The present invention relates to a potentiometer, in particular, to a potentiometer incorporating a light source and method of making and assembling an illuminated potentiometer.
Often informally referred to as a “pot,” potentiometers are electro-mechanical transducers and are common devices used for controlling a variety of different elements of an electrical circuit. Particularly, a potentiometer is a three-terminal resistor with a sliding or rotating contact that forms an adjustable voltage divider. If only two terminals are used, one end and the wiper, it acts as a variable resistor or rheostat. Potentiometers commonly consist of a resistive element, a sliding contact (wiper) that moves along the element, making good electrical contact with one part of it, electrical terminals at each end of the element, a mechanism that moves the wiper from one end to the other, and a housing containing the element and wiper.
Potentiometers are rarely used to control significant amounts of power. Instead, they are used to control small amounts of power, most commonly for the control of electrical devices such as volume controls on audio equipment and as control inputs for electronic circuits. Potentiometers may further be used for dimming lights, controlling sound frequencies, and are also widely used as a part of displacement transducers.
Many different types of potentiometers exist in the market for different applications. For example, for audio control, both linear and rotary potentiometers may be used. Additional types of potentiometers used in the industry include slider potentiometers (a potentiometer that is adjusted by sliding the wiper left or right (or up and down, depending on the installation), usually with a finger or thumb), thumbwheel potentiometers (a small rotating potentiometer meant to be adjusted infrequently by means of a small thumbwheel) and trimmer potentiometers (a trimmer potentiometer typically meant to be adjusted once or infrequently for “fine-tuning” an electrical signal).
While many different types of potentiometers, as described above, exist in the market, a need exists for a potentiometer that incorporates a light source that is capable of being illuminated.
The present invention provides a modified potentiometer shaft that includes a light source in the shaft of the potentiometer that is capable of illuminating the potentiometer. As illustrated in the attached figures, in one example of an implementation of the invention, the illuminated potentiometer includes a modified shaft assembly including a shaft, a cap having at least one light source and a lower casing that encloses a lower shaft platform and lower resistor plate.
In one example of an implementation, the shaft has a bottom end and a top end. The bottom end is molded to the lower shaft platform and the top end has exterior threading. The lower shaft platform includes top and bottom wipers, where the top wiper is connected to a positive lead and the bottom wiper is connected to a negative lead. The lower resistor plate incorporates a conductive band and has one single terminal in which a positive voltage supply is supplied by an external circuit. The conductive band of the lower resistor plate contacts with the top wiper of the lower shaft platform. This contact allows positive voltage to be supplied to the positive lead. A negative voltage supply may be connected anywhere on the lower casing, which acts as a ground. The lower casing contacts the bottom wiper of the lower shaft platform. Both the positive and negative leads, as mentioned above, connect with positive and negative bands located on the exterior threading of the shaft.
The cap includes interior threading for engaging with the exterior threading of the shaft. Similar to the exterior threading of the shaft, the interior threading of the cap also has positive and negative bands. A light source is further molded within the cap and positive and negative leads from the light source are connected to the positive and negative bands on the interior threading of the cap, respectively.
The location of the positive and negative bands on the exterior threading of the shaft matches the location of the positive and negative bands on the interior threading of the cap when the cap is fully twisted on the exterior threading of the shaft. This matching allows the light source to be illuminated when positive voltage is supplied to the lower resistor plate.
The upper casing in combination with the upper shaft platform and upper resistor plate of the present invention acts as a standard potentiometer, which may be used for the control of electrical devices such as volume controls on audio equipment and as control inputs for electronic circuits. For example, in one example of an implementation, a potentiometer having an upper casing that encloses an upper shaft platform and upper resistor plate having three terminals used to control audio or volume inputs may be inserted on top of the shaft so that the bottom of the upper casing rests on the top of the lower resistor plate. Thus, the lower casing in combination with the lower shaft platform (which is molded to a shaft) and lower resistor plate allows for the light source to be illuminated, whereas the upper casing in combination with the upper shaft platform and upper resistor plate acts as a standard potentiometer. Once the upper casing rests on the top of the lower resistor plate, the upper casing may be secured to the lower casing by a middle clip.
In one example of an implementation, an illuminated potentiometer is provided that comprises a shaft having a top end and bottom end, where the bottom end is molded to a lower shaft platform. A cap is provided that includes a light source for engaging and fastening to the top end of the shaft, where both the top end of the shaft and cap include positive and negative leads that align to close a circuit when the cap is fastened to the top end of the shaft. At least one light source is molded within the cap and the positive and negative leads of the cap connect to the light source. A lower casing encloses a lower resistor plate and the lower shaft platform, where the lower resistor plate has one terminal for providing electrical current to the light source. An upper casing is also provided that encloses an upper shaft platform and upper resistor plate, where the upper resistor plate has three terminals for controlling audio or volume inputs.
A method of assembling an illuminated potentiometer is also provide that comprises: (i) providing a molded shaft having a top end and bottom end, where the top end has exterior threading having positive and negative conductive bands and positive and negative shaft leads running from the conductive bands to the bottom end of the shaft; (ii) molding a light source within a cap having positive and negative leads connected to the light source; (iii) securing the cap on the exterior threading of the shaft so that the positive and negative bands on the exterior threading of the shaft match the positive and negative leads on the cap; and (iv) replacing a standard potentiometer shaft with the molded shaft and illuminating the light in the cap by supplying power to the light source in the cap through the positive and negative leads.
In another example of an implementation, an illuminated potentiometer shaft assembly is provided that comprises a lower shaft platform; a shaft having a top and bottom where the bottom is molded to the lower shaft platform; a light source positioned at the top of the shaft; positive and negative leads that run from the light source to the lower shaft platform for powering the light source; a lower resistor plate positioned on top of the lower shaft platform; and a lower casing that encloses the lower resistor plate and the lower shaft platform, where the lower resistor plate has one terminal for providing electrical current to the light source at the top of the shaft.
In yet another example of an implementation, a modified potentiometer shaft is provided comprising a potentiometer shaft; a light source positioned at the top of the potentiometer shaft for illuminating the light source; and electrical connections running from the light source to the bottom of the shaft for providing power to the light source through the potentiometer shaft.
Other devices, apparatus, systems, methods, features and advantages of the invention will be or will become apparent to one with skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention and be protected by the accompanying claims.
The invention may be better understood by referring to the following figures. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. In the figures, like reference labels designate corresponding parts throughout the different views.
The shaft assembly 100 further includes lower shaft platform 112 having a top wiper 114 and bottom wiper 116. Both the shaft 102 and lower shaft platform 112 may be molded together as a single piece. The lower shaft platform 112 has on its top side a double-sided conductive top wiper 118 and on its bottom side a double-sided conductive bottom wiper 116. Both the top wiper 118 and bottom wiper 116 are secured to the lower shaft platform 112. In some examples, the top wiper 118 and bottom wiper 116 may be molded to the lower shaft platform 112.
Similarly, the shaft 102 has a top surface 130 and a bottom surface 132. The bottom surface 132 of the shaft 102 is molded to the top side of the lower shaft platform 112. At the top end of the shaft 102 is a screw set 120 that has exterior threading 124 for engaging interior threading (not shown) on the cap 104 so that the cap 104 can twist on and lock into place using a small screw that is inserted into set screw opening 128 on the exterior threading of the set screw 120 and cap 104. Aligning set screw openings 128 are found on the exterior threading of the screw set 120 and the cap 104, and will always align evenly when the cap 104 is fully twisted on the exterior threading of the set screw 120.
The light source (e.g., LED) 106 is molded inside the cap 104 as a single piece. The cap 104 is molded separately from the shaft 102 and shaft platform 112. This allows for the interchanging of different caps 104, as desired. For example, different shapes, sizes, and colors of caps 104 may be interchanged for providing different illuminating effects such as different colored light sources 106. Both the cap 104 and shaft 102 may be molded in clear acrylic. While the cap 104 may be molded from a transparent mold such as clear acrylic, thus allowing light to pass through, the cap 104 may also be molded with different materials having different transparencies for changing the amount of light that passes through; thus, changing the brightness of the light.
While a standard LED light source 106 is shown in
To power the light source, both the exterior threading of the screw set 120 and interior threading of the cap 104 are molded with a set of conductive bands (positive and negative) 110 and 108, respectively. The positive and negative bands 110, 108 on both the exterior threading of the screw set 120 (extending to the base on the exterior of the shaft 102) and interior threading of the cap 104 are spaced apart to avoid contact. As illustrated in
Positive and negative leads 110, 108 are soldered to the positive and negative bands 122, 126 of the exterior threading 124 of the screw set 120 of the shaft 102, respectively. These positive and negative leads 110, 108 are run from the exterior threading 124 of the screw set 120 of the shaft 102 through the body 134 of the shaft 102, and to the lower shaft platform 112. The positive lead 110 is soldered to the top wiper 118 of the lower shaft platform 112 and the negative lead 108 is soldered to the bottom wiper 116 of the lower shaft platform 112. The top wiper 112 will make contact with the underside of the lower resistor plate 300 (as shown in
Positive and negative leads 110, 108 are also soldered to the positive and negative bands of the interior threading of the cap 104, respectively. These positive and negative leads 110, 108 are run from the interior threading of the cap 104 to the light source 106, which is molded inside the cap 104. The positive lead 110 is soldered to the positive plate within the LED light source 106 and the negative lead 108 is soldered to the negative plate within the LED light source 106.
In operation, the matching of positive and negative bands between the exterior threading 124 of the screw set 120 of the shaft 102 and interior threading of the LED cap 104 close the circuit and cause electrical current to flow such that the LED light source 106 may be illuminated when connected to a power supply (see
Further, a molded ring (not shown) may also be located on the exterior bottom of the lower shaft platform 112 to allow the shaft 102 and lower shaft platform 112 to rest or spin freely on the lower casing 200 (as shown in
Once the wiring is complete, the light source or LED cap 104 may then be interchanged with different caps 104 by simply unscrewing the set screws in the cap 104 and untwisting the cap 104. As shown in the finished assembly of one example of an illuminated potentiometer in
Those skilled in the art will recognize that a similarly constructed shaft can be used to illuminate potentiometers of different construction without departing from the scope of the inventions. Further, it will be recognized that while the cap of the present invention is taught be removable and interchangeable, the shaft could be designed to be one piece with the cap, having the LED molded near the top of the shaft with lead lines running from the LED through the shaft. Further, when using a removable and interchangeable cap, it is not necessary that the cap engaged with the shaft as taught above. Friction fits, magnet connections and other known mechanisms for connecting parts may be used to secure the cap to the shaft. Other types of electrical connections beside those taught above can be used between the light source in the cap and electrical connections in the shaft, including, for example, through the use of the pogo pins.
Those skilled in the art will further recognize that once installed the illuminated potentiometer of the present invention may illuminate the body of an instrument or device, such as a guitar or amplifier. Further, caps 104 can be interchanged; caps 104 can be made of different colors, materials, shapes and sizes. Cap covers can further be made to be interchanged For example, a star-shaped cap cover can be used to cover the cap 104. In this manner, different shapes, sizes, or colors of cap covers may be used to cover the caps of the present invention to change the appearance of the illuminated potentiometer without removing the caps 104.
The foregoing description of implementations has been presented for purposes of illustration and description. It is not exhaustive and does not limit the claimed inventions to the precise form disclosed. Modifications and variations are possible in light of the above description or may be acquired from practicing the invention. The claims and their equivalents define the scope of the invention.
This application claims priority to U.S. Provisional Patent Application No. 62/828,580, titled Illuminated Potentiometer, filed on Apr. 3, 2019, which application is incorporated into this application in its entirety.
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Entry |
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EP3291248 (Espacenet; machine translation), Stottinger et al. Published Mar. 7, 2018. (Year: 2018). |
Number | Date | Country | |
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62828580 | Apr 2019 | US |