FIELD OF INVENTION
The field of invention is mainly telecommunications accessories used in conjunction with mobile phones, cellular phones, smart phones, hand-helds, PDA's and other hand-held computers, communications or media devices and wireless headsets or other small accessories that are used with them.
The general purposes of our invention are:
- To provide protection to physical loss of wireless headsets.
- To suspend the wireless headset to its user or carrier.
- To make it easy for the user to keep track of their wireless headset.
- To provide an accessory for wireless headset users that can be made cheaply and is disposable or expendable when necessary or desired.
DESCRIPTION
This application claims priority to provisional application No. 61/342,503 filed on Apr. 15, 2010.
The wireless headset holding device in our preferred embodiment is comprised of a small 1-¼″ alligator style clip (FIG. 1, #3) with gripping teeth (FIG. 2, #4) and grips on the arms (FIG. 2, #2). In our preferred embodiment, we use one small ⅜″× 5/16″ zinc coated neodymium magnet (shown in FIG. 2, #3). In our preferred embodiment, the neodymium magnet (FIG. 2, #3 & FIG. 1, #4) is attached to the outside of either arm of the example alligator clip (FIG. 2, #'s) using a metal bonding glue.
The second piece is a small ⅜″ in diameter ferromagnetic material disk (shown in FIG. 5, #1) that is exposed on one side. On the other side, it is coated with an adhesive (FIG. 5, #2) with peel away backing (FIG. 5, #3) which exposes an adhesive (FIG. 5, #2) when removed. In the preferred embodiment and our reduction to practice we used stainless steel with high iron content as the ferromagnetic disk material (FIG. 1, #2). The disk (FIG. 1, #2) is affixed to a wireless headset (FIG. 1, #1) by peeling away the peel away backing (FIG. 5, #3) and pressing the ferromagnetic disk (FIG. 5, #1) with adhesive side (FIG. 5, #2) flush onto the wireless headset (FIG. 1, #1).
The magnet, magnetic, or magnetized material (FIG. 3, #3) and ferromagnetic disk (FIG. 3, #4) would be attracted to each other allowing the wireless headset (FIG. 3, #1) to be easily “docked” or connected by placing the ferromagnetic material (FIG. 4, #5) on or near the magnet (FIG. 4, #4) that is attached to the clip (FIG. 4, #3). This keeps the wireless headset (FIG. 4, #6) readily available, conveniently located and secure as seen in FIG. 4. In FIG. 4 the clip (FIG. 4, #3) is secured on the shirt collar (FIG. 4, #1). The tie (FIG. 4, #2) is for illustrative purposes only.
During periods that wireless headset (FIG. 3, #1) and the invention (FIG. 3, #2) are not being used, the magnet (FIG. 3, #3) and clip (FIG. 3, #2) can be removed from the user and left in the docked position to avoid loss of the magnet and clip apparatus as seen in FIG. 3.
PRIOR ART
There have been some prior art efforts to create a telephone handset holding device that can specifically be used in conjunction with mobile telephones. For example, U.S. Pat. No. 5,668,869, issued to Zinno, discloses a mobile telephone handset holder that can be used in a motor vehicle. The mobile phone is supported via a device that slides onto a standard car seat belt. While the invention disclosed in Zinno provides adequate support for a mobile telephone, its limitations are clear. The mobile telephone holder disclosed by Zinno can only be used in a car and cannot be utilized by a mobile phone user outside the car. Moreover, the positioning of the mobile phone holder is limited by the position of the seatbelt, thereby severely affecting the possible range of desired positions for the mobile telephone.
U.S. Pat. No. 5,729,615, issued to Yang, discloses an earphone for a mobile telephone handset that fits in the user's ear via a hanger. Yang incorporates a separate speaker element that fits into the user's ear and that must also be connected to the mobile phone via a cord and plug. Although the earphone is easy to transport, it nonetheless requires an additional means of attaching the mobile phone to some other part of the user's body to properly allow the user to utilize the mobile phone without the use of the user's hand. The various components are cumbersome and require multiple installation steps before the user can answer an incoming call or make an outgoing call.
U.S. Pat. No. 6,374,090, issued to Morales, discloses a cellular telephone handset holder that uses a clamp gripping device to support the sides and bottom of a mobile phone, before clipping it to a user's ear. The handset holder comprising multiple pieces and has an inner and outer clip portion that “pinches” the front and back lobes of a user's ear. The Morales' device apparently only works with mobile telephones that are “single piece,” i.e., a phone without any movable components or a phone that doesn't have a “flip open” feature, which is found in many modern mobile telephone handset embodiments. Consequently, the invention disclosed in Morales is limited in use and does not adequately account for the various different types of mobile telephone handset shapes and sizes that permeate today's marketplace.
U.S. Pat. No. 6,639,985, issued to Liu, discloses a phone that utilizes an ear hanger assembly that hangs from a user's ear. While the invention disclosed in Liu addresses some of the problems found in the prior art, it nonetheless requires the permanent installation of the phone hanger to the mobile phone. Consequently, a user is required to physically attach the phone hanger to the mobile phone, adding extra time and cost. Moreover, permanently attaching the phone hanger to the telephone adds unnecessary thickness, girth and weight to the mobile phone, which is disadvantageous given the growing trend of mobile phone manufacturers creating lightweight and slim mobile phones to satiate consumer demand for compactness.
U.S. Pat. No. 7,457,643, issued to Farrell, discloses a unit that utilizes “elongated rods with an adjustable beam cut cradle assembly including a pair of elongate spaced-apart rods wherein a first resilient one of the elongate rods is fixed along a portion of its length so as to be cantilevered. A clamp is supported upon the pair of spaced-apart rods that includes a semi-hollow beam having a central passageway and that is supported a second one of the elongate rods. An adjustable beam is slidingly received within the central passageway of the semi-hollow beam, and is fastened to an end of the first resilient one of the rods so that when the adjustable beam is slid outwardly and away from the semi-hollow beam, the first resilient one of the rods is biased thereby gripping a portion of the communications handset.” Consequently, this would result in rods and sliding beams around the head or attachment area of the user and can be impractical and cumbersome.
The above listed prior art all use different methods and do not list the methods described in this application.
ADVANTAGES OVER PRIOR ART
- Our invention keeps the wireless headset or accessory in closer proximity to the head and ears of the user for easier access and faster application to the ear without the use of obstructive and stiff materials or rods.
- Our invention provides a different alternative as to where the wireless headset can be stored.
- Our invention removes the need for yet another belt clip or obstructive unit.
- Our invention is less obvious and odd looking.
- Our invention can be clipped anywhere desired on the user.
- Our invention can be made very inexpensively and is ultra-light-weight.
- Our invention can hold the wireless headset near the head where it is less likely to be knocked off in comparison to one worn on the hip or belt.
REFERRING TO OUR DRAWINGS
FIG. 1 is a view of an example headset 1 with ferromagnetic disk applied 2 lying next to the alligator clip 3 with the neodymium magnet attached 4.
FIG. 2 is an enlarged side view of the alligator clip 1 with teeth 4, grips 2, and an attached neodymium magnet 3.
FIG. 3 is the view of one way to store the clip and magnet apparatus while not in use. In FIG. 3, the example wireless headset 1 with a ferromagnetic disk 4 affixed with adhesive to the example headset 1, after the peel away backing has been removed. The clip 2 and the neodymium magnet 3 are one unit and are held to the ferromagnetic disk 4 by magnetic attraction.
FIG. 4 is a drawing of the example wireless headset 6 being suspended from a collar 1. The wireless headset 6 is held by the ferromagnetic disk 5 attached to it which is in turn attracted to the neodymium magnet 4 that is permanently joined with the example alligator clip 3. The tie 2 is included for illustrative purposes only.
FIG. 5 is a drawing of an enlarged, cross-sectioned view of the ferromagnetic disk used in our reduction to practice and preferred embodiment. The layers visible are the ferromagnetic disk 1 stamped out of a metal sheet with adhesive 2 on one side that is temporarily covered by a peel away adhesive backing 3. To apply the disk to a headset, the user removes the peel away backing 3, exposing the adhesive 2 and affixes the ferromagnetic disk to a wireless headset of their choosing by pressing the ferromagnetic disk 1 with adhesive side flush onto the headset or item.
ALTERNATIVE EMBODIMENTS OF WIRELESS HEADSET PINCHER HOLDING DEVICE
- Different materials, sizes and interconnections can be used for some or all components.
- In lieu of magnets or line, hooks fasteners, snaps or slot slide joiners can be used.
- The units can be disposable/expendable or made from longer lasting, higher quality materials.
- Glue, epoxy, molded plastic, knots in the line, groove, snap, button, slot slide, hook or other fasteners can be used to permanently or temporarily join the line or magnet to the clip.
- Any type of clip can be used including with or without a spring load.
- In place of a magnet and ferromagnetic material relationship, a filament or mono-filament can be used to hold the item.
- The clips can be made from any material (with or without rubber grips) in any variety of sizes, shapes or cosmetic appearance.
- The metal disk can be made from any ferromagnetic material and in any shape or thickness.
- The magnet or ferromagnetic material could be built into the wireless headsets, pacifiers or other items to be docked with it.
- The magnet or ferromagnetic material could be built or made into clothing or whatever the item for docking is desired to be attached to.
- The magnet or ferromagnetic material can be used interchangeably in the construction of the apparatus.
- A small locking mechanism, guided in by the magnetic relationship of the metal and ferromagnetic material can be added to the apparatus in order to make the docked item or wireless headset more secure. This fastener or locking mechanism can them be released by the push or pull of a button or other release. A new mechanism can be developed or one that is common and existing can be used.
- A locking mechanism could be used in place of the magnetic docking arrangement.
- The pieces can be made into one solid, permanent unit or can be made separately and joined by any method including but not limited to welds, adhesives, peel-away backed adhesives, drops of adhesive, buttons, fasteners, fitted slots or any combination of these or others.
- If, in the future, phones are built into headsets so that they are one unit, this apparatus can be used to hold them.
- The clip and any other part can be made any size desired.
- Two magnets, magnetic materials or magnetized materials could be used instead of one magnetic material and one ferromagnetic material.
- The clip can be made entirely or partially by plastic, metal or combination of metals or plastics, rubber, wood, synthetic materials, existing types of clips (for example, Gator Clips).
- The ferromagnetic material, magnet, magnetic or magnetized material can be fastened to the wireless headset or clip by glue, a snapping button, a loop, Velcro, swivel, or other method, peel off backing adhesive, drops or glue or adhesive, melted together, be permanently built in during each items manufacture or enclosed by a housing.
- The assembled parts can be made to be permanent or semi-permanent.
- The glues can be permanent or temporary.
- If desired, a small retracting coil of line could also be used to allow the length of line to become longer. The wireless headset would then be attached to the user.
- The magnet could be made in any variation of magnetic strength or type.
- The magnet, magnetic or magnetized material and or ferromagnetic material could also be covered or dipped in some type of rubber or other material to soften the “click” when touched together or coated with zinc or any anti-corrosive or cosmetic metal or material or purchased that way before assembly or manufacture.
- Small welds, glue or other methods of adherent can be used to attach the magnet to the clip and the ferromagnetic material to the headset.
- The clip can be made from magnetic material in place of attaching a magnet.
Table for FIG. 1
1. Example headset
2. ⅜″× 5/16″ ferromagnetic disk attached with adhesive
3. 1″ long clip with magnet attached
4. ⅜″× 5/16″ zinc plated neodymium magnet attached with metal bonding epoxy glue
Table for FIG. 2
1. 1″ alligator clip
2. Rubber grips
3. ⅜″× 5/16″ zinc plated neodymium magnet attached with metal bonding epoxy glue
4. Alligator clip teeth
Table FIG. 3
1. Example Headset
2. 1″ alligator clip
3. ⅜″× 5/16″ zinc plated neodymium magnet attached with metal bonding epoxy glue
4. Ferromagnetic disk attached with adhesive
Table for FIG. 4
1. Shirt Collar
2. Men's Tie (for illustrative purposes only)
3. 1″ Example alligator clip with ⅜″× 5/16″ zinc plated neodymium magnet attached with metal bonding epoxy glue
4. ⅜″× 5/16″ zinc plated neodymium magnet
5. ⅜″× 5/16″ ferromagnetic disk attached with adhesive
6. Example wireless headset
Table for FIG. 5
1. Ferromagnetic disk
2. Adhesive
3. Peel away backing
Patent Application
20120260465
