EP2178606A1

EP2178606A1 - Shuttlecock

Info

Publication number: EP2178606A1
Application number: EP08803180A
Authority: EP
Inventors: Ulrich Wilhelm Brandes
Original assignee: Individual
Current assignee: SPEEDMINTON GmbH
Priority date: 2007-08-24
Filing date: 2008-08-25
Publication date: 2010-04-28
Also published as: DE102007041169A1; WO2009027359A1; DE102007041169B4; CA2697172A1; CN101784311A; US20110034277A1; DE102007041169B8; DE202008018120U1

Abstract

The invention describes a shuttlecock with a conically shaped crown (1), wherein, in contrast to the circumferential surface which, in the case of known shuttlecocks, has a straight conical profile, the crown (1) is designed in the region of the crown opening (3) with an end region (4) having an inwardly curved radius.

Description

Shuttlecock

The invention relates to a shuttlecock with a substantially conically shaped basket, wherein the basket is connected in the region of the narrow end of the basket with a striking cap.

WO 2005/000428 A1 contains a number of definitions of terms which can also be adopted analogously for the present invention. Subject of this prior art is a shuttlecock with a cone-shaped basket and a striking cap arranged thereon. At least one detachable ring for changing the flight characteristics is arranged on the basket. The basket itself has a rectilinear conical surface.

The invention has for its object to provide a shuttlecock, which compared with known shuttlecocks has improved flight characteristics and in particular ensures a stable trajectory and a greater range. Furthermore, the shuttlecock should largely retain its dimensional stability even if the basket is damaged.

This object is achieved by the features in the characterizing part of claim 1. Advantageous embodiments of the invention are contained in the subclaims. According to the invention, there is provided a shuttlecock having a conically shaped basket connected to a striking cap. The lateral surface of the basket is provided in the region of the basket opening in contrast to the otherwise rectilinear conical shell surface of conventional shuttlecocks in the end with inwardly curved radius. By this in the end of the basket opening with a radius inwardly bent lateral surface reduces the drag of the shuttlecock, that is, the shuttlecock is windschlüpfriger on its trajectory. This shaping of an inwardly curved radius of the lateral surface in the region of the basket opening also favors that the flying shuttlecock has less deviations from its intended trajectory in crosswinds. This inventive design of the flying basket this is much better in the wind on its trajectory as a smooth conical shuttlecock with rectilinear lateral surface. At the same time the track is kept better and the range increased by this inventive design of the shuttlecock, since the ball is not on its trajectory in the air about its own axis, so to itself, rotates.

An expedient embodiment of the invention is that the transverse web located at the basket opening is formed wave-shaped. This results in the end segments having indentations and bulges at the basket opening. As a result, the precision of the trajectory and the flight curve is also improved, but at the same time the shuttlecock is dimensionally stable. This leads to the fact that even if the basket by continuous use Partially vertical cracks, good flight characteristics are still guaranteed.

Due to the fact that only the crosspiece located at the basket opening is wave-shaped, it rotates

Flugkorbball on his flight not around his own axis.

In such a design of the flying basket is expediently either the maximum shaft respectively at a longitudinal web and the wave minimum in the middle between the longitudinal webs or vice versa.

A further improvement of the flight characteristics is achieved in that the segment webs in the end segments in the region of the basket opening have different distances from one another.

A further improvement of flight stability and range is achieved in that the transition between the striking cap and the pressing ring is continuously formed.

The invention will be explained in more detail below with reference to embodiments shown at least partially in the figures. Show it:

Figure 1: a shuttlecock according to the invention with inwardly bent radius of the lateral surface in

Area of basket opening,

FIG. 2 is a plan view of the corrugated basket opening of the flying basket; FIG. 2A shows the corrugated basket opening of the flying cage with maximum waves at the longitudinal webs,

FIG. 2B shows the corrugated basket opening of the flywheel with wave minimum at the longitudinal webs,

FIG. 3: a shuttlecock ball with stepless transition of the striking cap and arranged wind ring;

FIG. 4 shows a sectional view of FIG. 3.

As can be seen from Figure 1, the shuttlecock consists of a basket 1 and a striking cap 9, wherein between the basket 1 and striking cap 9 at least one pressing ring 10 is arranged. The pressing ring 10 projects in front of the striking cap 9, so that an edge is formed between the pressing ring 10 and the striking cap 9. The basket 1 has in the region of the basket opening 3, in contrast to conventional shuttlecocks with rectilinear conical circumferential surface on an end portion 4 with inwardly bent radius. This radius is inclined significantly away from the imaginary extended lateral surface in the lower, the impact cap 9 facing the basket 1. This results in the distance X shown in Figure 1. The basket itself consists of longitudinal webs 5 and transverse webs 6, formed by which segments 7 become.

The segments 7 in turn have segment webs 8. These segment webs 8 have in the end segments 7a in the region of the basket opening 3 at different distances from one another. Thus, the distances between the segment bars in the end Segments 7a on one side quite narrow, on the other side be slightly further developed.

As can be seen from Figure 2, located at the basket opening 3 transverse web 6a is formed wave-shaped. The maximum shaft is located at this and the embodiment shown in Figure 2A respectively at a longitudinal ridge 5 and the wave minimum in the middle between the longitudinal webs 5. Figure 2B shows a variant in which the wave minimum is in each case at a longitudinal ridge 5. The waveform can also be modified, so that not at the wave maximum and at the wave minimum rounding, but peaks are realized. Due to the undulating course of the transverse webs 6a, the end segments 7a receive indentations 11.

To increase the weight of the shuttlecock ball and to change the flight characteristics, it is possible to arrange detachable rings 11 between the basket 1 and the striking cap 9, as shown in FIG. 4 and FIG. Such arranged ring is then held fixed in position on the one hand by the conical lateral surface of the basket 1 and on the other hand biased by a rear boundary wall of the striking cap 9.

Figure 3 shows an alternative embodiment of the shuttlecock ball, wherein the transition between the striking cap 9 and the pressing ring 10 is continuously formed. As a result, a further reduction in air resistance during flight of the shuttlecock ball is achieved. The pressing ring 10 is arranged in this embodiment so that it is recessed in the striking cap 9 and flush with the striking cap 9. The sectional view according to FIG. 4 illustrates the anchoring of the basket 1 in the striking cap 9.

The invention is not limited to the embodiments shown here. Rather, it is possible by modification of said means and features to realize further embodiments, without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

1 basket

2 lateral surface

3 basket opening

4 end area

5 longitudinal bar

6, 6a crossbar

7 segment

7a end segment

8 segment bridge

9 striking cap

10 pressing ring

11 indentation

X distance

Claims

claims

1. shuttlecock ball, consisting of a conically shaped basket with a striking cap, characterized in that the lateral surface (2) of the basket (1) in the region of the basket opening (3) has an end portion (4) with inwardly bent radius and / or on the basket opening (3) located transverse web (6a) is formed wave-shaped.

2. shuttlecock according to claim 1, characterized in that the basket (1) consists of longitudinal webs (5) and transverse webs (6) which form segments (7) and the segments (7) segment webs (8).

3. shuttlecock according to claim 1, characterized in that the maximum shaft respectively at a longitudinal web (5) and the wave minimum is located centrally between the longitudinal webs (5).

4. shuttlecock according to claim 2 or 3, characterized in that the segment webs (8) in the end segments (7 a) in

Area of the basket opening (3) have different distances from one another.

5. shuttlecock according to claim 4, characterized in that that the end segments (7a) have indentations.

6. shuttlecock according to claim 1, characterized in that between the basket (1) and impact cap (9) at least one releasable ring (11) is arranged.

7. shuttlecock according to claim 6, characterized in that the at least one ring (11) is held fixed in position in the attached state on the one hand by the conical lateral surface (2) of the basket (1) and on the other hand biased by a rear boundary wall of the striking cap (9).

8. shuttlecock according to claim 1, characterized in that between the basket (1) and impact cap (9) a pressing ring (10) is arranged and the transition between the striking cap (9) and the pressing ring (10) is formed continuously.

9. shuttlecock according to claim 8, characterized in that the pressing ring (10) is flush with the striking cap (9).