Abstract
This invention, a key-changing apparatus for stringed musical instruments, automatically sets all the strings to the necessary flats and sharps for any key signature selected. This allows musicians, particularly novices, to play musical scores in any key signature without having to remember to flatten or sharpen all the multiple notes required by the key signature.
Claims
1. A zither comprising: a. a zither case b. a plurality of strings with each string of said plurality of strings having a first predetermined length corresponding to a plurality of flattened musical notes, with said plurality of strings attached to said zither c. a spindle apparatus to set one of a plurality of key signatures onto said plurality of strings while maintaining a home identity of each individual said string of said plurality of strings in each of said plurality of key signatures, with said spindle of said spindle apparatus attached to said zither case near to and transverse to said plurality of strings in a plane parallel to said plurality of strings with said spindle at a first calculated distance from one set of ends of said plurality of strings for a first calculated length of strings corresponding to natural musical notes and with said spindle having a plurality of rotatable key signature positions, with said spindle for each said string in each said key signature position having in a first instance a first predetermined radius to contact and fret each said string of said plurality of strings at said first calculated length corresponding to a natural note when said one of said plurality of key signatures requires said natural note for said string d. said spindle apparatus to further include a sharp fret transverse and near to said plurality of strings, with said plurality of strings sandwiched between said sharp fret and said spindle, and with said spindle for each said string in each said key signature position having in a second instance, when said one of said plurality of key signatures requires a sharp note for said string, a second predetermined radius to push said string against said sharp fret with said sharp fret at a second calculated distance from said one set of ends of said plurality of strings consistent with a second calculated length of said string corresponding to said sharp note in said second instance.
2. The zither of claim 1 to further include a visual guide plate to label manual fretting points for accidental notes and a treble clef image plate to label said home identity of each of said plurality of strings with each of said plates being near to, and in a third plane parallel to, said plurality of strings, and with each of said plates attached to said zither case.
3. A zither comprising: a. a zither case b. a plurality of strings with lengths corresponding to a plurality of musical notes c. a plurality of string anchor pins to connect a first set of ends of said plurality of strings to said zither d. a plurality of tuning pins to connect a second set of ends of said plurality of strings to a tuning-pin block which is attached to said zither case e. a spindle means to change a key signature of said plurality of strings while maintaining a home identity of each string of said plurality of strings regardless of said key signature change.
4. The zither of claim 3 to further include: a. a flat fret connected to said zither case at a position near to said plurality of string anchor pins, with said flat fret transverse to said plurality of strings, and in contact with said plurality of strings, and with each of said plurality of tuning pins further positioned at a calculated distance from said flat fret for a flattened-note length for each string of said plurality of strings b. a sharp fret connected to said zither case in a first plane parallel to said plurality of strings and in a transverse direction to said plurality of strings and near to said plurality of strings and with said plurality of strings between said sharp fret and said flat fret and with said sharp fret at a predetermined distance from said plurality of tuning pins for a sharpened-note length for each string of said plurality of strings c. said spindle means to change said key signature, with said spindle housed in said zither case, with said spindle's axis in a second plane parallel to said plurality of strings, and with direction of said spindle axis transverse to direction of said plurality of strings and with said plurality of strings between said spindle and said sharp fret and with said spindle having a plurality of rotatable key signature positions with each one of said plurality of rotatable key signature positions having a calculated spindle surface height, as measured from said axis of said spindle, at each crossing point of said spindle with each said individual string, with in a first instance said spindle having a first calculated spindle surface height where said spindle does not contact said individual string in said first instance which is applicable when said string corresponds to said flattened note in said selected key signature, and said spindle in a second instance having a second calculated spindle surface height where said spindle does contact said individual string to fret it to a length for a natural note in said second instance which is applicable when said individual string corresponds to said natural note in said selected key signature, and said spindle in a third instance having a third calculated spindle surface height where said spindle pushes said individual string into contact with said sharp fret in said third instance which is applicable when said individual string corresponds to said sharpened note in said selected key signature.
5. The zither of claim 4 to further include a visual guide plate as a means to label manual fretting points for accidental notes and a treble clef image plate as a means to identify said home identity of each of said plurality of strings, with each of said plates being near to, and in a third plane parallel to, said plurality of strings and with each of said plates connected to said zither case.
Description
DESCRIPTION OF THE DRAWINGS
(1) FIG. 1 gives an overview of the most essential parts of the first embodiment of the key-changing apparatus, shown here as being housed in a zither case.
(2) The proportions in the drawings in FIG. 2 through FIG. 7, FIG. 12, and FIG. 16 through FIG. 21 are distorted in order to more clearly illustrate how the various parts relate to one another.
(3) FIG. 2 shows how the string, spindle and frets relate to each other when a string is in a sharp-note position. This view shows a cross section of the spindle perpendicular to the strings.
(4) FIG. 3 is basically a 90-degree rotation of FIG. 2, but showing just the string and spindle.
(5) FIG. 4 shows how the string, spindle and frets relate to each other when a string is in a natural-note position. This view shows a cross section of the spindle perpendicular to the strings.
(6) FIG. 5 is basically a 90-degree rotation of FIG. 4, but showing just the string and spindle.
(7) FIG. 6 shows how the string, spindle and frets relate to each other when a string is in a flat-note position. This view shows a cross section of the spindle perpendicular to the strings.
(8) FIG. 7 is basically a 90-degree rotation of FIG. 6, but showing just the string and spindle.
(9) FIG. 8 shows the visual guide plate for where accidental notes are fretted.
(10) FIG. 9 illustrates the visual guide plate in a closer view, with labels showing where accidental flat, accidental sharp and accidental natural notes should be manually fretted.
(11) FIG. 10 is basically the same as FIG. 9, with the manual fretting device shown fretting a string.
(12) FIG. 11 shows the treble clef image in place on a plate above the strings.
(13) FIG. 12 shows the spindle with a plurality of key signature positions designated and with the spindle in position for sharpened fretting of one plurality of strings and natural fretting of another plurality of strings.
(14) FIG. 13 shows an overview of representative stringed instrument, with a mounting block for the second embodiment of my key-changing apparatus, but with the apparatus itself not shown. This view does show the visual guide for fretting points for this instrument, and a treble clef image plate that shows the user which strings correspond to which notes on the treble clef.
(15) FIG. 14 shows the basic external structure of the key-changing apparatus attached to the mounting block, with the mounting block shown on the zither case in FIG. 13.
(16) FIG. 15 shows a key-signature plate, with three different size holes.
(17) FIG. 16 shows one of the three possible inter-relationships between a key-signature plate hole, the related connecting rod with its stops, and the related lever. This view illustrates the relationships of the parts for when a sharpened note is desired.
(18) FIG. 17 shows the inter-relationships between a key-signature plate hole, the related connecting rod with its stops, and the related lever for when a natural note is desired.
(19) FIG. 18 shows the inter-relationships between a key-signature plate hole, the related connecting rod with its stops, and the related lever for when a flattened note is desired.
(20) FIG. 19 shows one of the plurality of levers, with its related string, in one of three possible positions, this position being for a sharpened notes as a result of the lever being in its bottom position outside the case and therefore in its top position inside the case.
(21) FIG. 20 shows one of the plurality of levers, with its related string, in one of three possible positions, this position being for a natural note as a result of the lever being in its middle position outside the case and therefore in its middle position inside the case.
(22) FIG. 21 shows one of the plurality of levers, with its related string, in one of three possible positions, this position being for a flattened note as a result of the lever being in its top position outside the case and therefore in its bottom position inside the case.
DETAILED DESCRIPTION OF MY INVENTION
(23) In the first embodiment of the invention as shown in overview in FIG. 1, a spindle 9, which moves on its axis, is the effective means for regulating naturals, sharps and flats. It contains 15 positions, each running lengthwise on the spindle, for the 15 key signatures that it sets, with position labels 12 (shown later in FIG. 12) for each key signature. FIG. 12 also shows (in exaggerated angles) how the sculpted surface of the spindle 9, sets one plurality of strings to a sharpened position 10 and the remaining plurality of strings to a natural position 11. An individual can easily set a desired key signature by looking at the score to be played, counting the number of sharps or flats at the beginning of the score, and then turning the spindle to a position corresponding with the observed number of sharps or flats. If there are no sharps or flats, then the spindle would be set to a position for zero sharps and flats. There are no key signatures that contain both sharps and flats, so this would not be a consideration in key signature selection. The spindle also can be labeled in such a way that a key signature can be selected also by name, such as E flat.
(24) Each key signature position of the spindle individually sets each of the plurality of the strings 2 as to their relative contact with the sharp fret 6, flat fret 7, and with the spindle 9 itself. The operation is somewhat like a ram. For each string in each note, the spindle surface can have one of three effective heights, as illustrated in FIG. 2 through FIG. 7. At the greatest height, the spindle surface 9 raises the string 2 upward from its baseline plane up to a height where the string contacts the sharp fret 6, reducing the string's vibrating length at this point so that a sharp note is produced. When the key signature calls for a certain note to remain natural, the spindle surface 9 is at a middle height so that it raises the string 2 height and stops the string's vibrating length at the spindle 9, which becomes in effect a natural fret. In this position, the string is not raised enough to contact the sharp fret. When a flat is needed, the spindle surface 9 is at its lowest height so that the spindle does not touch the string at all, meaning that the string vibrates its full distance to the flat fret 7, producing the flat note.
(25) The apparatus is shown in FIG. 1 in a zither case 1, although the zither is not part of my invention. The zither is shown with standard zither parts: a plurality of strings 2, a plurality of string anchor pins 3, a plurality of string tuning pins 4, and a tuning-pin block 5. The invented apparatus itself is designed for use as a part of a stringed instrument, with the zither as an illustration.
(26) Although the apparatus sets all the natural, sharp and flat notes for any given key signature, there is still the need for a way to play the occasional note that departs from the key signature, this type of note being called an accidental. The manual fretting points for each of these accidental notes are indicated on the apparatus by a frettting visual guide plate 13 (FIG. 8) attached to the instrument case, with the plate being parallel to and above the strings. The plate has a position label for each accidental sharp, each accidental flat, and each accidental natural, with an opening beside the labeling to allow the player access to the strings to do the manual fretting. This guide plate (with labels 14) is shown in a closer view in FIG. 9 and is shown with a manual fretting device 15 fretting a string in FIG. 10 with a zither tuning-peg wrench being of a convenient size for this. The sharp fret 7 and the natural fret 8 (shown in FIG. 1) serve as added physical guides as to where manual fretting should occur. As a player aid, there is a treble clef image plate 16 (FIG. 11) showing where each string relates to the treble clef. Thus a player can look at a score and know immediately the string where each note should be played.
(27) Great variety is possible in the construction of musical instruments with which my key-changing apparatus could be used. However any musical instrument using this apparatus as described would need to have a string structure compatible with the apparatus. This means basically that any given string needs to be of a correct length from its tuning pin to the spindle contact point to allow production of the desired natural note and that the string then also needs to have enough length to extend back to the bass fret and an attachment point. The variables in determining string length for any given note are string material, string diameter and string tensioning, and the relationship of these variables. There are readily available formulas for the relationship of these variables.
(28) As one example of prototype construction of a zither on which the key-changing apparatus could be used, the inventor used 0.014 inch diameter steel string in lengths ranging from about one foot to almost two feet for the various individual strings, with the overall instrument being about two feet long and about six inches or more in width. By using the same diameter of string for all the notes, the consistent mathematical proportions among note frequencies can be reflected in consistent mathematical proportions in instrument construction, for example in simplified construction and placement of sharp and flat frets.
(29) One-half inch poplar wood has been used for case material. This embodiment of the instrument produces bell-like tones that do not depend on a soundboard or on any case interior dynamics. One-quarter inch steel rods were used for sharp and flat frets. Used for the spindle in the most recent prototype was a material known by various names including UHMW, which stands for Ultra High Molecular Weight, an industrial plastic used sometimes as a replacement for steel. It has excellent abrasion resistance, but is a very tough material, difficult to hand tool. Standard zither pins were used in prototype construction, both for the anchor pins and the tuning pins.
(30) A clearance between the flat and natural positions of the strings of inch was used in construction of this embodiment, and a clearance of inch also was used between the natural position and sharp position of the strings. Given these dimensions, the spindle diameter in this particular construction should be at least 2.75 inches in diameter to allow sufficient circumference for 15 key signatures in a way that the sculpting of the spindle surface height for any given string in one key-signature setting does not extend into the sculpting of the surface for the string in the adjacent key-signature setting.
(31) The manner of playing a musical instrument that uses my key-changing apparatus is the normal manner of play for the stringed instrument except that the player does not need to worry about key signature, sharps, and flats, other than for the occasional accidental note.
(32) The second embodiment of my invention also is shown in relationship to a representative stringed instrument, a zither 1 in FIG. 13. This view shows standard zither parts: a plurality of strings 2, a plurality of string anchor pins 3, a plurality of string tuning pins 4, and a tuning-pin block 5. This view also shows a mounting block 17 for a lever based key-changing apparatus but does not show the apparatus itself. In this second embodiment, key selection is made by picking from a plurality of key-signature plates 18 (FIG. 14) that are stored on a ring 19 outside the case. As shown in FIG. 14, the external parts of the key-changing apparatus are attached to the mounting block 17 outside the case 1. Each of the key-signature plates 18 corresponds to a key signature, with the plates having vertical connecting rods 22 to levers 20 that in turn enter the zither case 1 and serve to fret the strings 2 to their desired flat, sharp and natural notes for the desired key signature. The internal parts are shown in FIG. 19, FIG. 20, and FIG. 21, which will be discussed later. Each single key-signature plate 21, as shown in FIG. 15, has a plurality of holes 24, with each hole corresponding to a musical note and its related string on the musical instrument, and with each hole being of three possible diameters. The key-signature plate 23 holes 24 are slotted to allow the key-signature plates to clear the connecting rods 24, with larger slots 25 to allow the plates to clear the connecting-rod support structure 21. Each hole 24 has a corresponding rod 22 running through it to its related lever 20. There are two stops on each connecting rod 22, a smaller stop 26A near the top of the rod and a larger stop 26B near the bottom of the rod. When a key-signature plate is pushed down into place into a locking slot 28, there are three possible relationships between the hole 24 in the plate 23, the relevant connecting rod 22 and the relevant lever 20. In the first relationship (FIG. 16) of the hole 24, rod 22, and lever 20, which occurs when a key signature calls for a sharpened note, the key-signature plate hole 24 is smaller in diameter than the top stop 26A on the rod 22, so that the rod 22 and its corresponding lever 20 both are pushed to a bottom position. In the second relationship (FIG. 17) of hole 24, rod 22, and lever 20, which occurs when a natural note is desired, the key-signature plate hole 24 is of a diameter so that it clears the smaller top stop 26A on the rod but pushes against the larger bottom stop 26B, pushing the rod 22 and its corresponding lever 20 both to a middle position. In the third relationship (FIG. 18) of hole 24, rod 22, and lever 20, which occurs when a flat note is desired, the hole 24 in the key-signature plate 23 is large enough in diameter that it clears both stops on the connecting rod 22, so the rod and and the corresponding lever 20 are not pushed down at all, so that the spring-loaded lever is left in its topmost setting. The levers 20 enter into the instrument case 1 parallel to and below the strings 20 in such a way that each lever 20 can move upward to contact a corresponding string. There are three lever positions possible inside the instrument case 1 corresponding to the three lever positions outside the instrument case 1. As shown in FIG. 19, when the lever 20 is not pushed down outside the case 1, the lever 20 is not raised inside the case 1 and the lever 20 then does not affect its related string 2, leaving it to vibrate its full length consistent with production of a flat note. As shown in FIG. 20, when the lever 20 is in its middle position outside the case 1, then the lever 20 is pushed up to a middle position inside the case 1 underneath its related string 2 with a projecting arm off of the lever 20 then contacting the string 2, fretting it at a predetermined length consistent with production of a natural note. As shown in FIG. 21, when the lever 20 is in its lowest position outside the case 1 then the lever 20 is pushed up inside the case 1 to its highest position so that a second projecting arm, which is shorter than the first arm and positioned on the lever 20 farther away from the instrument case than the first arm, then contacts the string 2 and raises the string higher than the first arm, fretting the string 2 at a predetermined shorter length consistent with production of a sharp note.
(33) As shown in FIG. 13, this embodiment also has a guide plate to show the position for fretting of accidental notes 29 and, a treble clef image plate 30, which is a visual aid showing for each note on the treble clef which string should be played. The treble clef image should be of great help in quickly and easily learning to play music with this key-changing apparatus.
