A tying system or mechanism with at least one lace and a fastener element can be used with a boxing glove or a shoe to allow a user to secure the at least one lace around the boxing glove or shoe without a second person and/or without tying a knot. The tying mechanism can include a back-to-back hook and loop of a fastener element and can include or more locking mechanisms to anchor free ends of the one or more laces at the eyelets of the boxing glove or shoe. The tying mechanism can generate a force that is radial or lateral to a gap defined by flaps of the boxing glove or shoes.

A tying system or mechanism with at least one lace and a fastener element can be used with a boxing glove or a shoe to allow a user to secure the at least one lace around the boxing glove or shoe without a second person and/or without tying a knot. The tying mechanism can include a back-to-back hook and loop of a fastener element and can include or more locking mechanisms to anchor free ends of the one or more laces at the eyelets of the boxing glove or shoe. The tying mechanism can generate a force that is radial or lateral to a gap defined by flaps of the boxing glove or shoes.

The invention relates to a method for fastening a shoe (1), having an upper part (2) and a sole (3) connected thereto, a rotary closure (4) for fastening the shoe (1) on the wearer's foot by means of at least one tensioning element (5), the rotary closure (4) having a rotatably arranged tensioning roller (6), and the tensioning roller (6) being driven by means of an electric motor (7), and a switching element (8), which is connected to control means (9), wherein the switching element (8) and the control means (9) can actuate the electric motor (7), wherein the operation of fastening the shoe (1) takes place by virtue of the person using the shoe (1) using a finger (15) to actuate the switching element (8). In order for it to be possible for the shoe to be fastened on the wearer's foot in a particularly straightforward and reproducible manner, the invention provides for the switching element (8) to have a number of touch-sensitive sensors (10) which are arranged one beside the other and form a surface (11) which is accessible to a user's finger (15), wherein the method comprises the following steps: The finger (15) is passed over the surface (11) of the touch-sensitive sensors (10) in a first direction (R1), the control means (9) detects the signal from the touch-sensitive sensors (10) and the control means (9) and the electric motor (7) cause the shoe to be fastened on the wearer's foot with a first level of fastening force. The invention also relates to a shoe.

The invention relates to a method for fastening a shoe (1), having an upper part (2) and a sole (3) connected thereto, a rotary closure (4) for fastening the shoe (1) on the wearer's foot by means of at least one tensioning element (5), the rotary closure (4) having a rotatably arranged tensioning roller (6), and the tensioning roller (6) being driven by means of an electric motor (7), and a switching element (8), which is connected to control means (9), wherein the switching element (8) and the control means (9) can actuate the electric motor (7), wherein the operation of fastening the shoe (1) takes place by virtue of the person using the shoe (1) using a finger (15) to actuate the switching element (8). In order for it to be possible for the shoe to be fastened on the wearer's foot in a particularly straightforward and reproducible manner, the invention provides for the switching element (8) to have a number of touch-sensitive sensors (10) which are arranged one beside the other and form a surface (11) which is accessible to a user's finger (15), wherein the method comprises the following steps: The finger (15) is passed over the surface (11) of the touch-sensitive sensors (10) in a first direction (R1), the control means (9) detects the signal from the touch-sensitive sensors (10) and the control means (9) and the electric motor (7) cause the shoe to be fastened on the wearer's foot with a first level of fastening force. The invention also relates to a shoe.

A cable lock includes a housing having a first engagement surface and a second engagement surface. The cable lock also includes a locking member slideably disposed between the first engagement surface and the second engagement surface and including a first lock element opposing the first engagement surface and a second lock element opposing the second engagement surface. The first lock element includes a first series of teeth and a second series of teeth arranged in parallel with the first series of teeth. The first lock element is operable to engage a first portion of a cable. The second lock element includes a first series of teeth and a second series of teeth arranged in parallel with the first series of teeth of the second lock element. The second lock element is operable to engage a second portion of the cable.

A dial-type wire tightening device is provided. The device is capable of being manufactured to be miniaturized and, by widening contact areas between elements provided to prevent reverse rotation when the wire is being tightened, has improved durability. The dial-type wire tightening device includes a lower cover, a reel part, a housing part, an intermediate cover, a stopper unit, a pawl part, and an upper cover.

A fastening device including a case unit and a spool is provided. The case unit includes a wall forming a receiving space, an upper opening communicated with the receiving space, and a lower opening opposite to the upper opening and communicated with the receiving space. The spool is within the receiving space. The spool is limited by the wall, and the wall prohibits the spool from leaving the receiving space from the upper opening.

A fastening device including a case unit and a spool is provided. The case unit includes a wall forming a receiving space, an upper opening communicated with the receiving space, and a lower opening opposite to the upper opening and communicated with the receiving space. The spool is within the receiving space. The spool is limited by the wall, and the wall prohibits the spool from leaving the receiving space from the upper opening.

An article of footwear, motorized lacing system, and method includes a motor, a transmission, operatively coupled to the motor, a power source, operatively coupled to the motor, a lace spool, operatively coupled to the motor via the transmission, configured to spool and unspool the lace based on operation of the motor, a printed circuit board, and a housing. The housing contains the motor, the transmission, the power source, the lace spool and the printed circuit board, the printed circuit board positioned between an interior surface of the housing and at least one of the power source and the motor, wherein the interior surface includes a post that extends through a hole formed in the printed circuit board. A flexing of the interior surface causes force on the housing to be at least partially imparted on the at least one of the power source, the transmission, and the motor.

An article of footwear, motorized lacing system, and method includes a motor, a transmission, operatively coupled to the motor, a power source, operatively coupled to the motor, a lace spool, operatively coupled to the motor via the transmission, configured to spool and unspool the lace based on operation of the motor, a printed circuit board, and a housing. The housing contains the motor, the transmission, the power source, the lace spool and the printed circuit board, the printed circuit board positioned between an interior surface of the housing and at least one of the power source and the motor, wherein the interior surface includes a post that extends through a hole formed in the printed circuit board. A flexing of the interior surface causes force on the housing to be at least partially imparted on the at least one of the power source, the transmission, and the motor.