Booties; footwear; shoes; inner soles; insoles for shoes;
insoles for shoes and boots; polymer custom cushioned shoe
inserts for primarily non-orthopedic purposes; shoe inserts
for primarily non-orthopedic purposes; shoe soles; shoe
uppers; soles for footwear.
Booties; Footwear; Shoes; Inner soles; Insoles for shoes; Insoles for shoes and boots; Polymer custom cushioned shoe inserts for primarily non-orthopedic purposes; Shoe inserts for primarily non-orthopedic purposes; Shoe soles; Shoe uppers; Soles for footwear
Footwear manufacturing methods described herein may include use of an outsole mold having one or more receptacles bounded by vertical lips and an outsole body-forming cavity disposed outboard of the receptacles. One or more resilient inserts may be placed into the receptacles. Each resilient insert is shaped to conform to an inner wall of the lip of its receptacle, and has a top surface with a peripheral flange extending outward therefrom. A dummy mold is mated to the outsole mold, securing the resilient inserts in the receptacles such that the peripheral flange of each insert seals a perimeter of the insert by filling a space between the dummy mold and the outsole mold. A molten material is then injected into the outsole cavity to form an outsole comprising the resilient insert.
Soles for footwear and footwear are disclosed. The sole may include a midsole having a first surface. The sole may additionally include an outsole having a second surface and a plurality of first recesses. The second surface may be attached to the first surface. The first surface and the plurality of first recesses may define a plurality of chambers. One or more chambers of the plurality of chambers may include trapped air. The midsole may further include first protruding portions that extend downwardly from the first surface toward one or more first recesses of the plurality of first recesses.
A method for waterproofing footwear may include spraying a waterproofing liquid onto an inner surface of the upper of the footwear during the manufacturing process. A liner attached to the footwear may be turned inside out and/or pulled at least partially out of the upper to uncover the interior surface of the upper. By spraying the liquid onto the interior surface and onto the seam between the liner and the upper, these surfaces may be made waterproof.
B05D 7/12 - Procédés, autres que le flocage, spécialement adaptés pour appliquer des liquides ou d'autres matériaux fluides, à des surfaces particulières, ou pour appliquer des liquides ou d'autres matériaux fluides particuliers à du cuir
Soles for footwear and footwear are disclosed. The sole may include a midsole having a first surface. The sole may additionally include an outsole having a second surface and a plurality of first recesses. The second surface may be attached to the first surface. The first surface and the plurality of first recesses may define a plurality of chambers. One or more chambers of the plurality of chambers may include trapped air. The midsole may further include first protruding portions that extend downwardly from the first surface toward one or more first recesses of the plurality of first recesses.
Soles for footwear and footwear are disclosed. The sole may include a midsole having a first surface. The sole may additionally include an outsole having a second surface and a plurality of first recesses. The second surface may be attached to the first surface. The first surface and the plurality of first recesses may define a plurality of chambers. One or more chambers of the plurality of chambers may include trapped air. The midsole may further include first protruding portions that extend downwardly from the first surface toward one or more first recesses of the plurality of first recesses.
Methods of and molds for manufacturing footwear are disclosed. In one example, the method may include forming at least one molded portion adjacent to at least one non-molded portion such that part of the at least one molded portion overlaps and contacts the at least one non-molded portion, and forming the at least one molded portion to include end portions that are adjacent the part of the at least one molded portion and that extend away from the at least one non-molded portion such that the end portions do not contact the at least one non-molded portion; moving the end portions of the at least one molded portion toward the at least one non-molded portion such that the end portions contact the at least one non-molded portion; and securing the end portions of the at least one molded portion to the at least one non-molded portion.
A midsole for footwear, and footwear that incorporates the midsole, where the midsole includes a resilient core disposed between an upper housing and a lower housing, and including and a sidewall assembly extending from the perimeter of the upper housing to the perimeter of the lower housing, the sidewall assembly being configured to accommodate a compression of the midsole.
Footwear and soles for footwear are disclosed. The sole may include an energy transfer base. The energy transfer base may include top and bottom surfaces, and opposed first and second side surfaces. The energy transfer base may include at least one cavity. The at least one cavity may define upper and lower portions of the energy transfer base. The upper portion may be configured to move away from a nominal position and toward the lower portion when a force applied to the upper portion toward the lower portion has a magnitude that is above a predetermined value, and to move back to the nominal position when at least one of (1) the force is no longer applied or (2) the magnitude of the applied force is at or below the predetermined value.
An article of footwear may include a midsole having a flex-frame defining a plurality of cells. Some or all of the cells may be substantially filled with a foam material. The flex-frame may be made of a solid material having a greater stiffness than the foam material. The flex-frame may be unitary in construction.
Footwear and soles for footwear are disclosed. The sole may include an energy transfer base. The energy transfer base may include top and bottom surfaces, and opposed first and second side surfaces. The energy transfer base may include at least one cavity. The at least one cavity may define upper and lower portions of the energy transfer base. The upper portion may be configured to move away from a nominal position and toward the lower portion when a force applied to the upper portion toward the lower portion has a magnitude that is above a predetermined value, and to move back to the nominal position when at least one of (1) the force is no longer applied or (2) the magnitude of the applied force is at or below the predetermined value.
A method of making injection molded footwear includes placing a last into the internal cavity of a mold with the last and cavity being configured such that there is a space between them which is greater than the desired thickness of the footwear skin. An elastically deformable scrim is placed over the last before the last is paced in the mold. The scrim has a first thickness when not compressed and a second thickness when compressed. The difference between the first and second thickness is approximately equal to the desired thickness of the footwear skin.
A shoe sole and a shoe comprising such a shoe sole are described, with the shoe sole being equipped with integrated anti-slipping elements which are adjustable between an inactive position and an active position by means of a central actuation unit. This arrangement is characterized in that the anti-slipping elements, which in particular have the form of spikes, are respectively supported in individual functional units and are axially adjustable between their active and inactive positions through rotation by the central actuation unit via at least one flexible drive element.
