The present invention relates to an apparatus and more particularly, relates to a method and apparatus for the launching of shuttlecocks.
Many sports utilize machines for performing a competitive movement in order to provide practice for its players. Thus, for example, in baseball, pitching machines are widely used to provide practice for the batters. The use of the machines permits the batter to practice without requiring a pitcher to throw the balls.
Similarly, in hockey, puck shooting machines can be utilized to provide practice to goalies. Tennis is another sport which utilizes a tennis ball launching machine in order to provide practice for the more inexperienced players.
In the game of badminton, it is also being proposed in the art to provide machines for launching shuttlecocks. One such machine is shown in U.S. Pat. No. 6,752,138 to Taryoto. In this machine, a plurality of shuttlecocks line up in a chute and the shuttlecocks are individually launched by a pair of spinning wheels. A feed mechanism comprises a motor driving a four spoke rotor.
It is an object of the present invention to provide a novel shuttlecock launching machine wherein shuttlecocks can be transported from a vertical storage tube to a pair of launching wheels which can launch the shuttlecocks in a wide range of trajectories.
According to one aspect of the present invention, there is provided a shuttlecock launching apparatus comprising a shuttlecock storage, first and second launching wheels, a transfer assembly for transferring a single shuttlecock from the shuttlecock storage to the launching wheels, the transfer assembly including a gripping device for holding and retaining a single shuttlecock, the shuttlecock assembly being on a vertically moveable base, the transfer assembly being horizontally moveable, a cam wheel and a cam follower, and the cam follower being connected to the transfer assembly to cause and guide the horizontal movement.
The shuttlecock storage is preferably a vertical tube wherein the shuttlecocks are store in a nested position as is known in the art. The inside of the tube is configured such that the lower most shuttlecock will drop into position with the base thereof being outside the tube such that it can be grasped. The remaining shuttlecocks are held in position due to the feathers.
The launching wheels may be of any suitable size and structure. Such launching wheels are known in the art. They may have a suitable gripping material extending about the periphery thereof.
Each of the launching wheels is preferably given by a separate motor such that, as desired, different speeds may be utilized in order to impart a desired trajectory to the shuttlecock. The launching wheels are also mounted (with their motor) such that they may pivot slightly when the shuttlecock is inserted between the wheels. A return means such as a spring member may be utilized.
The shuttlecock launching apparatus includes a transfer assembly which is designed to grip a single shuttlecock from the storage chamber and transfer the shuttlecock to a position where it is placed between the rotating launching wheels. To do this, there are two components—a horizontal component and a vertical component which operate to effect the transfer. Preferably, the vertical movement is guided by one or more guide poles with the horizontal movement being affected by a cam and cam follower arrangement. Preferably, both the horizontal and the vertical movements are driven by a single drive means which can use a belt to effect one of the drives.
The transfer device includes a gripping device which is designed to grasp a shuttlecock at the shuttlecock storage. To accomplish the same, a pair of gripper elements may have a configuration such that they are moved from a normally closed position to an opened position. Means for biassing the gripping elements towards a closed position may be utilized. Such means may comprise a spring member or the like.
Having thus generally described the invention, reference will be made to the accompanying drawings illustrating an embodiment thereof, in which:
Referring to the drawings in greater detail and by reference characters thereto, there is illustrated a shuttlecock launching apparatus which is generally designated by reference numeral 10. Shuttlecock launching apparatus 10 will include a suitable housing 12, only a portion of which is shown in the drawings. It will be understood that any suitable design and configuration of a housing may be utilized.
Mounted on top of housing 10 is a shuttlecock storage device generally designated by reference numeral 14. Shuttlecock storage device 14 comprises a feed tube 16 which is vertically oriented and into which a plurality of shuttlecocks may be placed. As may be seen in the drawings, each of shuttlecocks 15 is of a conventional design having a base portion 18 and feathers 20. Feathers 20 act to retain shuttlecock 15 within tube 16 until a positive force is applied thereto.
Extending downwardly from the top of housing 12 are a pair of fingers 22 for reasons which will become apparent hereinbelow.
Shuttlecock launching apparatus 10 also includes a first launching wheel 24 driven by a motor 26. Situated adjacent thereto is a second launching wheel 28 also driven by its own motor 30. Motors 26 and 30 are mounted on supports 32, 34 respectively such that they may move in a pivotal manner. A spring member 36 interconnects motors 26 and 30, again for reasons which will be explained hereinbelow.
A pair of vertical guide posts 38 are provided to receive a base member 40 forming a part of a transfer assembly which is generally designated by reference numeral 39. Base member 40 is mounted on vertical guide posts 38 and vertical guide posts 38 extend through cylindrical tube portions 42 of base member 40. Also extending outwardly from base member 40 are horizontal rods 44. At one end, horizontal rods 44 are secured to an attachment element 46 while at the opposed end thereof, there is provided a gripper assembly 48 which will be described in greater detail hereinbelow.
Transfer assembly 39 is moveable in a vertical direction by means of a post 50 which is pivotably connected to a drive wheel 52 at an outer circumferencial point thereof. Drive wheel 50 is driven by a suitable electric motor 54.
Shuttlecock launching apparatus 10 also includes a cam wheel generally designated by reference numeral 60 and which cam wheel 60 has a groove 68 designed to receive a cam follower 62. Cam follower 62 is connected to a first end of a pivot bar 64, which pivots about a pivot connection 66. Pivot bar 64 has, at the rear thereof, guide means for guiding attachment element 46. Conveniently, this may comprise a groove formed in pivot bar 64 with a complimentary projection on attachment element 46.
Groove 68 within cam wheel 60 has a first generally C-shaped section 70 which is connected at either end to two relatively straight sections 72 and 74. Naturally, the transition between straight sections 72, 74 and C-shaped section 70 is arcuate in nature.
Cam wheel 60 is rotatably driven about axle 78 by means of a drive belt 76 which is connected to drive wheel 52 driven by motor 54.
Gripper assembly 48 is illustrated in greater detail in
Each gripper element 80, 82 has a concave recess 88, 90 respectively on an outer surface thereof.
An initial operating position is illustrated in
Continued rotation of drive wheel 52 and cam wheel 60, as shown in
The operation of the grippers is best seen in
Further movement, as illustrated in
Further continued rotation, as illustrated in
As shown in
Naturally, the shuttlecock launching apparatus will include controls to control the various components of the apparatus. Thus, suitable controls may be provided for the motors to vary the speed thereof.
Various adjustments or controls may be incorporated to provide a control over the trajectory. Thus, the relative speeds of the launching wheels 24 and 28 may be varied. Also, the plane of the launching wheels may be varied; still further, one or more deflectors may be utilized to control the path of the shuttlecock.
It will be understood that the above described embodiment is for purposes of illustration only and changes and modifications may be made thereto without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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2631284 | May 2008 | CA | national |
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