The present invention relates to a hockey puck, and, more particularly, the present invention relates to a hockey puck that can be used on surfaces such as carpeted floors, grass and ice without damaging any surface which it might contact.
A wide variety of hockey pucks have been developed for use on a variety of surfaces. One criteria for a hockey puck is that it should travel on whatever surface it is on without tumbling, bouncing or being slowed because of uneven contact with that surface. The most common hockey puck, obviously, is a puck that is made for use on ice surfaces. Since ice surfaces tend to be free of snags the likelihood of bouncing is minimal.
However, other pucks have been developed that are designed for use on unsmooth surfaces such as streets and parking lots. These have been developed so that they can travel over these rough or uneven surfaces with a greatly reduced likelihood of tumbling or bouncing. Some of these pucks have bristles on the outer surfaces of the puck while other have springs disposed between the outer surfaces to reduce the problem of bouncing or flipping when the puck strikes a imperfection.
The present invention provides a hockey puck comprising a resilient material having a first predetermined configuration, a first predetermined thickness, and a predetermined hardness. There is a first disk having a second predetermined configuration and a second predetermined thickness that is engageable with a first side of the resilient material. The first disk is produced from a preselected material having a predetermined coefficient of friction. A second disk has a third predetermined configuration and a third predetermined thickness and is engageable with a radially opposed second side of the resilient material. The second disk is produced from the preselected material and has the same predetermined coefficient of friction. The resilient material extends beyond a periphery of the first disk and the second disk a predetermined distance. The second predetermined thickness and the third predetermined thickness of the first disk and the second disk, respectively, each have a thickness which is at least as thick as one half of the first predetermined thickness of the resilient material. There is, further, a first means for securing the first disk to at least one of the second disk and the resilient material adjacent the first side of the resilient material and a second means for securing the second disk to at least one of the first disk and the resilient material adjacent the radially opposed second side of the resilient material.
An alternate embodiment of the invention provides a blow molded one piece hockey puck comprising a central portion having a first predetermined configuration and a first predetermined width. There is a first sliding surface extending outwardly from a first surface of the central portion having a second predetermined configuration and a second predetermined width. There is a radially opposed second sliding surface that extends outwardly from a radially opposed second surface of the central portion having a third predetermined configuration and a third predetermined width. The central portion extends beyond a periphery of the first sliding surface and the second sliding surface a predetermined distance. The second predetermined width and the third predetermined width of the first sliding surface and the second sliding surface, respectively, each have a width which is at least as thick as one half of the first predetermined width of the central portion.
It is, therefore, one of the primary objects of the present invention to provide a hockey puck which is primarily adapted for use on a carpeted surface.
Another object of the present invention is to provide a hockey puck for use on a carpeted surface which will not mar surfaces that it contacts.
Yet, another object of the present invention is to provide a hockey puck for indoor use which will lessen the possibility of injury to a player if struck by the puck.
Still, another object of the present invention is to provide a hockey puck for indoor use which will not trip, bounce, or flip when it slides across the carpet.
It is another object of the present invention to provide a hockey puck for indoor use which is relatively inexpensive to manufacture.
Another object of the present invention is to provide a hockey puck which is blow molded.
Still, another object of the present invention is to provide a hockey puck which is one piece.
In addition to the numerous objects and advantages of the present invention which have been described with some degree of particularity above, it should be both noted and understood that a number of other important objects and advantages of the invention will become more readily apparent to those persons who are skilled in the relevant art from the following more detailed description of the invention, particularly, when such detailed description is taken in conjunction with the appended claims.
Prior to proceeding to the more detailed description of the present invention, it should be noted that for the sake of clarity in understanding the invention, identical components with identical functions have been designated with identical reference numerals throughout the drawing Figures.
Illustrated in
It is very important to note that the thickness of the first and second disks 11 and 12 is greater than half the thickness of resilient elastomeric material 15. A hockey puck typically slides at a slight angle from the horizontal and this feature prevents the protruding perimetrical edges 16 of resilient material 15 from catching or engaging the carpet surface and thereby prevents the puck 10 from flipping. It is preferred that such resilient material have a thickness of between about 0.388 and about 0.488 inches. In the most presently preferred embodiment of the invention such thickness of such resilient material 15 is 0.4375 inches (≈ 7/16 inches). Also it is preferred that such first disk 11 and such second disk 12 have substantially identical thicknesses and that such thickness is between about 0.265 and about 0.365 inches (≈ 5/16 inches).
As is evident in the drawing Figures such perimetrical edges 17 of the first disk 11 and second disk 12 have an arcuate shape. The arcuate shape extends from the surface of such disks 11, 12 that engages such resilient material 15 to the bottom sliding surface of disks 11 and 12. This arcuate shape prevents the hockey puck 10 from catching or engaging the carpet surface or other imperfections on the engageable surface, whether it is carpet or otherwise, so as to permit the hockey puck to glide freely.
Further, it is preferred that such perimetrical edge 16 of such resilient material 15 extend beyond the perimetrical edges 17 of such first disk 11 and such second disk 12 for a distance of between about 0.325 and about 0.425 inches. In the presently preferred embodiment of the invention such distance is about 0.375 inches (≈⅜ inches).
The first and second bottom disks 11 and 12 are solid and have a substantially equal circular diameter. It is presently preferred that these disks are molded from a plastic, such as tetrafluoroethylene, as manufactured under the trademark Teflon. However, it is within the scope of the invention that other smooth plastic materials with low coefficients of friction might also be used to form the discs 11 and 12.
Illustrated in
A sized central opening or passage 23 is provided centrally through resilient material 15 for passage of shaft 20. The resilient material 15 may be plastic or rubber. It is presently preferred that resilient material 15 be an elastomeric material which would typically be an elastomeric foam material that is readily available on the market. It should be a foam material which is resilient yet has memory and springs back to its original configuration.
Illustrated in
A variation of the hockey puck 10 of the present invention is presented in
Referring next to the embodiment shown in
Because the puck has elastomeric resilient material on the exposed perimetrical edges, it will not mar surfaces it engages and there is considerably less likelihood that it will injure players if they are struck by the hockey puck 10. The hockey puck 10, further, has the ability of transmitting or transferring spin or “English” when the hockey puck 10 engages a wall which can be helpful when applying bank shots and presents an interesting ramification when bouncing the puck 10 of a wall.
Illustrated in
Illustrated in
The disk like member 60 has an arcuate portion 62 between a periphery of the first outer sliding surface 61 and a sidewall 65 of the substantially cylindrical hollow disk like member 60 and between a periphery of the radially opposed second outer sliding surface 63 and the sidewall 65 of the substantially cylindrical hollow disk like member 60. The arcuate edges 62 prevent the disk like member 60 from catching or engaging the carpet surface or other imperfections on the engageable surface so as to permit the hockey puck 60 to glide freely.
In another embodiment the disk like member 60 further includes an elastomeric band 64 which engages with the side wall 65. The elastomeric band 64 covers at least a portion of the sidewall 65 and is like a sleeve that fits over the sidewall 65. The elastomeric portion is secured to the sidewall 65 by means of an adhesive or an elastic fit. In the case of the elastic fit the elastomeric portion 64 slips over the sidewall 65 similar to way a rubber band slips over an object and fits tight against such object. In an alternate embodiment of the invention the disk like member 60 has an indentation 66 in the sidewall 65 to further secure the elastomeric portion 64 against the sidewall 65 of the disk like member.
While a presently preferred embodiment and alternate embodiments of the present invention have been described in detail above, it should be understood that various other adaptations and/or modifications of the invention can be made by those persons who are particularly skilled in the art without departing from either the spirit of the invention or the scope of the appended claims.
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Number | Date | Country | |
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20050192130 A1 | Sep 2005 | US |