Patent Application
20210143594
The present disclosure relates to electrical systems. More particularly, the disclosure relates to electrical systems, such as power plugs or light units, that are customizable and reusable without requiring tools.
Power plugs and adapters are used with countless products and accessories to provide electrical signal from a power source to the product, including for example, in musical instrument amplification and effects accessories. These power cables are typically preformed molded stand-alone products with a one or more plugs positioned along an electrical cable at predetermined locations. Power plugs come in several varieties, including “home run” configuration, which provides a direct, isolated electrical signal from a main power source to an input at a product. Another variety of power plug configuration is known as a “daisy chain” configuration, which is a wiring scheme in which multiple plug units are wired together in sequence.
Most home run and daisy chain power plugs are preformed, molded units having predetermined finite cable lengths between plug units, requiring users to purchase different length plugs for different uses. In many environments, this results in excess cable between devices, which can be messy, aesthetically displeasing and in some cases hazardous. This is especially the case in certain contexts within which components or accessories are positioned very close and/or at inconsistent distances to one another.
One such context is in effects pedals used for altering the sound characteristics of instruments (usually electric guitars). Users mount multiple different effects pedals to a pedalboard that a guitarist or other instrumentalist may use to create various sound effects or alterations. All of the effects pedals on a board must be connected to a power supply (in addition to an audio signal connection), which often results in a messy bunch of tangled power cables.
Additionally, barrel jacks and plugs exist in male and female configurations to allow various connection options. Such barrel jacks also come in a variety of sizes, such as 6.4×4.4 mm, 6.3×3.0 mm, 5.5×2.5 mm, 5.5×2.1 mm, 5.5×1.7 mm, 4.0×1.7 mm and 3.5×1.35 mm.
Barrel plugs and jacks with different default polarities are used across many industries. For instance, in the music industry almost all guitar effects units utilize a “reverse” polarity with a sleeve carrying a positive connection and a tip carrying a negative connection. This is the opposite of many industries that use a “standard” polarity with a positive tip and negative sleeve. Some vintage, custom musical effects units have a standard polarity as well. This phenomenon can cause confusion and risk. If a user accidentally wires his cable with an opposite polarity from the wiring of the equipment, the equipment can be damaged upon connecting the cable since older effects units often do not have sophisticated circuit protection to detect incorrect polarity.
It would thus be useful to provide a power plug that can be easily customized in terms of cable length and electrical configuration and with components that can be reused. It would further be useful to provide a power plug within which the positive/negative polarity is easily identifiable and reversible. Finally, it would be useful to provide an electrical assembly or system for use within other contexts that is similarly adaptable and reusable.
In one embodiment, an electrical assembly includes an elongate cable with two wires, an electrical unit and two contact members. The electrical unit has a body that defines a longitudinal axis and an elongate slot that extends transversely through opposite sides. A first contact member and a second contact member are independently positioned within at least a portion of the body. The cable is engageable by the electrical unit with the cable extending transversely through the elongate slot of the body and a first transverse section of the cable maintained within the body creating communicative contact between the first wire and first contact member and between the second wire and second contact member. The cable can be disengaged from the electrical unit and re-engaged by the electrical unit with the cable extending through the elongate slot of the body and a second transverse section of the cable maintained within the body creating communicative contact between the first wire and the first contact member and between the second wire and the second contact member.
In another embodiment, an electrical unit comprises a body with a first electrically conductive contact member and a second electrically conductive contact member. The body includes a tubular projection that extends longitudinally from a central section. A slot that extends transversely from a first pass though opening to a second pass-through opening with a channel extending therebetween. The first contact member is positioned within at least a portion of the body and has a first piercing member extending longitudinally into the channel. The second contact member is also positioned within at least a portion of the body and has a second piercing member extending longitudinally into the channel. The slot is configured to receive an elongate cable having two conductive wires within the channel with the cable extending transversely through the first pass-through opening and second pass-through opening and a first section of the cable within the housing. A longitudinal force on the cable causes the first piercing member into conductive contact with the first conductive wire to transmit a first charge through the first contact member and forces the second piercing member into conductive contact with the second conductive wire to transmit a second charge through the second contact member. The cable is releasable from the channel, thereby disengaging the first piercing member from the first wire and disengaging the second piercing member from the second wire. The cable is then repositionable extending transversely through the first pass-through opening and second pass-through opening with a second section transversely removed from the first section within the housing. A longitudinal force on the cable causes the first piercing member into conductive contact with the first conductive wire to transmit a first charge through the first contact member and forces the second piercing member into conductive contact with the second conductive wire to transmit a second charge through the second contact member.
In yet another embodiment, an electrical unit has a body, a first conductive contact member and a second conductive contact member. The body defines transversely opposite pass-through openings with a transverse channel extending therebetween. The first contact member has a first piercing member extending longitudinally into the channel, and the second contact member has a second piercing member extending longitudinally into the channel. The body is configured to receive a cable with a first wire and a second wire in a first position extending through the first pass-through opening and second pass-through opening with a first transverse section of the cable trapped within the channel. In the first position, the first piercing member is in conductive contact with the first wire and the second piercing member is in conductive contact with the second wire, which establishes a conductive pathway from the cable through the first and second contact members. The cable is removable from the first position and movable to a second position with a different second transverse section of the cable trapped within the channel and the first piercing member in conductive contact with the first wire and the second piercing member in conductive contact with the second wire, which establishes a conductive pathway from the cable through the first and second contact members.
In all embodiments, the cable jacket is formed of a material with a soft and flexible composition that “heals” itself via closing an earlier puncture hole, thereby providing necessary insulation and preventing a short circuit.
The disclosed embodiments may additionally include a color-coding system for identifying and optionally reversing polarity. For example, in one embodiment of the system, the cable wires are respectively black and red, and the electrical unit is marked red on one side. If the user has a standard effects unit with tip negative orientation, he or she can simply align the red wire with the red indicator side of the electrical unit to make the proper connection, or alternatively reverse the polarity by lining the black wire with the red indicator side on the electrical unit.
A particularly preferred embodiment of the disclosed electrical assembly is an adaptable power plug system with individual plug units that engage with a cable. However, the disclosed customizable connection system is adaptable to other contexts, such as decorative strings of relatively low voltage lights.
As will become evident from the herein description, the disclosed embodiments carry the following unique features not found in known power plugs:
Aspects of the preferred embodiment will be described in reference to the drawings, where like numerals reflect like elements:
Among the benefits and improvements disclosed herein, other objects and advantages of the disclosed embodiments will become apparent from the following wherein like numerals represent like parts throughout the several figures. Detailed embodiments of an electrical assembly, such as a power plug or light unit, that is customizable and adjustable without the necessity of soldering or tools are disclosed; however, it is to be understood that the disclosed embodiments are merely illustrative of the invention that may be embodied in various forms. In addition, each of the examples given in connection with the various embodiments of the invention which are intended to be illustrative, and not restrictive.
Throughout the specification and claims, the following terms take the meanings explicitly associated herein, unless the context clearly dictates otherwise. The phrase “in some embodiments” as used herein does not necessarily refer to the same embodiment(s), though it may. The phrases “in another embodiment” and “in some other embodiments” as used herein do not necessarily refer to a different embodiment, although it may. Thus, as described below, various embodiments may be readily combined, without departing from the scope or spirit of the invention.
In addition, as used herein, the term “or” is an inclusive “or” operator, and is equivalent to the term “and/or,” unless the context clearly dictates otherwise. The term “based on” is not exclusive and allows for being based on additional factors not described, unless the context clearly dictates otherwise. In addition, throughout the specification, the meaning of “a,” “an,” and “the” include plural references. The meaning of “in” includes “in” and “on”.
Further, the terms “substantial,” “substantially,” “similar,” “similarly,” “analogous,” “analogously,” “approximate,” “approximately,” and any combination thereof mean that differences between compared features or characteristics is less than 25% of the respective values/magnitudes in which the compared features or characteristics are measured and/or defined.
With reference to the drawings wherein like numerals represent like parts throughout the Figures, the inventive customizable electrical assembly in the form of a plug generally includes a plug unit 10/110 and cable C. While
A first embodiment of a male power plug unit 10 is shown in
The positive side of the body tube 15 has an inner wall section 38 and defines an axially elongate slot 36 that is open to the outside. The negative side of the body tube 15 has an outer wall section 40 with an inner notch 46 that is open to the inner side of the body tube. A negative inner tube 26 carries a terminal flange 27 and is generally sized and shaped to fit tightly within the body tube 15, which can be seen most clearly in the section view of
A first (negative) contact member 18 comprises a lower contact leg 42 that transitions to an upper piercing member 19 via a compound bend 48. The lower contact leg 42 is bowed such that it has a convex surface toward the open inner area of the negative side of the body tube 15. A second (positive) contact member 20 has a similar configuration to the negative contact member 18, with a lower contact leg 44 that transitions to an upper positive piercing member 21 via a compound bend 50. The lower positive leg 44 is bowed with a convex surface toward the open outer area of the positive side of the body tube 15. As shown, both the positive and negative contact members are flat metallic sheets or leaves. As can be seen in the Figures, in this embodiment, the first and second piercing members, 19 and 21, are formed as prongs on upper ends of the first contact member and the second contact member. However, alternative piercing members exist, including pins, hooks, claws or similar elements configured to penetrate the insulating jacket of a cable and conductively contact the underlying wire.
The plug 10 also includes an inner insulator 16 shaped to be received within the central section 11 of the body 12. The inner insulator 16 is disc-shaped with a transverse slot 52 extending axially through the top surface and laterally through opposite radial sides. When engaged within the body 12, the insulator slot 52 aligns with the body slot 30 such that they cooperate to form a pass-through channel for receipt of a cable C with respective positive and negative wires. As depicted, preferably, the inner insulator 16 includes a pair of opposite tabs for assisting proper alignment within the body, and a surface contour within the slot 52 that is sized and shaped to cradle the respective positive and negative wires, when inserted. The inner insulator 16 also defines an axial slot 54 through which the negative piercing member 19 extends longitudinally and a comparable axial slot (not shown in
With reference to
The plug unit 10 also includes a removable insert 24 for use when engaging cables in a passthrough configuration, as will be described in detail below. With reference primarily to
When the plug unit 10 is assembled, the negative contact member 18 provides an electrical pathway from its piercing member 19 positioned within the inner area of the body central section 11 and insulator 16 to the negative inner tube 26 through the negative lower leg 42. Similarly, the positive contact member 20 provides an electrical pathway from its piercing member 21 positioned within the inner area of the body central section 11 and insulator 16 to the positive outer tube 14 through the positive lower leg 44.
The plug body 12, inner insulator 16, cap 22 and insert 24 are all formed from insulating materials, while the contact members, 18 and 20, and the inner and outer tubes, 14 and 26, are formed of conductive materials. For example, the insulating elements can be formed of a thermoplastic or other polymeric material, with particularly preferred embodiments being formed of polyoxymethylene (POM). The conductive elements can be formed of a metallic material, such as copper, brass or combinations thereof. In a preferred embodiment, the contact members, 18 and 20, are formed of tempered beryllium copper and the tubes, 14 and 26, are formed of brass.
Additionally, the body 112 includes a substantially identical upper threaded section 113 and central section 111, however, with a lower tubular section 115 having a larger diameter to coincide with specifications for a female plug. The body 115 can also include one or more side slots for holding an insert 128 to identify positive or negative charge side for insertion of the cable. In the depicted embodiment, the insert 128 identifies the positive side and may be a red colored member. The lower tubular section 115 defines a longitudinal axis of the plug 110 and the body 112 includes an opening on the axis through which an inner negative pin 126 extends. A positive contact tube 114 is received within the lower tubular section 115 against the inner wall and spaced from the negative pin 126. The positive contact tube 114 can include a series of bowed sections 117 (see
A negative contact member 118 carries an upper piercing member 119 that transitions to a lower leg 142 via an acutely angled bend 148. As shown in
The disclosed embodiments of the plug units, 10 and 110, with removable screw cap 22/122 and other cooperative elements are configured to receive a power zip cable C (see
Examples of the utility of the plug assemblies 10/110 will be described further with use of the reference numerals from the male plug 10 for simplicity. However, it is understood that the embodiments and features described below are fully applicable to the female plug 110 as well.
First,
The disclosed customizable plug assemblies allow customized power cables to be made in both a daisy chain configuration (
In addition to the customizability offered by the disclosed embodiments, plug units 10/110 can be reused, and moved from one location along a cable to a new location on the cable without having to discard the cable. The power cable C itself has a soft outer insulation jacket around the positive and negative wires. The jacket is typically formed of a soft elastomer, such as PVC, allowing a user to relocate a plug along a daisy chain or shorten a home run cable simply by unscrewing the cap, moving the plug to a new location and reattaching the cap. The soft outer insulation closes and “heals” itself in the area where the plug was originally connected. This allows reuse of both the cable and plug elements.
In a particularly preferred use context within a pedalboard on which multiple effects pedals for guitars are mounted, the inventive plugs and cable allow for clean and neat power connection to all pedals on an effects pedal board without any undesired excess cable between pedals. The system allows the user to make customized power plugs to yield an orderly and clean installation of all power connections and avoid having to tie up excess cable between each effects pedal. The male and female signal elements depicted in the drawings are the most preferred embodiments as they are commonly used for powering guitar effects pedals and similar accessories. However, it is understood that the inventive concepts and features of the customizable plug system disclosed herein are not limited in this manner and can be adapted to provide plug units with a wide variety of signal connectors.
Modern pedals for musical instrument effects are typically wired to be powered via a plug with negative charge in the center of the plug unit and positive charge to the outer tube (a “standard pedal”), which corresponds to the primary configuration of the inventive embodiments of the plugs described above. However, some effects pedals, typically older pedals, exist with reversed polarity (i.e., with plugs having negative outer tube and positive center; a “vintage pedal”). For powering a standard pedal, the user can wire the disclosed plug unit 10/110 the common way described above by simply matching the color coded side of the plug (identified by the insert 28/128) to the color or other +/− identifier of the wires, 90 and 92, in the cable C. If the user wishes to reverse the polarity of the plug to accommodate a vintage pedal, he can simply flip the cable C relative to the plug body to reverse the +/− connection (i.e., connect the positive wire 92 to the first (negative) piercing member 19/119 and the negative wire 90 to the second (positive) piercing member 21/121).
Reversing the polarity of the plug as described in the preceding paragraph carries a potential risk in that accidental connection of a reverse wired plug to a standard effects pedal or other device (or connecting a standard wired plug to a vintage pedal) may damage the circuitry. Thus, some embodiments of the plugs include an LED test circuit in the plug unit to notify whether the plug is connected in a standard wiring or reversed polarity. The circuitry is additionally usable as a pilot notification to test whether a particular plug and daisy chain is working properly.
The circuit illuminates the LED in a first color (i.e., green) if the plug is functioning correctly and wired with the standard polarity—negative wire 90 connected via negative piercing member 219 and positive wire 92 connected via positive piercing member 221. If the plug is wired with reverse polarity and functioning correctly—negative wire 90 connected via positive piercing member 221 and positive wire 92 connected via negative piercing member 219, the LED is illuminated in a different color (i.e., red). If the plug is not conducting properly, for example, one or both of the wires is not pierced by a respective piercing member, the LED would not illuminate at all.
Another embodiment of a customizable electrical assembly 310 is depicted in
A first contact member 318 carries a first piercing member 319 and a second contact member 320 carries a second piercing member. Each of the piercing members, 319 and 321, extends longitudinally into a portion of the transverse channel for engagement with one of the wires of the cable. Rather than the contact members providing electrical contact through the body 312 to plug elements or similar conductors, the contact members are an integral part of an electrical element with at least one light unit 326. Further, the lower portion 315 of the body is a closed and either includes a translucent lens or is formed of a translucent material itself that allows light to pass through from the interior of the electrical unit 310. Embodiments exist with lenses or translucent bodies having different colors and/or inner light units that emit different colored light. In the depicted embodiments, the cap 322 includes a central projection 362 sized and shaped to abut and press down on the cable C when the cap is threaded to the upper portion of the body. The central projection 362 can be seen most clearly in the cross-sectional view of
The body may include inner elements configured to mechanically hold and maintain the light unit 326 in a preferred position within the body, such as an annular ledge or central support/alignment members. In an alternate embodiment not depicted in
The electrical unit 310 operates in the same manner as the earlier embodiments as well. A cable C is inserted via the top slot 310 and extends transversely through the channel defined between the pass-through openings, 332 and 334. When the cable is in a standard passthrough orientation shown in
Alternatively, an upper insert can be placed within the body 312 longitudinally between the cable C and the cap 322. An end electrical unit 310 in a string may be configured just like the end plugs shown in
Electrical units 310 can be engaged at any transverse position along the cable, and optionally removed and repositioned. Additionally, an electrical system can combine a series of electrical light units 310 and an end plug unit on the cable to power the string of lights, or one or more light units 310 can be interspersed on a daisy chain of power plugs to provide light in dark settings. One of skill in the art can readily understand that the inventive combination of the body and contact members with piercing members provides a fully customizable and reusable electrical system not necessarily limited to the plug units and light units specifically shown and described herein.
Preferably, the conductive elements are formed of a conductive metal such as one or more of silver, copper, gold, tin nickel or steel, or combinations thereof. Preferred materials for the non-conductive elements include all rigid and durable inert materials, such as for example resilient polymers, thermoplastics, silicone materials and rubber.
Additionally, while the disclosed embodiments of the power plugs are described with primary reference to powering musical instrument accessories, in particular guitar effects pedals, the inventive concepts are applicable to plugs for any number of other electronic products requiring relatively low voltage, such as home theater and data center racks, LED sensors, routers, modems and wireless adaptors.
The disclosed embodiments are primarily described with reference to a standard polarity: (a) a first contact member with first piercing member (prong) communicatively engaged with a negative cable wire to provide a negative charge to an inner tube in a male plug (or central pin in a female plug); and (b) a second contact member with second piercing member (prong) communicatively engaged with a positive cable wire to provide a positive charge to an outer tube in a male plug (or outer cylinder in a female plug). However, the invention is clearly not limited as such. Within the disclosed embodiments, polarity can be reversed simply by reversing the alignment of the positive and negative wires of the cable when engaged. Additionally, the inventive concepts embodied in the plug system that is fully customizable and reusable without the requiring tools or a soldered connection is applicable to any number of different style plugs—not limited to the specific male and female connections described and shown herein as the exemplary preferred embodiments.
While a preferred embodiment has been set forth for purposes of illustration, the foregoing description should not be deemed a limitation of the invention herein. Accordingly, various modifications, adaptations and alternatives may occur to one skilled in the art without departing from the spirit of the invention and scope of the claimed coverage.
This application claims priority to U.S. Provisional Patent Application No. 62/931,873 for “Solder-less and Tool-less Power Plug,” filed Nov. 7, 2019, the entire contents of which are incorporated herein by reference.
| Number | Date | Country | |
|---|---|---|---|
| 62931873 | Nov 2019 | US |
