The arrangement comprises a fluid bearing comprising a first fluid bearing element located in a bearing housing and a piston located in a pump housing. The bearing housing comprises a bearing housing opening. The pump housing comprises a pump housing opening. The first fluid bearing element is connected to the piston by means of a connection means extending from the first fluid bearing element through the bearing housing opening to the piston through the pump housing opening. The piston is arranged to reciprocate in the pump housing. The pump housing is connected to a fluid reservoir by means of a first inlet. The bearing housing comprises a first outlet for allowing fluid to exit the bearing housing. The arrangement further comprises a fluid transport means fluidly connecting the pump housing and the bearing housing.

A multi-attachment lever binder with a lever having a first and second bifurcated arm mounted thereon. The first bifurcated arm is mounted on the lever to establish a first pivot point. The second bifurcated arm is mounted on the lever to establish a second pivot point. The ends of the first and second bifurcated arms disposed opposite from the pivot points may be joined together to form a cavity for retaining the end of a connection device. The second pivot point is configured to move in an arc centered about the first pivot point as the lever is moved from an open position to a binding position.

The present invention provides a swivel joint of a strap-type leash, wherein one end of the strap-type leash connects to one end of a rope through a first connector, the other end of the rope connects to a rail protection band through a second connector, and the rail protection band is configured with a hooking string for hooking a surfboard. The first connector includes a first rotating handle, wherein one end of the first rotating handle is configured with a first ball bearing, and the other end of the first rotating handle is configured with a first fastening hole. The first connector further includes a first joint portion, wherein the first joint portion is configured with a cavity to accommodate the first ball bearing for rotating the first rotation handle in three dimensions, and a plurality of rings are configured around an outer side of the first joint portion.

The present invention provides a swivel joint of a strap-type leash, wherein one end of the strap-type leash connects to one end of a rope through a first connector, the other end of the rope connects to a rail protection band through a second connector, and the rail protection band is configured with a hooking string for hooking a surfboard. The first connector includes a first rotating handle, wherein one end of the first rotating handle is configured with a first ball bearing, and the other end of the first rotating handle is configured with a first fastening hole. The first connector further includes a first joint portion, wherein the first joint portion is configured with a cavity to accommodate the first ball bearing for rotating the first rotation handle in three dimensions, and a plurality of rings are configured around an outer side of the first joint portion.

A rigid locking binder for mechanically securing large, heavy loads and tie-down chains used for securing loads. The variable length binder comprises a rigid, threaded rod coaxially coupled within an elongated sleeve, such that relative axial displacements of the rod relative to the sleeve or vice-versa results in lengthwise expansion or contraction. The binder has chain hooks at opposite ends, that are pivotally associated with remote ends of the rod and sleeve for coupling to loads or anchor points. An assembly for selectively locking the sleeve and rod together establishing a selected binder length comprises a rigid lever pivotally mounted to the sleeve that controls a thread locking mechanism. The lever is pivoted between parallel pin plates secured to the sleeve. The thread locking mechanism comprises a threaded half nut that selectively engages or disengages rod thread portions that are exposed through an access window defined in the sleeve.

A backup swivel for providing double safety, including a first connecting cylinder configured for passing through at least one main rope and/or a main swivel and a second connecting cylinder configured for passing through the at least one main rope and/or the main swivel. The backup swivel further includes a first bracket configured for connecting at least one first backup rope and/or at least one first backup carabiner and a second bracket configured for connecting at least one second backup rope and/or at least one second backup carabiner, wherein the first connecting cylinder and the second connecting cylinder are attached together in a twistable manner, and the first connecting cylinder is radially at least partly arranged within the second connecting cylinder. The first bracket is swiveling attached to the first connecting cylinder and the second bracket is swiveling attached to the second connecting cylinder.

A backup swivel for providing double safety, including a first connecting cylinder configured for passing through at least one main rope and/or a main swivel and a second connecting cylinder configured for passing through the at least one main rope and/or the main swivel. The backup swivel further includes a first bracket configured for connecting at least one first backup rope and/or at least one first backup carabiner and a second bracket configured for connecting at least one second backup rope and/or at least one second backup carabiner, wherein the first connecting cylinder and the second connecting cylinder are attached together in a twistable manner, and the first connecting cylinder is radially at least partly arranged within the second connecting cylinder. The first bracket is swiveling attached to the first connecting cylinder and the second bracket is swiveling attached to the second connecting cylinder.

The invention relates to a slinging device (1) with a base part (2) and with a hoop part (6) which is attached to the base part (2) so as to be pivotable relative to the base part (2) about a pivot axis (4) which hoop part serves for the slinging of a slinging, load-securing, tensioning or lifting means (28). The slinging device (1) is equipped with an adjustment mechanism (40) which has at least one hoop deflection cam (46, 46a, 46b) and at least one brake probe (42) which, with the pivoting movement (8) of the hoop part (6) relative to the base part (2), passes across the hoop deflection cam at least in certain sections at at least one deflection position (47, 47a, 47b). The adjustment mechanism generates a deflection force (50) which increases with decreasing distance from the at least one deflection position and which is directed counter to the pivoting movement (8). The deflection force makes it more difficult to move the hoop part (6) into the deflection position. In order to be able to easily and inexpensively adapt the slinging device (1) to different usage requirements, it is provided according to the invention that the hoop deflection cam (46, 46a, 46b) is arranged on a separate cam carrier (44) which is attached to the base part (2) or hoop part (6).

The invention relates to a slinging device (1) with a base part (2) and with a hoop part (6) which is attached to the base part (2) so as to be pivotable relative to the base part (2) about a pivot axis (4) which hoop part serves for the slinging of a slinging, load-securing, tensioning or lifting means (28). The slinging device (1) is equipped with an adjustment mechanism (40) which has at least one hoop deflection cam (46, 46a, 46b) and at least one brake probe (42) which, with the pivoting movement (8) of the hoop part (6) relative to the base part (2), passes across the hoop deflection cam at least in certain sections at at least one deflection position (47, 47a, 47b). The adjustment mechanism generates a deflection force (50) which increases with decreasing distance from the at least one deflection position and which is directed counter to the pivoting movement (8). The deflection force makes it more difficult to move the hoop part (6) into the deflection position. In order to be able to easily and inexpensively adapt the slinging device (1) to different usage requirements, it is provided according to the invention that the hoop deflection cam (46, 46a, 46b) is arranged on a separate cam carrier (44) which is attached to the base part (2) or hoop part (6).