Category Archives: Scythes

So You Bought A Seymour No.1 Snath Off The Shelf…

You’ve discovered that it has a few significant problems with it, right? Chances are the taper is noticeably irregular, the neck is as thick as a baseball bat, and you can’t get the nibs to loosen up despite knowing that they’re a left-handed thread because they were cranked on too tight at the factory. But here’s the good news: all of those issues are fixable.

The irregular taper and thick neck of the snath can be fixed with a little time with a spoke shave and rasp, and the nibs can be loosened by using some rubber vise jaw pads to hold the grips of the nibs tightly without marring or cracking them and using the shaft of the snath for leverage to break them loose. There’s one major flaw, however, that’s not as easy to correct…the collar is installed a whopping 20° out of alignment, and when the loop bolt is perpendicular to the ground like it should be, the arch of the snath is pointing right towards you.

It’s not a perfect fix, but you can correct for this by introducing a twist to the tang of your blade much like is commonly seen on European pattern blades. Heat the shank of the tang in same manner you would if you were adjusting its pitch, but instead, lock the tang in a sturdy vise and pull on the blade while the shank is still at heat to introduce a matching 20° twist to the tang. This will correct for the crooked collar to bring the arch of the snath back to vertical. The downside of this is that when adjusting the hang of your blade you’ll now be pivoting the length of the blade along a path that resembles an inverted cone instead of in a nice flat circle like you would with a snath that had the collar correctly mounted, but it’ll at least keep the arch from striking you in the thighs and knees every time you take a stroke with the scythe!

A Seymour No.1 snath as currently assembled from the factory. The blade was bent to correct for the collar misalignment prior to the photo being taken.
A Seymour No.1 snath as currently assembled from the factory. The blade was bent to correct for the collar misalignment prior to the photo being taken.

 

End view showing the misalignment of the snath's arch when the collar runs parallel to the ground as intended.
End view showing the misalignment of the snath’s arch when the collar runs parallel to the ground as intended.
View showing how the corrective bend of the blade's tang brings the arch of the snath back into correct alignment despite the crooked collar.
View showing how the corrective bend of the blade’s tang brings the arch of the snath back into correct alignment despite the crooked collar.

North Star Snath–Early Prototype

An initial proof of concept of the North Star snath. The snath is produced in two parts, and joined by an aluminum elbow. The halves in this case were both the same, but were technically both the upper half, as that was the component I received samples for. This resulted in too strong of a bend in the neck of the lower end, but the production version will have less severe of a curve.

The halves come overly long on purpose, allowing the user to trim them down to desired length. They can then be rotated in the aluminum coupling, allowing the snath to “shapeshift” to best adapt to the user’s preference before being drilled and bolted in its final position. This has the benefit of allowing for a truly one-size-fits-all scalable stemless snath, and allows the snath to pack down for transport or shipping. Note the strong lateral bend of the upper half. This both places the hand in a very ergonomic position, but the end can be used as a grip in its own right when lifting the lay of the blade while mowing, as circumstances sometimes dictate.

NorthStarSnathPrototype_01

NorthStarSnathPrototype_02

NorthStarSnathPrototype_03

NorthStarSnathPrototype_04

NorthStarSnathPrototype_05

NorthStarSnathPrototype_06

NorthStarSnathPrototype_07

NorthStarSnathPrototype_08

NorthStarSnathPrototype_09

NorthStarSnathPrototype_10

1861 H. Waters Scythe Curvature Brochure

An illustrated brochure from scythe manufacturer Harvey Waters of Northbridge, Massachusetts, circa 1861, demonstrating his offered range of curvatures and describing their regional popularity for what kinds of terrain and growth. Mr. Waters has been credited with a number of manufacturing innovations, including the use of roll-forging as opposed to the typical use of trip hammers. A PDF form of this incredible document can be found HERE.

1861HarveyWatersScytheCurvesWatermarkedSmall 1861HarveyWatersScytheCurvesWatermarkedSmall_2

The First Modern American Scythe Nibs

Up until the mid 19th century, American scythes had used the English method of affixing their nibs: an iron loop was fastened to the shaft of the snath by means of a wedge driven between the loop and the snath itself. While this allowed the nibs to be positioned at will along the snath, the wedges were prone to working their way loose at inconvenient moments, and in the industrial boom of the mid-1800’s a number of innovations were made in the means of fastening nibs. The most notable of these is the method that eventually became the standard: the so-called “Clapp’s Patent” nib. Patented in 1838 by Joseph and Erasmus S. Clapp of Montague, Massachusetts, it was the first nib known to bear the form that we see so commonly today on almost all snaths, both new and vintage. The nibs made currently by Seymour Midwest Tools are effectively of the same fundamental design.

We were fortunate enough to come into possession of an original example of one of Clapp’s Patent nibs, as well as a contemporary clone by Lamson Co. This company was particularly notable, for its owner and founder, Silas Lamson, is commonly credited with having inventing the steam bent curved snath as we know it today. This innovation is often cited as having been in 1834, though we have documentation that places it as much as 6  years earlier.  An 1830 document declaring his letters patent include, among other innovations, “the mode of fastening the nibs without wedges” although we do not know the specific mechanism used. As can be seen in the following photos, our Lamson nib is nearly identical to the Clapp one. The Clapp patent seems to have been at the center of a court case regarding patent infringement in 1840.

See first the Clapp’s Patent example:

ClappNib3 ClappNib4 ClappNib6 ClappNib7 ClappNib9 ClappNib10 ClappNib11 ClappNib12 ClappNib13 ClappNib14 ClappNib15 ClappNib16 ClappNib17 ClappNib18 ClappNib20 ClappNib21 ClappNib22 ClappNib23

The Lamson Co. nib:

LamsonNib68 LamsonNib69 LamsonNib70 LamsonNib71 LamsonNib72 LamsonNib73 LamsonNib74 LamsonNib75 LamsonNib76 LamsonNib77 LamsonNib78 LamsonNib79 LamsonNib80 LamsonNib81