The invention relates to a tensioning device for tensioning chains (1), straps, ropes or similar tensioning means (1), comprising at least one tubular tensioning nut (2) and at least one threaded bolt (3) that is inserted into the tensioning nut (2) and is interacting with it, wherein the tensioning nut (2) and/or the threaded bolt (3) is/are equipped with a connection element (4) at the end, in particular for coupling to the tensioning means (1), and wherein the connection element (4) is movably connected to the tensioning nut (2) and/or the threaded bolt (3).

The invention relates to a tensioning device for tensioning chains (1), straps, ropes or similar tensioning means (1), comprising at least one tubular tensioning nut (2) and at least one threaded bolt (3) that is inserted into the tensioning nut (2) and is interacting with it, wherein the tensioning nut (2) and/or the threaded bolt (3) is/are equipped with a connection element (4) at the end, in particular for coupling to the tensioning means (1), and wherein the connection element (4) is movably connected to the tensioning nut (2) and/or the threaded bolt (3).

An article of footwear, lacing engine, and method includes a motor, a transmission operatively coupled to the motor, and a lace spool. The lace spool is operatively coupled to the transmission and includes a top lace groove in a top surface of the lace spool and a circumferential channel, wherein the lace is configured to be inserted in the top lace groove and be taken up around the circumferential channel based on a turning of the lace spool from action by the motor and transmission. A fastener is configured to couple the lace spool to the transmission and is inserted into the lace spool via the top surface, the fastener having a head having a head width sufficient to partially cover the top lace groove, leaving a top gap having a gap width less than a thickness of the lace.

An article of footwear, lacing engine, and method includes a motor, a transmission operatively coupled to the motor, and a lace spool. The lace spool is operatively coupled to the transmission and includes a top lace groove in a top surface of the lace spool and a circumferential channel, wherein the lace is configured to be inserted in the top lace groove and be taken up around the circumferential channel based on a turning of the lace spool from action by the motor and transmission. A fastener is configured to couple the lace spool to the transmission and is inserted into the lace spool via the top surface, the fastener having a head having a head width sufficient to partially cover the top lace groove, leaving a top gap having a gap width less than a thickness of the lace.

Disclosed in the present specification is to provide a connecting device for cables, in which a connecting portion and a length adjusting portion for connecting the cables are provided to be separated from each other, and a cable of a seat side and the connecting portion are easily attached to and detached from each other. According to one embodiment of the disclosure disclosed herein, proposed is a connecting device for cables, connecting a first cable connected to a folding unit of a seat of a first direction side and a third cable connected to a switch portion at a second direction side opposite to the first direction, the device including: a connecting portion; and a length adjusting portion.

Disclosed in the present specification is to provide a connecting device for cables, in which a connecting portion and a length adjusting portion for connecting the cables are provided to be separated from each other, and a cable of a seat side and the connecting portion are easily attached to and detached from each other. According to one embodiment of the disclosure disclosed herein, proposed is a connecting device for cables, connecting a first cable connected to a folding unit of a seat of a first direction side and a third cable connected to a switch portion at a second direction side opposite to the first direction, the device including: a connecting portion; and a length adjusting portion.

A cargo securing kit which incorporates synthetic chains in a manner which addresses the increased pitch of the synthetic link and the increased elongation of the synthetic chain, while still allowing the usage of conventional prior art load binders in a timely and safe manner. The kit includes a tie-down chain assembly, the tie-down assembly including a length of synthetic chain formed of individual links, each of the links having a pitch of P1. The kit further includes a shortening chain assembly, the shortening chain assembly including a length of metal chain formed of individual metal links, each of the metal links having a pitch P2, wherein the pitch P2 is less than the pitch P1.

A connector assembly for fastening a rope to a tubular frame includes a pair of sleeves extending inside the tubular frame through a pair of aligned holes. Each sleeve has a flange portion disposed outside the tubular frame and a tubular portion arranged inside the tubular frame. Each sleeve includes a pair of clips biased outwardly of the tubular portion and engaged with an inner surface of the tubular frame. Also, the connecting assembly includes an elongated member coupled with the rope, and extending inside of a first sleeve through a second sleeve. A nut member has a cap portion engaged with the flange portion of the first sleeve, and a hollow cylindrical portion extending inside the first sleeve. The elongated member is disposed, partly, inside and in threaded engagement with the hollow cylindrical portion.

A connector assembly for fastening a rope to a tubular frame includes a pair of sleeves extending inside the tubular frame through a pair of aligned holes. Each sleeve has a flange portion disposed outside the tubular frame and a tubular portion arranged inside the tubular frame. Each sleeve includes a pair of clips biased outwardly of the tubular portion and engaged with an inner surface of the tubular frame. Also, the connecting assembly includes an elongated member coupled with the rope, and extending inside of a first sleeve through a second sleeve. A nut member has a cap portion engaged with the flange portion of the first sleeve, and a hollow cylindrical portion extending inside the first sleeve. The elongated member is disposed, partly, inside and in threaded engagement with the hollow cylindrical portion.

A tensioning device includes a housing, a drive member, a sleeve and a driven member. The housing includes a first attachment feature. The driven member includes a second attachment feature. The sleeve is rotatably coupled with the housing. The drive member is rotatably coupled with the housing and is operably coupled with the sleeve such that rotation of the drive member facilitates rotation of the sleeve. The driven member is movable with respect to the guide member between a retracted position and an extended position.