Percussion instrument for games with a percussively or impact-moved play body
The invention relates to a percussion instrument for games with percussively or impact-moved play body. According to the invention, the percussion instrument comprises an actuating part (BT) and an impact section (PT) embodied at least partially as a dimensionally stable solid body interacting with the play body in a directly dynamic manner. A plurality of excellent spatial areas and/or flat areas and/or linear areas are provided in order to enable a structure to be made, said structure having an improved adaptation to the vibrational behaviour to the events involved in the playing actions and the requirements and particularities of the player. Said areas are distinguished by means of at least one vibration-relevant material parameter, especially one resonance-relevant material parameter and/or form or measuring parameter, especially differing mass, density, resistance to deformability and/or damping of at least one part of the respective environment, forming a sequence extending over at least one part of the percussion instrument corresponding to at least one arranged sequence.
The invention relates to an impacting instrument for games with a playing object moved in an impacting or intermittent manner. These games include, among others, hockey, golf and baseball.
The impacting instrument includes an actuation part, which is also referred to, in brief, as “stick”, with a short extension part, called a “shaft”, as well as a handle and an impact part, for example, in the form of a blade or a club, entering into direct, dynamic operative connection with the playing object. Various constructions of instruments of this type, also known as bats, clubs or rackets, are on the market and generally known. The impact part is subjected directly to a strong, dynamic stress by the play body, which strikes it at high speed. The dynamic stress is composed essentially of pulse-like impact forces with very steep flanks, which are transferred to the stick and, with that, also to the handle. The stick and the impact part are constructions, which are able to vibrate and, due to the frequencies contained in the pulse flanks, can be excited to oscillate at their characteristic vibrations. Because of the existing coupling, the vibrations are also transferred to the actuating part, especially the handle and, with that, also to the hand and/or the arm of the player.
Depending on their frequency and amplitude, such vibrations have an appreciable potential for interfering with the playing process, for instance, with regard to the differentiated and sensitive dosing of the hardness of the shot or of the return speed desired by the player, as well as with regard to the precise determination of the return direction. Last, but not least, physically damaging effects may also arise therefrom for the player. In this connection, summary and/or roughly dimensioned damping measures have proven to be not very effective or unsatisfactory since, in general, the necessary reflection capabilities of the racket are also affected thereby, as is, in general, also the stroke as sensed by the player.
It is therefore an object of the invention to create a construction, which makes possible a better adaptation of the vibrational behavior to the circumstances of the playing processes and the requirements and peculiar features of the player. The inventive solution of this objective is determined by the distinguishing features of claim 1. Distinguishing features of further significant developments and optimizations of the invention are defined in the claims that follow.
The mode of action of the distinguishing features of the construction of claim 1 depends, among other things, on the effect of the characteristic vibration spectrum of the impacting instrument as a whole. A first step in this connection is the making available of a plurality of singular three-dimensional and/or two-dimensional and/or one-dimensional regions, which differ due to vibrationally relevant, especially resonance relevant, material and/or shape and dimensional parameters of their respective surroundings. Moreover, in practice, as large a number as possible of such singular regions is to be aimed for. These singular regions are then to be arranged in the form of at least one sequence, which extends over at least a portion of the impacting instrument and corresponds to at least one ordered sequence, especially to a mathematically or also an algorithmically determinable series. In practice, comparatively large numbers of sequences, which are to be arranged on the impacting instrument, once again come into consideration here.
Since the singular regions, with their mutual distances and, with that, also with the sequences, are disposed at or in the impacting instrument, the latter represent subdivisions of the vibrating body. In relation to the original, that is, not subdivided vibrating body, this leads to additional and, moreover, in general, higher characteristic vibrations and also to an elevation in the original characteristic vibrations, that is, to a correspondingly changed characteristic vibration spectrum. At the same time, the characteristic vibration density and its distribution over the frequency band in question can be modified and adapted or optimized in various ways in accordance with the given functional requirements by different configurational measures involving the construction and the dimensions as well as the selection of the material of the singular regions and the sequences.
During the impingement with an impact, the energy of which is distributed over a broad frequency range as a result of its flanks, which have become steep in the course of time, the characteristic vibrations of the changed impacting instrument are stimulated with correspondingly higher frequency distribution in accordance with the now given spectrum, which has a point of concentration, which lies generally at higher frequencies. However, since the amplitude of the vibrations at a given vibrational energy decreases as the frequency increases, the vibrational amplitudes, at any rate, in general, are decreased as a result of the organization of the vibrating bodies with the sequences of the singular regions. However, since it is especially the vibrational amplitudes, which are perceived by the player and can affect the playing quality, the basic inventive construction is suitable for accomplishing the object of the invention.
The mode of action and the advantages of the invention and of the distinguishing features of its essential further developments are explained in greater detail by means of the examples, which are shown diagrammatically in the drawings, of which
The impacting instrument, shown as example in
In the example, a first sequence A1 with singular regions or vibrational elements F1 extends in the longitudinal direction of the actuating part BT.
The vibration elements are constructed here, for example, as sections of a layer, which contain metal and therefore are weight-loaded more heavily than their surroundings, and which are applied by screen-printing.
The characteristics of the sequence A1 are determined by the superimposition of a plurality of singular regions or vibrational elements F1, which, in each case, are in series that are equally spaced apart. These distances vary from series to series and are determined by a whole-number subdivision of a specified section of the length of the actuating part and, moreover, in the sense of a variance of the mutual intervals between the singular regions corresponding to a harmonic series with relative interval amounts ½, ⅓, ¼, indicated in
The impact part PT also comprises an actively vibrating organization A2 with singular regions and, moreover, once again in the form of a plurality of superimposed sequences, in each case equidistant from one another. This organization may be constructed as in the case of the actuating part and is indicated only summarily in
In this connection, it should be pointed out that not only progressively or degressively varying graduations or series can be realized with such superimpositions, but also oscillatorically varying graduations or series. In the example of
Quite generally, other vibration parameters, such as material and/or shape or dimension parameters, especially different weights, mass densities, deformation stiffness and/or damping also come into consideration as intervals between singular regions. However, the use of variances in this respect, optionally of constants or of appropriate combinations, at least in one part of at least one sequence, in such a way, that an actively vibrating organization with a plurality of characteristic vibrations results, is important. In this connection, sequences, constructed at least sectionally and at least approximately according to harmonic, but also according to geometric series and extending over five divisions, especially a plurality of such actively vibrating, organized sequences in mutual superimposition, are of special importance. For important applications, sequences extending at least over five divisions, especially a plurality of such actively vibrating, organized sequences in mutual superimposition, have proven to be appropriate or even necessary.
The vibrational elements are provided in two multidimensional, essentially orthogonal sequences, namely, in accordance with arrow P2, in the axial direction of the tube and, in accordance with arrow P3, in the peripheral direction of the tube. This signifies an important difference from the superimpositions of
In the case of the golf club of
The baseball bat, given as an example in
In the case of the variation of a baseball bat of
The variation of a baseball bat of
Furthermore, a combination or superimposition of the constructions of
Claims
1. Impacting instrument for games with a playing object moved in an impacting or intermittent manner, comprising an actuating part and an impact part, which enters into direct dynamic operative connection with the play object and is constructed at least partially as a stiff solid object, a plurality of singular three-dimensional and/or two-dimensional and/or one-dimensional regions, which differ from at least a part oftheir respective surroundings by at least one vibration-relevant, especially resonance relevant material parameter and/or shape parameter or dimension parameter, especially by a different mass, mass density, deformation stiffness and/or damping and form the at least one sequence, extending over at least one part of the impacting instrument and corresponding to at least one ordered series.
2. The impacting instrument of claim 1, wherein at least one sequence of singular regions is disposed at or in the impact part.
3. The impacting instrument of claim 1, wherein with an actuating part, constructed particularly as a handle, at least one sequence of singular regions is disposed at or in the actuating part
4. The impacting instrument of claim 1, wherein at least one sequence of singular regions is provided, which extends at a surface or in a part of the impacting instrument body near the surface.
5. The impacting instrument of claim 1, wherein at least one sequence of singular regions is provided, which extends within the volume of the solid body or in an inner space of the impacting instrument body.
6. The impacting instrument of claim 1, wherein at least one sequence is formed by extended, especially strip-like singular regions.
7. The impacting instrument of claim 1, wherein in at least one part of at least one sequence, the mutual edge distances and/or the distances between the centers of singular regions are dimensioned in such a manner in the sequential direction of the series, that a vibrationally active organization with a plurality of characteristic vibrations results.
8. The impacting instrument of claim 7, wherein in at least one part of at least one sequence, a variance, progressive and/or degressive with respect to the sequential direction, is provided with respect to the singular regions or their vibrationally-relevant parameters.
9. The impacting instrument of claim 7, wherein at least one sequence of singular regions, vibrationally varying at least sectionally, is provided.
10. The impacting instrument of claim 7, wherein at least one sequence of singular regions, varying at least sectionally in accordance with a statistically varying series, which can be generated especially by a random generator, is provided.
11. The impacting instrument of claim 1, wherein at least one sequence of singular regions, formed at least sectionally and at least approximately according to a harmonic series, is provided.
12. The impacting instrument of claim 1, wherein at least one sequence of singular regions, formed at least sectionally and at least approximately according to a geometric series, is provided.
13. The impacting instrument of claim 1, wherein at least one vibrationally active organization, which contains at least one one-dimensionally, two-dimensionally or three-dimensionally extending superimposition structure of a majority, especially a plurality of different interval and/or subdivision and/or value sequences.
14. The impacting instrument of claim 13, wherein the superimposition structure contains at least two different, however at least approximately equally distant interval and/or subdivision and/or value sequences.
15. The impacting instrument of claim 13, wherein the value and/or the distribution of at least one vibrational parameter of the singular regions are dimensioned at least approximately equally within one of the mutually superimposed sequences.
16. The impacting instrument of claim 13, wherein the values and/or the distribution of at least one vibrational parameter of the consecutively following singular regions in each case are dimensioned within one of the mutually superimposed series at least approximately or at least sectionally according to at least one harmonic or at least one geometric series or according to a superimposition of such series.
17. The impacting instrument of claim 1, wherein at least one varying, especially harmonically or geometrically varying sequence of singular regions, extending multidimensinally or in a plurality of two-dimensionally or three-dimensionally directions, is provided.
18. The impacting instrument of claim 1, wherein at least one vibrationally active sequence of singular regions is provided, which extends at least over five divisions and preferably over a plurality of divisions.
19. The impacting instrument of claim 1, wherein at least one superimposition of at least two vibrationally active sequences of singular regions, especially a superimposition of a plurality of such vibrationally active sequences is provided.
20. The impacting instrument of claim 1, wherein at least one vibrationally active varying series of singular regions, disposed distributed along at least one edge of the impacting instrument body, is provided
21. The impacting instrument of claim 1, wherein at least one vibrationally active, organized surface layer or at least one layer section with a granulate, lacquer and/or film coating, especially with a metal content is provided.
22. The impacting instrument of claim 1, wherein the construction is a hockey stick.
23. The impacting instrument of claim 1, wherein the construction is a golf club.
24. The impacting instrument of claim 1, wherein the construction is a baseball bat.
Type: Application
Filed: Jan 10, 2003
Publication Date: Jul 7, 2005
Inventor: Georg Ignatius (Malsburg-Marzell 1)
Application Number: 10/500,496