Abstract: Embodiments can include Tri-comfort Tips comprising a set of leakage slits for in-ear breathability for infection prevention and maintaining dryness of an inner portion of a user's ear canal, wherein the Tri-comfort Tips are configured to reside in the user's ear canal within a first bend of the user's ear canal, wherein the Tri-comfort Tips comprise an end configured to reside in the user's ear canal at a distance less than 16 millimeters from the entrance of the user's ear canal.
Abstract: Embodiments (e.g., of the system, etc.) can include a wireless in-ear utility device (e.g., miniature form factor Bluetooth device) with improved form factor in order to fit the small to extra small ear concha bowls and inner ear canals of one or more users. In embodiments, the improved wireless in-ear utility device can include tri-ear buds to be closer the users eardrum for higher sound quality performance and comfort in the user's ear when then in-ear utility device is worn, and allows for a higher level of comfort.
Abstract: An embodiment of the technology provides a NFMI in-ear utility device that rests in the user's ear canal away from the user's eardrum. Embodiments of the in-ear utility device can be configured in a variety of ways, including, but in no way limited to, a multi flexible personal, Streaming Music, and multi internal and external communication device via wireless communication.
Abstract: Embodiments (e.g., of the system, etc.) can include a wireless in-ear utility device (e.g., miniature form factor Bluetooth device) with improved form factor in order to fit the small to extra small ear concha bowls and inner ear canals of one or more users. In embodiments, the improved wireless in-ear utility device can include tri-ear buds to be closer the users eardrum for higher sound quality performance and comfort in the user's ear when then in-ear utility device is worn, and allows for a higher level of comfort.
Abstract: An embodiment of the technology includes Tri-Ear Buds for a wireless in-ear utility device that provides in-ear frequency filtering and can also offer a horn that increases the wireless in-ear utility device's ability to deliver sound. The horn effect can provide higher sound levels while consuming lower battery power. The channels can provide increased safety and comfort for the user. Embodiments of the technology can include accommodation for a balance between the wearable in-ear devices and hearing aids, such as to accommodate the wearable device requiring more sealing in the ear canal for better sound quality, to accommodate the hearing aid seals requiring more leakage for allowing for the user's voice to have an increased naturalness in sound, where the balance between the both can be frequency leakage in the 50 Hz to 300 Hz, which can allow for the seal to produce high quality performance for the two platforms.
Type:
Grant
Filed:
April 10, 2018
Date of Patent:
February 26, 2019
Assignee:
Acouva, Inc.
Inventors:
Victor Manuel Valenzuela, Damon Vincent Mercadante
Abstract: An embodiment of the technology provides a wireless in-ear utility device that rests in the user's ear canal away from the user's eardrum. Embodiments of the in-ear utility device can be configured in a variety of ways, including, but in no way limited to, a multi flexible personal, Streaming Music, and multi internal and external communication device via wireless communication.
Type:
Grant
Filed:
April 10, 2018
Date of Patent:
February 26, 2019
Assignee:
Acouva, Inc.
Inventors:
Victor Manuel Valenzuela, Damon Vincent Mercadante