight distribution control of the shoe can be achieved by combining the sole, the front half and the back half of the outsole (outsole) of the shoe (using the middle boundary of the longitudinal length) with different material combinations, and the average specific gravity of the material of the rear half of the outsole is high. The average specific gravity of the outsole material in the first half. For preventive products, the average specific gravity of the material in the second half of the outsole is higher than 5% of the average weight of the outer layer of the first half; the average proportion of the material in the rear half of the outsole is slightly higher than that in the first half. The average specific gravity of the bottom material is 10%; the forefoot is moderately ruptured, the average specific gravity of the material in the second half of the outsole is higher than the average specific gravity of the outer half of the first half; the forefoot is severely ruptured, and the second half of the outsole The average specific gravity of some materials is higher than the average specific gravity of the first half of the outer bottom material by 20%; if there is a risk of cutting off the foot, the average specific gravity of the material in the second half of the outsole is higher than the average specific gravity of the outer half of the first half;

From the weight of the sole, the front half of the outsole (outsole) of the shoe (in the middle of the longitudinal length) accounted for less than 60% of the total weight; the preventive product, less than 55%; the forefoot showed a slight rupture, Less than 50%; moderate to rupture of the forefoot, less than 45%; severe rupture of the forefoot, less than 40%; risk of cut-off, less than 45%.

The invention has the advantages of increasing the role of reminding, being more functional and more suitable for use by diabetics. Compared with the existing diabetes shoes, the ability to stretch the Achilles tendon can avoid the Achilles tendon surgery, and the protection and rehabilitation effect is better. And the front high and low sole can prevent the foreign body in the shoe from damage to the forefoot. At the same time, the technology is also extended to the field of sports shoes to play a greater role.

The fitness shoes according to the present invention may be sports shoes, travel shoes, casual shoes, casual shoes, cloth shoes, leather shoes, labor protection shoes and slippers.

A diabetic rehabilitation shoe in which the average weight of the forefoot of the sole is higher than the average weight of the rear end of the sole, and the feature is that the seam of the inner material of the shoe is less than or equal to one. For diabetic patients, the less stitching of the material in the shoe, the better. This is the basic requirement. To reduce the manufacturing difficulty and save the manufacturing cost, a stitching seam can be used for patients who have no foot ulceration.

In the diabetic rehabilitation shoe of the present invention, the splicing seam of the inner material of the shoe is less than one. That is, there is no splicing seam, which is necessary for the case where rupture has occurred.

The diabetic rehabilitation shoe of the present invention is characterized in that the ratio of the weight of the front half of the sole to the rear half of the sole is less than 1.65:1.

The sole of the present invention refers to the lower part of the upper, that is, the part below the boundary line between the upper and the insole, including the outsole, the outsole along the strip, the midsole, the insole, and the shoe cavity. The inner insole and the shackles that are bonded between the outer and midsole, and other components between the insole and the outsole.

The front half of the sole of the present invention refers to the extension line of the boundary line between the waist and the back of the palm, and divides the bottom of the shoe into two parts, the front part of which is the front part and the rest is the back part. As the high and low shoes in front of the sole, the increase in the height of the front half of the sole also increases the weight of the front half, increases the weight ratio before and after, and the situation is top-heavy. This has an adverse effect on the pace start and gait cycle in exercise, especially for diabetic patients who are prone to rupture in the forefoot. The specific method, for the front half of the sole, can reduce the structural volume or reduce the specific gravity of the material. The increase in weight in the rear half of the sole may be to increase the structural volume or increase the specific gravity of the material.

The ratio of the weight of the front half to the back half of the sole is less than 1.65:1, which is suitable for early patients who have not had a forefoot rupture; the ratio of the weight of the front half to the back half of the sole is less than 1.6:1, which is suitable for the forefoot rupture. The mid-term patient; the ratio of the weight of the front half to the back half of the sole is less than 1.55:1, suitable for patients who have not had a long time of forefoot rupture; the ratio of the weight of the front half to the back half of the sole is less than 1.50: 1, suitable for elderly patients who have not suffered from forefoot rupture for a long time; the ratio of the weight of the front half to the back half of the sole is less than 1.45:1, suitable for patients who have experienced a decline in forefoot sensation and vascular function but have not yet collapsed. The ratio of the weight of the front half to the back half of the sole is less than 1.4:1, which is suitable for patients with mild rupture of the forefoot; the ratio of the weight of the front half to the back half of the sole is less than 1.35:1, which is suitable for the forefoot poisoning. Patient; the ratio of the weight of the front half to the back half of the sole is less than 1.3:1, suitable for patients with moderate rupture of the forefoot; the ratio of the weight of the front half to the back half of the sole is less than 1.25:1, suitable for severe forefoot breaking Crushed patient; the front half of the sole Than half the weight of less than 1.2, the former for foot ulceration in patients with moderate to severe degree of foot amputation risk.

In the diabetic rehabilitation shoe of the present invention, the bottom outer surface area of the front half of the sole is greater than 1 square centimeter, and the bottom outer surface area refers to the contact surface with the ground when the shoe is placed on the horizontal ground, if there is a stud, a stud The tip area is the calculation standard. The larger the area, the better for stability, but it also increases the weight of the front of the sole, which needs to be weighed.

In the diabetic rehabilitation shoe of the present invention, the average outer load-bearing height of the forefoot and/or the rear end is higher than the inner average load-bearing height, which can prevent the foot varus, facilitate the correction, and form the correct gait. The average outer load-bearing height of the forefoot and/or the back end is better than the inner average load-bearing height of 2.5 mm.

According to the diabetic rehabilitation shoe of the invention, the back tilt angle of the sole is greater than 2 degrees, which is beneficial to the forced center of gravity shifting function and the increase of the exercise intensity; the back tilt angle of the sole is greater than 3.5 degrees, which is suitable for patients with risk of cutting off.

The diabetic rehabilitation shoe of the invention has an average load-bearing height of less than 18 mm at the rear end of the sole, which is beneficial to the human body feeling and increases stability; the average load-bearing height of the rear end of the sole can also be 15 mm, and the body feels better; The average load-bearing height of the end can also be less than 13 mm, which is more suitable for daily walking.

In the diabetic rehabilitation shoe of the present invention, the average load-bearing height inside the waist block is lower than or equal to the average load-bearing height on the outer side of the waist block, so as to avoid protruding of the part, causing traction on the plantar fascia and damaging the health of the arch.

The solution of the invention is applied to shoes of diabetic patients, and an unexpected rehabilitation treatment effect can be obtained. First of all, the stitching seam of the inner material of the shoe is less than or equal to two, one or no better, which can reduce the friction with the skin and avoid damage to the skin and wound.

For the diabetic shoes, the weight distribution of the sole is also pay attention to. The existing negative heel shoes, due to the increase of the thickness of the front half of the sole, the weight of the front half of the sole is large, the walking is the upper part of the instep and the toe is increased, and the friction is also larger. It is also difficult to lift the foot, which is not good for the wound on the instep and the upper part of the toe. To this end, it is necessary to reduce the weight of the front half of the sole, while increasing the weight of the second half, thus forming a lever force, which is more conducive to the forefoot is raised, which is also beneficial to the elderly.

In the diabetic rehabilitation shoes of the present invention, the total weight of a pair of shoes should be less than 1.5 kg, preferably less than 1 kg.

The diabetic rehabilitation shoe of the present invention, the front and rear weight distribution of the overall shoe (in the middle boundary of the longitudinal length), the preventive product, the weight of the front half of the shoe, the proportion of the total weight of the shoe, less than 60%; the forefoot appears mild Broken, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 55%; the front foot appears moderately broken, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 50%; the forefoot appears Heavy rupture, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 45%; the risk of cutting the foot, the weight of the first half of the shoe, the proportion of the total weight of the shoe, less than 40%, after the shoe The average height of the gang is less than 70 mm, and the average height of the back of the shoe is the average of the height of the upper of the sole and the back of the sole.

According to the diabetic rehabilitation shoe of the present invention, the front and rear weight distribution control of the outsole can be combined by different materials by combining the sole, the front half and the back half of the outsole (outsole) of the shoe (in the middle boundary of the longitudinal length). The average specific gravity of the material in the second half of the outsole is higher than the average specific gravity of the material in the first half of the outsole. For preventive products, the average specific gravity of the material in the second half of the outsole is higher than 5% of the average weight of the outer layer of the first half; the average proportion of the material in the rear half of the outsole is slightly higher than that in the first half. The average specific gravity of the bottom material is 10%; the forefoot is moderately ruptured, the average specific gravity of the material in the second half of the outsole is higher than the average specific gravity of the outer half of the first half; the forefoot is severely ruptured, and the second half of the outsole The average specific gravity of some materials is higher than the average specific gravity of the first half of the outer bottom material by 20%; if there is a risk of cutting off the foot, the average specific gravity of the material in the second half of the outsole is higher than the average specific gravity of the outer half of the first half;

The diabetic rehabilitation shoe of the present invention has a specific gravity of less than 60% from the weight of the sole, the front half of the outsole (outsole) of the shoe (in the middle of the longitudinal length), and less than 55% of the preventive product. The forefoot is slightly ruptured, less than 50%; the forefoot is moderately ruptured, less than 45%; the forefoot is severely ruptured, less than 40%; the risk of cut-off is less than 45%.

In the diabetic rehabilitation shoe of the present invention, the inner low height of the shoe upper upper distance shoe is higher than 90 mm. This is equivalent to the high boots, so that the calf parts share the weight of the shoes, reducing the risk of foot rupture.

In the diabetic rehabilitation shoe of the present invention, the front part of the shoe has a belt connected to the rear gang. For example, attaching the upper part of the toe surface to the back or shoe of the high-top or high-top shoes with a cloth strap or a leather strip can directly reduce the force on the forefoot. It can also be hard, such as metal wire, which can share the force of the forefoot, which is beneficial to the recovery of the severe rupture of the forefoot.

In the diabetic rehabilitation shoe of the present invention, the upper has at least 5 square centimeters of hollow. In this way, even the high boots that are hollowed out as the upper can share the force of the foot, and can be ventilated and ventilated, suitable for summer use. In the rupture site hollowed out, you can also directly change the medicine to avoid the trouble of wearing shoes.

The utility model relates to a fitness shoe with an average weight of the forefoot of the sole higher than the average load-bearing height of the rear end of the sole, characterized in that the outermost surface area of the front half of the sole is greater than 1 square centimeter. The bottom outer surface area refers to the sum of the contact surface between the forefoot and the palm front and the ground when the shoe is placed on the horizontal ground. If there is a stud, the area of the spike tip is used as the calculation standard. The larger the area, the stability of the sport, which is the basic requirement of sports shoes, especially in hard places such as basketball.

The utility model relates to a fitness shoe in which the average weight of the forefoot of the sole is higher than the average weight of the rear end of the sole, and the outer sole area of the forefoot portion of the sole is greater than 1 square centimeter. If there are studs, the area of the spike tip is used as the calculation standard. The larger the area, the stability of the sport, which is the basic requirement of sports shoes, especially in hard places such as basketball.

The shoe of the present invention is characterized in that the average thickness of the sole of the palm front portion is greater than the average load-bearing height of the forefoot. As a sneaker, when running and jumping, the strength of the forefoot is also finally emitted through the thumb. This design is more conducive to the movement of the thumb to promote the movement of the body, which can improve the performance of sports and maximize the benefit of bouncing.

The shoe of the present invention is characterized in that the average hardness and/or stiffness of the forefoot forefoot area of the sole is greater than the average hardness and/or stiffness of the waist portion. Hardness corresponds to hardness and stiffness corresponds to stiffness. In the forefoot measurement area, the forefoot direction is divided into three parts in parallel, and the middle part is called the forefoot measurement area. This area is the collection area of the motion data. In order to meet the needs of the high-end force measurement configuration, it must have sufficient hardness. The deformation of the forefoot midsole must cause data distortion; it is also the main bearing area of the forefoot. As a sports shoe, stability is required. To support the body movements, increase safety. The hardness and stiffness of the midsole determine the overall flexibility of the shoe. In the midsole of the existing shoes, the general hardness and rigidity are uniform. Many shoes with heel, the waist and the stiffness of the midsole are larger than other parts, and the steel hooks of the shoes are more typical to increase the strength. , the basic form of maintenance. In the existing negative heel shoes, the midsole is basically uniform. At present, the relatively hard midsole is used, and the need for orthopedic use increases the strength and effect of the orthopedics. The invention extends the negative heel shoe technology to the field of sports shoes. In order to adapt to the professional characteristics of the sport, it is necessary to increase the hardness and/or rigidity of the forefoot portion, and at the same time reduce the hardness and/or rigidity of the midsole waist portion, so that the front The stiffness and/or stiffness of the palm portion is greater than the stiffness and/or stiffness of the waist portion to facilitate the flexibility and flexibility of running and jumping. The invention can be realized in the following three ways: different materials are selected, materials with high hardness and rigidity are selected at the forefoot, materials with low hardness and rigidity are used for the waist, and different thicknesses are selected for the same material, such as the forefoot portion. The thickness is larger than the waist; the same material is the same thickness, and different reinforcing structures are used, such as bending at the edge or making the plane undulating.

The average hardness and/or stiffness of the forefoot forefoot in the midsole is greater than the average hardness and/or stiffness of the waist portion greater than 20%, suitable for indoor use; greater than 40% for daily life; more than 60% for simple Exercise; more than 80% is suitable for fitness exercise; more than 100% is suitable for high-intensity training; more than 150% is suitable for competitive sports.

The shoe according to the present invention is characterized in that: the outsole of the forefoot portion has a hardness-enhancing structure, and the structure is located below the midsole, and the shape of the structure is not limited, and may be a mesh, a column, a vertebra, or a block. Or a combination of the foregoing shapes, the structure may be included in the outsole, may be combined with the outsole, or the outsole may be exposed, and the structure may be directly used as the outsole, the volume of the structure being more than 0.5 cubic centimeters. , 1 cc or 2 cc, the material hardness of the structure is designed to be greater than Shore 75 (HA) or Rubber International Hardness 75 (IRHD) for static rehabilitation, Shore 80 (HA) or rubber, depending on the application and function. International Hardness 80 (IRHD) for indoor training, 85 (HA) or rubber international hardness 85 (IRHD) for outdoor fitness training, Shore 90 (HA) or Rubber International Hardness 90 (IRHD) for general fitness training, Shao 95 (HA) or rubber international hardness 95 (IRHD) for race walking training, Shore 99 (HA) or Rubber International Hardness 99 (IRHD) for mountaineering, Shore 14 (HD) for jogging, 30 (HD) ) for long-distance running, 88 (HD) for combat training, 20 HRA for ball games, HRR200 is used for sprint training.

In the shoe of the present invention, the highest point load height of the inner part of the sole waist is higher than three millimeters, less than two millimeters, and less than one millimeter, which are suitable for healthy feet, mild flat feet and severe flat feet. The load-bearing height is based on a state of 3 kg per square centimeter. In general shoes, there are protrusions supported by the arch in the waist, but this is wrong. It will increase the force of the arch of the arch, destroy the stability of the arch, and increase the level of the foot.

In the shoe of the present invention, the outer pattern of the forefoot and/or the rear end portion of the sole is larger than the inner side. The outside is easy to wear, and the outer pattern is enlarged to reduce wear and maintain function. It is larger than the inner side, and may be the area of the pattern, the density of the pattern, the volume of the pattern, or the line of the pattern may be thick.

The shoe of the present invention may be a one-time molded product, and the rear end of the sole has a backing of more than 5 mm, 10 mm, 20 mm or more, which prevents the heel from sliding backward when standing. The fixed structure is added on the outer side of the rear gang, and the belt is connected with the front part of the shoe, so that the slippers sandals can be used.

In the shoe of the present invention, the average load-bearing height calculation method of the palm front and the front end portion is the same as the average load-bearing height of the forefoot.

In the shoe of the present invention, the average load-bearing height and/or average thickness of the front end of the sole is lower than that of the palm front, which is advantageous for the forward movement of the center of gravity, suitable for running and jumping, and is suitable for sports shoes.

In the shoe of the present invention, the average load-bearing height and/or average thickness of the sole of the sole is lower than that of the forefoot, which is advantageous for the forward movement of the center of gravity, suitable for running, and suitable for running shoes for sports shoes.

In the shoe of the present invention, the average weight-bearing height and/or average thickness of the sole of the sole is higher than that of the forefoot, which is advantageous for the power when jumping, and is suitable for sports shoes with more jumping movements.

In the shoe of the present invention, the average load-bearing height and/or average thickness of the front end of the sole is higher than that of the palm front, which is advantageous for limiting the advancement of the center of gravity and contributing to the formation of a good standing walking posture, which is suitable for orthopedic shoes and diabetic shoes. The average load-bearing height of the palm front and the front end is calculated in the same way as the average load-bearing height of the forefoot.

In the shoe of the present invention, the average load-bearing height and/or average thickness of the sole of the sole is higher than that of the forefoot, which is advantageous for limiting the advancement of the center of gravity and contributing to the formation of a good standing walking posture, which is suitable for orthopedic shoes and diabetic shoes. . The average load-bearing height of the palm front and the front end is calculated in the same way as the average load-bearing height of the forefoot.

In the shoe of the present invention, the outer front end of the sole has an average outer load-bearing height and/or average thickness lower than the inner side, and may have a flat or curved surface inclined to the outer side. The sports shoes used for frequent beating, such as basketball shoes, land on the outside of the landing feet when jumping, and the state is J-shaped. This design is conducive to the expansion of the ground area and is conducive to the stability and safety of landing.

In the shoe of the present invention, the outer lateral load-bearing height and/or average thickness of the sole of the sole is lower than the inner side, and may have a flat or curved surface inclined to the outer side. The sports shoes used for frequent beating, such as basketball shoes, land on the outside of the landing feet when jumping, and the state is J-shaped. This design is conducive to the expansion of the ground area and is conducive to the stability and safety of landing.

In the shoe of the present invention, the midsole or the upper surface of the insole at the rear end of the sole is downwardly recessed, because the lower surface of the calcaneus is also circular, and the angle of the calcaneus can be adhered to increase the area of the calcaneus nodule. Disperse the soft tissue pressure of the heel and reduce the probability of diabetic foot ulcer formation. Ordinary products have a depth of more than two millimeters, and the depth of recession of early diabetic products is greater than 3 mm. The depth of recession of intermediate products for diabetes is greater than 4 mm, and the depth of recession of intermediate products for diabetes is greater than 5 mm.

In the shoe of the present invention, the midsole and/or the insole of the rear end portion of the sole contains a paste or liquid grease to prevent the heel skin from being cracked, which is more desirable for the elderly and diabetic patients.

The shoe of the present invention has an average thickness of the outsole and or the midsole of the sole and/or the waist portion of the sole, which is less than 30% of the average thickness of the palm portion, and increases the flexibility and is suitable for daily walking; More than 50% is suitable for daily fitness exercises; less than 70% is suitable for junior competitive sports, and less than 70% is suitable for special competitive sports.

In the shoe of the present invention, the strength of the palm front and/or forefoot of the shoe is higher than that of the waist, and is suitable for life shoes and sports shoes. The strength of the sole and/or forefoot of the sole is higher than 10% of the waist for orthopedic shoes, higher than 20% for life shoes; higher than 40% for ordinary sports shoes; higher than 40% for sports shoes; high 60% is suitable for training sports shoes; more than 80% is suitable for competitive sports shoes. By the same token, the strength of the sole and/or forefoot of the sole is higher than that of the palm and/or the forearm, and the above data is the same. The strength can be tensile strength, flexural strength, flexural strength. The strength test can be either the left and right sides or the front and rear sides.

BRIEF abstract

1 is a schematic view of a fitness shoe of the present invention.

2 is a schematic view showing the distribution of the seven-segment of the sole of the fitness shoe of the present invention.

Figure 3 is a schematic view of the inside and outside of the forefoot and the back end of the left sole.

Figure 4 is a schematic view of the inside and outside of the forefoot and the rear end of the right sole.

Figure 5 is a schematic illustration of a cross section of the rear end portion, listing six different inner and outer tilting postures. The various postures have different emphasis on the adaptability of the feet. In the figure, a indicates that the inclined plane type is suitable for ordinary people, b indicates that the inclined curved surface type is suitable for people with slight O-shaped legs, c indicates the inner tipped bottom type, and d indicates that the external oblique inner type is suitable for the O-shaped leg. The person uses, e means that the inner inner tilting trapezoid can make the sole and the heel fit better, and f means that the inner rounded bottom type enhances the fit. The forefoot of the sole can also be of an inclined plane type and a slanted curved type, but the arc of the forefoot portion is upwardly convex. As shown in FIG. 1, the fitness shoe of the present invention has an average load-bearing height of the forefoot higher than the average load-bearing height of the rear end.

According to Figure 2, the sole is divided into seven parallel segments from the back to the front according to the weight. The names of the segments are the rear end (1), the back palm (2), the waist block (3), and the back of the palm (4). Forefoot (5), palm front (6) and front end (7).

In Fig. 3, the inner side of the forefoot and the rear end of the left foot is indicated by (8), and the outer side is indicated by (9).

In Fig. 4, the inner side of the forefoot and the rear end of the right foot is indicated by (8), and the outer side is indicated by (9).

Embodiment: The flank pattern of the rear portion is separately formed into a film by using a combined bottom, and the affixing is combined at the back of the sole to avoid integral molding and increase the defective rate of the product.

The outer side of the pattern of the sole is thicker than the inner side to prevent wear.

Claims (10)

1. A fitness shoe having a forefoot average load-bearing height and/or an average thickness of the sole of the sole that is higher than an average load-bearing height and/or an average thickness of the rear end of the sole, wherein the outsole of the rear end portion of the sole has a forwardly inclined tooth-like convexity Pattern.
2. The exercise shoe of claim 1 wherein the height of the pattern is greater than 1.5 mm, 2 mm, 4 mm, 6 mm, 8 mm.
3. A fitness shoe according to claims 1 and 2, characterized in that the outer average load-bearing height and/or average thickness of the forefoot and/or the rear end is higher than the inner side.
4. A fitness shoe according to claims 1, 2 and 3, characterized in that the hardness of the dentate material is higher than Shore 70 (HA) or Rubber International Hardness 70 (IRHD), Shore 75 (HA) or rubber International Hardness 75 (IRHD), Shore 80 (HA) or Rubber International Hardness 80 (IRHD), 85 (HA) or Rubber International Hardness 85 (IRHD), Shore 90 (HA) or Rubber International Hardness 90 (IRHD).
5. A fitness shoe according to claims 1, 2, 3 and 4, characterized in that the length of the pattern is greater than 30 mm.
6. A fitness shoe according to claims 1, 2, 3, 4 and 5, characterized in that the outer pattern width of the rear end outer sole is larger than the inner side.
7. A fitness shoe according to claims 1 and 2, characterized in that the outer average load-bearing height and/or average thickness of the forefoot and/or the rear end is lower than the inner side.
8. A fitness footwear according to claims 1, 2, 3, 4, 5, 6, 7 and 8 wherein the average load-bearing height and/or average thickness of the rear end of the sole is less than 20 mm, or 16 mm, or 12 mm.
9. A fitness shoe according to claims 1, 2, 3, 4, 5, 6, 7, 8 and 9, characterized in that the sole is tilted at an angle of 1 to 9 degrees, the average weight of the sole of the sole is on the inside and/or The thickness is greater than the average load-bearing height on the outside of the sole waist and/or the thickness is less than four millimeters, less than two millimeters, the same or lower than the outer side.
10. A fitness shoe according to claims 1, 2, 3, 4, 5, 6, 7, 8 and 9, characterized in that the pattern is distributed in a C shape with the opening facing the forefoot direction.

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