Contiued from TreeMachine's long running gold mine thread Friction Devices Aloft Thread
A rig's factor of line tension and angle; especially as pre-set immediately before tearoff is hardly dis-cussed; especially in relation to it's importance of load force control and direction; IMLHO. Petightening can remove some elasticity, but then also eliminate the need for the said elasticity. Laying the load into the line, or turning away from the support on the hinge, can allow pretightening prior to tearoff, by the hinging motion; especially pretightening first before back cutting.
The climber is in a unique position to pre-set this line tension immediately before tearoff; by virtues of having 2 legs of line(load and control; groundie gets control leg only), bodyweight off ground, sometimes a foot cam and direction of mostly backcut/ re-lease etc.
The 2 legs of line that climber generally has affords 2handing, to get 2x a single hand pull (with overhead pulley on anchor) for same amount of effort as pulling line with 1 hand, and other on anchor to steady and increase pull. The bodyweight off ground, allows it to be used in addition to the 2x pull above. Also a foot cam can be added to afford leg lift type forces added to the line tension. The pull up on the load leg can be increased by not grabbing the load leg , but rather further out from hinge on the load itself for a more leveraged position of pull than the hitchpoint.
Also, we can place a 2/1 on the load, to double these potentials. These are all inline tensioning strategies; best if the bent/bights of the line are low - Zer0 Friction. As the bights of the bends take on more friction around on support end (over support limb rather than through pulley on support) and bend on load end (around load to 2/1, rather than through pulley); the tightening strategies are best altered some i think. Now we pretighten inline to stiffen line what you can, then really sweat line tight with perpendicular force to leverage tension and capture purchase behind the now available friction.
Pro-ceeding like this affords either maximizing on the fact that there is friction, or maximizing on the fact that there isn't friction. Either or; covering both ends of the possibilities.
This diagram (any resemblance to any local moderator is purely coincidental); shows the inline strategy possibilities of using leg force, body weight force, 2 handing and multiple pulls on load all orchestrated together to pretension the rigging line.
A rig's factor of line tension and angle; especially as pre-set immediately before tearoff is hardly dis-cussed; especially in relation to it's importance of load force control and direction; IMLHO. Petightening can remove some elasticity, but then also eliminate the need for the said elasticity. Laying the load into the line, or turning away from the support on the hinge, can allow pretightening prior to tearoff, by the hinging motion; especially pretightening first before back cutting.
The climber is in a unique position to pre-set this line tension immediately before tearoff; by virtues of having 2 legs of line(load and control; groundie gets control leg only), bodyweight off ground, sometimes a foot cam and direction of mostly backcut/ re-lease etc.
The 2 legs of line that climber generally has affords 2handing, to get 2x a single hand pull (with overhead pulley on anchor) for same amount of effort as pulling line with 1 hand, and other on anchor to steady and increase pull. The bodyweight off ground, allows it to be used in addition to the 2x pull above. Also a foot cam can be added to afford leg lift type forces added to the line tension. The pull up on the load leg can be increased by not grabbing the load leg , but rather further out from hinge on the load itself for a more leveraged position of pull than the hitchpoint.
Also, we can place a 2/1 on the load, to double these potentials. These are all inline tensioning strategies; best if the bent/bights of the line are low - Zer0 Friction. As the bights of the bends take on more friction around on support end (over support limb rather than through pulley on support) and bend on load end (around load to 2/1, rather than through pulley); the tightening strategies are best altered some i think. Now we pretighten inline to stiffen line what you can, then really sweat line tight with perpendicular force to leverage tension and capture purchase behind the now available friction.
Pro-ceeding like this affords either maximizing on the fact that there is friction, or maximizing on the fact that there isn't friction. Either or; covering both ends of the possibilities.
This diagram (any resemblance to any local moderator is purely coincidental); shows the inline strategy possibilities of using leg force, body weight force, 2 handing and multiple pulls on load all orchestrated together to pretension the rigging line.
Last edited:
opcorn:
