• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Shoe (1), in particular a ladies' shoe, comprising a heel (2) which contains an elastic element (5), a sole part (3) and a top part (4) which are connected to one another, wherein the heel (2) has a bearing surface ( 13) intended to receive the heel (12) of a foot. The sole part (3) is intended to receive the foot part which adjoins the heel. The upper part (4) contains a holding means (18) for connecting the shoe to the foot. The sole part (3) contains a convex curvature (32) and a concave curvature (33), which is intended to receive the foot area between the heel and the ball of the foot.
    公开号:CH714378A2
    申请号:CH01460/17
    申请日:2017-11-30
    公开日:2019-05-31
    发明作者:Renggli Inge
    申请人:Renggli Inge;
    IPC主号:
    专利说明:

    Description: The invention relates to a shoe, in particular a women's shoe with a heel in which an elastic element is installed, a sole part and an upper part which are connected to one another, the elastic element being made from cork and / or rubber, as shown in CH 702 184 A1.
    From GB 146 458 it is known that heels for shoes made of artificial cork, namely a mixture of powdered natural cork and a binder, can be produced.
    [0003] WO 2005/063 072 A1 and US Pat. No. 2,691,832 describe, for example, women's shoes with a high heel, which have a specially designed sole part, particularly in the field of soccer.
    [0004] From DE 10 2008 004 404 A1, a women's shoe with a high heel is known, which has a special insole arrangement with a footbed. Special foot pads, in particular for the area of the transverse arch and the ball of the foot, are described in US Pat. No. 2,465,817 and DE 20 2005 017 609 U1.
    From US 4,429,473 a shoe is known in which the interior of the heel is reinforced by means of a steel support. According to US 2009/0007 455 A1, the heel of a foot is particularly supported in the area of the heel of the high-heeled shoe.
    Is a high-heeled women's shoe is known, in the heel of a relatively complex shock absorber is built, which is formed from a spring-loaded, inside the heel slidably mounted plunger. The free end of the ram forms the lower tip of the heel, which comes into contact with a floor.
    The invention has for its object to provide a shoe of the type mentioned, which allows high wearing comfort and has a weather-resistant sole, which also offers additional stability when walking especially on a smooth or slippery surface.
    This object is achieved by a shoe with the features of claim 1. Advantageous further developments are the subject of the dependent claims.
    When the term "for example" is used in the following description, this term refers to exemplary embodiments and / or embodiments, which is not necessarily to be understood as a more preferred application of the teaching of the invention. Similarly, the terms “preferred”, “preferred” are to be understood by referring to an example from a set of exemplary embodiments and / or embodiments, which is not necessarily to be understood as a preferred application of the teaching of the invention. Accordingly, the terms “for example”, “preferably” or “preferred” can refer to a plurality of exemplary embodiments and / or exemplary embodiments.
    The following detailed description contains various embodiments for the shoe according to the invention. The description of a particular shoe is only to be regarded as an example. In the description and the claims, the terms “contain”, “comprise”, “exhibit” are interpreted as “contain, but not limited to ..”.
    A shoe, in particular a women's shoe, comprises a heel which contains an elastic element, a sole part and an upper part which are connected to one another, the heel having a contact surface which is intended for receiving a heel of a foot, the Sole part intended for receiving the foot part, which connects to the heel, the upper part containing a holding means for connecting the shoe to the foot. The sole part contains a convex and a concave curvature, which is intended to accommodate the foot area between the heel and the ball of the foot. This creates a heel bridge, which means that the heel rests on the contact surface. Slipping of the heel is avoided because more than 50% of the weight load is distributed on the contact surface. This means that the forefoot has a significantly lower weight, which relieves the pressure on the forefoot. This increases the comfort of the shoe, which is particularly noticeable when used for several hours. The shoe is therefore felt to be comfortable, although the height of the shoe, measured in the heel area, can be at least 100 mm. The height of the shoe can in particular be at least 120 mm.
    [0013] The convex curvature of the sole part can have a radius of curvature R1 in the range from 50 to 100 mm inclusive in the longitudinal center plane of the shoe. The longitudinal center plane is obtained by making a cut through the shoe from the heel area to the toe area, the longitudinal center plane dividing the shoe into a left half of the shoe and a right half of the shoe.
    The concave curvature of the sole part can have a radius of curvature R2 in the range from 50 to 100 mm inclusive in the longitudinal center plane of the shoe. The concave curvature connects in particular to the convex curvature. In particular, the concave curvature immediately adjoins the convex curvature.
    The transition from the convex to the concave curvature can in particular take place at least at half the height H of the heel. The height H is the maximum height of the contact area of the heel. The transition point U is at the height HK measured from a horizontal surface on which the shoe rests. The height HK preferably corresponds to at least half the height H.
    CH 714 378 A2 According to one embodiment, the bearing surface of the heel for the heel of the foot can be inclined at an angle of 5 ° to 10 ° inclusive.
    [0017] The sole part can have a sole end which is at least intended for receiving the toes. In particular, the sole end can run essentially parallel to the tread.
    [0018] The sole part and / or upper part can contain a lining which can contain a liquid-absorbing material. In particular, the lining can absorb sweat, so that the surface of the sole part and the upper part, which comes into contact with the foot, feels dry. The lining can contain a leather material. The lining can in particular contain Alcantara. The lining can be applied in particular in the areas of the sole part or upper part which come into contact with the foot. Alternatively or in addition to this, the lining can have a rough surface in order to maintain a good grip of the foot in the shoe. The foot cannot move relative to the sole or upper part when walking, or at least such a relative movement is reduced, which can reduce or even prevent the formation of friction points or blistering. In particular, the lining cannot contain at least one of the materials from the group of plastics or synthetic leather.
    The contact surface can have a shell shape. The contact surface is part of the inside of the sole part. This can be adapted to the shape of the heel.
    The sole part and / or the heel can contain an outsole made of non-slip material according to each of the exemplary embodiments. The non-slip material can in particular contain rubber. With an outsole made of a non-slip material, the friction can be increased, so that the risk of slipping on a surface and an associated possible injury is reduced.
    According to one embodiment, the elastic element built into the heel of the shoe is made of cork and / or rubber. As a result, a shock absorber is obtained in a particularly simple, yet effective manner, which dampens the impact well when walking and is inexpensive to manufacture. This allows the elastic element to effectively absorb the blow when walking and absorb the load in such a way that only a significantly reduced load is passed on to the heel. The shoe according to the invention thus ensures good shock absorption on the one hand when walking, on the other hand an effective and at the same time inexpensive manufacture of the damping built into the shoe.
    The interior of the heel is advantageously at least partially filled with the elastic element. The heel can thus be made from an outer, preferably harder and more wear-resistant, and from an inner, elastic material. A certain elasticity of the outer material is advantageous, since if the elastic element provided in the interior of the heel is deformed, the outer material of the heel may also be slightly deformed. Depending on the selection of the materials of the heel that are combined with one another, a relative movement can occur, for example, between the wear-resistant outer material and the inner material forming the elastic element.
    According to another development of the invention, the elastic element is conical or frustoconical, wherein the circumferential surface of the elastic element can also be designed in a step-like manner. This development enables good power dissipation and thus absorption of the impact forces introduced into the heel by the loads which occur, it being possible for all areas of the elastic element to be used to absorb the forces acting on the elastic element.
    Another advantage is an S-shaped last shape, in which the upper, outer surface of the heel, which receives the heel of the foot, is inclined horizontally or slightly towards the front shoe. A slight inclination means in particular an inclination angle of less than 15 °, preferably an inclination angle of less than 10 °, particularly preferably an inclination angle of less than 5 °. This last shape is well adapted to the anatomical shape of the woman's foot and can also be tailored to a specific woman's foot. According to one embodiment, the last shape runs out almost horizontally in the upper area, namely where the heel rests. According to one embodiment, the angle of inclination is in the range from 5 degrees to a maximum of 10 degrees. Tests have shown that the heel can slide less from the heel in this angular range and thus the entire foot pushes forward less towards the front shoe when walking. The contact surface for the heel can be adapted to the shape of the heel. In particular, the support can have a shell shape, which results in increased stability of the heel support.
    In particular, an embodiment which relieves a combination of the range of the inclination angle from 5 up to and including 100 and a shell shape for the contact surface when walking can also relieve the toes, since this can achieve an optimal hold of the heel region. The toes do not have to permanently apply pressure to the insole in order to find support, which leads to less fatigue of the foot muscles and, in particular, noticeably easier wearing the shoes for a period of several hours.
    When standing in such shoes, the weight can be primarily on the heel and thus on the heel, so that the weight is only partially passed on to the front foot. It is therefore possible with this last shape to no longer put 40% of the body weight on the heel and 60% on the balls of the foot, as with previous shoes,
    CH 714 378 A2 but to distribute 55% on the heel and 45% on the balls of the foot. Such a shoe therefore has significantly improved wearing comfort.
    The range of the angle of inclination from 5 up to and including 10 ° in combination with the shell shape of the support surface is in particular independent of the foot length. Therefore, the same last shape can be used for shoes in sizes 37 to 42. Therefore, in particular, the same heel can be used for all shoe sizes, whereby the manufacturing process of the shoe can be significantly simplified. The heel of the shoe and the elastic element can thus be configured identically or identically for each shoe, which reduces the variety of variants for production, so that the production of the shoe can be carried out more easily and cost-effectively.
    According to another development of the invention, the sole part is padded on the inside by means of at least one pad, preferably in the area of the transverse arch and / or the ball and / or the toes of the foot, the pad preferably being made of rubber, rubber or silicone is made. The pad can be incorporated or integrated into the sole part, in particular into the inside of the sole part. In this way, a soft cushion is obtained where, for example, a high-heeled shoe presses particularly often. It is also possible to provide an anatomically correct footbed on the inside due to the shape and arrangement of the pad. The pad can be made of foam rubber particularly advantageously.
    According to another preferred development of the invention, the lining of the sole part and / or upper part of the shoe at least partially surrounding the foot is made of Alcantara. Here, the wearing comfort can be improved by the fact that Alcantara can better absorb the moisture of the foot that forms when the shoe is worn than suede or smooth leather, which means that the foot slips less easily in the shoe and creates a pleasant feeling when the shoe is worn. The foot has a better grip in the shoe.
    According to another development of the invention, the longitudinal axis of the heel is inclined to the normal line in such a way that the tip of the heel is offset towards the front shoe in comparison to the opposite, upper section of the heel. In particular, the center of mass of the heel cannot lie in a vertical line with the centroid of the area of the tip of the heel when the shoe is on a surface. With respect to the normal line to the base, which runs through the center of mass of the heel, the connecting line is inclined from the center of mass to the center of area of the tip. The angle between the normal line and the longitudinal axis is between 1 and 10 °, preferably between 1 and 5 °, particularly preferably between 2 and 3 °. In this development, the heel is therefore not vertical but slightly oblique on a horizontal surface. The base can be a floor, for example. Due to this inclination, the heel of the shoe is arranged to counteract the direction of impact of the shoe on the base. When walking, the impression less easily arises that the heel bends backwards. This further improves the feel of the foot in the shoe and thus the wearing comfort. In addition, the risk is reduced that sales are chipped off when walking fast and can break or be lost.
    The sole part and the heel advantageously have a rubber outsole, in particular with a light profile. Such an outsole improves the slip resistance and thus the safe appearance of the shoe. At the same time, such a shoe can be designed to be particularly light, without having to forego a secure grip even in damp or wet weather.
    Therefore, a compact shoe can be obtained according to each of the embodiments of the invention, which is characterized by high wearing comfort. In particular, the shoe can be worn without symptoms for a period of several hours. In particular, the combination of a concave and a convex curvature of the sole part in the foot area between the heel and ball of foot, an inclination angle of 5 to 10 ° inclusive, in combination with the shell shape of the contact surface in the heel area leads to a shoe that can be worn for at least four hours without symptoms. Tests have shown that the shoe according to this exemplary embodiment can be worn for at least eight hours without symptoms.
    Exemplary embodiments of the subject matter of the invention are explained in more detail below with reference to the drawings, all of the features described and / or depicted individually or in any combination forming the subject matter of the present invention, regardless of their summary in the claims or their relationship. Show it:
    Figure 1 shows a longitudinal section through a shoe, in particular a women's shoe containing an elastic element according to a first embodiment.
    2a shows a side view of an elastic element according to a second exemplary embodiment;
    2b shows a side view of an elastic element according to a third exemplary embodiment;
    3 shows a schematic side view of the shoe; and
    FIG. 4 shows a section through the upper section of the heel along the line A-A of FIG. 3.
    CH 714 378 A2 [0034] A schematic representation of a shoe 1 is partially shown in FIGS. 1 and 3. This shoe 1 is preferably, but not exclusively, a women's shoe. In particular, FIG. 1 shows a section through the shoe 1 along a longitudinal center plane, that is to say a plane which runs essentially centrally through the shoe 1 from from the heel 2 to the sole part 3 or the sole end 9 thereof.
    The shoe 1 has a heel 2, a sole part 3 and an upper part 4. It is preferably, but not exclusively, a women's shoe with a high heel 2, in particular a sandal. The height H of paragraph 2 can in particular be at least 100 mm. The height is preferably at least 120 mm.
    Inside the paragraph 2 there is an elastic element 5. The elastic element 5 can be made of cork and / or rubber. The interior 6 of the paragraph 2 is at least partially filled with the elastic element 5, the elastic element 6, as indicated by dashed lines in Fig. 1, alone in the upper half of the paragraph 2 or, as not shown in detail, also over a smaller one or can extend a greater part of the length of paragraph 2. The peripheral surface 7 of the elastic element 5 can in particular run largely parallel to the outer peripheral surface 8 of the shoulder 2.
    As further indicated in Fig. 1, the elastic element 5 may be conical. According to an embodiment not shown in the drawing, the elastic element 5 can be designed in the shape of a truncated cone. It can have the shape of a straight one or it can also have the shape of an oblique cone or truncated cone. The entire elastic element 5 is usually made of an elastic material, namely advantageously of cork and / or rubber. According to the present exemplary embodiment, the elastic element 5 thus consists of solid material. According to an embodiment not shown, the elastic element can contain at least one cavity.
    The sole part 3 is intended for receiving the foot part, which connects to the heel. The upper part 4 contains a holding means 18 for connecting the shoe to the foot. The sole part 3 contains a convex curvature 32 and a concave curvature 33, which is intended for receiving the foot area between the heel and the ball of the foot. The convex curvature 32 of the sole part 3 can have a radius of curvature R1 in the longitudinal center plane of the shoe in the range from 50 to 100 mm inclusive. The longitudinal center plane is obtained by making a cut through the shoe from the heel 2 to the sole end 9, the longitudinal center plane dividing the shoe into a left half of the shoe and a right half of the shoe.
    The concave curvature 33 of the sole part 3 can have a radius of curvature R2 in the range from 50 to 100 mm inclusive in the longitudinal center plane of the shoe. The concave curvature 33 connects in particular to the convex curvature 32. In particular, the concave curvature 33 directly adjoins the convex curvature 32. The convex curvature 32 can directly adjoin the bearing surface 13.
    The transition from the convex curvature 32 to the concave curvature 33 can in particular take place at least at half the height H of paragraph 2. The height H is the maximum height of the contact surface 13 of the paragraph 2. The transition can take place through a transition point U on the inside of the sole part 3. The transition point U is at the height HK measured from the base 31 on which the shoe 1 rests. The height HK preferably corresponds to at least half the height H.
    According to an exemplary embodiment of an elastic element 5, shown schematically in FIG. 2a, the peripheral surface 7 of the elastic element 5 is designed in a step-like manner, so that a landing 10 is formed for each step. Usually, as shown in FIG. 1, the elastic element tapers downwards. But it is also possible to form the elastic element tapering upwards. It is also possible to change the modulus of elasticity of the elastic element over the height of the element. For example, the elastic element can be designed in such a way that it is built up in layers from top to bottom and the upper layer has a lower modulus of elasticity compared to a layer immediately following it (downwards). In this respect, one and the same elastic element can have a modulus of elasticity which is staggered in layers, for example increasing downwards.
    2b shows an elastic element 5 according to a third embodiment. Unlike in the previous exemplary embodiments, the cross-sectional area of the elastic element, measured in a parallel plane to the substrate in the direction of the tip 23 of paragraph 2, does not decrease continuously or stepwise, but rather has at least one area in which a first cross-sectional area, which has a smaller normal distance to the tip 23 of the paragraph 2 is larger than a second cross-sectional area, which has a larger normal distance to the tip 23 of the paragraph 2.
    As shown in FIGS. 1 and 3 in more detail, the shoe 1 has a substantially S-shaped last shape 11. In this last shape, the bearing surface 13 of the heel 2, which receives the heel 12 of the foot, is horizontal or to the front shoe 14 slightly inclined downwards. The inclination can take place at an angle of inclination 15 of less than 15 °, preferably at an angle of inclination 15 of less than 10 °, particularly preferably at an angle of inclination 15 of less than 5 °. In particular, the angle of inclination 15 can be in the range from 5 ° to 10 ° inclusive. To determine the inclination, an inclination plane is selected which corresponds to the base 31, the support plane of the foot without shoes on the base 31. The heel would rest on the base 31 if the foot is on the base 31 without shoes. For the sake of simplicity it is assumed that the base 31 forms a horizontal plane,
    CH 714 378 A2, but the relationships described can be transferred without restriction to an uneven or sloping base 31.
    The heel 12 is only partially and also only schematically indicated in the illustration according to FIG. 1.
    According to a further embodiment of the invention, the sole part 3 is padded on the inside by means of at least one pad 16, preferably in the area of the transverse arch and / or the ball of the foot. A pad can also be arranged in the area of the toes of the foot. The pad 16 is preferably made of rubber, rubber or silicone.
    According to another embodiment of the invention, the lining 17 at least partially surrounding the foot on the support surface 13 or the inside of the sole part 3 and / or the upper part 4 is made of a liquid-absorbing material. According to one embodiment, the lining contains 17 Alcantara.
    According to another embodiment of the invention, the longitudinal axis 20 of the paragraph 2 is inclined to the normal line 21 such that the tip 23 of the paragraph 2 is offset in front of the front shoe 14 in comparison to the upper section 24 of the paragraph 2. In particular, the center of gravity 30 of paragraph 2 cannot lie in a common vertical line with the area center of gravity 29 of tip 23 of paragraph 2 when the shoe is on base 31. With respect to the normal line 21 through the center of gravity 30 of the paragraph to the base 31, this results in an oblique position of the longitudinal axis 20, i.e. the connecting line from the center of mass 30 to the center of area 29 of the tip 23. The angle between the normal line 21 and the longitudinal axis 20 is between 1 and 10 °, preferably between 1 and 5 °, particularly preferably between 2 and 3 °.
    According to one embodiment, the sole part 3 and / or the heel 2 have an outsole 25 made of rubber, which can be provided with a profile for better slip resistance.
    According to a further exemplary embodiment of the invention, the angle 22 (see FIG. 3) at which the longitudinal axis 20 of the paragraph 2 is inclined to the normal line 21 can also be between 5 and 15 °.
    As shown in Fig. 1, the elastic element 5 extends to the bearing surface 13 of the paragraph 2. The elastic element 5 can thus only be covered by a cover layer or the lining 17, for example made of leather or Alcantara. As mentioned above, the elastic element 5 can also extend almost over the entire height of the shoulder 2 and thus from its tip 23 to its support surface 13. Furthermore, the shoe 1 can be decorated in particular on its upper part 4, if desired also on its sole part 3 and on its heel 2 with decorative elements 26, for example stones, in particular artificial stones (see FIG. 3).
    Fig. 4 shows a section through the upper portion 24 of paragraph 2 in the direction A-A as marked in Fig. 3. According to this exemplary embodiment, the elastic element 5 does not extend directly up to the support surface 13 or the lining 17 located on the support surface 13, but instead has a support arch-like connection 27. The support arch-like connection 27 can cover the elastic element 5, so that the elastic element cannot be exposed to any local overload. The support arch-like connection 27 can thus be provided to protect the elastic element 5.
    The bearing surface 13 has a shell shape 28. The shell shape 28 can in particular have a concave curvature. According to one embodiment, the curvature can be parabolic. In particular, the curvature can be adapted to the course of the heel. The heel is centered on the bearing surface 13 by the shell shape 28. This can in particular prevent the paragraph 2 from being loaded incorrectly, as a result of which the heel can be prevented from tilting in a transverse plane, that is to say in a plane which is oriented normal to the longitudinal center plane.
    [0053] A shoe was thus created which is very comfortable to wear and is therefore very comfortable to wear. It is simple and therefore inexpensive to manufacture. Because of this invention, elegant high-heeled high-heeled shoes can be worn comfortably over a long period of time.
    It is obvious to the person skilled in the art that many further modifications are possible in addition to the exemplary embodiments described, without deviating from the inventive concept. Of course, it is possible, in particular, to combine the shapes of the elastic elements of the exemplary embodiments with one another as desired in order to achieve optimal properties of the shoe for the corresponding application. The object of the invention is thus not restricted by the preceding description and is determined by the scope of protection which is defined by the claims. The widest possible reading of the claims is decisive for the interpretation of the claims or the description. In particular, the terms “contain” or “contain” should be interpreted in such a way that they refer to elements, components or steps in a non-exclusive meaning, which is intended to indicate that the elements, components or steps may be present or used that they can be combined with other elements, components or steps that are not explicitly mentioned. If the claims relate to an element or component from a group which can consist of A, B, C ... N elements or components, this wording should be interpreted in such a way that only a single element of this group is required, and not a combination of A and N, B and N or any other combination of two or more elements or components of this group.
    CH 714 378 A2
    权利要求:
    Claims (10)
    [1]
    claims
    1. Shoe (1), in particular women's shoe, comprising a heel (2) which contains an elastic element (5), a sole part (3) and an upper part (4) which are connected to one another, the heel (2) being a Has contact surface (13) which is intended for receiving the heel (12) of a foot, the sole part (3) being intended for receiving the foot part which adjoins the heel, the upper part (4) holding means (18) for connecting the shoe to the foot, characterized in that the sole part (3) contains a convex curvature (32) and a concave curvature (33) which is intended to accommodate the foot area between the heel and the ball of the foot.
    [2]
    2. Shoe according to claim 1, wherein the convex curvature (32) of the sole part (3) in the longitudinal center plane of the shoe has a radius of curvature R1 in the range from 50 to 100 mm inclusive.
    [3]
    3. Shoe according to one of claims 1 or 2, wherein the concave curvature (33) of the sole part (3) in the longitudinal center plane of the shoe has a radius of curvature R2 in the range from 50 to 100 mm inclusive.
    [4]
    4. Shoe according to one of the preceding claims, wherein the transition U from the convex curvature (32) to the concave curvature (33) takes place at least half the height (H) of the heel (2).
    [5]
    5. Shoe according to one of the preceding claims, wherein the bearing surface (13) of the heel (2) for the heel (12) of the foot is inclined at an inclination angle (15) of 5 ° to 10 ° inclusive.
    [6]
    6. Shoe according to one of the preceding claims, wherein the bearing surface (13) and / or the sole part (3) and / or upper part (4) contain a lining (17).
    [7]
    7. Shoe according to claim 6, wherein the lining (17) contains Alcantara.
    [8]
    8. Shoe according to one of the preceding claims, wherein the bearing surface (13) has a shell shape (28).
    [9]
    9. Shoe according to claim 8, wherein the shell shape (28) is adapted to the shape of the heel.
    [10]
    10. Shoe according to one of the preceding claims, wherein the sole part (3) and / or the heel (2) have an outsole (25) which contains a non-slip material.
    CH 714 378 A2
    类似技术:
    公开号 | 公开日 | 专利标题
    DE102014215897B4|2016-12-22|adistar boost
    DE102006011222B4|2013-02-28|Shock absorbing elastic flat body for shoes, cushioning pad from the elastic flat body and shoe with such a damping pad
    DE60030188T2|2007-07-19|footwear
    DE60308937T2|2007-01-25|Skateboard shoe with a variable-hardness outsole
    DE3527938C2|1988-05-26|
    EP1845816B1|2012-07-25|Item of footwear with integrated midfoot roll
    DE3732495A1|1988-09-01|INSOLE
    DE102008059030B4|2014-09-25|insole
    EP2543271A1|2013-01-09|High heel shoe
    WO2010022532A2|2010-03-04|Sole for an item of footwear
    CH629090A5|1982-04-15|FOOTWEAR.
    DE202016101153U1|2016-03-29|Shoe with BSW cushioning element
    DE102014107751A1|2015-12-03|Shoe, especially running shoe
    EP0387268B1|1992-10-21|Molded inner sole with sloping support, in particular composite structure comprising said sole and an outsole
    CH714378A2|2019-05-31|Shoe, especially women's shoe.
    DE112016000944T5|2017-11-09|Midsole structure for a shoe
    DE102007024427B4|2012-08-02|Sole construction for a shoe
    DE102011012244A1|2012-08-30|Sole body for a shoe and associated shoe with sole
    DE102013012097B4|2019-11-07|Load-adaptive structural sole as a controlling cushioning system
    DE102012020526A1|2014-05-08|Ballast for shoe, has two layers provided on upper sole of shoe, mold parts turned toward running shoe of shoe, and pelotte arranged under upper sole and made from polyurethane, cork, latex, silicone or ethylene-vinyl acetate
    CH702184A2|2011-05-13|Shoe i.e. lady shoe, has cone- or truncated cone-shaped elastic element integrated into heel, and sole part and upper part, which are connected with each other, where elastic element is made from cork and/or rubber
    DE202008002681U1|2008-05-21|sole
    DE202008018366U1|2013-07-17|insole
    DE102010055709A1|2012-06-28|Insole for a shoe and shoe with such an insert
    DE202015104193U1|2016-11-14|Orthopedic shoe sole and shoe comprising such
    同族专利:
    公开号 | 公开日
    CH714378B1|2021-05-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2022-02-28| PL| Patent ceased|
    优先权:
    申请号 | 申请日 | 专利标题
    CH01460/17A|CH714378B1|2017-11-30|2017-11-30|Shoe, especially women's shoe.|CH01460/17A| CH714378B1|2017-11-30|2017-11-30|Shoe, especially women's shoe.|
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