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Saturday, 6 January 2018

Piano pedals (1) - the sustain pedal

 
As a couple of people have asked me recently, I thought it might be useful to run through a brief history of how the pedals on a piano evolved and the mechanics of how they work. This is the first in a planned series of three articles.

Two pedals or three?

The first question is - how many pedals does the typical piano have? The answer may depend on which part of the world you live in. In Europe, the great majority of older pianos will have only two pedals - only since around the 1970s and 80s has the middle pedal become commonplace on new models. On the other hand, in North America, I understand that three pedals is generally the norm, and the situation may vary in other parts of the world. In any case, almost any piano will have either two or three - a few historic instruments (typically from the 1860s or earlier) may have only one pedal (normally the sustain pedal); also in a very few cases there may be four or more (of which more in a later article).

The exact functions of pedals on an upright piano is typically different from a grand piano, and some uprights differ from each other, so to ease into the discussion I'll deal with the one pedal which does more or less the same thing on every piano, and is almost always located in the same place - it's the right-hand or sustain pedal.

The sustain pedal (right-hand pedal) - also called the damper pedal

When pianists talk about "using the pedal", it is the right-hand or sustain(-ing) pedal they normally mean. This has a similar function on more or less every instrument, which is to lift off all the felt dampers that prevent the strings from ringing on after being struck by the hammer. Because of this, the pedal is sometimes referred to as the damper pedal or the loud pedal, though the latter term is often held to be incorrect since it does not make the notes any louder; nor is it the pedal's particular purpose (it is often used in quiet passages). However, its use does change the timbre of a note when struck, as it allows the strings of the other notes to vibrate sympathetically. On some early pianos, the sustain pedal is the only pedal though it was not the first to be invented (that was the una corda, of which more in the second article).

The first maker known to have used the sustain pedal mechanism in essentially its current form was Johann Andreas Stein (1728-92), although his pianos featured knee pedals rather than the modern foot-operated ones. This was a development of an earlier idea by Gottfried Silbermann (1683-1753), but this earlier device was a hand stop, so could only be switched on and off whilst the piano was not being played. A picture of a Stein grand piano, with the knee pedal visible, can be seen on the Cobbe Collection website here:
http://www.cobbecollection.co.uk/collection/15-grand-piano/

John Broadwood in 1783 used the modern concept of the sustain mechanism operated by a foot pedal on his grand pianos, though this may have been used on some earlier English-made instruments.

How the sustain pedal works

Although this pedal has the same basic function on every piano, it actually works in a slightly different way depending upon the type of piano you have. 

Underdamper uprights (all modern and some older uprights)

All modern upright pianos and some older instruments have dampers that are located underneath and behind the hammers - this is called an "underdamper action". This picture shows the bass section of a Yamaha U1 - I have pressed the pedal down and as you can see, the dampers have come away from the strings (the position of the dampers is shown by the red arrows).


When the pedal is pressed, it moves a pivoted rod (usually wooden on older pianos, sometimes metal on newer ones) called a rocker, and this pushes up the pedal stick, normally at the left-hand side of the case.
This picture shows a typical arrangement of two pedals, the pedal rockers and pedal sticks on an older German-made upright piano. When the pedal is pressed down, the pedal bolts pull down the pedal rocker at the right-hand side - the left-hand side pivots up raising the pedal sticks (at the left side of the case).The rocker is returned to position by a spring.
The pedal stick engages with a hinged metal rod at the back of the dampers, called the damper lift rod, which pushes the tails of the dampers forwards and brings the heads away from the string.

This picture shows a modern Yamaha U1 action from the back, removed from the piano so you can see what is happening. The pedal stick comes up where my hand is and the rod (the end of which can be seen under the green arrow) moves the damper tail outwards, moving the head back from the string.

You will also note that the top notes (typically the top couple of octaves) on any piano will not have dampers, as they sustain for such a short while that damping is unnecessary.

The invention of underdampers goes back to 1829 when they were featured in an action design by the French piano makers Blanchet et Roller.

Overdamper uprights (some older pianos)

An 1890s German overstrung upright with overdampers
If your upright piano looks a bit like this with the top door removed, you have an overdamper model. Overdampers are very common in many European-made pianos from before the Second World War, but the design gradually disappeared over time and ceased to be made at all after about 1950 (outside Europe I believe they may be much less frequently-encountered). They can very easily be identified by the long wires at the front of the action which operate the dampers, located on a separate damper rail above the line of the hammers. Unlike the underdamper action, which relies on springs to push the dampers back on to the strings, the overdamper mechanism is gravitationally operated (there are often weights located in the wooden damper bodies). Please note however that some older pianos - including pre-1900 models - have the modern-style (underdamper) mechanism.

On these pianos, the dampers are normally lifted by a wooden or metal rail underneath the damper bodies - the blue arrow on the diagram shows the end of the damper lift rail and the top of the pedal stick (which is pushed up by the pedal). The damper body (the piece of wood connected to the top of the long wire) links to a right-angled wire that connects to the damper head.

There is some variation in these arrangements - a few (normally older) overdamper models have a spring-loaded damper rail which is pulled away from the strings, or a hinged rail which moves upwards with the pedal, drawing back the dampers in both cases.

Overdampers are similar to a design used by Robert Wornum in his patent for a "double action" in 1826, which is the basis for all modern upright actions. It appears that most English manufacturers used this design through the mid-nineteenth century, whereas some French makers used underdampers; quite a lot of German makers followed the English practice. From the latter part of the nineteenth century onwards until around 1950, overdampers were gradually phased out as more and more manufacturers switched over their action designs. However some noted makers (such as the German firm Blüthner) continued to use overdampers until relatively late on.

Grand pianos

On a grand piano, the dampers sit on top of the strings (except for a few older models that have them underneath) and are easily visible when the lid is raised. Each damper is connected to a wire, which goes through a hole in a piece of wood through the damper guide rail, and connects though a pivoting knuckle to the damper underlever, which is attached to a rail underneath the soundboard. Note that under normal circumstances these underlevers are difficult to see with the action inside the piano.

This arrangement is shown in the diagram below:



When the key is pressed down (the front of the key is off the right-hand end of this diagram), it pivots on the balance pin (coloured blue) and the back of the key is pushed upwards (red arrow). This will propel the hammer up toward the string, but the part we're interested in here is that the very back of the key (shown in red) will rise up and push up the damper underlever, so lifting the damper head (green) and felts from the string.

If the pedal is pressed, this typically connects to a metal strip that pushes up a dowel underneath the damper lift rail (shown in orange) - this raises all the damper underlevers and the dampers (green), regardless of whether the key is pressed down or not.

You will also note that in the grand action, the damper mechanism is effectively separate from the main action, which will be important in the next article!

When the sustain pedal isn't working

The pedal is extremely important for expression in many piano pieces - especially those from the romantic era - so pianist Eliane Rodrigues had to think on her feet when things went wrong during a performance in Rotterdam. Here's what happened when the piano had to be taken off-stage, using a descending trapdoor, and replaced:


The other pedals (left pedal and middle pedal, where there is one) will be covered in two further articles.

7 comments:

  1. What is between pedal stick and the rod? I have metallic noise coming from there when using pedal slowly (like clock noise)? Are there two metallic parts touching without anything in between? Can I use some oil there? It is U1 piano. Thanks.

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    1. Thanks. I'm afraid that it is very difficult to diagnose the cause of a creaky pedal without looking at the piano as it could be several different things (I spent about half an hour last week dismantling a pedal mechanism and trying everything until I eventually isolated the problem, which was a leaf spring not properly screwed down).

      To answer your question about the pedal stick, on the Yamaha U1s I have seen there is normally a sort of rubber grommet that fits into the hole at the end of the damper lift rod, then the end of the pedal stick fits into that. If that's missing, it could be one of a number of possible causes of the squeaking - I'm not sure whether you can get a like-for-like replacement, but a felt washer should be able to do the same trick. One other thing that may be worth checking, and which you could do yourself, is to take out the bottom door and just above the pedal you will see a nut (normally a wing nut on a Yamaha) which can be adjusted to take up any slack on the pedal. Normally the dampers should start lifting fairly quickly after you press the pedal and taking the slack out may help if you are lucky - obviously if you adjust too far the dampers won't come on properly and you'll have to take it back a bit.

      Other than that, it is a case of trying to work out where the noise is coming from. Sometimes there is a problem with the damper lift rod itself creaking on its hinges at the back of the action. If this is the case, you do really need a technician to come and have a look. I have found that the problem can often be solved by a bit of lubricant on the bearings for the lift rod, which have a cloth bushing. You should NOT use common household oil, WD40 or the like for this which can cause considerable problems if it gets into the action; the correct stuff to use is a modern silicone lubricant called Protek which is specially designed for piano use, but this is a trade product, not an off-the-shelf one I'm afraid. Your piano tuner should be able to help with this.

      Another problem I have had on Yamahas from time to time is the pedal itself squeaking, right down at the bottom. The pedals normally have a metal bar at the back that projects out from either side and these projections go into two brackets with plastic bushings. I dealt with one Yamaha U model where no amount of lubrication with Protek could stop the pedal squeaking. Eventually I took the the brackets out completely, then used a bit of wet & dry polishing paper to take off the oxidation that had built up on the metal bars at the back of the pedal, and hey presto, problem solved. So sometimes you have to try everything you can possibly think of.

      This is very much not an exhaustive list of things that can cause pedals to squeak. To tackle the problem, you have to isolate it which can take time, so unless it's something obvious it's best to have a word with your tuner who should be able to deal with this.

      Could I also just say that as I mentioned earlier, I would recommend strongly against using ordinary household oils or lubricants such as WD-40 almost anywhere on a piano as I have heard of cases where they "gum up" cloth bushings when dried and actually cause things to seize up in the long run, not loosen, and cause problems that may be expensive to fix. Piano tuners will have special modern lubricants and greases that have ingredients specially designed not to clog up bushings.

      Hope that's helpful. A

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  2. Thank you very much. I appreciate it.

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  3. Today I had my Steinway upright piano tuned. My pedals are making squeaky creaky noises when depressed and released such as leggato pedalling. He was here for less than an hour charged me £60 and sprayed WD40 on my pedals which you say should not be used. I am worried now. Please advise

    Blessings to you

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    1. Thanks for your message. In relation to the time taken for tuning, there isn't anything wrong with doing it quickly as long as you do it properly - only problem is if you're on a time fuse and skimping the job. Personally it normally takes me about 90 minutes for a standard tuning (excluding any repairs), but I'm aware some in the trade would consider that a bit slow. On the subject of the pedal, the pedal hinge is probably just about the only place on a piano where you could use WD40 or another household oil (it should be kept well away from the piano action or wrest plank, where it can cause considerable problems). However, just squirting oil on it isn't any good if it doesn't fix the problem.

      Squeaking can be caused by a number of different things - for example a couple of months ago I ended up dismantling a pedal mechanism and eventually traced the problem to a leaf spring that was not properly screwed down. Another common problem is that felts around the pedal hole in the plinth are missing or compressed leading to banging, normally when the pedal is released. Personally, I would test the pedals (sustain pedal in particular) after a tuning and if there is a squeak that is annoying to the customer, I would either fix it before leaving or arrange an appointment to come back later and sort it out. Normally I wouldn't charge extra for minor pedal adjustment or easily sorted-out noisiness; if more major work was involved it would be appropriate to give a costing first so the customer can agree whether they wish to proceed.

      So in short, I don't think the WD40, if it is just on the pedal hinge, will do any harm at all but it would be reasonable to contact the tuner about the annoyance of a squeaky pedal. Leaving someone with that could be just as irritating as having a key not working or a string out of tune (I play myself so I have some insight into this!) Hope that helps, Andy

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    2. Just to clarify on WD-40, almost all the moving parts in the action have centre pins with a cloth bushing, and if WD-40 gets in the cloth bushing, it can cause a lot of problems and eventually seize (it can also cause serious problems if anywhere near the tuning plank). Because of this, my general advice would be don't take an oil can to your piano unless you're very, very sure of what you're doing. A competent technician should know this of course.

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