Connection joint for cables for a cable stringing plant, comprising at least one first tubular element (18) to which a first segment (22) of a flexible member (19) is attached and positioned rotatable, at least with respect to a longitudinal axis (L) of the joint, inside a second tubular element (23) open at a first end and closed at the other end by a bottom wall (25); the bottom wall (25) comprises at least one hole (26) from which a second segment (27) of the flexible member (19) emerges; the second segment (27) is attached to a portion (32) of a third tubular element (31); the second and third tubular elements (23, 31) are provided on opposite ends with a corresponding hole (29, 35) directed substantially in a longitudinal direction and able to house a respective segment of cable (11a, 11b) to be laid.

Connection joint for cables for a cable stringing plant, comprising at least one first tubular element (18) to which a first segment (22) of a flexible member (19) is attached and positioned rotatable, at least with respect to a longitudinal axis (L) of the joint, inside a second tubular element (23) open at a first end and closed at the other end by a bottom wall (25); the bottom wall (25) comprises at least one hole (26) from which a second segment (27) of the flexible member (19) emerges; the second segment (27) is attached to a portion (32) of a third tubular element (31); the second and third tubular elements (23, 31) are provided on opposite ends with a corresponding hole (29, 35) directed substantially in a longitudinal direction and able to house a respective segment of cable (11a, 11b) to be laid.

A structure for a semi-static tensile member and a method for producing the semi-static tensile member. A tensile member is prepared by attaching terminations to an assembly of synthetic filaments. The tensile member is then attached to a loading apparatus that subjects the tensile member to a pre-defined loading process. The tensile member is thereby conditioned to a stable length. A bend restricting device is attached to the cable assembly proximate the point where the synthetic strands exit the termination and enter the freely-flexing portion of the cable. The bend restricting device is configured to permit periodic inspection of the cable in the region it covers.

Connection joint for cables for a cable stringing plant, comprising at least one first tubular element (18) to which a first segment (22) of a flexible member (19) is attached and positioned rotatable, at least with respect to a longitudinal axis (L) of the joint, inside a second tubular element (23) open at a first end and closed at the other end by a bottom wall (25); the bottom wall (25) comprises at least one hole (26) from which a second segment (27) of the flexible member (19) emerges; the second segment (27) is attached to a portion (32) of a third tubular element (31); the second and third tubular elements (23, 31) are provided on opposite ends with a corresponding hole (29, 35) directed substantially in a longitudinal direction and able to house a respective segment of cable (11a, 11b) to be laid.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.

In one embodiment, a tractor bucket attachment may include an attachment head and a loop of flexible cable. The attachment head may include a mounting bracket and first and second cable attachment mechanisms. The mounting bracket may be configured to secure the attachment head to a tractor bucket, the tractor bucket having a front edge. The loop of flexible cable may have a first end and a second end, the first end being attached to the first cable attachment mechanism and the second end being attached to the second cable attachment mechanism. The loop of flexible cable may be configured to ensnare a bale against the front edge of the tractor bucket.

The present invention relates to a swivel for the reduction of twist of a rope, having two swivel parts which are rotatable with respect to one another in the longitudinal direction of the rope, wherein a rotary drive is provided for the forced rotation of the two parts with respect to one another. In accordance with the invention, at least one direction of rotation measurement unit is provided at the swivel for the detection of the direction of twist of the rope with respect to the swivel, wherein the rotary drive can be controlled by a control apparatus in dependence on the determined direction of twist such that the swivel part connected to the rope is rotated in the direction of the detected direction of twist.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.