This invention relates generally to skiing equipment and, more particularly to a ski training apparatus that enables a trainer to control the direction of the skis of a trainee with a pair of ski poles.
Children and others unfamiliar with skiing often need the assistance of a ski instructor in order to learn how to control the direction of his skis, how to stop and start, how to control his speed, and the like. Sometimes, parents try to teach their children or ski instructors seek to teach others these basic skills through oral instruction, demonstration, or while the “trainee” holds on to a rope. For instance, U.S. Pat. No. 4,505,681 proposes a handlebar held by a ski instructor that is connected to a ski student with lengthy straps that are attached to the student's waist or legs. Similarly, U.S. Pat. Nos. 4,445,866 and 5,074,795 propose various forms of tethering one or more ski instructors and students together during ski instruction or practice.
Although assumably effective for their intended purposes, these devices and methods of instruction may be ineffective or resisted by trainees who are just overly anxious to try actual skiing on their own, the trainees are often without “hands-on” assistance when embarking down a ski slope. In addition, the proposed training aids are focused on connecting a ski trainer with the body of a student rather than providing control over the direction of the student's skis.
Therefore, it would be desirable to have a ski training apparatus that enables a ski trainer to control the direction of a student's skis using the trainer's ski poles removably coupled to the student's skis. Further, it would be desirable to have a ski training apparatus having respective guide members attached to respective skis that are configured to receive distal ends of respective ski poles such that directional manipulation of the ski poles causes the direction of the skis to be changed accordingly.
A ski training apparatus according to the present invention includes a ski pole having proximal and distal ends. A first guide member is coupled to an upper surface of a respective ski worn by a ski trainee and includes a first receiver portion defining a first open interior area and an open top. A second guide member includes a cylindrical configuration defining open upper and lower ends and an open interior area. A spring connects the second guide member to the first guide member, the spring having a flexible configuration such that the second guide member is repositionable relative to the first guide member. The second guide member is configured to receive the distal end of the ski pole. The second guide member is operatively coupled to the first guide member by the spring such that the ski trainer is selectively in control of the trainee's ski by manipulation of the ski pole.
Therefore, a general object of this invention is to provide a ski training apparatus having respective guide members coupled to a student's skis and configured to receive respective ski poles of a ski trainer such that movement of the ski poles cases directional movement of the trainee's skills
Another object of this invention is to provide a ski training apparatus, as aforesaid, in which distal ends of respective ski poles may be inserted into respective guide members coupled to rear ends of respective skis.
Still another object of this invention is to provide a ski training apparatus, as aforesaid, that enables a ski trainer to ski directly behind a ski trainee and to control the direction of trainee's skis only when desired or necessary.
Yet another object of this invention is to provide a ski training apparatus, as aforesaid, in which specialty ski poles and corresponding guide members include a quick release configuration that enables quick separation if needed.
A further object of this invention is to provide a ski training apparatus, as aforesaid, that is easy to install and use.
A still further object of this invention is to provide a ski training apparatus, as aforesaid, that is safe to use.
Other objects and advantages of the present invention will become apparent from the following description taken in connection with the accompanying drawings, wherein is set forth by way of illustration and example, embodiments of this invention.
a is a side view of the ski training apparatus as in
b is an isolated view on an enlarged scale taken from
a is a side view of the ski training apparatus as in
b is an isolated view on an enlarged scale taken from
a is a side view of a second guide member removed from the ski training apparatus of claim 1;
b is a sectional view taken along line 4b-4b of
a is a side view taken from another angle of the second guide member;
b is a sectional view taken along line 5b-5b of
a is a perspective view of the ski pole as in
b is a perspective view of the ski pole as in
c is an isolated view on an enlarged scale taken from
d is an isolated view on an enlarged scale taken from
a is a side view of the ski pole as in
b is an isolated view on an enlarged scale taken from
A ski training apparatus according to a preferred embodiment of the present invention will now be described with reference to
The first guide member 30 includes a base portion 32 having a generally planar bottom surface 34 that may be selectively and removably coupled to an upper surface 14 of a respective ski 12 worn by the ski “trainee.” More particularly, the base portion 32 may include an adhesive pad 36 or strip coupled to the bottom surface 34 and be configured so as to adhere the base portion 32 to the ski 12 (
The first guide member 30 also includes a first receiver portion 38 attached to the base portion 32 and extends upwardly therefrom (
The first receiver portion 38 includes a generally cylindrical configuration defining a first interior area and an open top 39 providing access thereto. In one embodiment, the first interior area and open top 39 are configured to receive the distal end 26 of the ski pole 20. When coupled together in this way, the direction of the ski 12 may be directly controlled by the ski trainer, such as according to the directional forces of the ski pole 20 held by the ski trainer. In other words, the ski pole 20 is in operational contact with the first guide member 30 and ski 12.
In a preferred embodiment, the ski training apparatus 10 includes a second guide member 40 having a cylindrical configuration. The second guide member 40 includes a continuous side wall 42. The side wall 42 defines an open interior area extending between an open lower end 44 and an open upper end 46. The second guide member 40 is configured so as to selectively receive the distal end 26 of the ski pole 20 through the upper end 46 into the open interior area.
The spring 60 is an extension spring having a flexible configuration. An extension or coil spring has loops that are touching when not under a load and which becomes longer under load. A first end 62 of the spring 60 includes a hook coupled to the first guide member 30 with a first fastener 64 such as a rivet although the first fastener 64 may be a bolt, screw, pin, clasp, or the like. The first receiver portion 38 defines a hole 35 through which the first fastener 64 is received to engage the first end 62 of the spring 60. Similarly, a second end 66 of the spring 60 includes a hook coupled to the second guide member 40 with a second fastener 68 such as a rivet although the second fastener 68 may be a bolt, screw, pin, clasp, or the like. The second guide member 40 defines a hole 47 through which the second fastener 68 is received to engage the second end 66 of the spring 60. Accordingly, the first guide member 30 is operatively connected to the second guide member 40 by the spring 60. As the second guide member 40 is not coupled to any other structure, it is free to move or be repositioned relative to the first guide member 30 as it may be urged by the trainer's manipulation of the ski pole 20.
Now with reference to the ski pole 20, the ski pole 20 may include a pin 28 adjacent a distal end 26 (
Similarly, the side wall 42 of the second guide member 40 may define another aperture, also referred to as a second aperture 52 adjacent the upper end 46 of the second guide member 40. The second aperture 52 is configured to receive the pin 28 when the distal end 26 of the ski pole 20 is inserted into the interior area of the second guide member 40. Unlike the first aperture 50, however, the second aperture 52 includes a smaller diameter at an outer surface of the side wall 42 than at an inner surface of the side wall 42. The second aperture 52 also includes a ramp section 54 configured to increasingly urge the pin 28 toward the compressed configuration when the ski pole 20is rotated relative to the second aperture 52 such that the pin 28 is selectively released from the second aperture 52 by said rotation (
In one embodiment, this second aperture 52 may be the sole aperture. In another embodiment, the side wall 42 of the second guide member 40 may include both the first aperture 50 and the second aperture 52. In the case of both apertures being included, the first aperture 50 is directly opposite the second aperture 52 as shown in
With further reference to the second guide member 40, the side wall 42 defines at least one receiver lip 56 situated at the upper end 46. The receiver lip 56 extends outwardly so as to increase the diameter of the open upper end 46, thus making it easier to receive the distal end 26 and pin 28 of the ski pole 20. Preferably, the side wall 42 defines a pair of opposed receiver lips 56 so as to receive the pin 28 of the ski pole 20 into a desired aperture 50, 52 as described above. As shown in
In one embodiment, the ski pole 20 includes a handle 24 at a proximal end 22 thereof that is to grip by a trainer and with which to manipulate the distal end 26 of the ski pole 20 into the second guide member 40. Further, the ski pole 20 may include a lower portion and an upper portion that are length adjustable so as to vary the overall length of the pole 20. The ski pole 20 may include a clamp 29 configured to hold the upper and lower portions at a desired length adjustment.
In use, a ski training apparatus 10 may be installed onto each ski 12 of a trainee's pair of ski's by adhering a respective first guide member 30 to a rear end 16 of each ski 12 as described above. Once on the ski slope and ready to descend a hill, the trainer may insert a ski pole 20 into respective second guide members 40 and secure the ski pole pin 28 into a desired aperture 50 or 52. It is understood that the apparatus 10 includes a pair of ski poles—one corresponding with each ski 12. As the trainer and trainee descend the hill, the trainer can use respective ski poles to urge the back of the trainee's respective skis to the left or right as needed to keep the trainee straight or to intentionally turn.
It is understood that while certain forms of this invention have been illustrated and described, it is not limited thereto except insofar as such limitations are included in the following claims and allowable functional equivalents thereof.