The present invention is directed to a portable wireless communication device configured to emit a scent. A scent may be, for example, a distinctive odor or fragrant aroma that may be detected by the olfactory senses of a human, an animal, or an insect. The scent may be pleasant or unpleasant. Examples of such scents include, but are not limited to, odors or aromas that the user equates to any of a variety of perfumes, flowers, spices, and the like. A scent may also be a pheromone. Pheromones are odors produced by living organisms and are used for communication between like organisms. While a person, for example, may not be able to detect a pheromone as a “smell,” they are detectable by the olfactory senses nonetheless, and thus, are expressly included within the meaning of the term “scent” as that term is used herein.
According to one embodiment of the present invention, a heat-sensitive scented compound is disposed within a housing of device 10 proximate the internal circuitry of device 10. The internal circuitry of device 10, which may comprise one or more electronic components, radiates heat during operation. By way of example, the circuitry may radiate heat whenever a user places or receives a call to a remote party. One embodiment of the present invention advantageously employs this radiated heat to cause the heat-sensitive scented compound to emit the scent. The scent permeates the housing of device 10 through natural openings in the housing, and/or through one or more specially-formed openings in the housing.
Portable wireless communication device 10 comprises a user interface (UI) 12 and circuitry 14 disposed within a housing 34. UI 12 includes a display 16, a keypad 18, a speaker 20, and a microphone 22. Circuitry 14 comprises a controller 24, an audio I/O circuit 26, memory 28, and a transceiver circuit 30 connected to an antenna 32. The operation of the UI 12 and the circuitry 14 with respect to communicating with a remote party is well known in the art. Therefore, this functionality is not described in detail herein. It is sufficient for the purposes of the present invention to understand that the device 10 is a fully functional cellular radio device capable of operating according to any known standard. Such standards include, but are not limited to, Global System for Mobile Communications (GSM), Universal Mobile Telecommunication System (UMTS), TIA/EIA-136, Code Division Multiple Access (CDMA), cdmaOne, cdma2000, and Wideband CDMA.
As previously stated, one embodiment of the present invention advantageously employs heat radiated by the circuitry 14 to activate a heat-sensitive scented compound. Particularly, the scented compound emits the scent while the radiated heat is at a temperature that reaches or exceeds a predetermined threshold temperature. The scent may permeate the device 10 through natural openings in the housing of device 10, and/or through one or more specially-formed perforations 36 in the housing of device 10.
The signal-processing chip 44 and/or the shields 48 may include labels 50 that carry various information about the device 10 or the components. Typically, a manufacturer attaches the labels 50 to the signal-processing chip 44 and/or shields 48 during the manufacturing process for identification purposes, or to indicate the successful completion of a given quality control process. According to one embodiment of the present invention, an adhesive used to apply the label 50 to the signal-processing chip 44 and/or shields 48. The adhesive may comprise a heat-activated scented adhesive compound that emits a scent whenever the heat radiated by the signal-processing chip 44 and/or shields 48 reaches or exceeds a predetermined temperature.
The scented adhesive compound 52 may comprise any adhesive compound known in the art that is mixed or combined with one or more chemicals or compositions that release a scent or odor at a given temperature. In one embodiment, for example, an adhesive compound is mixed with any of a variety of commercially available fragrant essential oils. The oils may be extracted from natural objects such as flowers, artificially developed by mixing a plurality of oils or other fragrant substances, or synthetically produced using any means known in the art. In other embodiments, these oils are simply sprayed or spread over a surface of an adhesive compound prior to affixing the label 50 to the signal-processing chip 44 and/or the shield 48.
Those skilled in the art should note that the present invention does not require direct contact with an electronic component to activate heat-sensitive scented compounds. Nor does the present invention require that the heat-sensitive scented compound be an adhesive.
In this embodiment, the scented adhesive compound 52 contains a plurality of gelatinous or plastic globules, each of which may be a few microns in diameter. Each globule encapsulates a small amount of fragrant oil or other scent-bearing substance. Whenever the user presses a key, an activator contacts the scented adhesive compound 52. This contact causes one or more of these globules rupture and release the scent. In some embodiments, a surface of the activator is slightly knurled or roughened such that it engages the scented adhesive compound 46 in frictional contact. This frictional contact ruptures one or more of the globules to release the scent
Keypad assembly 60 comprises the PCB 40, a dome cover sheet 70, a mylar cover sheet 80, and the keypad 18. The scented adhesive compound 52 may be used to adhere each layer to one or more adjacent operational layers. PCB 40 includes a surface 43 that, in this embodiment, is opposite surface 42. PCB surface 43 includes a plurality of conductive contacts 62 that operate as part of a switch to register key presses by the user. One or more contacts 62 may connect to adjacent contacts via a conductive trace 68. Each contact 62 comprises an inner conductive trace 64 that is insulated from and concentrically oriented with respect to an outer conductive trace 66.
The dome cover sheet 70 comprises a plurality of conductive dome switches 74 adhered to a perforated sheet 72. The dome cover sheet may be disposed between the PCB 40 and the mylar cover sheet 80. Each dome switch 74 is generally concave shaped and is positioned on the perforated sheet 72 such that it aligns with the inner and outer conductive traces 64, 66 of a single contact 62. Particularly, the peripheral edge of a given dome switch 74 aligns with, and remains in contact with, a corresponding outer conductive trace 66 on PCB surface 43. A tip 72 formed on the interior of the dome switch 74 aligns with and is spaced above the inner conductive trace 64. When a user presses a key, the corresponding dome switch 74 deforms such that the tip 76 is urged into contact with the inner conductive trace 64. Upon contact, both the tip 76 and the peripheral edges of the dome switch 74 contacts the inner and outer conductive traces 64, 66, respectively, to complete a circuit. This circuit completion is then registered as a key press.
The mylar cover sheet 80 is disposed between the dome cover sheet 70 and the keypad 18. The mylar cover sheet 80 may adhere to both the dome cover sheet 70 and the keypad 18 using the scented adhesive compound 52. Mylar cover sheet 80 may comprise a perforated sheet 82 formed to include a plurality of flexible members 84. Each flexible member 84 may include a tip 86 that is forced into contact with an apex of a corresponding dome switch 74 whenever a user presses a key on the keypad 18. This contact causes the dome switch 74 to deform as previously described.
According to one pressure-activated embodiment of the present invention, the dome cover sheet 70 comprises an activator 79 that frictionally engages the scented adhesive compound 52 whenever the user presses a key. This frictional contact on the scented adhesive compound 52 ruptures one or more of the globules in the scented adhesive compound 52, and causes it to release a scent.
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The previous embodiment disposes the scented adhesive compound 52 between the dome cover sheet 70 and the PCB surface 43. However, those skilled in the art should appreciate that the scented adhesive layer 52 may adhere any of the layers of keypad assembly 60 together. Thus, the activator 79 is not confined only to being formed on the dome cover sheet 70. In other embodiments, the mylar cover sheet 80 includes the activator 79 that frictionally contacts and activates the scented adhesive compound 52 disposed between the mylar cover sheet 80 and the dome cover sheet 70. Likewise, the keys on the keypad 18 could include the activator 79 to frictionally contact and activate a scented adhesive compound 52 disposed between the keypad 18 and the mylar cover sheet 80.
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As the dome switch 74 deforms in response to the user pressing a key, air is displaced from under the dome switch 74 and into the air passages 78 (
Those skilled in the art will readily appreciate that there are other methods by which to cause a scented compound to release its scent other than those methods explicitly described herein.
In another embodiment, an electrical current is caused to flow through a scented compound disposed within the housing 34. By way of example, the current may be generated only during predetermined events such as whenever the user transmits or receives a signal, speaks into microphone 22, or listens to audible sound from speaker 20. In these embodiments, the current may be drawn from transceiver 28 or audio I/O circuit 26, for example, and applied to a scented compound. The current could heat the scented compound thereby causing it to release a scent.
It should be noted that the description discusses the scent as being a fragrant aroma pleasing to the user. However, the scent need not be readily recognized as an aroma by the user. For example, the globules previously described may contain small amounts of pheromones that the user's olfactory senses may detect without actually being able to “smell” a particular aroma. In addition, the scented compound may be impregnated with a chemical detectable by insects. In such cases, the user may or may not be able to “smell” an aroma.
The present invention may, of course, be carried out in other ways than those specifically set forth herein without departing from essential characteristics of the invention. The present embodiments are to be considered in all respects as illustrative and not restrictive, and all changes coming within the meaning and equivalency range of the appended claims are intended to be embraced therein.