The present invention relates to a ball retrieval device for ball games where a playing ball is attached to a rubber-elastic thread element, more particularly a rubber thread.
Different executions of ball retrieval devices are known in the art. The purpose is that the player may throw or drive away the ball and the latter is automatically retrieved, thereby eliminating the need of pursuit and search and allowing a game “with oneself”. Naturally, a requirement of such retrieval devices is that the ball game itself is not or at least not substantially disturbed.
A tennis racket having rubber threads stretched in front a racket surface in a harp-like manner is e.g. known from Mexican Patent No. MX-A-36717. The rubber thread, whose end is attached to the ball, is guided several times from the handle to the tip of a racket and back over pulleys. When the ball is hit, the rubber is stretched and its extension is distributed over the entire length of the thread, thereby allowing a relatively long flight of the ball. To this end, however, the rubber thread must be guided on the pulleys very smoothly but nevertheless precisely, thereby resulting in high demands with respect to the rubber thread.
In addition, the harp of rubber threads arranged on one side of the racket is disadvantageous as it substantially excludes the use of that side for playing.
Therefore, an object of the present invention consists in providing a ball retrieval device for use with an elastically extensible thread element, more particularly a rubber thread, including an improved guidance of the rubber thread.
This is accomplished by a device wherein said rubber thread is retained in a thread storage device comprising the following parts:
Preferred executions and applications are the object of the further claims.
Accordingly, the ball retrieval device of the invention comprises a spool on which the elastic thread element, more particularly a rubber thread, is wound and unwound. The spool is turned as it is unwound, and a recovery element is simultaneously tensioned. For a disturbance-free, reproducible operation, it has turned out to be important that the rubber thread is wound up on the spool in a controlled manner in spite of its elastic properties which lead to its contraction when rewound. For this purpose, the following two measures have been successful:
Preferred embodiments of the device include further features, in particular:
The invention shall be further explained with reference to a preferred exemplifying embodiment and to figures. The figures show:
The main mechanism 2 of a ball retrieval device according to the invention is integrated in handle 3 of a tennis racket 1 (see particularly
In addition to its main function, i.e. to prevent the transmission of rotational movements of ball 12 to rubber thread 7, swivel 10 further serves as a stop for rubber thread 7 during the retrieval of ball 12. Thread 11 defines a minimum thread length allowing e.g. to throw up ball 12 for a serve.
Details of swivel 10 and of the attachment of the thread to the swivel are shown in
Shaft 17 of swivel head 8 smoothly rotates in a through-going bore 18 in reinforcement 19 at the tip 5 of racket 1. (
Thus, due to the rotating ability of swivel-head 8 around the longitudinal axis of the racket and the laterally arranged outlet 21 provided with guiding pulleys 22, 23, an extremely wear-free guidance of rubber thread 7 is obtained almost independently from the direction in which the rubber thread is drawn out of swivel-head 8 or enters the latter, respectively.
Main mechanism 2 of the ball retrieval device is implemented as a tennis racket handle and fastened to racket head 6 via an adapter 30. Two screws 31 extend laterally through adapter 30 into elongations 32 of the frame 33 of head 6. Two longitudinal support bars 35 extend through screws 31 from a rear support plate 36 to a front support plate 37 (see
However, other solutions are also conceivable here, such as e.g. longitudinal supports extending around screws 31, or a part in each longitudinal support. The part is provided with an oblong hole through which respective screws may extend. As shown in
The front ends of longitudinal supporting bars 35 are retained in blind holes 39 in a support plate 40. Support plate 40 rests on frame 33 of racket-head 6 and supports main mechanism 2 on frame 33. Furthermore, guide 4 for rubber thread 7 is mounted on support plate 40.
At the front end, the rubber thread of rubber drive 44 is stuck through the hollow shaft 47 of knurled wheel 48 in front support plate 37 and retained by pin 49 (
Rubber drive 44 consists of a rubber band or rubber thread which is knotted together to form a triple loop.
In the rear part of racket handle 3, another combination of a second knurled wheel 52 and another fixation pin 53 is provided, fixation pin 53 being inserted in rear support plate 36. Knurled wheel 52 holds the shaft 54 of a hook 55 which is retained by a clamping screw 56. Rubber drive 44 is attached to the curved front portion 57 of hook 55. Spool 60 for receiving rubber thread 7 comprises an elogation 61 having a driving pin 62 inserted therein. The strands of rubber drive 44 extend on either side of driving pin 62 and can thus impart a torque to the driving pin when spool 60 is rotated with respect to rubber drive 44. It has been found that for the smoothest possible operation of the spool, it must be prevented that axial forces may act upon the bearings of spool 60 when rubber drive 44 is tensioned. This is accomplished in that during the attachment of the rubber drive, hook 55 is displaced in rear knurled wheel 52 in such a manner that the distance between the end of rubber drive 44 on the side of hook 55 and driving pin 62 corresponds to the distance 65 between driving pin 62 and the end of rubber drive 44 on the side of front knurled wheel 48. In other words, hook 55 has to be adjusted such that its front end 57 is exactly at the same distance from driving pin 62 as pin 49, the latter distance 65 being determined by construction.
Spool 60 is essentially formed of spool jacket 67 with a front end piece 68 and a rear end piece 69 inserted therein. Front end piece 68 forms elongation 61, and rear end piece 69 forms a similar elongation 70, only shorter. Elongations 61 and 70 project into corresponding recesses in front bearing plate 71 and rear bearing plate 72 and are smoothly journalled therein by means of rolling bearings 73, particularly ball bearings. Spool jacket 67 is provided on its surface with a helical groove 74 of which a highly enlarged partial section is shown in
The separating walls 76 between the turns of helical groove 74 must be as thin as possible, and the radius of groove bottom 75 must be as large as possible in order to be able to roll up a maximum length of rubber thread 7 on a spool jacket 67. Correspondingly, during winding and unwinding, the rubber thread must be guided to be most precisely colinear with the course of the helical groove at the ascent point of rubber thread 7 in order to avoid that separating walls 76 are subject to wear or that rubber thread 7 skips to an adjacent groove turn across the relatively low separating wall 76.
Similarly to support plates 36, 37, bearing plates 71, 72 are pushed onto longitudinal support bars 35. At the rear and in front thereof, a respective securing plate 77 is disposed which is fastened on longitudinal support bars 35 by means of clamping screws 78 (see
For the guidance of rubber thread 7, a carriage 80 is provided which surrounds spool jacket 67 and is longitudinally displaceable on guide bars 82. Guide bars 82 are retained in support plates 71, 72. As appears in the enlarged illustration of
An alternative shown in
In the operative condition, carriage 80 completely surrounds spool jacket 67 in order to avoid that rubber thread 7 skips to adjacent turns of helical groove 74. For threading and attaching a new rubber thread 7, the rear portion of carriage 80 is designed as a removable closure slide 86 (
Carriage 80 comprises a guide sleeve 90, a deflecting pulley 91, and a driving roller-block 92 for guiding rubber thread 7 to deflecting pulley 91 which deflects rubber thread 7 from the axial direction to the direction tangential to spool jacket 67 and to helical groove 74. The position of deflecting pulley 91 in the axial direction is determined by driving roller block 92. To this end, driving roller-block 92 comprises a larger first, proper driving roller 93 engaging in an empty turn of helical groove 74 and extending quite close to the bottom thereof. The further rollers 94 to 96 of driving roller block 92 engage in turns of helical groove 74 in which rubber thread 7 is present. The diameter of rollers 94 to 96 is chosen such that a small distance subsists between their edges and rubber thread 7 but that they still serve as a moving closure of helical groove 74. Particularly the second roller 94 ensures a proper winding and unwinding of rubber thread 7. Driving roller-block 92 thus provides a precise synchronicity of carriage 80 with the rotation of spool 60 so that rubber thread 7 wound up or unwound from spool 60 around deflecting pulley 91 is always very precisely colinear to helical groove 74. In the respective winding or unwinding area, the rubber thread is already subject to a certain tension, which equalizes in the course of the following one or two turns, however. In this process, besides their function in assisting the proper driving wheel 93, the further rollers 95, 96 of driving roller block 92 provide protection against an ejection of rubber thread 7.
The additional rollers 95, 96 and the resulting increase in construction length allow to provide at least two ball bearings. The risk that the rollers are canted or may oscillate is thereby substantially reduced, the lifetime of the bearings is prolonged by the load distribution and the load on the sidewalls of the helical groove is reduced.
Furthermore, with regard to the entering rubber thread 7 behind driving roller block 92, carriage 80 comprises a roller carriage 98 that is loosely disposed in a frame 99 (
Another danger arises when rubber thread 7 is torn. Without particular measures, carriage 80 would run against rear stop plate 110 unchecked, thus creating a high risk of damaging the mechanism. The resulting damages may not only affect carriage 80 but also spool 60, which is suddenly braked by driving roller-block 92.
In particular, on account of the resulting high lateral forces, separating walls 76 and/or the rollers of driving roller-block 92 may be damaged. Therefore, rear stop plate 110 is designed as part of an emergency brake device whose other essential component is brake support 116 (
A brake lever 121 is mounted on an axle 120 of brake support 116 which carries a brake pad 122 at its front end, e.g. of a rubber-elastic material (
As shown in
With a maximum admissible length of rubber thread 7, the resting position of carriage 80, i.e. the position in which rubber thread 7 is fully wound up, is located very far at the rear of spool 60. However, this position must always keep a certain distance from brake support 116 to avoid that carriage 80 hits brake support 116 at this point already and thus activates the emergency brake as it moves past the rest position through the above-described dynamics at the end of the winding process. As a matter of fact, the emergency brake device is not self-releasing, i.e. when it is activated, the retrieval device must be opened and the brake released manually. Opening of the retrieval device is performed by loosening screw 131 that fastens enclosure 132, which simultaneously constitutes the handle surface of racket handle 3, to support plate 134. Support plate 134 is in turn clamped on longitudinal support bars 35 (
Releasing the emergency brake is effected by loosening screw 129 on stop plate 110 and pushing it to the rear, whereby the brake is released (
For inserting a new rubber thread 7, carriage 80 is first moved to the foremost position. As shown in
Behind the roller arrangements 100, 101, carriage 80 is opened by removing closure slide 86. The end of rubber thread 7 can be seized and simply provided with a knot 140 (
A little further forward on spool 60, a spiral spring 145 is inserted in helical groove 74, one end of spiral spring 145 being bent inwards and engaging in a hole 147 in the bottom of helical groove 74, thereby fastening spiral spring 145. The other end 149 of spiral spring 145 is slightly bent upwards and slightly projects from separating wall 76. As appears in
At the beginning of a game, it is often required to make a kind of swinging movement while rubber thread 7 is completely wound up, e.g. when a ball is thrown up for a serve or when a ball that is rhythmically moved forward and back in an arc is played after having touched the ground, however without extending the rubber thread. For this purpose, a manually operated brake is disposed in the front part of the handle (
For left-handers, a second brake of this type may be provided in a mirror-image arrangement.
For a flawless operation of the ball retrieval device, it is necessary to ensure that the two sections 64, 65 in front and at the rear of driving pin 62 are equally tensioned in order to avoid that bearings 73 of spool 60 are subject to an axial load. To this end, the two knurled wheels 48, 52 are each rotated the same number of turns or fractions of turns, e.g. 8 to 10 turns each. By engagement of the locking pins 49, 53 in the respective knurled wheels 48, 52, knurled wheels 48, 52 are immovably held in their positions and the given initial tensions of rubber drive sections 64, 65 are maintained. given initial tensions of rubber drive sections 64, 65 are maintained.
From the preceding description of a preferred exemplifying execution, a large number of modifications will be apparent to those skilled in the art without leaving the protective scope of the invention as defined by the claims. Above all, it is conceivable to use the ball retrieval device for other ball games than tennis, in particular generally such games where a ball or another object is driven away by a swinging movement of a player with a striking, throwing or pitching instrument, e.g. for golf, baseball, but also for soccer.
Number | Date | Country | Kind |
---|---|---|---|
1977/02 | Nov 2002 | CH | national |
Number | Name | Date | Kind |
---|---|---|---|
2094536 | Heimers | Sep 1937 | A |
2128610 | Heimers | Aug 1938 | A |
2806700 | Heimers et al. | Sep 1957 | A |
2945694 | Heimers et al. | Jul 1960 | A |
2945695 | Heimers et al. | Jul 1960 | A |
3065563 | Bascom | Nov 1962 | A |
3168312 | Davis | Feb 1965 | A |
3635475 | Brown | Jan 1972 | A |
3735934 | Black | May 1973 | A |
3876162 | Chun et al. | Apr 1975 | A |
4023797 | Sarrasin | May 1977 | A |
4753442 | Bland | Jun 1988 | A |
4784389 | Taylor | Nov 1988 | A |
Number | Date | Country |
---|---|---|
413044 | Jan 1936 | BE |
205524 | Oct 1923 | GB |
491536 | Sep 1938 | GB |
Number | Date | Country | |
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20040127307 A1 | Jul 2004 | US |