A quality piano is a very sturdy machine built to last for many, many years - and will with proper care. With thousands of wood parts, many with tolerances of a few 1000ths of an inch, these machines literally breathe with the changes in temperature and humidity constantly affecting how well they work and sound.
Each piano has a character of its own, a voice waiting to sing, that needs to be heard. This grand invention can fill your home with wonderful chords, arpeggios and melodies, or it can become very hoarse, making your teeth hurt, and grating on your nerves. We have over 25 years of experience bringing out the best in pianos. Discover what your instrument can sound like. If a Registered Piano Technician has not serviced your piano recently, it needs our attention.
How often should my piano be tuned?
The best way to protect your piano is to play it and tune it regularly. Servicing it twice a year is best for the average piano in good condition being used at home. Piano's are marvelous instruments - machines really - that are meant to be played. In fact, not playing a piano for long extended periods creates mechanical problems. Even if no one plays the instrument it should be serviced at least once a year.
How long does it take?
Regular appointments for tuning and service are one-and-one-half hours. During your first appointment we inspect the piano and assess its condition and needs. If your piano has not been serviced in awhile it may require pitch adjustment and stabilization before it can be tuned (see below). If any additional service is required to return your instrument to its optimal performance level we will provide time and cost estimates.
How can I help my piano stay in tune?
A piano should be played! However, excessive force (banging) on the keys will accelerate wear and tear, break strings, and make the piano go out of tune faster.
Pianos do not like changes in temperature and humidity. Where you place the piano in your home makes a difference in how well it plays and sounds. Pianos do best in the center of a room located out of direct sunlight and away from air vents. Inside walls are better than outside walls for piano placement. Putting your piano in front of a window, over or under an air vent, or where it receives direct sunlight places your instrument and your tuning in jeopardy.
The single most effective way of extending the life of your tuning and your piano is have a Dampp-Chaser Piano Climate Control System installed. We are certified to install these systems and will gladly assist you in selecting the one best for your piano and your needs.
Two frequent terms used when discussing pianos are "tuning" and "pitch".
These are not the same thing.
Why tune to A-440?
(The difference between pitch and tuning)
the moment the factory scale designer puts his pencil to paper, until the
finished piano is crated and shipped every effort is aimed at making that
particular style of piano sound its musical best at one particular tone
height or overall pitch. That target pitch is A-440 cycles per second, also
known as American Standard Pitch.This means that the string unison "A"
above middle C on your piano cycles or vibrates at the rate of 440 times
each second when struck by the piano hammer (a unison is made up of two
or three strings tuned exactly alike, located side by side, and forming
the same note when struck by the same hammer). Almost all the notes on the
piano are unison notes with the exception of a few in the low bass that
sound from heavy sound single strings. The individual tone heights of the
other eighty seven notes are obtained with reference to "A."
The overall pitch of a piano is the total overall balanced tension in the pounds-pull of all of the 230 odd strings in the instrument. For example, in a typical piano each string, (according to length thickness, tautness, and location in the scale), exerts a calculated torsional tension or pull (in pounds) on the structural unit (back, plate, and tuning-pin block). The average tension or pull per strings is approximately 170 pounds. When we multiply the average string tension by 230 odd strings, we come up with an overall strings tension of approximately 39,000 pounds, or almost 20 tons of torsional pull with in the framework of the piano. This varies slightly between different makes and models.
It must be remembered that when a piano is constructed, the basic structural parts, (piano back, cast-iron plate, and tuning -pin block) are engineered as a unit to remain at their structural best when holding up the correct overall balanced string tension. Therefore, when the correct overall pitch is lacking, parts of the piano are apt to warp, loosen, crack, spit, bulge or otherwise suffer damage. This means loss in both the value and the performance of the instrument. If the damage is great and is sustained over a long period of time (several or more years), it can render the piano worthless.
Other critically important parts of the piano , such as the soundboard, bass bridge, treble bridge, and soundboard ribbing, suffer extensive damage from loss of overall balanced string tension. For example, the average piano string (loaded with about 170 pounds of tension) also exerts a secondary force against the bridges and "crown" of the soundboard. This push amount is about 7 pounds per string. If we multiply this by 230 odd strings, we have 1600 pounds of push force against the bridges and soundboard of a piano pitched at A-440 cps. To counter balance this tremendous push force we have the crown of the board and the curved ribs exerting force in the opposite direction. When overall piano pitch is allowed to change too much, the balanced forces between the strings tan the bridge soundboard combination are upset. The results in damage to the bridges, soundboard, ribbing, and associated parts, such damage usually takes the form of warps, splits, cracks, or broken glue bonding on the bridges.
Structural damage to the piano can be minimized by keeping the proper balanced overall string tension or proper overall pitch on the piano at all times. This can be accomplished only through regular service and tuning to the pitch of A-440 cycles per second (American Standard Pitch) Piano manufacturers continue to recommend servicing your piano at least two times a year. New pianos, or pianos that have been rebuilt require more frequent service for the first one to two years. It should be apparent why piano manufacturers and dealers will only honor the warranty of a piano if the piano owners takes proper care of the instrument.
Unfortunately, many amateur tuners do not address the need to establish the correct pitch or the consequence of leaving a piano at an incorrect pitch. Such practice allows the piano pitch to sink lower and lower, until the lack of proper overall balanced string tension results in serious structural failures in the instrument. Where lack of proper care has allowed the overall pitch to sink a quarter tone, the loss in proper overall string tension is 1500 to 2500 pounds, Where overall pitch has sunk a half tone, the loss improper overall string tension is 3000 to 5000 lbs. In many older pianos that have gone without proper care for years, the loss in proper overall balanced string tension can amount to several tons.
Once the overall tension (pitch) is correct, the piano tuner can focus on the sounds that the strings make when they are struck by the piano hammers. Every note is comprised of many different frequencies or partials which we hear as a "single" note. The technician must focus on each of these partials when tuning the instrument, adjusting the sound or number of string vibrations of each note to bring all 230 odd strings into an exact relationship. He is dealing in infinitesimal differences in sound and variations in strings vibration which are very difficult for the untrained ear to detect. Your piano tuner has switched from mechanical engineer to artist. He is conceiving beauty in sound waves in relation to the human ear. He will adjust and listen intently to the sounds of every string. In so doing he will be engaged in adjusting and making comparisons in piano string tensions, but only in infinitely small fractions of an ounce per string, and only as a byproduct of the exact sound that he must achieve. When he has finished tuning he will have 230 odd fundamental tones, each with its quota of lesser tones (partials) so arranged in harmonious relationship with one another within the framework of eighty-eight notes that only the presence of a pianist is needed to open the doors to the joys of music.
A piano will only sound its best when tuned to the correct pitch. While it may sound "in tune with itself" at other pitches, it does not sound the same. As string tension changes, the relationship of partials does not stay in balance. As pitch drops, pianos sound duller as these partials fade in intensity.