A plate body is configured from a bottom part, a side surface part, and a flange part, and is formed in a concave shape, whereby the thickness of the bottom part of the plate body is reduced and the flexibility of a plate is increased. Reducing the thickness of the bottom part of the plate body reduces the length of screws for attaching a snowboard and prevents the screws from inhibiting the flexibility of the plate.

A plate body is configured from a bottom part, a side surface part, and a flange part, and is formed in a concave shape, whereby the thickness of the bottom part of the plate body is reduced and the flexibility of a plate is increased. Reducing the thickness of the bottom part of the plate body reduces the length of screws for attaching a snowboard and prevents the screws from inhibiting the flexibility of the plate.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

A plate body is configured from a bottom part, a side surface part, and a flange part, and is formed in a concave shape, whereby the thickness of the bottom part of the plate body is reduced and the flexibility of a plate is increased. Reducing the thickness of the bottom part of the plate body reduces the length of screws for attaching a snowboard and prevents the screws from inhibiting the flexibility of the plate.

A plate body is configured from a bottom part, a side surface part, and a flange part, and is formed in a concave shape, whereby the thickness of the bottom part of the plate body is reduced and the flexibility of a plate is increased. Reducing the thickness of the bottom part of the plate body reduces the length of screws for attaching a snowboard and prevents the screws from inhibiting the flexibility of the plate.

The disclosure is directed to a spacer block for elevating a boot of a rider of a snowboard. Due to the elevation of the boot above the snowboard, the boot drag of the rider is reduced. The spacer block is installed between the snowboard and a binding system of the snowboard that secures the rider's feet to the snowboard. By adding the spacer between the snowboard and the binding system, the boots are now elevated above the snowboard, and the rider can make sharper, more angled turns without the toes or heel of their boot contacting the snow. While the application describes the spacer block to be used with a snowboard, the spacer block can be used with boards for other recreational activities where boot drag is a problem. For example, the spacer block can be used with boards for gliding on sand, or with boards for rolling on ground.

The disclosure is directed to a spacer block for elevating a boot of a rider of a snowboard. Due to the elevation of the boot above the snowboard, the boot drag of the rider is reduced. The spacer block is installed between the snowboard and a binding system of the snowboard that secures the rider's feet to the snowboard. By adding the spacer between the snowboard and the binding system, the boots are now elevated above the snowboard, and the rider can make sharper, more angled turns without the toes or heel of their boot contacting the snow. While the application describes the spacer block to be used with a snowboard, the spacer block can be used with boards for other recreational activities where boot drag is a problem. For example, the spacer block can be used with boards for gliding on sand, or with boards for rolling on ground.