US20220295165A1

US20220295165A1 - Dual-arm radio headset

Info

Publication number: US20220295165A1
Application number: US17/735,433
Authority: US
Inventors: Christopher Alan Perkins
Original assignee: Chris Perkins Enterprises LLC
Current assignee: Chris Perkins Enterprises LLC
Priority date: 2021-03-09
Filing date: 2022-05-03
Publication date: 2022-09-15
Also published as: WO2022192400A1; US11330353B1

Abstract

A communications system includes a support band, a speaker, and two arms disposed on opposite ends of the support band. The speaker allows the user to receive radio communications. A first arm may comprise a communication subassembly, allowing for the user to send radio communications. The first and second arms may pivot about its connection to the support band. A second arm comprises a shield subassembly, whereby the shield subassembly may completely cover the mouth and nose of the user to prevent the exit and entrance of airborne particles. The shield assembly may comprise a medical-grade material disposed between two layers of plastic. The shield assembly may be disposable.

Description

REFERENCE TO RELATED APPLICATIONS

This application is a continuation application that claims the benefit of the filing date under 35 U.S.C. § 120 of U.S. patent application Ser. No. 17/196,612, filed on Mar. 9, 2021, the entirety of which is incorporated herein by reference.

BACKGROUND

Communication headset systems are used extensively in various industries to allow a user to remotely communicate with another user. Examples include the use of headsets in sports, whereby a coach may communicate with another coach in real-time to discuss plays, personnel and the like, or the use of headsets by restaurants, whereby a restaurant employee may take an order and communicate it to those in the kitchen.
Due to the prevalence of the transmission of viruses and other pathogenic microorganisms through airborne particles, the use of face coverings has become widespread in today's society, wherein many organizations and municipalities require use of such face coverings. Current designs of headsets do not allow for the dual use of both the headsets and face coverings nor do they allow for the ease between switching between the two. What is needed are communication systems that allow a user to easily switch between communicating via a headset and using a face covering.

SUMMARY

In one aspect, a first embodiment of a communications headset system includes a first arm and a second arm pivotably attached to opposite ends of a support band. The support band may be adapted to be secured about the head of a user.
In another aspect, a second embodiment of the communication headset system may include a support band adapted to be secured around a user's neck, in a collar configuration, resting upon shoulders of the user. The support band may wrap around the back of the neck of the user with opposite ends extending forward relative to the user.
In an example of the first embodiment or second embodiment, the first arm, second arm, or both are independently pivotable. In the above example or another example, the first arm, second arm, or both or vertically pivotable, laterally pivotable, or both.
In one example of the either the first embodiment or second embodiment, the first arm may comprise a microphone disposed at an end, tip, or other portion corresponding to a location of a user's mouth when worn. In a further example, the microphone may be configured to be in signal communication with a communication unit and adapted to detect sound. The detected sound may be transmitted to the communication unit wirelessly or by wired connection and the communication unit may be configured to transmit the sound signal wirelessly or by wired connection to one or more receivers.
In any of the above examples or another example of the first embodiment or second embodiment, a speaker may be positioned proximate to an ear of the user when the support band is worn by the user. For instance, in a collar configuration, the speaker may extend vertically from the support band to a position proximate the ear of the user. In a head worn configuration the speaker may extend laterally from ends of the support band. In a further example, the speaker may be in operational communication with a communication unit, allowing for the speaker to output sound received by the communication unit wirelessly or by wired connection.
In any of the above examples or another example of the first embodiment or second embodiment, the second arm may comprise a shield assembly adapted to engage the face of the user and create a barrier to prevent the receipt and transmission of air particles. In any of the above examples or another example of the first embodiment, the first arm and second arm may be pivotably attached to the support band, whereby the microphone of the first arm, if present, and the shield assembly of the second arm, if present, may be proximate the mouth of the user when worn in an engaged position, and then may be moved away from the mouth of the user to an inactive position. For example, if the user wishes to solely engage with the microphone of the first arm, the first arm may be configured in the engaged position, and the second arm may be pivoted downward or outward and away from the mouth. Alternatively, if the user wishes to solely engage the shield assembly of the second arm, the second arm may be configured in the engaged position, and the first arm may be pivoted downward or outward and away from the mouth.
In any of the above examples of the first or second embodiments including a shield assembly, the shield assembly comprises an inner face, an outer face, and a lining disposed between the inner face and the outer face. The lining may be adapted to trap, hinder or filter air particles that may contain infectious material. The inner face and outer face may comprise holes allowing for increased ventilation and breathability from within the shield assembly. The shield assembly may be transparent, allowing for the mouth of the user to still be viewed when the shield assembly is engaged. In another embodiment, the shield assembly may be opaque and may further feature a design or logo disposed on the outer face of the shield assembly. The shield assembly may be removably attachable to the second arm, allowing for the replacement of the shield assembly.
In any of the above examples or another example of the first embodiment or second embodiment, the first arm and second arm are removably attachable to the support band and adapted to be secured on either end of the support band. Thereby, the user may configure the communications headset system to feature the first arm on left side of the head and the second arm on the right side of the head, or it may switch the positions of the arms, whereby the second arm is on the left side of the head and the first arm is on the right side of the head.
In any of the above examples or another example of the first embodiment or second embodiment, one or more ear covers are attached or attachable to the support band. Ear covers may house speakers, when present. Ear covers may extend from the ends or the support band to a position proximate an ear of a user when worn. For instance, in a collar configuration, an ear cover may extend vertically from an end of the support band to a position proximate the ear of the user. In a head worn configuration, ear cover may extend laterally from an end of the support band to a position proximate the ear of the user.
In still another aspect, a third embodiment of the communications headset system may comprise a wrist-mounted assembly. The wrist-mounted assembly may comprise a wrist band, a pivotable arm, and a mask assembly. The wrist band may be adapted to secure the wrist-mounted assembly to the forearm of the user via a strap that is tightened along the wrist or forearm of the user. In one example, the wrist band may further comprise two straps spaced apart along the forearm to increase stability of the wrist-mounted assembly. In the above example or another example, the pivotable arm of the wrist-mounted assembly may be pivotably attached to the wrist band at one end and the mask assembly at the other end. In a closed position, the pivotable arm may be substantially parallel with the forearm of the user. A user may manipulate the arm to an erect position by rotating the pivotable arm about the connection point with the wrist band, whereby the pivotable arm is substantially perpendicular to the fore arm of the user. The user may then lift the forearm to the face of the user to engage the mask assembly. In any of the above examples or another example, the mask assembly of the wrist-mounted assembly may comprise any combination of the elements and features described herein with respect to the shield assembly.
In yet another aspect, a fourth embodiment of the communication headset system includes a support band, first arm, second arm, microphone, and a shield assembly. The support band includes a first end and a second end, wherein, in use, the support band is configured to extend around a neck of a user with the first end positioned along a first side of the neck of the user and the second end positioned along a second side of the head of the user. The first arm attaches to the first end of the support band, and the second arm attaches to the second end of the support band. The microphone is disposed on the first arm at location positionable proximate the mouth of the user. The shield assembly is attached or attachable to the second arm and includes an outer face and an inner face. The shield assembly is adapted to obstruct the transmission and receipt of air particles and fit over the nose and mouth of a user.
In one example of the fourth embodiment, the first arm and the second arm are pivotably attached to the respective first and second ends of the support band. In the above or another example of the fourth embodiment, the first and second arms are pivotable independent of each other. In any of the above examples or another example of the fourth embodiment, the first and second arms are vertically pivotable. In any of the above examples or another example of the fourth embodiment, the first and second arms are laterally pivotable. In any of the above examples or another example of the fourth embodiment, the communication headset system further includes at least one ear cover extending from the first end or second end of the support band and positioned at a location corresponding to ears of the user when in use. In any of the above examples or another example of the fourth embodiment, the at least one ear cover includes a speaker. In any of the above examples or another example of the fourth embodiment, the communication headset system further includes a communication unit in operational communication with the speaker and the microphone. In any of the above examples or another example of the fourth embodiment, an intermediate material is disposed between the outer face and the inner face of the shield assembly. In one example, the intermediate material is a cloth material. In a further or another example, the intermediate material is a medical-grade material. In any of the above examples or another example of the fourth embodiment, the shield assembly comprises a screw disposed on the outer face, whereby the screw is adapted to engage a threaded slot disposed at the distal tip of the second arm. In any of the above examples or another example of the fourth embodiment, the first arm and second arm are removably attachable from the support band. In any of the above examples or another example of the fourth embodiment, the first and second arms are vertically pivotable, laterally pivotable, or both. In any of the above examples or another example of the fourth embodiment, shield assembly is transparent. In any of the above examples or another example of the fourth embodiment, shield assembly is opaque. In any of the above examples or another example of the fourth embodiment, the outer face and the inner face of the shield assembly comprise a plurality of holes. In any of the above examples or another example of the fourth embodiment, the plurality of holes comprise circular holes and rectangular holes. In one example, the circular holes are approximately one-half inch in diameter and the rectangular holes are approximately one-half inch in width and one-quarter inch in height. In a further or another example, the plurality of holes are arranged in separate rows alternating between circular holes and rectangular holes. In any of the above examples or another example of the fourth embodiment, the shield assembly further comprises a cushion material disposed on an outer edge of the inner face of the shield assembly. In any of the above examples or another example of the fourth embodiment, sides of the shield assembly are configured to form a seal between the sides of the shield assembly and face of the user to prevent air flow therebetween. In any of the above examples or another example of the fourth embodiment, the first arm and the second arm are pivotable in an upward and downward direction and an inward and outward direction. In any of the above examples or another example of the fourth embodiment, the second arm is longer than the first arm. In any of the above examples or another example of the fourth embodiment, the first arm positions the microphone forward of the shield assembly. In any of the above examples or another example of the fourth embodiment, the first arm positions the microphone along or adjacent to a lateral side of the shield assembly. In any of the above examples or another example of the fourth embodiment, the first arm positions the microphone between the mouth of the user and the shield assembly. In any of the above examples or another example of the fourth embodiment, the first arm positions the microphone between the mouth of the user and a lateral side of the shield assembly. In any of the above examples or another example of the fourth embodiment, the shield assembly includes a slot along a lateral side thereof for slotting the first arm interiorly of the shield assembly. In any of the above examples or another example of the fourth embodiment, the shield assembly includes an interior attachment structure for securing the microphone interiorly of the shield assembly. In any of the above examples or another example of the fourth embodiment, the shield assembly includes an exterior attachment structure for securing the microphone forward of the shield assembly.

BRIEF DESCRIPTION OF DRAWINGS

Novel features of the present disclosure are set forth with particularity in the appended claims. However, the various embodiments of the present disclosure described herein, both as to organization and manner of operation, may be best understood by reference to the following description, taken in conjunction with the accompanying drawings in which:

FIG. 1 is a perspective view of a communications system secured on a user in accordance with one embodiment of the present disclosure.

FIG. 2A is a front view of the communications system of FIG. 1 in a first configuration with a first arm in the engaged position and a second arm in an inactive position.

FIG. 2B is a front view of the communications system of FIG. 1 in a second configuration with a first arm in the inactive position and a second arm in an engaged position

FIG. 3 is a top view of the communications system of FIG. 1.

FIG. 4 is an exploded perspective view of the shield assembly according to one embodiment of the present disclosure.

FIG. 5 is a perspective view of the communications system in accordance with a second embodiment of the present disclosure

FIG. 6 is a perspective view of a wrist-mounted communications system in accordance with a third embodiment of the present disclosure.

FIG. 7A is a perspective view of the communications system in a closed position in accordance with an embodiment of the present disclosure.

FIG. 7B is a perspective view of the communications system in a closed position in accordance with an embodiment of the present disclosure

DESCRIPTION

FIGS. 1-7 illustrate communications systems according to various embodiments of the present disclosure wherein like numbers identify like features. As shown in FIG. 1, a communications headset 100 may comprise at least one speaker 120, a support band 140, a first arm 160 and a second arm 180. In one embodiment, the support band 140 comprises a curved elongated body 142 with a first end 144 and a second end 146 disposed at opposite ends of the elongated body 142. The support band 140 is adapted to be secured about or rest upon a head of a user. The support band 140 may comprise a resilient material, such as a thermoplastic, whereby the curved shape of the elongated body 140 is maintained through multiple uses. The support band 140 may be dimensioned to comprise a curvature less than a typical width of a head of a user, whereby the communications headset 100 may be secured to the head of the user through tension created by the resilient material of the support band 140 attempting to return to its original shape. In various configurations, the headset 100 may include one or more ear covers 122 configured to position over ears of a user. The ear covers 122 may be positioned along first and second ends 144, 146 at locations corresponding to ears of the user.
In one embodiment, the speaker 120 is disposed at the first end 144 of the support band 140. When the communications headset is secured about the head of the user, the speaker 120 may be located proximate an ear of the user. As featured in FIG. 1, the communications headset 100 may further comprise an ear cover 122 coupled to the speaker and adapted to completely surround an ear of the user. The speaker 120 may be disposed within the ear cover 122 allowing a user to perceive sound output by the speaker. An outer edge of the ear cover 122 may be lined with a cushion material, such as a foam, memory foam, or padding, to provide comfort to the user when the communication headset 100 is secured about the head of the user.
Although the speaker 120 is disclosed as comprising an ear cover 122, the speaker 120 may comprise an earbud configuration, wherein the speaker 120 is directly inserted into an outer ear canal of a user. In another embodiment, the speaker 120 may comprise an open ear configuration, wherein the speaker 120 is disposed outside the ear canal and directed toward the ear canal. In yet another embodiment, the speaker 120 may utilize bone conduction technology known in the art, whereby vibrations are directed through the cheekbones and perceived as sound by the user.
In one embodiment, the communications headset 100 speaker 120 comprises a second speaker 120. The second speaker 120 may be located adjacent to the second end 146 of the support band 140 and adapted to provide sound output to the other ear of the user. Such a second speaker 120 may be provided within a second ear cover 122 or earbud configuration as described above
In one embodiment, the first arm 160 is disposed proximate the first end 144 of the support band 140 and extend distally from the support band 140. The first arm 160 may comprise a slight curvature, whereby a portion of the first arm 160, which may comprise an end or tip may be positioned proximate to a mouth of the user when the communications headset 100 is in a secured position upon the head of the user. The first arm 160 may further comprise a microphone 162 for detecting sound. The microphone 162 may be disposed along the portion of the first arm 160 corresponding to the mouth of the user, which may be an end or tip of the first arm 160. The arm first 160 may be pivotably positioned with respect to the support band 140 along a connection therewith, such as along first end 144. In various embodiments, the first arm 160 may be pivoted downwardly to be positioned near a chest of a user. In this or another example, the first arm 160 may be pivoted upwardly to position at, near, or above the support band 140, e.g., the microphone 162 may be pivoted to a position at, near, or above the support band 140. In one embodiment, the first arm 160 is pivotable outwardly in addition to or alternatively to downwardly and/or upwardly.
The communication headset 100 may include or operationally integrate, e.g., be in signal communication with, a communication unit 126 configured for operational communication with to speaker 120 and microphone. The communication unit 126 may include one or more wired and/or wireless receivers, transmitters, and/or transceiver configured to receive audio data from one or more communication points for input to speaker 120 for subsequent output by the speaker 120 into the ear of the user and to receive audio data collected by microphone 162 and transmit the collected audio data to one or more communication points, thereby allowing the communication headset 100 to receive and output audio communications at speaker 120 and transmit audio communications collected by the microphone 128.
The communication headset 100 may also include or electrically couple with a power supply 128 configured to supply power to the communication headset 100, which may include communications unit 126. The power supply 128 may include or receive a supply of electrical power via wired connection to a battery or residential power or via wireless transmission, as examples. However, the power supply 128 may include any suitable power supply and utilize any suitable supply of power. In one example, the power supply 128 may include one or more disposable batteries that may be replaced once power in the batteries is exhausted. In one example, the power supply 128 includes one or more rechargeable batteries, which may be recharged by connecting the batteries to an external power source. In one example, the communication headset 100 includes a connection for coupling to an external power source to recharge power supply batteries. In one embodiment, the power supply 128 comprises a supply or A/C or D/C power, e.g., residential A/C.
In one embodiment, one or both of a communication unit 126 or power supply 128 may be integrated within the support band 140 and/or the first and second arms 160, 180. In one example, the communication unit 126 and/or power supply 128 may be located within a housing proximate to speaker 120. In another embodiment, the communication unit 126 and/or power supply 128 may be located in one or more separate housings that is in operational communication with the speaker 120 and any other electrical components of the communications headset 100. In such an embodiment, the separate house may be attached to clothing of the user, such as a shirt or pants worn by the user, via a clip or other temporary fastener. The housing of the communication unit 126 and the power supply 128 within a separate housing may allow for a decrease in the size of the headset system 100, as additional space to accommodate the communication unit 126 and the power supply 128 within support band 140, first arm 160, or second arm 180 is not required.
As introduced above, the microphone 162 may be in operational communication with the communication unit 126, whereby a user may speak into the microphone 162 creating a sound input, the sound input may be sent to the communication unit 126, and the communication unit 126 may transmit the sound input to a receiver (not shown) via wired or wireless communication, e.g., radio (RF), microwave, optical, acoustic, or other wireless communication. Thus, through both the speaker 120 and the microphone 162, a user may communicate via wireless and/or wired connection with a third-party at or in signal communication with a recipient communication point.
In one embodiment, the second arm 180 is disposed proximate the second end 146 of the support band 140 and extend distally from the support band 140. The second arm 180 may also comprise a slight curvature, whereby a portion of the second arm 180, such as a distal end or tip may be positioned proximate to the mouth of the user when the communications headset 100 is in a secured upon the head of the user.
The second arm 180 may further comprise or be configured to attach a shield assembly 190. The shield assembly 190 may be adapted to extend over and/or cover the mouth and nose to prevent the spread and receipt of respiratory droplets contributing to the transmission of viruses, bacteria, or other microorganisms that may cause illness or disease. In one embodiment, the shield assembly 190 is sized to extend beyond the mouth and nares areas of the user. In a further or another embodiment, the shield assembly 190 may completely enclose the mouth and nose of the user, whereby an outer edge of the shield assembly 190 is in continuous contact with the face of the user. In another embodiment, the shield assembly 190 is positioned in front of the face of the user without directly touching the face of the user. In this embodiment, the outer edge of the shield assembly 190 may be disposed approximately a half-inch from the face of the user, whereby the shield assembly 190 may still hinder, trap, or filter air particles expelled from the mouth of the user. In other examples, the shield assembly 190 may be configured to position between about 0.25 inches, about 0.75 inches, about 1 inch, or about 1.25 inches from the face of the user.
The shield assembly 190 may attach or be attachable at a connection point along the second arm 160 corresponding to a mouth and nose area of the user, which may be along a distal end or tip thereof in some configurations. In one embodiment, the connection point along the second arm 180 positions the shield assembly at a fixed position relative to the second arm 180. In another embodiment, the connection point of the second arm 180 comprises a hinge 182, whereby the shield assembly 190 may be pivoted about the hinge 182 to proximate or engage the face of the user about the mouth and/or nose at a desired angle. In one embodiment, the shield assembly 190 is attached to the second arm 180 via a slidable connection that allows the position of the shield assembly 190 along the second arm 180 to be selectively adjusted by sliding the shield assembly 190 along the second arm 180. Alternatively, the shield assembly 190 may be attached along a length of the second arm 180. The second arm 180 may be pivotably positioned with respect to the support band 140 along a connection therewith, such as along second end 146. In various embodiments, the second arm 180 may be pivoted downwardly to be positioned near a chest of a user. In this or another example, the second arm 180 may be pivoted upwardly to position at, near, or above the support band 140, e.g., the shield assembly 190 may be pivoted to a position at, near, or above the support band 140. In one embodiment, the second arm 180 is pivotable outwardly in addition to or alternatively to downwardly and/or upwardly. In some embodiments, the first arm 160 and second arm 180 are independently pivotable to allow a user to determine which, if any, is to be positioned proximate the mouth and/or nose, and which, if any, is to be stowed for later use.
In one embodiment, the first arm 160 and second arm 180 include a flexible cable or extension that may be selectively bent to allow the first arm 160 and second arm 180 to be positioned in differing configurations. For example, the flexible cable or extension of the first arm 160 may be configured to extend forwardly from the first end 144 of the support band 140 and curve centrally, whereby the portion of the first arm 160 corresponding to the microphone 162 aligns proximate to the mouth of a user. The user may then apply force to the first arm 160 to straighten the first arm 160 away from the mouth if subsequently desired.
In one embodiment, as introduced above, the first arm 160 and second arm 180 may comprise a rigid material that is pivotably hinged at connection points between the first arm 160 and the first end 144 the support band 140 and between the second arm 180 and the second end 144 of the support band 140. As shown in FIGS. 2A-2B, the first arm 160 and second arm 180 may be pivotable about a horizontal axis such that the first arm 160 and the second arm 180 may rotate upwardly and downwardly relative to the head of the user, whereby the first arm and second arm may be positioned proximate a top of the head of the user and positioned below the chin and near an upper chest of the user. FIG. 2A illustrates an embodiment of the communications headset 100 wherein the first arm 160 is in an engaged position and the second arm 180 is in an inactive position. When the first arm 160 is in the engaged position, the microphone 162 of the first arm 160 may be located proximate the mouth of the user. When the second arm 180 is in the inactive position, the shield assembly 190 of the second arm 180 may be located proximate the upper chest of a user. FIG. 2B illustrates a configuration of the communications headset 100 wherein the first arm 160 is in an inactive position and the second arm 180 is in an engaged position. When the second arm 180 is in the engaged position, the shield assembly 182 of the second arm 180 may be located proximate the mouth and nose of the user, completely enclosing the area to hinder the entrance and exit of airborne particles. When the first arm 160 is in the inactive position, the microphone 162 of the first arm 160 may be located proximate the upper chest of a user and away from the mouth of the user, thereby creating distance between microphone 162 and the mouth of the use so that unwanted sound input is not communicated through the microphone 162. Additionally or alternatively, the first arm 160 and/or second arm 160 may also be pivotable to inactive positions above the head of the user, e.g., above or adjacent to the support band 140 to achieve a similar effect. In one embodiment, the first arm 160 may only be pivotable between an engaged position in front of the mouth of the user and an inactive position above the head of the user, while the second arm 180 may only be pivotable between an engaged position covering the mouth of the user and an inactive position proximate the chest of the user, whereby the first and second arms 160, 180 would not collide when both are placed in the inactive position.
In another embodiment, as shown in FIG. 3, the first arm 160 and second arm 180 may be pivotable about a vertical axis such that the first arm 160 and the second arm 180 rotate in an outward direction away from the mouth of the user, whereby, in an inactive position, the first arm 160 and second arm 180 may be positioned laterally to the side of the head of the user. The first arm 160 or the second arm 180 may then be rotated inward about its respective vertical axis to place the first arm 160 or the second arm 180 in the engaged position. It is within the scope of this disclosure that the communications headset 100 may employ both pivot systems, allowing for the pivoting of the arms 160, 180 upwardly/downwardly and outwardly.
Lengths of the first and second arms 160, 180 may be configured to position the microphone 162 and shield assembly 190 relative to the mouth of the users described herein. In some embodiments, the second arm 180 is dimensioned to position the shield assembly 190 snugly around the mouth of the user. In a further embodiment, the second arm 180 is dimensioned to position the shield assembly 190 snugly around the mouth and nose of the user. In one embodiment, the first arm 160 may be slightly longer than the second arm 180 and extend further away from the support band 140 in a distal direction, whereby a travel path of the first arm 160 would not intersect a travel path of the second arm 180. In this configuration, both the first arm 160 and the second arm 180 may be placed in an engaged position simultaneously, wherein shield assembly 190 on the second arm 180 is positioned on or in front of the face of the user and the microphone 162 is positioned in front of the shield assembly 190, laterally adjacent to. In one embodiment, the shield assembly 190 includes a slot along a lateral side corresponding to the first arm 160 through which the first arm 160 may slot for use, which may be particularly beneficial in embodiments wherein the shield assembly 190 contacts or otherwise closely positions around the mouth and nose of the user. In one embodiment, the slot may be exposed by sliding or removing a panel functional as a slot cover. In this or another example, attachment structures such as clips are positioned along an interior portion or exterior portion of the shield assembly 190 secure the first arm 160 relative to the shield assembly 190.
The first and second arms 160, 180 may comprise same or different lengths. For example, in on embodiment, the first arm 160 and the second arm 180 may be approximately 10 inches in length, whereby the portion of the first arm 160 corresponding to the microphone 162 and the portion of the second arm 180 corresponding to the shield assembly 190 are dimensioned to be positionable approximately two inches in front of the mouth of the user when either are placed in the engaged position. In another embodiment, the second arm 180 is longer than the first arm 160 or the microphone 162 is located at a more proximal position relative to the support band such that the first arm 160 positions the microphone 162 closer to the mouth of the user. In one example, the first arm 160 may be configured to position the microphone 162 laterally adjacent, just off to a lateral side, or between the mouth of the user and a lateral side of the shield assembly 190. In any of the above or other embodiments, one or both of the arms 160, 180 may have a selectively extendable length. For example, the arms 160, 180 may be configured with telescoping structures that may be pulled away from each other to increase length or nested to decrease length.
In one embodiment, the first arm 160 may further comprise a top panel and a bottom panel disposed proximate the microphone 162. The top panel and bottom panel may be disposed along a top and bottom edge of the first arm, respectively. The top and bottom panels may be configured as rectangular plastic components extending in a vertical plane relative to and directly in front of the face of the user when the first arm 160 is in the engaged position. The top panel may be hinged at the top edge of the first arm and the bottom panel may be hinged at the bottom edge of the first arm 160, whereby the top and bottom panels may be rotated inward and be positioned in a horizonal plane relative to the user. A design or logo may be disposed on the top and bottom panels whereby the design or logo would be viewable when the first arm 160 is engaged and the top and bottom panels are positioned in their respective vertical positions. Such designs and logos may be used for advertising or sponsorship purposes. Additionally, the top and bottom panel may extend to a height, whereby the mouth of the user is completely obstructed from view, disallowing an outsider viewer from reading the lips of the user.
With reference to FIG. 4, the shield assembly 190 may comprise an inner face 192 and an outer face 194. The shield assembly 190 may further comprise a preventative lining 196 configured to restrict or block airborne droplets, which may include aerosols, disposed between the inner face 192 and the outer face 194. The preventative lining 196 may be configured to filter air as it passes through the preventive lining 196. The inner face 192 and the outer face 194 may comprise a polymer or other suitable material, such as a plastic or thermoplastic. The preventative lining 196 may comprise cloth, paper, or a plastic material. In one example, the preventative lining 196 comprises a mesh material. The mesh material may be a medical mesh, specifically adapted for filtering, capturing, or preventing transmission of airborne disease. In one example, such a mesh may be coated in non-toxic material known to comprise disease resistant properties, such as copper. The preventative lining 196 may also comprise a respirator or other professional-grade material. The preventative lining 196 may be adapted to filter, capture, or hinder the transmission of air particles. The inner face 192, the outer face 194 and the preventative lining 196 may all comprise a recycled material. Additionally, the material may also be recyclable, allowing for the shield assembly 190 to be environmentally-friendly and producing minimal waste.
The inner face 192 and the outer face 194 may be comprised of corresponding holes 198 therethrough, allowing for increased ventilation and breathability within the shield assembly 190. In one embodiment, the holes 198 may be shaped as alternating circles and rectangles and are evenly spaced in rows extending a length of the shield assembly 190. The circular holes 198 may be approximately one-half inches in diameter and the regular holes 198 may be approximately one-half inches in length and one-quarter inches in height. The holes 198 may be configured in eight rows and six columns evenly spaced along the shield assembly. Alternatively, the holes 198 may be evenly spaced in a scattered configuration. Although described as uniform circles and rectangles, the holes 198 may comprise any shape and may vary in size and location.
In one embodiment, the inner face 192, outer face 194, and the preventative lining 196 are transparent, whereby a user's lips may be viewed from outside the shield assembly 190. In another embodiment, the inner face 192, outer face 194, and the preventative lining are opaque or partially opaque, whereby the lips of a user cannot be viewed from outside the shield assembly 190. In this embodiment, a logo or design may be featured on or integrated within the outer face 194. The logo or design may be printed or painted onto the outer face 194, or the outer face 194 may be a multi-color thermoplastic comprising the logo or design as an integral part of the thermoplastic or a separate layer therein. The use of a logo or design on the outer face 194 of the shield assembly 190 may be used for advertisement or sponsorship purposes or may be used to affiliate the user with a team or company.
The shield assembly 190 may be configured in an oblong shape, whereby the width of shield assembly 190 is slightly larger than its height, wherein the entire mouth and the nose of the user may reside within the shield assembly 190. The width of the shield assembly 190 may be approximately six inches in width and approximately four inches in height. In another embodiment, the shield assembly 190 may be configured in a triangular shape adapted to cover the nose and the mouth of the user. However, the shield assembly 190 may comprise any shape known in the art adapted to cover both the mouth and nose of the user.
An outside edge of the inner face 196 of the shield assembly 190 may comprise a foam cushion 197 to ensure continuous contact between the outside edge of the inner face 196 and the face of the user, while providing additional comfort at the points of contact. The foam cushion 197 may further comprise a cloth lining surrounding the entirety of the foam cushion to reduce friction between the foam cushion 197 and the face of the user, thereby alleviating any potential irritation caused to the user.
In one embodiment, the shield assembly 190 may be removably attachable from the second arm 180, thereby allowing for the replacement of a used shield assembly 190. The shield assembly 190 may comprise a clip disposed on the outer face 194 or on an outside edge adapted to clasp the second arm 180. The second arm 180 may further comprise a corresponding attachment point adapted to receive the clip of the shield assembly 180. In another embodiment, the second arm 180 may comprise a slot adapted to receive the a protrusion disposed on the outer face 194 or on an outside edge of shield assembly, whereby the protrusion of the shield assembly 190 may be slid into the slot of the second arm 180 to secure the shield assembly 190 in place. In yet another embodiment, as shown in FIG. 4, a threaded screw 199 may be disposed on the outer face 194 or on an outside edge of the shield assembly 190 and adapted to engage a threaded sleeve disposed on the second arm 180 . Alternatively, the threaded slot may be disposed upon the outer edge or face of the shield assembly 190 and the threaded screw may be disposed on the second arm. However, any method of attachment known in the art may be employed to removably secure the shield assembly 190 to the second arm 180.
In another embodiment, the shield assembly 190 comprises a retaining mechanism attached to the second arm 180. The retaining mechanism may be adapted to receive and secure the shield assembly 190, a filter material, such as cloth, cotton or other fiber mesh, or the like, or pre-manufactured face coverings, such as N95 respirators, cloth masks, or paper masks. The retaining mechanism may comprise clamps adapted to grasp the shield assembly 190, filter material, or pre-manufactured face covering; prongs adapted to engage sleeves of the shield assembly 190, filter material, or pre-manufactured face covering; or a frame, whereby edges of the shield assembly 190, filter material, or pre-manufactured face covering may be slid into slots disposed on the frame. In one embodiment, the retaining mechanism comprises three horizonal bars aligned in a vertical plane spaced approximately two inches apart. The shield assembly 190 may be position between an upper bar and a middle bar, with another shield assembly also positioned between the middle bar and a lower bar. The shield assembly 190 may correspond with the size of the gaps between the upper, middle, and lower bars. The shield assembly 190 may thereby slide into grooves disposed on a bottom edge of the upper bar, a top and a bottom edge of the middle bar and a top edge of the lower bar.
In one embodiment, the communications headset 100 further comprises a loudspeaker whereby a user may speak into the microphone 162 and the sound may be amplified and projected through the loudspeaker. The loudspeaker may be positioned on the shield assembly 190 or adjacent to the microphone 162. In another embodiment, the communications headset 100 includes a second microphone within the shield assembly 190 and a loudspeaker. The loudspeaker may be configured to receive a sound input from the second microphone, whereby a user may speak into the second microphone and the sound may be amplified and projected through the loudspeaker. The loudspeaker may be disposed along the second arm 180. Alternatively, the loudspeaker may be disposed on the outer face 194 of the shield assembly 190. In another embodiment, the loudspeaker may be disposed in a separate housing in operational communication with the second microphone of the shield assembly 190. In one embodiment, the communications unit 126 may be adapted to wirelessly communicate with cellular telephones, including through the use of short-range wireless communication technology standard such as BLUETOOTH®. In this embodiment, the microphone 162 of the first arm 160 or the second microphone of the second arm 180 and the speaker 120 may be used as external microphones and speakers for a cellular telephone, thereby allowing a user to make and receive calls from a cellular telephone in proximity to the headset system 100. One or more buttons may be disposed at the first end 144 or the second end 146 that may correspond to powering the headset system 100, the raising of volume in the speaker 120, the changing of radio channels for the headset system 100, or other commands known in the art.
In another embodiment, an example of which is shown in FIG. 5, the support band 140 may be comprised of a semi-rigid material and adapted to be supported by the neck and collar of user. The support band 140 may be configured in a semi-circular shape, whereby the elongated body 142 of the support band 140 is wrapped around a back of the neck of the user when worn and wherein the first end 144 and the second end 146 are proximate the front of the neck of the user. In various configurations, the headset 100 may include one or more ear covers 122 configured to position over ears of a user. Ear covers 122 may be positioned along first and second ends 144, 146 at locations corresponding to ears of the user. Ear covers 122 may include a speaker 120 in some embodiments. In one embodiment, only the second arm 180 comprising the shield assembly 190 is attached to the neck-supported support band 140, whereby the speakers 120 and the first arm 160 and microphone 162 are not present. In another embodiment, all features presented in the head-supported communications headset 100 are present. The one or more speakers 120 of the communications headset 100 may extend vertically from the support band 140 to a location proximate the ears of the user. The first arm 160 and the second arm 180 may be configured in a similar fashion to the head-supported communications headset 100 of FIGS. 1-3, whereby the first arm 160 and the second arm 180 are disposed at the first end 144 and the second end 146 of the support band 140, respectively. In this embodiment, the first arm 160 and the second arm 180 may be pivotable about an attachment point at the distal end 144 and the second end 146 of the support band 140, respectively. The first arm 160 and the second arm 180 may extend substantially vertical when in an engaged position to a position proximate the mouth and nose of the user. In an inactive position, the first arm 160 and the second arm 180 may extend substantially downward and rest upon the chest of the user.
The support band 140 may comprise a semi-rigid metal adapted to be manipulated by the user to configure the support band 140 into a desired shape. Thus, the shape of the support band 140 may be changed to accommodate specific dimensions of the neck of the user currently wearing the communication headset 100.
In one embodiment, the first arm 160 and second arm 180 are removably attachable to the support band 140. In this embodiment, the first arm 160 may be removed to allow for the operation of the communications headset system 100 with solely the second arm 180 attached or the second arm 180 may be removed to allow for the operation of the communications headset system 100 with solely the first arm 160. In one embodiment, the first arm 160 and second arm 180 may also be removably attachable and configured to receive the opposite end 144, 146 of the support band 140, whereby the first arm 160 and the second arm 180 may switch sides relative to the head of the user. For example, if a starting configuration of the communications headset 100 comprises the first arm 160 disposed to the left of the head and the second arm 180 to the right of the head, and a user prefers the shield assembly 190 of the second arm 180 to the left of the head, the user may detach the first arm 160 and the second arm 180 from the support band 140 and reattach the second arm 180 to the left of the head and the first arm 160 to the right of the head.
With reference to the example embodiment of FIG. 6, a wrist-mounted shield assembly 200 is disclosed. In one embodiment, wrist-mounted shield assembly 200 comprises a wrist band 210, a pivotable arm 220, and a mask assembly 230. The wrist band 210 is adapted to secure the wrist-mounted shield assembly 200 to the forearm of a user. The pivotable arm 220 is secured to an outer face of the wrist band 210 at a connection point and the mask assembly 230 is disposed on an opposite end of the pivotable arm 220. In one embodiment, the connection point is a simple pin joint allowing for a single degree of rotation. In another embodiment, the connection point between the pivotable arm 220 and the wrist band 210 allows for multiple degrees of freedom, whereby the arm may be positioned in different configurations.
In a closed position, as depicted in FIG. 7A, the pivotable arm 220 may be aligned approximately parallel with the arm of the user, with the mask assembly 230 located at an upper area of the forearm. As shown in FIG. 7B, the pivotable arm 220 may be rotated about the connection point to an erect position, whereby pivotable arm 220 is positioned perpendicular to the forearm of the user. In the erect position, the user may lift the fore arm near the face of the user to engage the mask assembly 230 against the face of the user. The mask assembly 230 may comprise a similar configuration and similar features to the shield assembly 190 of the previous embodiments. In one embodiment, a connection point between the pivotable arm 220 and the mask assembly 230 may comprise a hinge, whereby the mask assembly 230 may pivot relative to the pivotable arm 220 to allow for ease of use and more versatility when the mask assembly 230 is engaged with the face of the user.
In the erect position, a user may lift its arm to a height below its chin and position the mask assembly 230 to press against the face of the user to completely cover the nose and mouth of the user. The pivotable arm 220 may be approximately eight inches in length. In one embodiment, the pivotable arm 220 may be telescoping, whereby the length may be increased or decreased depending on the preference of the user. In one embodiment, the pivotable arm 220 may further comprise a second joint along its length, whereby the pivotable arm 220 may fold upon itself In this embodiment, the mask assembly 230 may be positioned proximate the wrist of the user when in the closed position. The wrist band 210 may be positioned proximate the wrist of the user and comprise a single strap that is secured about the wrist. In another embodiment, the wrist band 210 may comprise multiple straps connected by a connection rod running the length of the forearm of the user, thereby increasing the stability of the wrist-mounted shield assembly 200. The wrist-mounted shield assembly 200 may further comprise a third microphone and radio components in operational communication with the headset assembly 100, whereby sound input through the third microphone may be transmitted to the communication unit 126 of the communications headset 100. The one or more straps of the wrist band 210 may comprise hook and loop fasters, whereby the strap may be wrapped around the wrist or forearm of the user and a portion of the strap comprising hooks may be compressed against a portion of the strap comprising loops, thereby securing the one or more straps in place. Alternatively, the one or more straps may be comprised of an elastic fabric, such as conventional cotton wristbands, that are stretched, slid over wrist, and secured on the forearm via compression caused by an elastic force of the fabric.
Any references to “various embodiments,” “certain embodiments,” “some embodiments,” “one embodiment,” or “an embodiment” generally means that a particular element, feature and/or aspect described in the embodiment is included in at least one embodiment. The phrases “in various embodiments,” “in certain embodiments,” “in some embodiments,” “in one embodiment,” or “in an embodiment” may not refer to the same embodiment. Furthermore, the phrases “in one such embodiment” or “in certain such embodiments,” while generally referring to and elaborating upon a preceding embodiment, is not intended to suggest that the elements, features, and aspects of the embodiment introduced by the phrase are limited to the preceding embodiment; rather, the phrase is provided to assist the reader in understanding the various elements, features, and aspects disclosed herein and it is to be understood that those having ordinary skill in the art will recognize that such elements, features, and aspects presented in the introduced embodiment may be applied in combination with other various combinations and sub-combinations of the elements, features, and aspects presented in the disclosed embodiments. The grammatical articles “one”, “a”, “an”, and “the”, as used in this specification, are intended to include “at least one” or “one or more”, unless otherwise indicated. Thus, the articles are used in this specification to refer to one or more than one (i.e., to “at least one”) of the grammatical objects of the article. By way of example, “a component” means one or more components, and thus, possibly, more than one component is contemplated and may be employed or used in an implementation of the described embodiments. Further, the use of a singular noun includes the plural, and the use of a plural noun includes the singular, unless usage contex requires otherwise.
It is to be appreciated that persons having ordinary skill in the art, upon considering the descriptions herein, will recognize that various combinations or sub-combinations of the various embodiments and other elements, features, and aspects may be desirable in particular implementations or applications. However, because such other elements, features, and aspects may be readily ascertained by persons having ordinary skill in the art upon considering the description herein, and are not necessary for a complete understanding of the disclosed embodiments, a description of such elements, features, and aspects may not be provided. As such, it is to be understood that the description set forth herein is merely exemplary and illustrative of the disclosed embodiments and is not intended to limit the scope of the invention as defined solely by the claims.

Claims

What is claimed:

1. A communication headset system, the system comprising:

a support band having a first end and a second end, wherein, in use, the support band is configured to extend over a head of a user with the first end positioned along a first side of the head of the user and the second end positioned along a second side of the head of the user;

a first arm pivotably attached to the first end of the support band;

a second arm pivotably attached to the second end of the support band, wherein the first and second arms are pivotable independent of each other;

a microphone disposed on the first arm; and

a shield assembly attached or attachable to the second arm, the shield assembly comprising an outer face and an inner face, wherein the shield assembly is adapted to obstruct the transmission and receipt of air particles and fit over the nose and mouth of a user.

2. The system of claim 1, further comprising at least one ear cover extending from the first end or second end of the support band and positioned at a location corresponding to ears of the user when in use.

3. The system of claim 2, wherein the at least one ear cover includes a speaker.

4. The system of claim 1, wherein the first and second arms are vertically pivotable, laterally pivotable, or both.

5. The system of claim 1, wherein an intermediate material is disposed between the outer face and the inner face of the shield assembly.

6. The system of claim 5, wherein the intermediate material is a cloth material.

7. The system of claim 5, wherein the intermediate material is a medical-grade material.

8. The system of claim 1, wherein the shield assembly comprises a screw disposed on the outer face, whereby the screw is adapted to engage a threaded slot disposed at the distal tip of the second arm.

9. The system of claim 1, wherein the first arm and second arm are removably attachable from the support band.

10. The system of claim 9, wherein the first and second arms are vertically pivotable.

11. The system of claim 1, wherein the first and second arms are laterally pivotable

12. The system of claim 1, wherein shield assembly is transparent.

13. The system of claim 1, wherein shield assembly is opaque.

14. The system of claim 1, wherein the outer face and the inner face of the shield assembly comprise a plurality of holes.

15. The system of claim 14, wherein the plurality of holes comprise circular holes and rectangular holes.

16. The system of claim 15, wherein the circular holes are approximately one-half inch in diameter and the rectangular holes are approximately one-half inch in width and one-quarter inch in height.

17. The system of claim 16, wherein the plurality of holes are arranged in separate rows alternating between circular holes and rectangular holes.

18. The system of claim 1, wherein the shield assembly further comprises a cushion material disposed on an outer edge of the inner face of the shield assembly.

19. The system of claim 1, wherein sides of the shield assembly are configured to form a seal between the sides of the shield assembly and face of the user to prevent air flow therebetween.

20. The system of claim 1, wherein the first arm and the second arm are pivotable in an upward and downward direction and an inward and outward direction.