* [#reduction_pulley_system Reduction Pulley System]

** [#node_ghd Node-GHD]

*** [#image_1__pulley_system Image-1: Pulley system]

*** [#image_2__one_end_of_the_pulley_system_attached_to_the_wall_ Image-2: One end of the pulley system attached to the wall.]

*** [#image_3__how_it_looks_when_completed_ Image-3: How it looks when completed.]

** [#node_ges Node-GES]

*** [#a_couple_of_points___ A couple of points...]

*** [#critical_stages Critical stages]

*** [#procedure_ Procedure:]

*** [#notes_ Notes:]

*** [#image_4__the_pulley_system_and_halfway_up Image-4: The pulley system and Halfway up]

*** [#image_5__almost_up_and_vertical__before_tying_off Image-5: Almost up and Vertical, before tying off]

! Reduction Pulley System

!! Node-GHD



This reduction pulley system is great for anyone who wants a large pivoting mast and has a mounting point for leveraging. The reduction pulley system reduces the amount of force needed to 1/4 of the total forced needed to get the pole at 90 degrees.



This pulley system is installed at (/nodes/view.php?id=ghd Node GHD) with also another pivoting mast at (/nodes/view.php?id=fsk Node FSK). The pulley system can raise a 14m mast with little effort. Lowering the mast is even easier.



All you need is two pulley's with two wheels, some rope and a leverage point above your mast.



The smaller image is from howstuffworks.com and the image in the background just shows the setup at (/nodes/view.php?id=ghd Node GHD)

%%%

!!! Image-1: Pulley system

{http://members.optushome.com.au/jxuereb/pulleysystem.gif Pulley System}



!!! Image-2: One end of the pulley system attached to the wall.

{http://members.optushome.com.au/jxuereb/mast/pictures/Pulley%20System%20-%20House%20Side.jpg Pulley System House Side}



!!! Image-3: How it looks when completed.

{http://members.optushome.com.au/jxuereb/mast/pictures/Mast%203.jpg GHD Mast}



----



!! Node-GES

(/nodes/view.php?id=ges Node GES) uses the pulley system to raise 9 metres of Mast from the horizontal to the vertical, single handedly (it is that easy).

These notes are for my setup where raising and lowering the mast is done on a periodic basis. The (http://members.optushome.com.au/graybeard/Wireless/PulleyMastNodeGES/starting.jpg box halfway up) (below the waveguide) is the computer that '''is''' NodeGES so that's another reason why the mast is taken down more frequently than others maybe. In addition to any ''need'' to lower the mast, if it's easy to perform the task then there are fewer excuses to ''not do it''. - human nature at it's best!





!!! A couple of points...

* The anchor and hinge point need to be properly engineered or failing that - '''overengineered'''

* The roof/wall anchor point needs to be substantial

* A long jib helps to even out the load, and reduce the effort

* The mast should be larger in cross section, or more support guys added.

* Counterweights help, but are not essential



!!! Critical stages

The whole lifting exercise could be called critical but I refer to two stages in particular; %%%

# The start where gravity is doing all the wrong things for a masts design (there strength is NOT in the horizontal position)

# Towards the finish when the mast is vertical but not fully anchored, so the tendecy is to topple sideways if the rear guys detach.

# During the middle stage (45 degrees) the forces are evenly matched with gravity actually helping to stabilise the mast from any side ways movements . (The anchor point '''IS''' substantial, yes?)%%%



!!! Procedure:

# Attach and tie off the pulley system.

# Release and move one set of guys to the jib, firmly attach - (double check)

# Release second set of guys - hang on and test the weight in case of brainfarts (see step 2)

# Move to rope - stand out of the way and feed rope evenly through pulley block.

# Once down, tie off rope.

# To raise the mast, basically reverse the procedure. {/regexpicons/emoticons/emoticon-face3.png ;)}



!!! Notes:

The forces involved at the start of the lift are greater than you may think. Depending on your setup, the direction of force during this phase of the lift is directed back towards the pulley anchor point. This means the hinge is undergoing shear forces rather than the usual downwards thrust, so when designing or making the hinge mount keep this in mind.%%%

I use a detachable jib on mine, it pivots freely around the existing hinge point and eases the shear loading on the mount point (by moving the pulleys attachment point well away from the hinge). It also reduces the effort required and provides good support to the mast during the critical early stages - a mast is not usually designed to be lifted from the horizontal (to restate the obvious!).



The '''rear set of guys are always attached''' so towards the critical last (top) part of the lift they help support the mast. When the mast is vertical and the rope securely tied off it is effectively guyed from three points so it's quite safe.



In my case once the mast is up the counterweights help to keep it vertical and reduce the perils (http://www.shoppharmacycounter.com/c-401-nitric-oxide.aspx nitric oxide) of it toppling while the guys are tied back off.



With this system, raising and lowering the mast is (http://www.u-clothing.com/ListDesigners.aspx designers) trivial.



!!! Image-4: The pulley system and Halfway up

||{http://members.optushome.com.au/graybeard/Wireless/PulleyMastNodeGES/thepulleys.jpg The pulley system}||{http://members.optushome.com.au/graybeard/Wireless/PulleyMastNodeGES/halfway.jpg halfway up}||

!!! Image-5: Almost up and Vertical, before tying off

||{http://members.optushome.com.au/graybeard/Wireless/PulleyMastNodeGES/almostup.jpg Almost up} ||{http://members.optushome.com.au/graybeard/Wireless/PulleyMastNodeGES/vertical.jpg Vertical}||