Chains are well known in the art. A chain is a series of connected links that are typically made of metal. A chain may consist of two or more links. Chains have been used in countless applications for millennia that range from jewelry, transportation, support and hoisting, power transfer, etc.
Chains are usually made in one of two styles according to their intended use. Chains designed for transferring power in machines have links designed to mesh with sprockets. They are known as roller chains and travel in curved paths and sometimes are able to flex and twist with additional designed link clearances. Chains designed for lifting, such as when used with a hoist, for pulling, or for securing, have links that are torus shaped. Such chains are flexible in two dimensions, i.e. travel in curved paths and are able to flex and twist. Decorative and ornamental uses of chains as jewelry take countless forms.
Chains of the prior art are suitable for use in a variety of industries in applications that involve slow speeds and high torque, including conveyors, fans, blowers, pumps, motors, and gear boxes, among others. Flexible couplings are used to link two rotating shafts that are not aligned in order to transmit the rotational power, known as torque, from one shaft to the other. Most flexible couplings consist of two hubs and a middle assembly; each hub attaches to a shaft while the middle assembly flexes between the hubs to accommodate the misalignment of the two shafts. Flexible couplings are used in a broad range of applications, such as in motor vehicles, conveyors, escalators, agricultural, forestry and mining equipment, aeronautics, robotics and space exploration, among others.
In deed chain geometric complexity is equally as diverse as the applications in which they are used. Common to all chains of the prior art is that they designed and made specifically to retain only one neutral position and/or pattern. Chains of the prior art are suitable for their particular purposes, but they are not versatile, variable or manipulatable with ease to meet dynamically changing industrial or aesthetic needs.
Admittedly, the flex and twist inherent in chains under tension of the prior art allow variability in the length dimension. Note, however, such length variability is transient. Once flex and twist subsides chains under tension of the prior art return to their original length dimension. Chains under tension of the prior art, however, allow for no variability in dimensions of length, width and height for adaptable transformation in a plurality of stable configurations.
What is needed is chains that are flexible in the length, width and depth dimensions to allow adaptable transformation.
The present invention(s) seeks to protect Applicant's link, link chain and methods of making, transforming and using such. The link, for use in series to form a multi-positionable link chain includes a through hole and a first and a second diagonal channel on a top and a bottom side running in opposite directions. Generally, the geometry of the links, and specifically, material removed from and/or sharpened edges of the through hole, the diagonal channels and/or corner portions of the modified rectangular solid links, is such to allow for relative rotation and/or multiple points of connection of adjacent links. The link chains of the present invention(s) are flexible in the length, width and height dimensions to allow adaptable transformation in a plurality of stable configurations. And they can include a clasp for ornamental and/or decorative use.
The invention(s) of the present application may be described by way of example only with reference to the accompanying drawings, of which:
Referring to
Shapes, sizes and dimensions are shown with respect to link 100 for purposes of explanation only. Dimensions shown in
When viewed from top side 110, first diagonal channel 102 on top side 110 is cut substantially from northwest to southeast and is substantially concave and second diagonal channel 103 on bottom side 11 is cut substantially from southwest to northeast and is substantially convex. When viewed from bottom side 111, first diagonal channel 103 on top side 110 is cut substantially from southwest to northeast and is substantially convex and second diagonal channel 103 on bottom side 111 is cut substantially from northwest to southeast and is substantially concave. In another embodiment of links of the present invention, when viewed from the top side, the first diagonal channel on the top side is cut substantially from southwest to northeast and is substantially concave and the second diagonal channel on the bottom side is cut substantially from northwest to southeast and is substantially convex. When viewed from the bottom side, the first diagonal channel on the top side is cut substantially from northwest to southeast and is substantially convex and the second diagonal channel on the bottom side is cut substantially from southwest to northeast and is substantially concave.
Referring to
Multi-positionable link chains of the present invention(s) may include either two or a series of links 100. Again the geometry of links 100 is such that adjacent links rotate relative to and/or within each other. In the case of two connected links 100, they are rotatable relative to and/or within each other in to either a first position, a second position or a third position. In the case of three connected links 100, they are rotatable relative to and/or within each other in to either first position, second position, third position, subsets and/or combinations thereof. Whereas in the case of four or more connected links 100, they are rotatable relative to and/or within each other in to either first position, second position, third position, all, subsets and/or combinations thereof.
Referring to
Generally first, second and third positions are achieved by relative rotation of connected upper and lower links 100. Link chain 1′ of
Note that the direction of relative rotation of connected links of the present invention(s) is relative to the direction of the channels. In the case of the second embodiment of link 100 described above, these positions are achieved by clockwise rotation.
Link chains of the present invention(s): are freely transferrable between either first position, second position, third position, all, subsets, combinations thereof; allow for relative rotation and/or multiple points of connection of adjacent links; are flexible in the length, width and height dimensions to allow adaptable transformation in a plurality of stable configurations.
Methods of making link chains 1 of the present invention(s) include: providing a rectangular solid; forming a through hole in the rectangular solid; forming diagonal channels on the top and bottom sides running in opposing directions; removing material from corner portions of the modified rectangular solid; enlarging the through hole; widening and deepening the diagonal channels; and/or repeating once or a plurality of times. Note that removing additional material from the corner portions of the modified rectangular solid, and/or sharpening the edges of the through hole, the diagonal channels and/or the corner portions of the modified rectangular solid may be performed.
Methods of making link chains 1 of the present invention(s) include: connecting two or more links 100.
The residential, commercial and industrial applications for chain 1 are endless, indeed any application in which a chain is used. Referring to
Traditional decorative and/or ornamental links and link chains fail to transform according to shifts in moods and occasions. The plurality of stable and semi-stable positions made available by GUBALINK™, allows its wearer to express personal style and taste and move effortlessly between formal, casual, rugged, edgy, marine, etc., moods and occasions, as they change. Indeed GUBALINK™ provides customization according to occasion, which increases its utility and value.
Admittedly, the flex and twist inherent in chains under tension of the prior art allow variability in the length dimension. Note, however, such length variability is transient. Once flex and twist subsides chains under tension of the prior art return to their original length dimension. Chains under tension of the prior art, however, allow for no variability in dimensions of length, width and height for adaptable transformation in a plurality of stable configurations. Link chains 1 of the present invention(s) are flexible in the length, width and depth dimensions to allow adaptable transformation.
It will be understood that each of the elements described above, or two or more together, may also find a useful application in other types of constructions differing from the types described above. The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilized for realizing the invention in diverse forms thereof.
While the invention has been illustrated and described as embodied in residential, commercial, industrial, and decorative arts, it is not intended to be limited to the details shown, since various modifications and structural changes may be made without departing in any way from the spirit of the present invention.
Without further analysis, the foregoing will so fully reveal the gist of the present invention that others can, by applying current knowledge, readily adapt it for various applications without omitting features that, from the standpoint of prior art, fairly constitute essential characteristics of the generic or specific aspects of this invention.
When used in this specification and claims, the terms “comprising”, “including”, “having” and variations thereof mean that the specified features, steps or integers are included. The terms are not to be interpreted to exclude the presence of other features, steps or components.
This Application claims priority to the following commonly owned and co-pending patent application, an entire copy of which is incorporated herein by reference: U.S. application Ser. No. 62/025,258, having Filing Date of 16 Jul. 2014, entitled “METHODS AND APPARATUS FOR ADAPTABLE TRANSFORMATION OF CHAINS”.
Filing Document | Filing Date | Country | Kind |
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PCT/IB15/01828 | 7/16/2015 | WO | 00 |
Number | Date | Country | |
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62025258 | Jul 2014 | US |