Music – Instruments – Wind
Reexamination Certificate
2000-04-17
2001-05-01
Hsieh, Shih-Yung (Department: 2837)
Music
Instruments
Wind
C084S38000B, C084S38500A, C084S38500A
Reexamination Certificate
active
06225541
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention concerns a key suspension (lever) based on the precharacterizing clause of claim
1
.
These types of key suspensions are known from the published German Patent Application 19 03 244 or from Great Britain Patent 717 902. There, an adjustment of the screw enables setting the distance between the key and the support, with the support being regularly fashioned somewhat cup-like with a U-shaped cross section. Mounting the key on the support fashioned in pendulum-movement or swivel-movement fashion is said to compensate inaccuracies, and also to enable a reliable sealing of the rim of the finger (tone, sound, note) hole, even when the support lies diagonally to the finger hole.
In practice, however, there are always difficulties in achieving an optimal fit of the key to the finger hole and/or to the rim of the finger hole. Seals not placed over the entire finger hole rim at the same time lead, for one thing, to obtaining the desired sealing of the finger hole only after a delay. Depending upon the stiffness of the pendulum mounting of the key, additional comparatively high key-actuating forces are required to close the latter with a reliable sealing. This can cause stress.
Additionally, the delayed closure of the finger hole causes the musician to automatically work with a higher finger pressure, in order to achieve an as rapid as possible complete closure of the finger hole. Also the possibility of undesired stress appears here.
SUMMARY OF THE INVENTION
The object of the invention is to improve a key suspension in accordance with the genre, such that there will be enabled as precise an alignment as possible of the key to the finger hole with the simplest means possible, and that extraneous noises will be avoided as much as possible when closing the key.
The task underlying the invention is resolved by a key suspension having the features of claim
1
.
In other words, the invention proposes two measures, namely first a simplified key adjustment beneficail to its optimal placement on the finger hole rim, and second an acoustical decoupling of the key from the support and other components.
For setting the key, adjustment is usually done by skilled workers. Bending the support and/or bending a support arm on which the support is located accomplishes this. Because of corrections and counter-corrections, this procedure requires a considerable expenditure of time. Compared to this, setting the key is simplified innovatively in that the key is not attached to the support in vertically moving fashion but rather in a pendulum- or swiveling movement, and is capable of being fixed in any position.
Movement in pendulum fashion is made possible by the fact that the screw that fixes the key to the support can be moved over the spherical-segment-shaped surface of the support, whereby the key can be titled about its center in all arbitrary directions. Since in manufacturing musical instruments, the length of the support, hence its distance to the hinge point and the distance of the hinge point from the finger hole, is determined in a simple way, and in practice always reliably, and is converted into the attachment of the key suspension, as a rule to guarantee a reliable and all around simultaneous sealing of the finger hole rim there is needed merely a tilting movement accommodation of the key.
An acoustical decoupling of the key from the support and other components is accomplished by a vibration-damping suspension of the key on the support by means of a vibration-damping transition piece.
The transition piece can be advantageously provided between the key and the screw. Key resonances and key noises appearing when striking against the finger hole rim can, in this manner, be effectively avoided, since only the comparatively low key weight needs to be attenuated.
Arrangement of the sphere center point in the plane in which the key seal lies against the finger hole rim guarantees an all around, simultaneous close fit of the seal against the finger hole rim.
The spherical-segment-shaped area of the supporting plate that lies against the outside of the support guarantees that the key will always be tilted about the center of its seal.
It is also advantageous to provide on the underside of the support aligned toward the key a plate in the form of a counter plate that is adapted to the spherical segment pattern of the support, so that a large area emplacement and a positive guidance of the key about the imagined center point of the sphere is always guaranteed.
For reducing the number of required components, said counter plate can be simply formed by the surface of the nut cooperating with the screw that is pointing toward the support.
However, with free motility of the key, in order to enable a reliable localization and a firm tightening of the screw, the surface of the counter plate and the underside of the support can advantageously be produced in friction-prone fashion, e.g. by suitable mating of materials, surface roughness or by a friction-prone coating of one or both surfaces.
The base plate adjacent to the outer side of the support can be fashioned in particularly simple fashion by the screw head itself, so that a very small number of components are possible and, in this manner, development of noises or adjustment for inaccuracies are avoided.
The use of a separate disc as a base plate, on the other hand, advantageously avoids costly machining of the underside of the screw head for obtaining a spherical-segment-shaped contour. Additionally, with the final tightening of the screw, it prevents an undesired shifting of the key. It has been shown that the friction between a disc of this type and the support can be greater than between the disc and the screw head, so that the screw can be tightened and, hereby, retains its angular position on the support.
An especially greater adjustment range for the key is enabled if the hole displays at least twice the diameter of the screw, or that part of the screw in the support extending through this hole.
Advantageously, other components, as for example the key surfaces, usually inlaid with mother-of-pearl, used for actuating the key, are not mounted directly on the key but rather on the support or other components from which the key is separated by the vibration-damping transition piece. Avoided hereby are canted positions, bends and similar effects that can cause erroneous positioning of the key on the finger hole rim. The same as for the key surfaces applies for stops that serve either for height limitation of the support and/or the key arm on which they are fixed, or that can be produced like a “follower” for coupling and common actuation of two keys. In the case of these stops a direct contact with a key is also avoided as much as possible.
A space- and weight-saving arrangement of the button surface or of the stop is possible directly on the screw head, whereby for its actuation the screw displays an appropriate, circumferential surface, e.g. knurled for screwing in or out without tools, or with a hexagonal contour or similar tool surface.
If the key surfaces or the stop are to be arranged eccentrically near the screw head, they can advantageously be mounted on the separate disc forming the base plate. In this way, the screw can be loosened or tightened without changing the position of the key surface or the stop.
Beyond the pure function of key support, the support can be lengthened to accommodate a key surface. Furthermore a support lengthened in this way can form stops known in practice, which can strike against pads made of felt or other damping materials, e.g. foam materials that are provided either for height limitation of the opening movement of the key, or as followers when several keys are to be actuated simultaneously by a single key and are connected with one another with an appropriate connecting rod.
REFERENCES:
patent: 1702962 (1929-02-01), Buescher
patent: 1727868 (1929-09-01), Dreves
patent: 3688633 (1972-09-01), Nagao
patent: 4704939 (1987-11-01), Staubinger
patent: 4967632 (1990-11-01), Ether
Kodera Wolf
Strathmann Arnfred Rudolf
Hsieh Shih-yung
Merchant & Gould P.C.
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