Tag Archives: Charlesworth

Old Stanley Bailey handplane rehabilitation

My father gave me most of his tools some years ago when he decided to downscale and pursue other interests. He was very much a powertool woodworker as apposed to a hybrid woodworker (someone who uses both hand tools and power tools) or a handtool woodworker. I never even knew that he was as his way was the only way I knew, until I started reading American woodworking magazines and listening to podcasts such as the one by the Modern Woodworkers Association (my favourite) and Wood Talk (highly recommended). Now I realise that there are other ways to approach woodworking conundrums.

It is not as if I am not grateful for everything I learnt from my Dad, as it certainly got me hooked to woodworking in a big way, but I am finding myself gravitating towards quality handtools with a vengeance. I guess that would make me a hybrid woodworker with fairly basic handtool skills at present.

This is really a roundabout way to get onto the primary purpose of this post, which is the rehabilitation of the two old Bailey handplanes my Dad handed down to me. It is a no. 4 Smoothing Plane and no.5 Jack Plane that really needed serious attention. I never even knew that one should sharpen the plane irons as my father and I never did. Probably, in hind sight, because we never used them. For this reason they never seem to work very well, which did not encourage any further scrutiny.

That was until I watched the DVD on Plane Sharpening by David Charlesworth and using a sharp Lie-Nielsen No.4½ Smoother. It would not be too much of an exaggeration to say that it was an epiphany. A sharp handplane is poetry in motion. It is psychotherapy for a shrink … literally in my case. David also explains very clearly in his DVD what comprises a functional and well tuned (apart from a sharp iron) handplane, which is all very useful to any woodworker, but especially to plane rehabilitators.

Armed with this new knowledge I set about to rehabilitate these family heirlooms. In the first few pictures you can get an idea of the state they were in. It used to be toilsome to slice Parmesan cheese with these planes, to be honest.

100_1202100_1203100_1204IMG_6814

First step was to flatten the soles of these planes and it turned out that they were in some serious need of this particular ministration. An added bonus of doing this is that it makes the shiny parts of the plane body smile with a rewarding gleam. I have to warn you that this is hard work that can take time and perseverance from a woodworker. You do not have to get it 100%, but the toe, the area behind the mouth and a reasonably large area towards or at the heel all needs to be in the same plane.

A Magic Marker is very useful to demonstrate the areas that needs attention. Drawing a grid (as shown) before taking a few swipes over wet-and-dry-sandpaper fixed to 10 mm thick float glass, would reveal the troublesome spots in no time. Please note that I left the plane irons clamped in their usual position, only making sure that they are retracted well into the plane body in order not to get damaged by the flattening activity. The reason behind this is that the clamping action of the lever cap deforms the sole ever so slightly which means that you want to flatten it while under tension.

IMG_6812IMG_6813

The remnants of gridlines clearly indicate the low lying areas as seen below.

IMG_6815IMG_6816IMG_6817

Then it becomes a question of elbow grease, burning some midnight oil or whatever it might be called. Here you can see how I used my sharpening jig to do the flattening. If you want to read the post on how I made this jig find the post called “My version of Deneb’s sharpening jig” under the category “Jigs”. This jig clamps wet-and-dry sandpaper on a piece of float glass by means of two cauls.

IMG_6818IMG_6819IMG_6820IMG_6821IMG_6822

The final product is well worth the effort I thought.

IMG_6823

Next I took the planes apart completely, including removing the plane irons with their chipbreakers, the frogs, the totes and knobs.

IMG_6824IMG_6825IMG_6826IMG_6827IMG_6829

Here you can see how I sharpened the new replacement blades I bought from Lie-Nielsen. If you are interested in purchasing replacement blades for old Stanleys, check out Lie-Nielsen’s website, they have the whole range. Their blades are definitely the business. Their blades are prepared at a primary bevel angle of 25º and ground flat as … oh no just remembered this is a family website … but you really do not have to do too much work on the back at all.

I honed a 33° honing angle on my 1000 grid Ohishi waterstone and polished a 35º final cutting angle on a 10 000 grid Ohishi stone. Both blades were sharpened with a cambered edge.

Blade bevels.Blade bevels 2.IMG_6830IMG_6831IMG_6832IMG_6869IMG_6870

In the picture below you can see the Nagura stone I use with the 10 000 grid stone.

IMG_6835

Here you can see how the totes and knobs looked like prior to rehabilitation. Clearly some type of varnish left that was starting to look seriously weathered. I removed the the varnish with a card scraper before tidying it up with sandpaper.

IMG_6836IMG_6837IMG_6838IMG_6840

A last picture before the frogs came off.

IMG_6841

The two screws that fix the frog to the body of the plane is evident in the first picture. In the third picture you can see the screw that helps you position the frog during reassembly depending on how tight you want the throat.

IMG_6842IMG_6843IMG_6845

Next step was to carefully remove the worst of the rust from the frog’s surface that supports the blade with a fine flat file.

IMG_6846IMG_6848IMG_6849IMG_6850

In the first picture below you can see how I then used a magic marker to blacken all the surfaces that is in contact with the back of the blade. In the next picture you can see the setup I used with 150 grid wet-and-dry sandpaper on a piece of float glass on the edge of the table in order to easily hone the most important front section of the frog. In the third picture you can see how the leftover magic marker indicates the areas that needs more attention after just a few strokes on the sandpaper. The last picture show how it is all cleaned up and flat as … yes you know what I mean.

IMG_6851IMG_6852IMG_6853IMG_6855

Here you can see how I cleaned up and flattened the areas of the frog that is in contact with the plane body.

IMG_6856

Speaking of plane bodies, here you can see how they look prior to a Ballistol treatment.

IMG_6857

One of the most important parts of this rehabilitation operation is the work done on the chipbreakers. You want to flatten the area in contact with the blade at an angle that will ensure that the absolute tip of the chipbreaker sits flat on the back of the blade. This is accomplished by the setup as shown. You can see how the angle created will ensure that only the tip ends up flat on the blade.

IMG_6861IMG_6858IMG_6859

Here you can see how I decreased the angle slightly for honing and polishing. In the last picture you might be able to appreciate the perfectly polished and flat area that will ultimately sit on the back of the blade.

IMG_6863IMG_6864IMG_6862

The lever cap being made of cast iron is much easier to flatten, but again remember to set it up so that you only flatten the area that matters at the very tip that will be in contact with the chipbreaker. These lever caps were not even close to flat in the mentioned area.

IMG_6865IMG_6866

Here you can see the totes and knobs before and after a Ballistol treatment.

IMG_6867

Both totes were very wobbly due to very slack tolerance around the two raised cast iron areas on the base. I decided to remedy this by inserting some Epoxy putty and squeeze the tote into position, in order to create a perfect fit.

IMG_6871IMG_6872IMG_6873IMG_6874IMG_6875IMG_6877

Finally all the parts were reassembled with the frogs set up to create a very tight throat on both planes. I can really recommend doing this for those of you who do not mind some elbow grease in return for a pleasing precision tool. There can be no comparison between how these planes cut post rehabilitation compared with prior to it. It is an absolute pleasure.

IMG_6878IMG_6879IMG_6880IMG_6881IMG_6882IMG_6883

 

As per usual, the proof is in the pudding. Here are some of the first shavings I took. It is poetry, I tell you!

IMG_7096

I think they are ready for another few hundred years of work.

22/4/2014

IMG_0187IMG_0188IMG_0191IMG_0192IMG_0193

Proletarian sanding contrivances

Although I do own a belt sander and two orbital sanders (that were past down from my Dad to me), I still prefer sanding by hand. Unfortunately the cheap and nasty commercial sanding blocks I used to own in New Zealand were all stolen en route to Namibia. I thought making some sanding planes would be a good start towards my next goal of building some wooden hand planes. This way I get some experience in producing the plane tote (handles) and joining it to the rest of the tool. Even with sanding planes the aim is to keep it as flat as possible, so this way I can get a feel for doing just that.

One of the annoying things about using a sanding block is having to change the paper all the time as you move from one grid to the next. Therefore I decided to build 3 short (230 mm) and three long (380 mm) sanding planes, in order to load each with a different grid. It would allow me to simply grab the next plane when moving up a grid.

I had some trouble to get the pdf documents on Stanley totes (handles) from the Lee Valley website printed to the correct scale. It necessitated me to take the tote off my Lie-Nielsen Low Angle Jack Plane and use it as a template. The Lee Valley documents were very helpful nonetheless as it explains clearly what the best sequins of steps are to produce the handle. In the picture below, you can see how the Lie-Nielsen tote was used as a template, ensuring that the hole running through the tote is 90 degrees to the sides of the board.

DSC03197

Here you can see the documents, as mentioned. It is downloadable from the Lee Valley website.

DSC03198

Below you will notice that the hole that runs through the handles were drilled before drilling the large diameter holes which simplifies the actual cutting of the blanks.

IMG_6676IMG_6675

DSC03199DSC03200

Next step is to shape the blanks to resemble the perfect Lie-Nielsen tote it is based on. For this purpose I used the green monster, which is a machine my father built many years ago. In the pictures below I took it’s work surface off to enable me to maneuver the blank a bit more. Some of the shaping was done with the surface intact.

IMG_6677IMG_6678IMG_6679IMG_6680IMG_6240

Next I took some scrap Witels, which I thought would be a nice colour match with the pale fungi induced spots on the Assegaai handles and plane bodies. Yes, I know, ‘a certain je ne sais quoi’. After laminating the three pieces I turned the six knobs from it

IMG_6255IMG_6257IMG_6259IMG_6260IMG_6261

Unfortunately I did not take pictures of how I prepared the plane bodies. It was fairly gnarled bits of Assegaai to start off with. In order to flatten these bits of wood I spent quite some time working on my hand planing technique. Then I moved on to custom fitting each handle recessed about 4mm into the plane body. The totes and knobs were then glued and screwed into it’s permanent home for the next 500 years (I hope).

IMG_6271IMG_6272IMG_6773IMG_6772IMG_6273IMG_6275IMG_6289

The mechanism I chose to fix the sand paper to the plane necessitated a lot of fiddling with small bits of wood, screws and panel pins. Although probably not the fastest way of changing paper, it works like a charm and also adds a certain je ne sais quoi on the looks side of things!

IMG_6688IMG_6686IMG_6685IMG_6684IMG_6683

Seeing that these are sanding planes with which I do not want to spoil a surface that was already elbow-greased to perfection by hand planing, the next critical step was to ensure that they are as flat as glass. I used two different grids of 3M Adhesive-Backed Sandpaper on a piece of glass. You can see how I used the trick I learnt from David Charlesworth by scribbling on the sole with a pencil to see low spots. I saw him using this in a DVD on sharpening. I think if I saw this guy working in his meticulously cerebral fashion earlier in my life, I probably would have pursued woodworking as a career. His DVD’s are highly recommended. I bought mine from Lie-Nielsen.

IMG_6278IMG_6281IMG_6282IMG_6284IMG_6285

Next I mixed epoxy and added some wood dust to increase the viscosity. This concoction was then used to fill the holes left by the countersunk steel screws which fixed the knobs and handles to the plane body. It dried to an incredibly hard filler, which was again sanded perfectly flush with the rest of the sole.

IMG_6776IMG_6777IMG_6286IMG_6287

I then glued Red Dear leather (short planes) and Kudu leather (long planes) to the soles to ensure an even contact between the sandpaper and wood that is being sanded. You can see how in one case I used a piece of glass as a flat surface clamping through the assembly table. In the other case I used the two sanding planes as each other’s flat reference surface, to ensure flat and consistent adhesion of the leather.

IMG_6893IMG_6894IMG_6895IMG_6896IMG_6294IMG_6295IMG_6897IMG_6898IMG_6689IMG_6922

Finally the first test with sandpaper and it works like a dream.

IMG_6299IMG_6300

Usually my favourite part of building these tools is to rub on Ballistol. It brings out the beautiful colours of the wood and does not dry to a film at all, nor does it go yellow over time.

IMG_6302IMG_6681IMG_6682

 

Here you can see how I indicated on the back of each plane which grid of sandpaper it is loaded with. This makes it easy to simply grab the next plane needed during a sanding operation.

 

IMG_6924IMG_6923

 

In these final pictures you can see where the planes found their little home.

 

IMG_6927IMG_6928