Zeppelin bend | |
Names: | Rosendahl bend, Rosendahl's knot |
Type: | bend |
Related: | Zeppelin loop, Hunter's bend, Ashley's bend, Alpine butterfly bend |
Releasing: | Non-jamming |
Uses: | Joining two ropes of similar size |
Instructions: | http://www.animatedknots.com/zeppelin/ |
A zeppelin bend (also known as the Rosendahl Bend) is an end-to-end joining knot formed by two symmetrically interlinked overhand knots. It is stable, secure, and highly resistant to jamming.[1] It is also resistant to the effects of slack shaking and cyclic loading.
The commonly accepted name for this knot stems from its alleged use on airships: a zeppelin being a rigid-bodied type of airship, and Charles Rosendahl being the US Navy officer who allegedly insisted it be used on airships under his command.[2] Dr Camplin asserts that a rolling hitch (#1735) is a more likely method used by ground handlers to join ropes. It is also likely that a 'toggle' was used to connect mooring lines with fixed eye splice terminations. Dr Camplin's report was published in issue #60 of 'Dirigible' in 2010. Historical records now point to Bob Thrun as the first to publish his discovery in 1966 - naming it simply 'An easily untied bend'.[3] Bob Thrun was well known in the caving community, and a remarkable innovator.
thumb|right|ABOK#582 to the left, Zeppelin bend to the right, ABOK#582 with folded central section below in the middleDespite being declared by many sources as a nearly ideal rope joining knot,[4] [5] it is not very well known: it is not included in the chapter covering 'bends' (end-to-end joining knots) in the original publication of The Ashley Book of Knots.[6] However, at illustration #582, Ashley identifies a 'lanyard knot' - which is remarkable because it is a blueprint for tying the Zeppelin bend. Budworth identifies #582 as a "blimp knot", because he recognized the geometric similarity with the Zeppelin bend.[7]
With the hindsight of the qualities of the zeppelin bend, a novel use of ABOK#582 is as an alternative to butterfly loop, to isolate a worn section of a long rope where the knot is tied such that the worn section is isolated in the middle of a Z folded central (double-loop-crossing) rope section. The knot will then look like a double slipped zeppelin bend with no ends sticking out.
Fundamentally, the zeppelin bend is formed from two superposed loops of opposite chirality. This is in contrast to the rigger's bend (AKA Hunter's bend, #1425A) which is formed from two inter-linked loops of the same chirality.
Chirality refers to the "handedness" of the loop, which can be either left (designated "S") or right (designated "Z"). The chirality of a loop cannot be changed by flipping or turning it over - in the same way, a left shoe cannot be transformed into a right shoe by flipping or turning it over (it is always a left shoe).
The zeppelin bend is difficult to tie while ropes are under tension (which is further obvious evidence that it wasn't used with mooring lines during ground handling of airships). In fact, with any 'end-to-end joining knot' (i.e. bend), existing tension in the ropes makes the tying process extremely difficult (if not impossible). The zeppelin is therefore tied with two loose ends (i.e. no existing tension) ending with a simple knot on each, but woven to each other in a pattern specific to zeppelin. Butterfly bend, Hunter's bend, and Ashley's bend also weave one simple knot on either end but use their own different patterns.
Another method of remembering this knot is to visualize a "69". To tie the knot with this method, follow the steps below:
Every end-to-end joining knot, or 'bend', has four corresponding eye knots.
The usual method of creating an eye knot from a bend is by linking a tail with a Standing Part (SPart). Eye knots formed by linking of the two tails or the two SParts are usually of less utility due to the loading profile thus created.
The Zeppelin loop is quite useful and is also jam resistant, being formed by linking a tail to an SPart.An example of a Zeppelin loop is found at this website: https://knots.neocities.org/zeppelinloop.html
Having on both ends, an elbow of the end rather than the end itself, cross the knot center, gives a single or double slipped version. It is still easier to untie by pulling the opposing bridges away from each other rather than by pulling the slipped end(s). The slipped Zeppelin bend can also be locked by pushing ends respectively through the eye of its own slip on the opposite side.
If instead of two ends, one forms two bights of the same rope, then three reliable loops are created; a loop at each of the two bights, and a third formed by the rope section connecting the two bights. These versions also have the same advantage with less curvature nearest the main ropes, thus having a higher break strength and being as easy to untie. This is also a way to shorten the rope, and/or to isolate up to three weak rope sections near each other.