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| United States Patent | 6559369 |
| Link to this page | http://www.wikipatents.com/6559369.html |
| Inventor(s) | Gilmore; Donald A. (Kansas City, MO) |
| Abstract | An apparatus and method for self-tuning a piano that includes selectively
applying voltage with a voltage mechanism to each piano string of a
plurality of piano strings to provide either thermal expansion upon an
application of voltage or thermal contraction with an absence of voltage
to alter pitch of the piano string to a predetermined value, wherein each
piano string of the plurality of piano strings has a first end portion and
a second end portion, wherein the first end portion of each piano string
of the plurality of piano strings is respectively secured to a housing by
a plurality of first attachment mechanisms and the second end portion of
each piano string of the plurality of piano strings is respectively
secured to a housing by a plurality of second attachment mechanisms and
the plurality of piano strings are electrically insulated from each other. |
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Title Information  |
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| Publication Date |
May 6, 2003 |
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| Filing Date |
January 14, 2002 |
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Title Information |
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References |
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| *references marked with an asterisk below are user-added references |
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U.S. References |
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| | Reference | Relevancy | Comments | Reference | Relevancy | Comments | 6479738
Gilmore
Nov,2002 |  Your vote accepted
[0 after 0 votes] | | 5949014
Rashak et al.
Sep,1999 | Your vote accepted
[0 after 0 votes] | | 5936179
Merrick et al.
Aug,1999 | Your vote accepted
[0 after 0 votes] | | 5932827
Osborne et al.
Aug,1999 | Your vote accepted
[0 after 0 votes] | | 5929360
Szalay
Jul,1999 | Your vote accepted
[0 after 0 votes] | | 5780759
Szalay
Jul,1998 | Your vote accepted
[0 after 0 votes] | | 5756913
Gilmore
May,1998 | Your vote accepted
[0 after 0 votes] | | 5736661
Armstrong
Apr,1998 | Your vote accepted
[0 after 0 votes] | | 5719343
Reyburn
Feb,1998 | Your vote accepted
[0 after 0 votes] | | 5585588
Tumura
Dec,1996 | Your vote accepted
[0 after 0 votes] | | 5523526
Shattil
Jun,1996 | Your vote accepted
[0 after 0 votes] | | 5285711
Sanderson
Feb,1994 | Your vote accepted
[0 after 0 votes] | | 5065660
de Buda
Nov,1991 | Your vote accepted
[0 after 0 votes] | | 5010575
Marutake et al.
Apr,1991 | Your vote accepted
[0 after 0 votes] | | 4941388
Hoover et al.
Jul,1990 | Your vote accepted
[0 after 0 votes] | | 4484506
Sato
Nov,1984 | Your vote accepted
[0 after 0 votes] | | 4375180
Scholz
Mar,1983 | Your vote accepted
[0 after 0 votes] | | 4319515
Mackworth-Young
Mar,1982 | Your vote accepted
[0 after 0 votes] | | 4271746
Dobbie
Jun,1981 | Your vote accepted
[0 after 0 votes] | | 4196652
Raskin
Apr,1980 | Your vote accepted
[0 after 0 votes] | | 4184398
Siegelman
Jan,1980 | Your vote accepted
[0 after 0 votes] | | 4077298
Kondo
Mar,1978 | Your vote accepted
[0 after 0 votes] | | 4075921
Heet
Feb,1978 | Your vote accepted
[0 after 0 votes] | | 4044239
Shimauchi et al.
Aug,1977 | Your vote accepted
[0 after 0 votes] | | 4041783
Shimauchi et al.
Aug,1977 | Your vote accepted
[0 after 0 votes] | | 3675529
Van Der Woerd
Jul,1972 | Your vote accepted
[0 after 0 votes] | | 3588311
Zoller
Jun,1971 | Your vote accepted
[0 after 0 votes] | | 3530756
Chapman
Sep,1970 | Your vote accepted
[0 after 0 votes] | | 2207450
Bergan et al.
Jul,1940 | Your vote accepted
[0 after 0 votes] | | | | | |
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Foreign References |
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Other References |
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| Post related web sites and other references in this section |
| | Reference | Relevancy | Comments | Interconnect Devices, Inc, Interconnect Devices, Inc. Catalog, Nov. 2000, p. 38, 6.sup.th Edition, Kansas City, Kansas, United States of
America..
May,2007 | Your vote accepted
[0 after 0 votes] | | |
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Public's "Guesstimation" of Royalty Value
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Market Review |
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Technical Review |
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Claims |
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What is claimed is:
1. An apparatus for self-tuning a piano comprising: a housing; a plurality of piano strings, each having a first end portion and a second end portion; a plurality of first
attachment mechanisms for respectively securing the first end portion of each piano string of the plurality of piano strings to the housing; a plurality of second attachment mechanisms for respectively securing the second end portion of each piano
string of the plurality of piano strings to the housing; and a voltage mechanism electrically connected to each piano string of the plurality of piano strings for selectively applying voltage to thermally expand each piano string of the plurality of
piano strings to alter pitch to a predetermined value.
2. The apparatus according to claim 1, wherein each piano string of the plurality of piano strings is electrically insulated by at least one insulating mechanism.
3. The apparatus according to claim 2, wherein the at least one insulating mechanism includes an agraffe.
4. The apparatus according to claim 2, wherein the at least one insulating mechanism includes a bridge.
5. The apparatus according to claim 2, wherein the at least one insulating mechanism includes a string rest having an insulating upper surface.
6. The apparatus according to claim 1, wherein each first attachment mechanism of the plurality of first attachment mechanisms includes a tuning pin.
7. The apparatus according to claim 1, wherein each second attachment mechanism of the plurality of second attachment mechanisms includes a hitch pin.
8. The apparatus according to claim 6, further includes at least one block of insulating material surrounding the tuning pin.
9. The apparatus according to claim 6, wherein the voltage mechanism includes a contact that is electrically connected to the tuning pin.
10. The apparatus according to claim 9, wherein the contact that is electrically connected to the tuning pin includes a spring.
11. The apparatus according to claim 1, wherein the voltage mechanism includes a voltage source electrically connected to a switching mechanism, wherein the switching mechanism is responsive to a difference between a pitch of each piano string
of the plurality of piano strings and a predetermined value of pitch for each piano string of the plurality of piano strings.
12. An apparatus for self-tuning a piano comprising: a housing; a plurality of piano strings, each having a first end portion and a second end portion; a plurality of first attachment mechanisms for securing the first end portion of each piano
string of the plurality of piano strings to the housing; a plurality of second attachment mechanisms for securing the second end portion of each piano string of the plurality of piano strings to the housing; a voltage mechanism that is electrically
connected to each piano string of the plurality of piano strings; a plurality of pickups positioned adjacent to the plurality of piano strings that generates a signal that is representative of pitch for each piano string of the plurality of piano
strings; and a pitch comparison mechanism that contrasts the representative value for pitch for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string of the plurality of piano strings and generates
a differential value, wherein the pitch comparison mechanism is electrically connected to the voltage mechanism so that voltage from the voltage mechanism can be applied to each piano string of the plurality of piano strings so that the respective
differential value can be minimized due to thermal expansion of each piano string caused by an application of voltage.
13. The apparatus according to claim 12, wherein each pickup of the plurality of pickups includes a magnetic pickup.
14. The apparatus according to claim 12, further includes a plurality of drive coils for sustaining vibration in the plurality of piano strings.
15. The apparatus according to claim 12, wherein each pickup of the plurality of pickups is a combination magnetic pickup and drive coil.
16. The apparatus according to claim 12, wherein the voltage mechanism includes a voltage source that is selectively turned on and off by a switching mechanism, which is electrically connected to the pitch comparison mechanism.
17. The apparatus according to claim 16, wherein the switching mechanism includes at least one power transistor.
18. The apparatus according to claim 12, further includes an amplifier that amplifies the signal that is representative of pitch coming from each pickup of the plurality of pickups.
19. The apparatus according to claim 12, further includes a filter that removes extraneous noise from the signal that is representative of pitch coming from each pickup of the plurality of pickups.
20. The apparatus according to claim 12, further includes a zero crossing detector that alters the signal that is representative of pitch coming from each pickup of the plurality of pickups into a square wave.
21. The apparatus according to claim 12, wherein the pitch comparison mechanism includes at least one counter.
22. The apparatus according to claim 12, wherein the pitch comparison mechanism includes at least one controller, having a memory for storing predetermined values of pitch associated with each piano string of the plurality of piano strings,
wherein the at least one controller can contrast a representative pitch signal for each piano string of the plurality of piano strings against a respective predetermined pitch value stored in the memory of the at least one controller.
23. A apparatus for self-tuning a piano comprising: a housing; a plurality of piano strings, each having a first end portion and a second end portion; a plurality of tuning pins for securing the first end portion of each piano string of the
plurality of piano strings to the housing; a plurality of hitch pins for securing the second end portion of each piano string of the plurality of piano strings to the housing; a voltage source connected to a selective switching mechanism, which is
electrically connected to each piano string of the plurality of piano strings; a plurality of magnetic pickups positioned adjacent to the plurality piano strings that generates a signal that is representative of pitch for each piano string of the
plurality of piano strings; a plurality of drive coils positioned adjacent to the plurality piano strings that sustains vibration in each piano string of the plurality of piano strings; and a controller that contrasts the representative value for pitch
for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string of the plurality of piano strings and generates a differential value, wherein the controller is electrically connected to the switching
mechanism so that pulse width modulated voltage from the voltage source can be applied to each piano string of the plurality of piano strings so that the respective differential value can be minimized due to thermal expansion of each piano string by an
application of voltage and thermal contraction in an absence of voltage.
24. A method for self-tuning a piano comprising: selectively applying voltage with a voltage mechanism to each piano string of a plurality of piano strings to provide thermal expansion of each piano string by an application of voltage and
thermal contraction of each piano string in an absence of voltage to alter pitch of the piano string to a predetermined value, wherein each piano string of the plurality of piano strings has a first end portion and a second end portion, wherein the first
end portion of each piano string of the plurality of piano strings is respectively secured to a housing by a plurality of first attachment mechanisms and the second end portion of each piano string of the plurality of piano strings is respectively
secured to the housing by a plurality of second attachment mechanisms and the plurality of piano strings are electrically insulated from each other.
25. A method for self-tuning a piano comprising: selectively applying voltage with a voltage mechanism to each piano string of a plurality of piano strings to provide thermal expansion of each piano string by an application of voltage and
thermal contraction of each piano string in an absence of voltage to alter pitch of the piano string to a predetermined value, wherein each piano string of the plurality of piano strings has a first end portion and a second end portion, wherein the first
end portion of each piano string of the plurality of piano strings is respectively secured to a housing by a plurality of first attachment mechanisms and the second end portion of each piano string of the plurality of piano strings is respectively
secured to a housing by a plurality of second attachment mechanisms and the plurality of piano strings are electrically insulated from each other; generating a signal that is representative of pitch for each piano string of the plurality of piano
strings with a plurality of pickups positioned adjacent to the plurality of piano strings; comparing the representative value for pitch for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string of
the plurality of piano strings with a pitch comparison mechanism to generate a differential value; and selectively applying voltage from the voltage mechanism to each piano string of the plurality of piano strings so that the respective differential
value can be minimized due to thermal expansion of each piano string by an application of voltage and thermal contraction of each piano string in an absence of voltage.
26. The method according to claim 25, wherein the step of generating a signal that is representative of pitch for each piano string of the plurality of piano strings further includes utilizing at least one counter to generate a square wave
representation of the pitch for each piano string of the plurality of piano strings.
27. The method according to claim 25, wherein the step of generating a signal that is representative of pitch for each piano string of the plurality of piano strings further includes maintaining vibration in the plurality of piano strings by
utilizing a plurality of drive coils.
28. The method according to claim 25, wherein the step of comparing the representative value for pitch for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string of the plurality of piano
strings with a pitch comparison mechanism to generate a differential value further includes utilizing a controller having a memory of stored values of pitch.
29. The method according to claim 25, wherein the step of selectively applying voltage from the voltage mechanism to each piano string of the plurality of piano strings so that the respective differential value can be minimized due to thermal
expansion of each piano string associated with the application of voltage, further includes utilizing a voltage mechanism that includes a voltage source that is selectively pulse width modulated with at least one power transistor. |
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Claims |
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Description |
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FIELD OF THE INVENTION
This invention relates to an apparatus for tuning a piano, and more particularly, to an electrical device that automatically tunes a piano.
BACKGROUND OF THE INVENTION
Traditionally, an acoustic piano is tuned by a trained technician, schooled in the craft of piano tuning, who utilizes complex, learned methods. The trained technician determines when the piano string is in tune by either using a tuning fork or
an electronic strobe tuner as a pitch sensing aid and then systematically tuning each piano string by manually turning the tuning pins with a special wrench. This service is usually required at least twice a year and the pianist is virtually the only
modern musician that cannot tune his or her own instrument.
U.S. Pat. No. 4,044,239, issued to Shimauchi et al. on Aug. 23, 1977, discloses an automatic adjustment device for piano strings that requires use of a separate pulse motor art connected to the tuning pin for each and every piano string. This
is a very expensive apparatus that could affect the acoustics of the piano by requiring the presence of 220 pulse motors and associated electronic controllers due to the fact that an average piano has 220 piano strings. The maintenance expenses and
potential problems associated with this type of apparatus will be considerable and the failure of just one mechanism associated with a single string could negate the benefits of this type of device.
The present invention is directed to overcoming one or more of the problems set forth above.
SUMMARY OF INVENTION
In one aspect of this invention, an apparatus for self-tuning a piano is disclosed. This apparatus includes a housing, a plurality of piano strings, each having a first end portion and a second end portion, a plurality of first attachment
mechanisms for respectively securing the first end portion of each piano string of the plurality of piano strings to the housing, a plurality of second attachment mechanisms for respectively securing the second end portion of each piano string of the
plurality of piano strings to the housing and a voltage mechanism electrically connected to each piano string of the plurality of piano strings for selectively applying voltage to thermally expand each piano string of the plurality of piano strings to
alter pitch to a predetermined value.
In another aspect of this invention, an apparatus for self-tuning a piano is disclosed. This apparatus includes a housing, a plurality of piano strings, each having a first end portion and a second end portion, a plurality of first attachment
mechanisms for securing the first end portion of each piano string of the plurality of piano strings to the housing, a plurality of second attachment mechanisms for securing the second end portion of each piano string of the plurality of piano strings to
the housing, a voltage mechanism that is electrically connected to each piano string of the plurality of piano strings, a plurality of pickups positioned adjacent to the plurality of piano strings that generates a signal that is representative of pitch
for each piano string of the plurality of piano strings and a pitch comparison mechanism that contrasts the representative value for pitch for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string
of the plurality of piano strings and generates a differential value, wherein the pitch comparison mechanism is electrically connected to the voltage mechanism so that voltage from the voltage mechanism can be applied to each piano string of the
plurality of piano strings so that the respective differential value can be minimized due to thermal expansion of each piano string caused by an application of voltage.
Yet another aspect of the present invention, an apparatus for self-tuning a piano is disclosed. The method includes a housing, a plurality of piano strings, each having a first end portion and a second end portion, a plurality of tuning pins for
securing the first end portion of each piano string of the plurality of piano strings to the housing, a plurality of hitch pins for securing the second end portion of each piano string of the plurality of piano strings to the housing, a voltage source
connected to a selective switching mechanism, which is electrically connected to each piano string of the plurality of piano strings, a plurality of magnetic pickups positioned adjacent to the plurality piano strings that generates a signal that is
representative of pitch for each piano string of the plurality of piano strings, a plurality of drive coils positioned adjacent to the plurality piano strings that sustains vibration in each piano string of the plurality of piano strings and a controller
that contrasts the representative value for pitch for each piano string of the plurality of piano strings with a predetermined value of pitch for each piano string of the plurality of piano strings and generates a differential value, wherein the
controller is electrically connected to the switching mechanism so that pulse width modulated voltage from the voltage source can be applied to each piano string of the plurality of piano strings so that the respective differential value can be minimized
due to thermal expansion of each piano string by an application of voltage and thermal contraction in an absence of voltage.
Still another aspect of the present invention, a method for self-tuning a piano is disclosed. The method includes selectively applying voltage with a voltage mechanism to each piano string of a plurality of piano strings to provide thermal
expansion of each piano string by an application of voltage and thermal contraction of each piano string in an absence of voltage to alter pitch of the piano string to a predetermined value, wherein each piano string of the plurality of piano strings has
a first end | | |
