The present disclosure relates to a beginner's inline skate which can prevent rolling in place. A beginner's inline skate with an anti-rolling device according to the present disclosure includes an anti-rolling device installed on at least one wheel of wheels of the inline skate, wherein the anti-rolling device includes: an anti-rotation catching step formed around a rotating shaft of the wheel; and a rotator installed to rotate about a circumference of the rotating shaft of the wheel and having catching protrusions formed to be caught at the anti-rotation catching step and lock rotation of the wheel.

To provide inline skates that prevent skidding when curving and turning, and enable stable curving turns to be performed while maintaining straight running speed. An inline skate has a plurality of running wheels arranged in a row in series in the running direction. Wheel shafts of curving wheels have axial directions that are orthogonal to the axial directions and running directions of the wheel shafts of the running wheels, respectively. When the inline skate is upright, ground surfaces of the plurality of curving turn wheels are located at a position higher than the sliding surface and on both sides of the inline skate.

To provide inline skates that prevent skidding when curving and turning, and enable stable curving turns to be performed while maintaining straight running speed. An inline skate has a plurality of running wheels arranged in a row in series in the running direction. Wheel shafts of curving wheels have axial directions that are orthogonal to the axial directions and running directions of the wheel shafts of the running wheels, respectively. When the inline skate is upright, ground surfaces of the plurality of curving turn wheels are located at a position higher than the sliding surface and on both sides of the inline skate.

A summer style ski having three different types of wheels aligned to allow the ski to travel on non-snow or ice surfaces and to create the feel of carving or turning on a paved surface.

The present disclosure relates to a shoe fastening system. The shoe fastening system includes a shoe part, a rail, and an insertable intermediate adapter for compensating a distance between the rail and the shoe part. The shoe part can have a flat underside. The rail can have a surface in the heel area which is raised relative to a ball area. The shoe part can have at least one displaceable mounting plate for screwing in a fastening screw for the intermediate adapter. The intermediate adapter has three through-openings for inserting a fastening screw. The first through-opening is arranged in the center of the intermediate adapter, the second through-opening is arranged on one side of the intermediate adapter and the third through-opening is arranged on the other side of the intermediate adapter.

A skate (e.g., an ice skate) for a skater (e.g., a hockey player). The skate comprises a skate boot for receiving a foot of the skater and a skating device (e.g., a blade and a blade holder) disposed beneath the skate boot to engage a skating surface (e.g., ice). At least part of the skate boot and optionally at least part of one or more other components (e.g., the skating device) may be constructed from one or more materials (e.g., foams) molded by flowing in molding equipment during a molding process (e.g., injection molding or casting). This may allow the skate (or other footwear) to have useful performance characteristics (e.g., reduced weight, proper fit and comfort, etc.) while being more cost-effectively manufactured. Other articles of footwear are also provided.

An inline skate frame is provided including a first inline skate frame wall and a second inline skate frame wall opposite the first inline skate frame wall. A channel is defined between the skate frame walls. The skate frame includes axle locating features, with each axle locating feature including at least one through-hole for receiving an axle such that the corresponding axle extends across the channel. At least one of the axle locating features includes a slotted cutout in one of the first and second inline skate frame walls. Also provided is an adjustable inline skate system utilizing the inline skate frame.

An inline skate frame is provided including a first inline skate frame wall and a second inline skate frame wall opposite the first inline skate frame wall. A channel is defined between the skate frame walls. The skate frame includes axle locating features, with each axle locating feature including at least one through-hole for receiving an axle such that the corresponding axle extends across the channel. At least one of the axle locating features includes a slotted cutout in one of the first and second inline skate frame walls. Also provided is an adjustable inline skate system utilizing the inline skate frame.

A slide body (1) for ice sports equipment, in particular for skates, is proposed. The slide body (1) comprises two wall elements (14-1) which have a roller fastening portion (141), a mounting bar fastening portion (142),. and bearings (143) inserted in the roller fastening portion (141), as well as a multiplicity of rollers (15) arranged behind one another. The rollers (15) each comprise a shaft and are arranged between the first (14-1) and second wall element along the roller fastening portion (141), the shafts being inserted into the bearings (143) mounted in the wall elements (14-1). The rollers (15) further comprise a rolling face which has a ground surface.

A slide body (1) for ice sports equipment, in particular for skates, is proposed. The slide body (1) comprises two wall elements (14-1) which have a roller fastening portion (141), a mounting bar fastening portion (142),. and bearings (143) inserted in the roller fastening portion (141), as well as a multiplicity of rollers (15) arranged behind one another. The rollers (15) each comprise a shaft and are arranged between the first (14-1) and second wall element along the roller fastening portion (141), the shafts being inserted into the bearings (143) mounted in the wall elements (14-1). The rollers (15) further comprise a rolling face which has a ground surface.