• 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:
    The cushioning assembly for the shoe is located in the rear part and comprises at least one spring positioned between the outer sole and the shoe upper, the shoe comprising an intersole positioned between the outer sole and the upper. The outer sole has at least one internally threaded orifice and at least one pin is provided with an externally threaded portion, the externally threaded portion being engageable with the threaded orifice of the outer sole. The intersole has at least one threaded orifice of same size as the orifice and the spring rests on the threaded portion of the pin. The upper member has at least one tooth, the tooth entering the upper part of the spring, whereby the spring is held in place. Preferably a plurality of pins and springs and a plurality of teeth are provided and the springs may also be held in place between one tooth and the adjacent tooth.
    公开号:SU1477233A3
    申请号:SU864028223
    申请日:1986-09-19
    公开日:1989-04-30
    发明作者:Скатена Др.А.Марко
    申请人:Др.А.Марко Скатена (Фирма);
    IPC主号:
    专利说明:

    one
    The invention relates to the shoe industry, namely to the design of shoes with elastic soles.
    The purpose of the invention is to regulate the depreciation properties depending on the weight of the person and facilitate maintenance during repair.
    Figure 1 shows the pin and spring, a vertical section; figure 2 - pin, cross section; on fig.Z - spring, cut, top view; figure 4 - inner gasket, top view; Fig. 3 shows an internal gasket with a pin inserted into its opening, side view; figure 6 - top gasket team elastic strip, top view; 7 - the same, side view; on Fig - the location of the various parts of the team elastic strip.
    Footwear with an elastic sole and elastic team pad for the exact part of the shoe contains a top blank 1 of the shoe, an outer sole 2 fixed on it and placed between the main insole 3 of the shoe and the outer sole 2 an elastic cushioning unit. - Elastic shock absorber consists
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    from the upper pad 4, located under the main insole, the inner pad 5, placed above the outer sole, and the compression coil springs 6 to provide a gap between the outer sole and the upper pad. The top gasket has on its surface facing the coil spring fastening elements 7 for fixing one end of each spring to reduce its lateral displacement. The second end of each spring is installed by means of a pin 8 with a rigid base 9. At the same time, the rod of the pin 8 has at its end a fastening section, which is included in the fastening hole 10 made on the inner gasket 5 for fastening the pin on the inner gasket. In the outer sole 2 there are through holes 11 for the passage of the mounting end of the pin. The axes of the through holes coincide with the axes of the corresponding fastening holes of the inner gasket. The mounting pin of the pin and the mounting hole on the inner gasket are threaded. The diameter of the through hole 11 for the passage of the threaded end of the pin in the outer sole is equal to the diameter of the rigid base 9 of the pin.
    The rigid base 9 of the pin has the shape of a rod made in one piece with the threaded portion of the pin. The inner gasket 5 is made of a sheet of rigid material, preferably plastic. The shoe has an additional elastic inner gasket 12 placed between the inner gasket 5 and the upper gasket 4 and made of foam material, in which the through holes 13 are made, the axes of which are a continuation of the respective axes of the inner gasket 5 and the fastening elements of the upper gasket 4. Each pin 8 It has a smooth upper section located above its threaded section and entering the second end of the corresponding spring.
    The inner gasket 5 shown in FIG. 4 is made of plastic or metal with a thickness of approximately 0.3-0.8 mm. The outer sole 2 is intended to contact with the ground. Pin 8 has a base made of a solid thermoplastic or rubber material, it serves as a support
    0
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    for the spring, provided with a solid part coming into contact with the ground, and: has a thread on its stem for connection with the inner gasket 5. In the final position, the lower spring horse is located in the groove 14, made in the upper part of the threaded part of the pin 8.
    The inner gasket 5 is intended to accommodate the pins therein, to make the spring level and to strengthen the zone undergoing elastic action. In addition, it compensates for any vertical displacement of the elastic damping assembly.
    A top gasket 4 with protrusions or teeth of the fasteners 7 holds the springs and prevents the latter from damaging the legs, and also gives strength to the elastic zone and counteracts the displacement of the elastic damping assembly.
    The additional internal resilient gasket 12 is preferably made of porous material of high density so that it is not around. Forced to resist and helped create a cushioning effect.
    The coil compression spring 6 may be made of a material of other strength.
    The inner liner 5 can be glued, stitched, or attached in some other convenient way to the outer sole. The inner gasket 5 imparts the correct direction and angle of inclination to the spiral spring 6, reinforces the elastic zone and, by deflecting inwards towards the corresponding angle, balances a slight slippage or displacement of the elastic damping assembly. The inner gasket may be made of a metal or plastic material or be rigid, may be made of a single piece or several pieces.
    The top gasket 4 can be glued, stitched, or attached in any suitable way to the top of the shoe. It holds the upper ends of the springs, which can additionally be pressed against its mounting surface, which prevents their displacement during operation. In addition, it strengthens the elastic zone and counteracts the displacement of the system by strengthening the material in the outer part of the shoe, and may also slightly deviate inward direction.
    The diameter of the through holes varies depending on the size of the shoe. For different sizes, lower pre-punched inner gaskets and upper gaskets can be used. The number of holes, as well as the size and force of the springs are determined by the weight to be sustained, or ortho-15 or its lateral displacement, about tl and 10
    between the main insole of the shoe and the outer sole, an elastic cushion assembly consisting of an upper gasket located below the main insole, an inner gasket located above the outer sole, and coil springs of compression to provide a gap between the outer sole and upper gasket, the last of which bears its surface facing the spiral spring, the fastening elements for fixing one end of each spring to reduce its lateral displacement, about one l and
    between the main insole of the shoe and the outer sole, an elastic cushion assembly consisting of an upper gasket located below the main insole, an internal gasket located above the outer sole, and compression coil springs to provide a gap between the outer sole and the upper gasket, the latter of which bears on surface facing the coil spring fasteners for fixing one end of each spring to reduce
    pedal defect that needs to be straightened.
    In this case, the pads have 13 holes, which is suitable for shoes of medium size. Smaller shoes have fewer openings, and larger ones have larger ones.
    The total elastic force generated by the elastic damping unit made in accordance with the invention is determined by the number of springs multiplied by the elastic modulus of each spring and the elastic modulus of the outsole. The pins 8 can be screwed in with a screwdriver. The pin head can be round or other shape, for example hexagonal. In case of abrasion, the pins can easily be replaced by others.
    The proposed shoes can be used as sports shoes, for example, training, jumping, for playing tennis and football, or as shoes specifically used for jogging or walking. Possessing a shock-absorbing effect, it minimizes the consequences of such diseases as tendolite, periostitis, etc.
    In addition, the number of springs is crammed with the fact that the rigid base can be varied depending on individual needs. Shoes on the proposed elastic cushioning node reduce fatigue, muscle tension and protect the bones of the legs from damage.
    The pin has the shape of a rod made in one piece with the threaded section of the pin.
    5. Shoes according to claims 1-4, about tl and h a- 5 o y with the fact that
    the gasket is made of a sheet of rigid material, preferably plastic.
    权利要求:
    Claims (7)
    [1]
    1. Shoes with an elastic sole and an elastic team pad for the exact part of the shoe, containing a shoe top preparation, an outer nofloimv fastened on it and placed
    that, in order to control the depreciation properties depending on the mass of the person and facilitate maintenance during
    repair, the second end of each spring is installed by means of a pin with a rigid base, and its core has a fastening section at its end, a fastening hole made on the inner gasket for fastening the pin on the inner gasket, with through holes in the outer sole the fastener end of the pins,
    the axis of each of which coincides with the axis of the corresponding fixing hole of the inner gasket.
    [2]
    2. Shoes pop. 1, which differs from the fact that the mounting portion of the pin and the mounting hole on the inner gasket are threaded.
    [3]
    3. Footwear on PP. 1 and, characterized in that the diameter
    the through hole for the passage of the threaded end of the pin in the outer sole is equal to the diameter of the rigid base of the pin.
    [4]
    4. Shoes in PP.1-3, about tl and h
    The pin has the shape of a rod made in one piece with the threaded section of the pin.
    [5]
    5. Footwear on PP.1-4, about tl and h and-ya and with the fact that
    the gasket is made of a sheet of rigid material, preferably plastic.
    [6]
    6. Shoes according to claims 1-5, about tl and h a - y shch and the fact that it has an additional internal elastic gasket placed between the inner
    and upper gaskets and made of foamed elastically deformable material, in which through holes are made, the axes of which are the continuation of the respective axes of the inner gasket and fastening elements of the upper gasket.
    1
    Fig.Z
    [7]
    7. Footwear according to claims 1-6, characterized in that each pin has a smooth upper portion located above its threaded portion and entering into the second end of the corresponding spring.
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    类似技术:
    公开号 | 公开日 | 专利标题
    SU1477233A3|1989-04-30|Elastic-sole footwear
    US7441347B2|2008-10-28|Shock resistant shoe
    US4342158A|1982-08-03|Biomechanically tuned shoe construction
    US4843737A|1989-07-04|Energy return spring shoe construction
    US4457084A|1984-07-03|Hopping and dancing shoes
    CA1338231C|1996-04-09|Athletic shoe with energy storing spring
    US6006449A|1999-12-28|Footwear having spring assemblies in the soles thereof
    US6886274B2|2005-05-03|Spring cushioned shoe
    US5070629A|1991-12-10|Sweet spot sole construction
    US4616431A|1986-10-14|Sport shoe sole, especially for running
    US7219447B2|2007-05-22|Spring cushioned shoe
    US4774774A|1988-10-04|Disc spring sole structure
    US4506460A|1985-03-26|Spring moderator for articles of footwear
    US6082462A|2000-07-04|Horseshoe imparting natural conformance and function providing adjustable shape and attenuation of shock and vibration
    US5152081A|1992-10-06|Shoe soles having a honeycomb insert and shoes, particularly athletic or rehabilitative shoes, utilizing same
    US4322893A|1982-04-06|Independent insole assembly
    EP1815764B1|2010-11-24|Shoe sole for correcting gait
    US5933983A|1999-08-10|Shock-absorbing system for shoe
    US20040123494A1|2004-07-01|Protective cage for footwear bladder
    EP0466925A1|1992-01-22|Fitting structure of spikes or the like for sport shoes
    US6436012B1|2002-08-20|Sporting and exercising device having a spring portion with stringed/clipped shock absorbers
    CA2347319A1|2001-11-12|Treadmill cushion
    US20030126760A1|2003-07-10|Shock resistant shoe
    US5680714A|1997-10-28|Trampoline effect athletic shoe having elastic sole return strips
    EP0215491B1|1990-12-27|A cushion system for shoes
    同族专利:
    公开号 | 公开日
    US4715130A|1987-12-29|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU175554U1|2017-04-21|2017-12-08|Игорь Владимирович Кузнецов|FOOTWEAR|
    RU2766289C1|2017-08-03|2022-03-11|Бэйз Протекшн Срл|Device made with possibility of embedding in shoe sole and acting as means of shock absorption, energy dissipation and stabilization|DE203631C|
    LU31816A1|
    US1670747A|1927-09-22|1928-05-22|Joseph A Sestito|Spring shoe|
    FR871303A|1941-04-04|1942-04-20|Shoe with a rigid but elastic sole|
    US2437227A|1947-03-05|1948-03-02|Hall Manville|Cushioned shoe sole|
    US2721400A|1952-03-31|1955-10-25|Israel Samuel|Cushioned shoe sole|
    US2710460A|1953-10-09|1955-06-14|George A Stasinos|Shoe or slipper and the like|
    DE1485654A1|1965-01-29|1970-03-12|Ernst Flebbe|The springy, elastic health shoe with the necessary foot support and anti-slip safety|
    US3996677A|1976-06-11|1976-12-14|Lawrence Peska Associates, Inc.|Exercise skate|
    US4267648A|1979-09-19|1981-05-19|Weisz Vera C|Shoe sole with low profile integral spring system|
    US4296557A|1980-01-31|1981-10-27|Pajevic Paul D|Shoe with sole cushioning assembly|
    FR2577119A1|1985-02-13|1986-08-14|Technisynthese Sarl|Shoe sole with energy-restoring device|US4878300A|1988-07-15|1989-11-07|Tretorn Ab|Athletic shoe|
    US5042175A|1990-01-30|1991-08-27|Samuel Ronen|User-specific shoe sole coil spring system and method|
    US5353523A|1991-08-02|1994-10-11|Nike, Inc.|Shoe with an improved midsole|
    US5224278A|1992-09-18|1993-07-06|Jeon Pil D|Midsole having a shock absorbing air bag|
    US5435079A|1993-12-20|1995-07-25|Gallegos; Alvaro Z.|Spring athletic shoe|
    USD434548S|1994-06-14|2000-12-05|Gallegos Alvaro Z|Shoe with spring|
    US5513448A|1994-07-01|1996-05-07|Lyons; Levert|Athletic shoe with compression indicators and replaceable spring cassette|
    US5649374A|1996-05-10|1997-07-22|Chou; Hsueh-Li|Combined resilient sole of a shoe|
    CA2270442A1|1996-11-14|1998-05-22|Totes Isotoner Corporation|Resilient sandal wedge and sandal formed therewith|
    US6006449A|1998-01-29|1999-12-28|Precision Products Group, Inc.|Footwear having spring assemblies in the soles thereof|
    US7219447B2|1999-04-29|2007-05-22|Levert Francis E|Spring cushioned shoe|
    US7752775B2|2000-03-10|2010-07-13|Lyden Robert M|Footwear with removable lasting board and cleats|
    US6665957B2|2000-10-19|2003-12-23|Shoe Spring, Inc.|Fluid flow system for spring-cushioned shoe|
    US6487796B1|2001-01-02|2002-12-03|Nike, Inc.|Footwear with lateral stabilizing sole|
    US6546648B2|2001-06-18|2003-04-15|Roy Dixon|Athletic shoe with stabilized discrete resilient elements in heel|
    US6964120B2|2001-11-02|2005-11-15|Nike, Inc.|Footwear midsole with compressible element in lateral heel area|
    US6851204B2|2001-11-15|2005-02-08|Nike, Inc.|Footwear sole with a stiffness adjustment mechanism|
    US20030104164A1|2001-12-05|2003-06-05|Pony Wu|Shock-absorbing sole pad|
    US6898870B1|2002-03-20|2005-05-31|Nike, Inc.|Footwear sole having support elements with compressible apertures|
    US6820353B2|2002-07-26|2004-11-23|Oakley, Inc.|Performance shoe midsole|
    US7082698B2|2003-01-08|2006-08-01|Nike, Inc.|Article of footwear having a sole structure with adjustable characteristics|
    TWI236350B|2004-08-24|2005-07-21|Jen Yuan Plastics Co Ltd|Elastic force adjustment device for a sneaker|
    US7730635B2|2004-09-27|2010-06-08|Nike, Inc.|Impact-attenuation members and products containing such members|
    US7314125B2|2004-09-27|2008-01-01|Nike, Inc.|Impact attenuating and spring elements and products containing such elements|
    US7493708B2|2005-02-18|2009-02-24|Nike, Inc.|Article of footwear with plate dividing a support column|
    US7726042B2|2005-03-23|2010-06-01|Meschan David F|Athletic shoe with removable resilient element|
    US7401418B2|2005-08-17|2008-07-22|Nike, Inc.|Article of footwear having midsole with support pillars and method of manufacturing same|
    US7533477B2|2005-10-03|2009-05-19|Nike, Inc.|Article of footwear with a sole structure having fluid-filled support elements|
    US7748141B2|2006-05-18|2010-07-06|Nike, Inc|Article of footwear with support assemblies having elastomeric support columns|
    KR100830124B1|2006-11-15|2008-05-19|김숙경|Shoes having impact absorption part|
    US20080209762A1|2007-01-26|2008-09-04|Krafsur Andrew B|Spring cushioned shoe|
    US20080189982A1|2007-02-09|2008-08-14|Krafsur Andrew B|Shoe spring sole insert|
    US7849611B2|2007-06-13|2010-12-14|Dean Christopher N|Shoe with system for preventing or limiting ankle sprains|
    US20150223558A1|2014-02-10|2015-08-13|Upright Footwear, Inc.|Method and Device for Addressing Leg Length Inequality|
    WO2016014804A1|2014-07-23|2016-01-28|Sanchez Hernan|Cleat assembly for an athletic shoe and an athletic shoe comprising same|
    US20170332727A1|2014-12-12|2017-11-23|Harald Beck|Modular Insert System for Shoe Soles|
    USD759951S1|2015-04-14|2016-06-28|You-Sheng Lin|Shoe insole|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    IT8771085|1985-09-20|
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