SK115993A3 - Rocket, especially for squash - Google Patents

Abstract

The invention concerns a racket, in particular a squash racket, whose gross unstrung weight is less than 170 g and which has a striking surface of at least 330 cm<2>, in particular at least 350 cm<2>. The low weight and large striking surface give improved ball acceleration and very high directional accuracy, as well as a comfortable playing feel.

Description

Rocket, especially for squas h

Technical field

The invention relates to a rocket, in particular a squash racket. Such rackets typically have a relatively long handle portion and a relatively small woven oval relative to the length of the racket.

BACKGROUND OF THE INVENTION

The properties relevant to the ball game, in particular the elasticity of the handle part, ball acceleration, oscillation and attenuation behavior or the like, with known rackets of the kind mentioned at the outset, were essentially guided by the material and cross-section used in the handle part In the construction of such missiles have been used different materials. It is already known to design relatively low weight rackets, while such light rackets, although good acceleration of the racket, but the acceleration of the ball is usually not satisfactory. The small weight of the rocket is achieved only for missiles with a small reflective surface.

In the construction of rackets, especially in the construction of tennis rackets, an attempt has often been made in the past to increase the natural frequency by using new and lightweight materials. The intention for such an increase in the natural frequency of tennis rackets was primarily to ensure the saving of the shoulder with such rackets. For squash rockets, however, the ratios are totally different, which is due to the different dimensions and natural smaller weights of such missiles. Changing the weight alone by using lighter or stiffer materials does not necessarily lead to an improvement in game behavior. Particularly conditional on the relatively small rebound surface in the construction of the racquets for squasch is an essential prerequisite that even at a different impact point of the ball on the strings oval with a high ball grip guarantee a high degree of stability of orientation.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a racket, in particular a squash racket, so that, at low weight, and thereby greatly accelerating the racket, the racket also improves ball acceleration with high orientation accuracy and at the same time delivers pleasant game behavior. In order to solve this problem, it is proposed according to the invention that the total weight of the racket in the untangled state is less than 170 g and that the racket has a reflecting surface of at least 330 cm ² , in particular at least 350 cm ² . The previously known rackets have been proposed, although rare rackets with a relatively small weight, and as a result, lighter rackets have generally significantly less reflective surface. So far known large-scale rackets for squasch show a total weight over 185 g, if the image area is to be over 330 cm ² . These two boundary conditions, relating to the weight of the unstrung rocket, as well as the area of the string, give a series of, directly or indirectly, physical properties, such as e.g. the properties relating to the acceleration of the racket as well as the acceleration of the ball and compliance with the above conditions in relation to the mass of the racket and the reflective surface result in a better acceleration of the racket and, surprisingly, an increase in the ball acceleration. While simply increasing the reflective surface at unchanged or increasing weight would necessarily lead to a reduction in the acceleration of the racket, at the same time, due to the greater reflective surface and given string string elasticity properties, it would have to be assumed that considerable ball acceleration cannot be expected. Overall, however, it has now surprisingly been shown that a reduction in the total weight of the racket and at the same time an increase in the reflective surface allows for a more precise and more comfortable overall play. In the condition of less than 170 g, in particular less than 165 g, the weight of the head is less than 83 g, in particular less than 78 g.

The weight of the head in this definition is that which can be measured at the end of the head when the rocket is placed at the end of the handle in the horizontal position of the rocket, as well as on the support. A rocket whose head mass determined in this manner is greater than half the mass of the rocket is considered to be a low-headed rocket, whereas a rocket with a head mass of less than half the rocket's weight. resting on the handle. The structure of the invention, that is to say, a missile having an unladen weight of less than 170 g, in particular less than 165 g, and a head weight of less than 83 g, in other words means that it is an almost equilibrium woven racket. Thus, a racket is obtained which allows a fast-response game, since, due to the low weight of the racket and the weight distribution proposed in the invention, the racket is allowed to move to the ball at high speed. In the hitherto known rackets, a considerably higher head weight is used to achieve acceptable game behavior. Even with the known lightweight rocket extremes, the weight of the head has always been considerably higher than the highest head weight proposed in accordance with the invention and, in addition to the heavier ones, there are already rackets on the market which are less than 170 g, in particular less than 165 g. however, at the same time they have a mass of head substantially above 83 g. The balancing of the racket achieved according to the inventive combination, despite its low weight, results in a high degree of stability and precise play behavior, which has so far been achieved only with substantially heavier rackets. At the same time, despite the low weight of the racket, a similarly good acceleration of the ball is observed, and in this connection it is advantageous to provide the rackets according to the invention considerably easier to equip with a string with a stronger string tension. While conventional squash rackets are usually stranded with a tension of about 12 kg, the rackets of the invention are more preferably stranded with a tension of about 14 kg.

According to the invention, a further significant improvement in game behavior and in particular an extremely high ball acceleration can be achieved in that the moment of inertia of the mass around the end of the handle in the plane of the string and normal is always less than 30 gm ² , in particular less than 28.5 gm ² . The value proposed according to the invention lies well below the values hitherto known, and in the first place there could be a concern that such small moments of mass inertia could cause a small ball acceleration and a low strike accuracy, respectively. stability. Surprisingly, however, the opposite has been achieved, so that, while keeping the cumulative conditions together with the conditions for the upper limit of the total weight and the weight of the head, it is possible to achieve a particularly light squash racket providing great acceleration. The moment of inertia of the mass is determined by fixing the rocket at the end of the handle by measuring the rocking movements of the rocket when moving in the plane of the string, as well as in the normal direction to the plane of the string.

Under the conditions for the construction of a squash racket according to the invention, preferably also the conditions are met that for a racket with a center of gravity distance less than 390 mm when measured in the unfolded state, the unstrung weight to head weight ratio is less than 2.07; The ratio of the center of gravity to the weight of the unstrung rocket is greater than 2.1, the center of gravity distance from the end of the handle measured on the unstrung rocket is between 340 and 380 mm. Finally, the ratio of head mass to mass moment of inertia should preferably be less than 2.81. All of these criteria have proven particularly advantageous for achieving neutral game behavior and give an overall balanced squash racket with considerable acceleration and a high degree of strike accuracy.

Compared to known racket designs with a relatively large strung area from the above weight-to-moment mass inertia ratio, measured each time on an unstrung racket, there is a characteristic, albeit a small difference, from the corresponding values measured on known rackets, but differing mainly in weight from the subject of the invention. While in this way it is possible to realize properly large-scale rackets with substantially higher racket and head masses, it has surprisingly been found that according to the invention achievable considerably better play properties in relation to strike accuracy and high racket acceleration as well as ball acceleration can be achieved. only by clearly defined limits, such as upper limit for the mass of the head to the moment of inertia of the mass.

Since, as discussed in detail in the present invention, the improved performance of the racket will first and foremost affect the weight, weight of the head and the reflective surface, other criteria that would make it possible to know the superiority in relation to said characteristics of the game have been further explored. In this way, it has been found that particularly advantageous properties can be obtained when the ratio of the spoke surface to the moment of inertia, measured in the normal to the spoke plane, is greater than 14 and in particular greater than 15. The aforementioned ratios are given in absolute figures. naturally taking into account the physical values used to determine the coefficient would fit the appropriate dimension. All known structures with a rocket weight below 200 g give here surprisingly as the upper limit ratio value max. 13.5, which in turn implies that, according to the invention, a ratio number greater than 14 is to be regarded as significant for achievable improvement in relation to game behavior. This is especially true for the preferred minimum value of the specified string area to the moment of inertia 15. It has also been found in the investigation of the rocket according to the invention that the string area to head weight should preferably be greater than 4.5 and especially greater than 5.2. Again, in particular in relation to a preferred value of at least 5.2, none of the known large-scale squash rackets reaches such a high value, and this value should also be considered to be characteristic in combination with the conditions mentioned in the introduction regarding the weight of the racket. head and / or reflective surface.

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Claims (8)

PATENT CLAIMS A racket, in particular for a squash, characterized in that the total weight of the racket in the untangled state is less than 170 g and the racket has a reflecting surface of at least 330 cm ² , in particular at least 350 cm ² . A racket according to claim 1, characterized in that the total weight of the racket in the untangled state is less than 170 g, in particular less than 165 g, and the head weight is less than 83 g, in particular less than 78 g. Rocket according to claim 1 or 2, characterized in that the moment of inertia of the mass around the end of the handle in the plane of the string and in the direction of normal is in each case less than 30 gm ² , in particular less than 28.5 gm ² . A racket according to claim 1, 2 or 3, characterized in that for an unstrung racket having a center of gravity distance from the end of the handle of less than 390 mm, the unstrung rack to head weight ratio is less than 2.07 and the center of gravity to the weight of the unstrung rocket is greater than 2.1. Rocket according to one of Claims 1 to 4, characterized in that the distance of the center of gravity of the unstrung rocket measured from the end of the handle is between 340 and 380 mm. Rocket according to one of Claims 1 to 5, characterized in that the ratio of the head mass to the moment of inertia of the mass is less than 2.81. Rocket according to one of Claims 1 to 6, characterized in that the ratio of the surface to be woven to the moment of inertia, measured normal to the plane of the string, is greater than 14, in particular greater than 15. Rocket according to one of Claims 1 to 7, characterized in that the ratio of the string area to the weight of the head is greater than 4.5, in particular greater than 5.2.