121 |
Shoe machine |
US20591817 |
1917-12-07 |
US1425558A |
1922-08-15 |
EMILE VALOIS FELIX |
|
122 |
Method of producing and handling wedge-lifts |
US26319418 |
1918-11-19 |
US1371369A |
1921-03-15 |
VERNE HART FRED |
|
123 |
Method of making heels |
US19860917 |
1917-10-26 |
US1361053A |
1920-12-07 |
HART FRED V |
|
124 |
Composite sole structure |
US14225643 |
2014-03-26 |
US09549589B2 |
2017-01-24 |
Perry W. Auger; Andrew Caine; Sergio Cavaliere |
Embodiments relating to a lightweight sole structure are disclosed. In some embodiments, the sole structure may include a lobed member having a protruding portion associated with a cleat member. In some embodiments, the sole structure may include a chambered member located in an indention in an intermediate member. In some embodiments, the sole structure may include a cleat member having an outer layer, an intermediate layer, and an inner layer. In some embodiments, a method of making a sole structure may include injecting a chambered member in between an upper member and an intermediate member. In some embodiments, the sole structure may include a plurality of zones having varying degrees of flexibility. In some embodiments, the sole structure may include cleat members having penetrating portions for penetrating into the ground surface. |
125 |
Composite Sole Structure |
US14225701 |
2014-03-26 |
US20140338230A1 |
2014-11-20 |
Perry W. Auger; Sergio Cavaliere; Andrew Caine |
Embodiments relating to a lightweight sole structure are disclosed. In some embodiments, the sole structure may include a lobed member having a protruding portion associated with a cleat member. In some embodiments, the sole structure may include a chambered member located in an indention in an intermediate member. In some embodiments, the sole structure may include a cleat member having an outer layer, an intermediate layer, and an inner layer. In some embodiments, a method of making a sole structure may include injecting a chambered member in between an upper member and an intermediate member. In some embodiments, the sole structure may include a plurality of zones having varying degrees of flexibility. In some embodiments, the sole structure may include cleat members having penetrating portions for penetrating into the ground surface. |
126 |
METHODS FOR MANUFACTURING CUSHIONING ELEMENTS FOR SPORTS APPAREL |
US14178581 |
2014-02-12 |
US20140223673A1 |
2014-08-14 |
Angus Wardlaw; Gerd Rainer Manz; Tru Le; Warren Freeman |
Methods for manufacturing cushioning elements for sports apparel are described. A method is provided for manufacturing a cushioning element for sports apparel from randomly arranged particles of an expanded material. The method includes positioning a functional element within a mold and loading the mold with the particles of the expanded material, wherein the loading occurs through at least two openings within the mold and/or wherein the loading occurs between different movable parts of the mold. |
127 |
Composite sole structure |
US13009549 |
2011-01-19 |
US08713819B2 |
2014-05-06 |
Perry W. Auger; Andrew Caine; Sergio Cavaliere |
Embodiments relating to a lightweight sole structure are disclosed. In some embodiments, the sole structure may include a lobed member having a protruding portion associated with a cleat member. In some embodiments, the sole structure may include a chambered member located in an indention in an intermediate member. In some embodiments, the sole structure may include a cleat member having an outer layer, an intermediate layer, and an inner layer. In some embodiments, a method of making a sole structure may include injecting a chambered member in between an upper member and an intermediate member. In some embodiments, the sole structure may include a plurality of zones having varying degrees of flexibility. In some embodiments, the sole structure may include cleat members having penetrating portions for penetrating into the ground surface. |
128 |
Fabric footwear outsole and method of manufacturing same |
US12589227 |
2009-10-20 |
US20110088288A1 |
2011-04-21 |
Hyun Ho Park |
The method for fabricating the fabric footwear outsole begins by forming a rubber outsole base with an unfinished exterior surface section. A non-woven fabric sheet and an unvulcanized rubber sheet are separately formed and joined together. The sheets are cut to the shape of the unfinished exterior surface section of the base to form a fabric member. The fabric member is joined to the unfinished exterior surface section of the base by glue. Thereafter, the rubber outsole base and the fabric member assembly are heated to vulcanize the rubber sheet and to securely and permanently attach the fabric member to the outsole. |
129 |
SHOE INSOLE AND METHOD FOR MAKING SAME |
US11995246 |
2006-09-11 |
US20100071229A1 |
2010-03-25 |
Tsan-Hsing Kuo |
A method for making an insole includes a step (1) for preparing a base, attaching at least two reinforcement layers on a top of the base and a top layer attached on the base and covering the at least two reinforcement layers, the respective peripheries of the reinforcement layers being attached to the base so as to form a combination unit, and a step (2) for pressing and cutting the combination unit to obtain insoles, the reinforcement layer being enclosed between the base and the top layer. The method is suitable for mass production of the insoles. The insole includes a reinforcement layer which is enclosed between the base layer and the top layer. |
130 |
Apparatus and method for delivering an adhesive sheet into a mold |
US09196805 |
1998-11-20 |
US06179602B2 |
2001-01-30 |
William Doyle Eakin |
A support assembly, a knife support assembly operatively linked with the support assembly, and a control system assembly operatively linked with the support assembly and with the knife support assembly deliver an adhesive sheet into a mold. The support assembly includes a side clamp and a center clamp. An adhesive sheet assembly, in cooperative engagement with the support assembly, feeds a continuous supply of adhesive sheet to the support assembly. Accordingly, the adhesive sheet travels across the support assembly and is clamped by the side clamp for cutting by the knife support assembly. The side clamp moves the cut adhesive sheet from the support assembly and, along with a side clamp rib brace coupled with the side clamp, positions the sheet in the mold. The center clamp maintains the remaining adhesive sheet in a position relative to the support assembly ensuring that the side clamp optimally clamps the adhesive sheet upon returning to the support assembly. |
131 |
System and method for forming custom-made shoe inserts |
US286244 |
1981-07-23 |
US4510636A |
1985-04-16 |
Edward H. Phillips |
An automatic system for forming custom-made shoe inserts for a person's feet from a pair of blanks is provided with a foot impression mechanism for simultaneously forming an impression of the contour of the undersurface of each of the person's feet and for releasably retaining each impression formed. The system is also provided with a blank holding assembly for holding the blanks in lateral alignment with the impressions, a blank shaping mechanism for successively sensing each impression and for concomitantly successively cutting material away from each blank in conformance with the corresponding sensed impression, and a drive mechanism for automatically driving the blank shaping mechanism both laterally and to-and-fro over the impressions and the blanks in response to a single drive motor so as to automatically form the custom-made shoe inserts from the blanks in conformance with the impressions. |
132 |
Apparatus for assembling insole strips |
US3661681D |
1969-09-18 |
US3661681A |
1972-05-09 |
EDELBERG ALAN K; SWANFELDT ROY T |
A machine for assembling diverse strip materials into a composite edge-laminated sheet from which insoles for shoes can be cut is disclosed. Stacks of insole strip materials are arranged on aligned, side by side loading platforms in a feeder portion of the machine. Adjacent edges of contiguous strips may be beveled to permit edge bonding by the machine into a single, composite, flat sheet. A vacuum device in the feeder portion picks up the top strips from each stack and delivers them to corresponding parallel endless belts. The strip from the centrally located loading platform and the strips from the two adjacent platforms are delivered to a first adhesive station where a hot melt adhesive is applied to the edges of the central strip or the corresponding inside edges of the outer strips. After passing the adhesive section, the strips are delivered to an assembly station where the two adjacent strips are moved laterally into alignment with the edges of the central strip. The three strips are then bonded together by being passed through suitable nip and pressure rolls. The resultant intermediate sheet is passed through a second adhesive section, where adhesive is applied to the outer edges, or the corresponding inside edges of the remaining strips, and then passes to a second assembly section. The remaining outer strips are then aligned with the edges of the intermediate sheet for joining by passing through a second set of nip and pressure rolls. The finished composite sheet is then delivered to a stacking station and subsequently may be cut into individual insoles of the desired size and composition.
|
133 |
Support for flexible table top |
US3503295D |
1969-01-28 |
US3503295A |
1970-03-31 |
WIATT JAMES G; BRUNS EDWARD C |
|
134 |
Strip cutting machine |
US3420128D |
1965-07-13 |
US3420128A |
1969-01-07 |
RUSSELL WILLIAM H |
|
135 |
Controls for cutting presses |
US54295466 |
1966-04-15 |
US3389628A |
1968-06-25 |
BANKS DAVID E; HERDEG DONALD F; KARCHER JR RALPH E; KHAMBATY ABDULLAH A; MERCALDI WILLIAM B |
|
136 |
Edge trimming apparatus |
US54809866 |
1966-05-06 |
US3383725A |
1968-05-21 |
ALLWARDT ROBERT K |
|
137 |
Automatic apparatus for folding leather pieces |
US54797266 |
1966-05-05 |
US3382687A |
1968-05-14 |
FREEMAN JR LOUIS G |
|
138 |
Cutting presses having means for adjusting the rest position |
US51372365 |
1965-12-14 |
US3361022A |
1968-01-02 |
MERCALDI WILLIAM B; HERDEG DONALD F; HANSON WALDO B |
|
139 |
Sequential patterned positioning useful in manufacturing fabric shoe box toe blanks |
US35290064 |
1964-03-18 |
US3336826A |
1967-08-22 |
SHEFFIELD WILBUR L |
|
140 |
Cutting machine |
US32120163 |
1963-11-04 |
US3300802A |
1967-01-31 |
POLLEYS HERBERT R |
|