1. Field of the Invention
The present invention relates to the field of slacklining. More particularly, the present invention relates to slacklines which are made of elongate webbing and are secured to and tensioned between two anchors, and which are used by people balancing thereon, i.e., standing, walking, doing tricks, etc. thereon.
2. Background
Slacklines are today commonly used for entertainment, exercise and fitness purposes by people who balance, i.e., stand, walk, and do tricks, etc. thereon.
The slackline typically comprises a 1 inch to 2 inch wide elongate webbing, and is typically 30 to 100 feet long. The webbing is typically made of woven nylon or polyester and is constructed as an elongate flattened tube. The slackline is secured to and is tensioned between two anchors such as trees. A ratchet or other tensioning device is typically provided between one end of the slackline and one of the anchors for tensioning the slackline.
Hence, slacklines are similar to tightropes which have yet longer been used by tensioning between two anchors and balancing, walking and doing tricks thereon. However, slacklines are typically longitudinally more elastic than tightropes and/or are not tensioned as much as tightropes, thereby providing some “slack” in the line. Consequently, when a person balances and places weight/a downward force on a slackline, a more pronounced “V” is apparent in the slackline as it extends from each anchor at an angle downwardly to the person thereon. Additionally, as the downward force on the slackline changes, such as by the person jumping thereon, the slackline flexes more than tightropes. The slackline essentially stretches and retracts more than tightropes.
Although slacklines are functionally sufficient, a need exists and it is desirable to enhance the entertainment value of slacklines to those using the slackline and those who watch the person on the slackline.
In one form thereof the present invention is directed to a slackline for securing to and tensioning between two anchors for a person to balance thereon. The slackline includes an elongate tube formed by a translucent wall defining an elongate enclosed space. A light emitting device is provided within the elongate enclosed space whereby tight emitted by the device travels through the tube wall.
Preferably: the tube wall is flattened defining a pair of adjacent parallel elongate walls between and joined along elongate fold lines; the tube wall is made of one or more of woven nylon and polyester; the light emitting device comprises an elongate strip of a plurality of LED's; the light emitting device is elongate and is received within a friction reducing translucent tube; an electric power source is connected to the light emitting device with an electric power cord extending through the elongate tube; the elongate tube is longitudinally elastic; and, a tensioning device is provided between one end of the elongate tube and one of the anchors.
Also preferably, the slackline includes an electric power source connected to the light emitting device with an electric power cord extending through the elongate tube. An extension spring is secured at its ends to respective first and second attachment points along the power cord, and the length of the power cord between the attachment points is longer than the length of the spring between the attachment points when the spring is not extended.
The slackline can include an electric power source connected to the light emitting device with an electric power cord extending through an open end of the elongate tube and through the elongate tube. The elongate tube and power cord extending therethrough adjacent the open are tied into a loop.
The slackline can also include a lighting power control device connected to the light emitting device and selectively providing power to the light emitting device, whereby one or more of an intensity, color and frequency of the light being emitted is selectively altered.
The slackline can be used by a person by securing one end of the elongate tube to a first anchor and the other end of the elongate tube to a second anchor; tensioning the elongate tube between the anchors; and, balancing on the elongate tube while light is emitted by the device and travels through the elongate tube wall.
The above mentioned and other features and objects of this invention, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of the embodiments of the invention taken in conjunction with the accompanying drawings, wherein:
Corresponding reference characters indicate corresponding parts throughout the several views. Although the exemplification set out herein illustrates embodiments of the invention, in several forms, the embodiments disclosed below are not intended to be exhaustive or to be construed as limiting the scope of the invention to the precise forms disclosed.
Referring initially to
The slackline 10 is tied into loops 14A, 14B adjacent its terminal ends 15A, 15B. Loop 14A is secured to a tree sling 16A wrapped around tree 12A. Loop 14A is attached to tree sling 16A with a carabiner loop and/or in other ways as is customary in the field of slacklining. Loop 14B is secured to a tensioning device such as a ratchet strap 18 which is, in turn, secured to tree sling 16B wrapped around tree 12B. The attachment of loop 14B to ratchet strap 18 and the attachment of the ratchet strap 18 to tree sling 16B are similarly made with a carabiner loops and/or in other ways as is customary in the field of slacklining. The ratchet 18 is used for tensioning the slackline 10 between trees 14A, 14B as may be desired and for safely releasing the tension in a known and customary manner and as is customary in the field of slacklining. It is noted that, alternatively, the loop 14B can be omitted and the terminal end 15B of the slackline 10 can be fed directly into the ratchet 18 for thereby tensioning and releasing the slackline 10 as needed and desired.
Slackline 10 is improved over prior known slacklines in that it is illuminated in the central area 20 between illumination end points 22A, 22B. More particularly, slackline 10 is illuminated with a means for emitting light from the slackline as described hereinbelow and in the drawings. Light emitted from the slackline is diagrammatically depicted in
Referring now also to
A light emitting device 32 is located within the enclosed space 28 whereby light emitted therefrom travels through the translucent tube wall 26. Preferably, the light emitting device 32 is an elongate strip of a plurality of light emitting diodes (LED's) 34 such as those which are today commonly available, LED's strip 34 is made of flexible rubber material and includes red LED's 34R, green LED's 34G and blue LED's 34B. A flexible power cord 36 is connected to the LED's strip 34 and includes conductors (not shown) which are connected to the respective 34R, 34G and 34B LED's. By providing low DC power, in a known and customary manner, to the conductors of the power cord 36, the respective 34R, 34G and 34B LED's can be illuminated separately and/or together as needed or desired for thereby emitting light and varying the color, intensity and/or frequency thereof.
Power cord 36 extends through the enclosed space 28 and out of the tube 26 through terminal open end 15A whereat it extends to and is connected to an electric power source/lighting power control device 38 such as those which are today commonly available. The power source/lighting power control device 38 is connected to the conductors of the power cord 36 and can be programmed and/or can be controlled remotely as needed or desired, in a known and customary fashion, for energizing the 34R, 34B and 34G LED's and varying and altering the intensity, color and frequency of the light emitted therefrom.
The LED's strip 34 is preferably received and enclosed within a friction reducing translucent tube 40. Tube 40 is preferably made of silk or other similar low friction materials which are sufficiently thin and/or have characteristics so as to be translucent and thereby allow light being emitted by the light emitting device 32 to travel therethrough.
As shown in
Hollow cylinder members 50 are also preferably provided within the elongate tube space 28 as shown to help reduce friction between the power cord 36 and/or the LED's strip 34 and the interior surface of the tube 26. Cylinder members are preferably made of PVC.
As shown in
As should now be appreciated, the slackline structure as describe hereinabove prevents potential damage of the LED's strip 34 by allowing the LED's strip 34 to longitudinally slide within the elongate tube 26. More particularly, as person 24 balances on the slackline 10, weight is placed on the slackline 10 thereby placing a downward force F thereon in the illuminated central area 20. This force can cause the LED's strip 34 and elongate tube wall 26 to become frictionally engaged specifically at the location whereat the force F is applied. Additionally, the force F causes the slackline 10/tube 26 on either side of the force F elastically elongate relative to the LED's strip 34. If the LED's strip 34 is incapable of elastic elongation, the LED's strip 34 and friction reducing tube 40 will slide relative to the elastically elongated tube 26. Additionally, if the power cord 36 is incapable of elastic elongation and tension is placed on the cord 36 and/or the LED's strip 34, the tension relief device 42 will expand and provide relief. Hence, neither the LED's strip 34 nor the power cord 36 experience potentially damaging tension.
Of course, it is contemplated that the light emitting device 32/LED's strip 34 and/or the power cord 36 can specifically be made to withstand elongation without damage such that a light emitting device 32 can be used by simply placing within the slackline tube 26 without the need for a friction reducing tube 40 and/or a tension relief device 42. It is further contemplated that the power source/lighting power control device 38 can be located within the elongate enclosed space 28 thereby obviating the need to run the power cord 36 through the terminal loop 14A.
While this invention has been described as having an exemplary design, the present invention may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles.
Number | Name | Date | Kind |
---|---|---|---|
993251 | Howard | May 1911 | A |
1419191 | Acker | Jun 1922 | A |
3545747 | Thomas | Dec 1970 | A |
3580568 | Stone | May 1971 | A |
5180349 | Marcus | Jan 1993 | A |
6394623 | Tsui | May 2002 | B1 |
20030095404 | Becks et al. | May 2003 | A1 |
20080312043 | Cook | Dec 2008 | A1 |
20100179029 | Ochi | Jul 2010 | A1 |
20100302773 | Kokoski et al. | Dec 2010 | A1 |
20120238421 | Klopman et al. | Sep 2012 | A1 |
20130288860 | Massey | Oct 2013 | A1 |
20140329653 | Klopman | Nov 2014 | A1 |
Number | Date | Country |
---|---|---|
WO2012055054 | May 2012 | WO |
WO2012085292 | Jun 2012 | WO |
Entry |
---|
International Search Report in related PCT/US2016/013218. |
Written Opinion of the International Searching Authority in related PCT/US2016/013218. |
Wyss, 2013 prototype test over the GITD skatebowl in Vassiviére France of phosphorus painted glow-in-the-dark slackline. |
Number | Date | Country | |
---|---|---|---|
20160245503 A1 | Aug 2016 | US |