The invention relates to improved equipment, apparatus and methods for kite flying and kite sporting activities.
The art of kite flying from ancient to modern times involves a wide variety of styles and equipment and many improvements over time. Kite flying designs of many types and styles have been provided for both entertainment and sport. Heretofore conventional kite flying rigs have provided entertainment, amusement, sport, play and fun for people of all ages.
Although kite flying can be enjoyed very simply, and without much more than a spool of twine, a large existing variety of reels and spools have been employed for making the activity more efficient and effective.
As kite designs have improved, so has kite line and twine and ever larger spools and reels have been employed. At the other end of the kite market, typical kites are flown for entertainment and simple rigs are used by children and supervising adults.
Thus there is ever a need to provide improved equipment for flying kites in an efficient and entertaining manner. Further, it is desirable to attain, improve and exhibit levels of kite flying skill and performance, and the subject apparatus and method does so to a degree which has not been available previously.
These improvements will be appreciated by experienced kite flying participants as well as beginners.
The subject apparatus for launching, flying and controlling kites comprises a kite reel housing having a handle at a first end for manually holding and orienting the apparatus. The reel housing contains a kite line spool for storing, releasing or retrieving line as desired, and the spool has a take-up or rewind handle. The spool and reel housing are configured to contain the spool while maintaining a first locked mode which prevents unintended release of kite line. The reel housing has a manual altitude trigger to provide an intentional line-release mode during launching and flying maneuvers. The trigger is preferably integral to the housing or may be attached separately.
Preferably, the release trigger is a cantilevered trigger integral to the reel housing, perhaps molded directly therein, and uses a pawl and ratchet configuration for controlling release of the line. In preferred embodiments, the kite line spool is engaged within the reel housing with friction clips for rotatably maintaining the spool on an axis and permitting free running of line from the spool or to rewind the line when intended by the user.
Accordingly, the reel housing may have a first line guiding eyelet to receive line reeling away from the spool or being retrieved back to the spool, and the eyelet is oriented to direct the line from the reel housing. The eyelet may be molded into the apparatus or may be a cylindrical addition to minimize friction and reduce wear on the line. Also attached to the reel housing is a line control and guide arm which is adjustably and securely attached at a pivot point connected to a second end of the reel housing. The guide arm preferably has an arched (arcuate) configuration to minimize interference with kite line running underneath it toward a target kite. The control and guide arm further comprises a second line guiding eyelet at the opposite or distal end of the apparatus for directing the line toward an intended target.
The terminal end of the kite line is typically a stopper or stopper knot, a kite line connector or the kite itself. A kite line connector is typically a clip or swivel attached to the end of the line for easy attachment to the kite as desired.
In preferred embodiments, the adjustable line control and guide arm and the reel housing will have complementary gear ridges at the pivot point for adjustably securing the arm to the housing. These may be secured by lockable knurled and threaded knob going through one side of the guide arm, frictionally adjoining complementary gear-like ridges on the guide arm and housing and thereafter protruding through the housing for tightening via a complementary threaded nut.
The subject apparatus for launching, flying and controlling kites may be adjustably configured for multiple user-chosen modes of kite flying operation. A neutral first mode of operation maximizes the length of the device when the reel handle, housing and guide arm are maintained in a relatively straight position. A second kite flying operation is possible when the guide arm is positioned above the foregoing neutral position, thereby permitting lifting of the kite line above and away from a target. An additional or third mode of flying operation is possible when the arm is positioned relatively below the aforementioned neutral position, thereby lowering the kite line below the target. These adjustments also contribute to the user's ability to perform kite flying tricks.
As mentioned above, the cantilevered trigger mechanism is configured to hold and release line as desired in varying kite flying conditions. It is contemplated that the apparatus may be configured to further comprise a reel drag mechanism to adjustably permit release of line as desired by the user.
It will be recognized that preferred embodiments of the subject design may comprise a kite flying system or a kite flying kit which may include the above described apparatus as well as the kite line and the kite itself.
Under ideal conditions, the subject apparatus can direct the kite either right or left, upwards and downwards and to and from the user. Combinations of these movements can be utilized for tricks, performances and physical challenges.
The improved apparatus can be utilized with a wide variety or types of kite designs, such as typical diamond shaped paper or plastic kites, usually using tails. These kites will have an attachment point for the kite line and this attachment point will typically be an eyelet, bridal, or strap arrangement for securing the line to the kite. Typically, the line leads from the kite to the participant who typically keeps it on a spool. With the present design, the kite flying participant will be able to influence the kite flying by enabling direction changes, while enjoying the playful action of the kite pulling on the line and influencing the apparatus control and guide arm during the kite flying activity.
The subject design facilitates launching a kite off the ground and launching a kite will be quicker and easier than ever before. The design also allows improved control of the altitude of the kite. Finally, the subject design provides the user with total control over the kite, making it much easier to manipulate the kite's flight path.
Another of the advantages of the subject apparatus is that it is very portable, and it can be manufactured inexpensively. The improved control and direction of the kite is achieved as described below by the utilization of an adjustable control or guide arm incorporated into a spool and reel housing with a control handle.
For example, launching the kite in low wind conditions is accomplished with the control and guide arm powering the kite and line off the ground, while placing the kite substantially higher in the air off the ground where the wind gusts are stronger and more capable of flying the kite.
The subject improved system may be made and used in accordance with the apparatus and methods described in detail below.
Other objects, features and advantages of the present invention will be apparent when the detailed descriptions of the preferred embodiments of the invention are considered with reference to the accompanying drawings, which should be construed in an illustrative and not limiting sense as follows.
The subject improved apparatus has several important elements as detailed herein below. Connections among elements may include physical and mechanical fasteners and connectors, integrally attached components. Where desired, chemical bonds are provided by suitable adhesives.
Also in this view of the reel housing 25, the line exit 32 and eyelet 33 can be seen, through which the kite string passes after coming off the spool 20. Thereafter, the line passes through the line exit 16 and eyelet 17 at the end of guide arm 15 and the distal end of the apparatus 10.
An example of an adjustment to the apparatus 90 is shown in
A further example of an alternative adjustment to the apparatus 95 is shown in
Materials for the apparatus handle and spool may be thermoplastic resins molded into the requisite shaped parts. Suitable plastics may include nylons and polyamide blends, high impact plastics such as acrylonitrile-butadiene-styrene (ABS) blends and copolymers such as those known as CYCOLAC® ABS plastics, and polystyrenes; and thermoformable polyolefins. The spool take-up or retrieving handle will also typically be plastic or metal. The spool brake and trigger mechanism can also be a plastic tab, and a metal or plastic spring mechanism may also be utilized to urge or bias the tab into suitable positions. Other reel and spool designs may be substituted without undue experimentation. An integral cantilevered trigger is preferred and a rubber or plastic stopper may be utilized to limit travel of the lever.
The control and guide arm will typically be a resilient plastic or fiberglass arm. In practice, a twenty inch length control apparatus has been found to be satisfactory but other lengths may be utilized as desired for effect. The line guides will typically be metal or plastic eyelets or cylinders.
Altitude control of the kite may utilize a trigger to control the spool and reel in the following fashion. When letting kite line out to increase the altitude of the kite, it is a nuisance to unravel loops of line by hand, so the subject apparatus permits kite line to glide out at different rates at the operator's discretion. The reel can be tightened to prevent any kite line from exiting the reel. However, by loosening the trigger, the wind will pull the kite up and place tension on the kite line, thus pulling more line out.
Further, the control and guide arm can be used for increased control. When the kite is airborne and kite line is let out by loosening the trigger release, various actions are experienced. As the line is tightened, the operator's skill can control the action. By changing the angle of the control arm, the guide will change the tension points and vectors placed upon the kite. This will ultimately manipulate the kite's path.
For example, holding the apparatus in your right hand out and down to the right, the kite will begin to migrate over to where the operator steers it. Using the length of the apparatus rather than just the length of the user's arm allows one to change the angle force applied on the kite. What this creates is much more control over the path of the kite, allowing the user to steer the kite.
Interchangeable control and guide arms can exhibit more or less flex as may be desired for precision flying or just for fun. Typically a lightweight power control arm will give a good combination of these characteristics. Having the control and guide arm offset in relation to the handle and reel housing can also contribute to the utility and flight action of the apparatus.
Using the subject apparatus to fly a kite can employ a wide variety of techniques and actions. A draw and release or draw and reach action has the user pull the apparatus toward himself, away from the kite target, and therefore put tension on the control arm. A release or reach toward the target can either relieve the tension, or facilitate reeling-in on the take-up spool.
Thus varying line tension can create leverage for controlling the control apparatus-kite system. A control arm under line tension with the kite target can act as a center of gravity to influence the action of the flying device. Furthermore, the give and take action of the apparatus in use under tension can be highly enjoyable for the participant.
Another influencing factor is the operation of the spool and reel. Line tension adjustments, as well as differing line retrieval techniques will also influence the kite flying action.
With practice, the user can learn to perform tricks with the flying kite. Or, on a beach or open field, the apparatus can be placed in a holder in the sand or a hole in the ground for hands-free kite flying when wind conditions cooperate.
Example: A kite launching, flying and control apparatus molded of ABS thermoplastic resin in accordance with the description above, was operated in the following fashion.
A user first loaded approximately 150 feet of kite line onto a take up spool. The end of the line was fed through the reel housing or the apparatus and exited the reel housing at an eyelet where it was guided by hand to the far end of an adjustable guide arm where it was then fed through a second eyelet. At this time the line may be secured with a stopper knot or a snap toggle or clip or directly attached to a kite to be flown. In this example, the kite line was attached to a kite.
The spool was then installed in the reel housing of the apparatus and held in the housing by friction clips and secured from unintended rotation by ratchet gears on the spool and a pawl on a release trigger. A desired amount of line was released from the spool by operation of the trigger release with the operator's finger.
When ready to fly the kite, the kite was placed on the ground relatively downwind from where the user intended to stand, and a length of line covering that distance was released from the apparatus as the user returned to his starting flight position. The line was made relatively taut by reeling in excess line and the user aimed his arm, the apparatus and the line directly toward the kite laying on the ground.
At launch the user quickly raised his arm upwards in an arc causing maximum leverage and mechanical advantage to pull on the line and lift the kite off the ground into the prevailing wind. Since there was sufficient wind to fly the kite, additional line was released by the user by pressing the release trigger and the kite soared into the sky.
The user then adjusted his arm to other comfortable positions effective for controlling and flying the kite. The handle variously was held vertically or horizontally, and the adjustable guide arm was adjusted upward or downward as desired for comfort and control.
As desired during kite-flying, the user retrieved portions of the kite line by rotating the spool and reeling in the line. The spool and reel housing ratchet mechanism facilitated the reeling in of the line while preventing the unintended release of too much line.
Additionally, the user's arm movements and associated movements of the apparatus and guide arm was useful for guiding and controlling the kite in varying prevailing conditions. With practice some kite flying tricks were attempted and perfected, such as loops and dips. During the kite flying mode, additional line was released or retrieved as desired. When the kite flying session was finished, the kite line was readily retrieved at a comfortable pace until the kite was returned to the user.
In the foregoing example, the handle and reel housing, as well as the take-up spool, control and guide arm and the knurled threaded tightening knob were all made of ABS thermoplastic resin. The tightening nut and two metal eyelets were made of steel.
The handle and reel housing was approximately 11.5 inches in length and about 1.0 to 1.2 inches in width. The arched control and guide arm was approximately 10.5 inches in length and 0.2 inches in width. The height was slightly tapered from about 0.5 to 1.0 inches. It utilized an I-beam construction to save material and to provide an aerodynamic shape.
The spool had an approximate outside diameter of 3.0 inches, and an inside diameter of about 1.75 inches defining the center of the spool. The threaded knurled knob had a total length of about 1.4 inches.
The invention now being fully described, it will be apparent to one of ordinary skill in the art that many changes and modifications can be made thereto without departing from the spirit or scope of the invention set forth herein.
This application claims the benefit of co-pending provisional application Ser. No. 61/756,256 filed Jan. 24, 2013 and which is incorporated herein by reference.
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Number | Date | Country | |
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Number | Date | Country | |
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61756256 | Jan 2013 | US |