Spectacles including auricular devices are described. The spectacles include a structure having a front frame for supporting respective lenses, and a pair of arms articulated to the front frame on laterally opposite sides, each of the arms extending longitudinally between a first end that is articulated to the front frame and a second, opposite end, close to which an end arm portion can make contact with the head at the ear. Each arm extends from the second end into an arm portion that is made of flexible material and bears an element for supporting an auricular device, and the arm portion can move, on account of its flexibility, between an operating position in which the support element is worn at the ear to allow the auricular device to be positioned, and a non-operating position in which the support element is removably held on the end arm portion.

Spectacles including auricular devices are described. The spectacles include a structure having a front frame for supporting respective lenses, and a pair of arms articulated to the front frame on laterally opposite sides, each of the arms extending longitudinally between a first end that is articulated to the front frame and a second, opposite end, close to which an end arm portion can make contact with the head at the ear. Each arm extends from the second end into an arm portion that is made of flexible material and bears an element for supporting an auricular device, and the arm portion can move, on account of its flexibility, between an operating position in which the support element is worn at the ear to allow the auricular device to be positioned, and a non-operating position in which the support element is removably held on the end arm portion.

The disclosed embodiments provide a wearable electronic device. The wearable electronic device includes a frame containing a front portion configured to rest over a nose of a user, a first arm configured to rest over an ear of the user. The wearable electronic device also includes a first hinge connecting the front portion and the first arm. The first hinge includes an interior portion that houses a wire connected to a first electronic component in the front portion and a second electronic component in the first arm. The first hinge also includes an exterior portion that hides the wire during rotation of the first arm about the first hinge between a folded position and an unfolded position.

Smart glasses are provided, which can be electrically connected to wireless earphones, where wireless earphones include a second electrical connection part. The smart glasses includes a main body and glasses legs rotatably connected to the main body. One glasses leg can be rotatably switched between a first position and a second position relative to the main body. The glasses leg includes a first electrical connection part. At least one of the glasses leg and the main body includes a battery module, and the first electrical connection part is electrically connected to the battery module. If the glasses leg is located at the first position, the glasses leg is separated from the wireless earphone. If the glasses leg is located at the second position, the glasses leg is connected to the wireless earphone, and the first electrical connection part is electrically connected to the second electrical connection part.

A wearable device assembly includes a wireless earphone and smart glasses. The wireless earphone includes an earphone body and a speaker part. The earphone body is rotatably connected to the speaker part. The earphone body is rotatably switched between a first position and a second position relative to the speaker part, and provided with a first electrical connection part. The smart glasses include glasses legs and a battery module. One of the glasses legs is provided with a second electrical connection part, the second electrical connection part is electrically connected to the battery module. When the earphone body is located at the first position, the earphone body is separated from a glasses leg. When the earphone body is located at the second position, the earphone body is connected to the glasses leg, and the first electrical connection part is electrically connected to the second electrical connection part.

The present disclosure relates to a pair of glasses. The pair of glasses may include a frame, one or more lenses, and one or more temples. The pair of glasses may further include at least one low-frequency acoustic driver, at least one high-frequency acoustic driver, and a controller. The at least one low-frequency acoustic driver may be configured to output sounds from at least two first guiding holes. The at least one high-frequency acoustic driver may be configured to output sounds from at least two second guiding holes. The controller may be configured to direct the low-frequency acoustic driver to output the sounds in a first frequency range and direct the high-frequency acoustic driver to output the sounds in a second frequency range. The second frequency range may include one or more frequencies higher than one or more frequencies in the first frequency range.

Disclosed is a smart head-mounted device, and the smart head-mounted device comprises at least one lens and at least one arm, the arm is connected to the lens and has a cavity therein; further comprises a sound production apparatus provided inside the cavity and dividing the cavity into a front acoustic cavity and a back acoustic cavity; a sound outlet and a main sound leakage hole provided on the arm, the sound outlet is in communication with the front acoustic cavity, and the main sound leakage hole is in communication with the back acoustic cavity.

Face masks and attachments to accommodate hearing aids are provided herein. The face masks include a mask body, ear loops and a hearing aid holder to removably hold a hearing aid. In some configurations, a hearing aid holder which can be detachably attached to a mask is provided.

The present disclosure relates to electronic components and glasses comprising an electronic component. The electronic component may include a component body, a first circuit board, a second circuit board, a first microphone element, and a second microphone element. The component body may include a cavity. The first circuit board and the second circuit board may be inclined to each arranged in the cavity. The first microphone element may be arranged on a sidewall, facing the component body, of the first circuit board. The second microphone element may be arranged on a sidewall, facing the component body, of the second circuit board. A first sound conducting hole may be arranged on a sidewall, opposite to the first microphone element, of the component body. The first sound conducting hole may be configured to conduct a sound to the first microphone element. A second sound conducting hole may be arranged on the sidewall, opposite to the first microphone element, of the component body. The second sound conducting hole may be configured to conduct a sound to the second microphone element. The present disclosure may make full use of a space of the electronic component. When the electronic component is applied to an electronic device, it is beneficial to the thinness and lightness of the electronic device.

The present disclosure is related to an eyeglass frame system comprising at least two microphones in wireless communication with adapted air buds. The hearing aid system is configured with a video camera in communication with a face contour detection process that together with an audio processing system is performing beam forming of respective microphones thereby improving reception of audio sound from the direction of identified face contours.