ELECTRONIC HEADSET
Implementations of an electronic headset are provided. In some implementations, the electronic headset may be configured to be worn on the head of a user. In some implementations, the electronic headset may be configured so that two earcups can be removably and/or rotatably coupled to a headband thereof. In some implementation, the electronic headset may be configured to power attached electronic earcups and/or other electrically powered accessories (e.g., a light, etc.) conductively coupled thereto. In some implementations, an electronic headset may comprise a headband having a mounting bracket on each end thereof, two earcup mounting hubs, and an electronic circuitry comprising a power source. In some implementations, each earcup mounting hub may be configured to conductively interface with a mounting bracket when coupled thereto. In this way, the electronic earcups may be powered by the electronic headset.
This application claims the benefit of U.S. Provisional Application Ser. No. 62/423,069, which was filed on Nov. 16, 2016, and is incorporated herein by reference in its entirety.
TECHNICAL FIELDThis disclosure relates to implementations of an electronic headset.
BACKGROUNDHeadsets are routinely used in both military and law enforcement settings to protect a user's hearing and to facilitate hands-free communication. Some headsets include earcups configured to cover a wearer's ears that are connected by a headband or other headpiece connecting structure (e.g., a helmet). Some earcups include an electronic sound dampening device to protect the wearer's hearing, while other earcups may be passive and not require any electronic aid to provide hearing protection.
Modern military and law enforcement users often find the need to power accessory devices that enhance their operational capabilities (e.g., a light, a global positioning system (GPS), a thermal imager, a night vision device (NVD), etc.). Currently, there is no uniform means to power one or more accessory devices using a single conductively connected power source or to extend the run time of an electrically powered accessory device by augmenting the onboard power source using a secondary conductively connected power source.
Accordingly, it can be seen that needs exist for the electronic headset disclosed herein. It is to the provision of an electronic headset configured to address these needs, and others, that the present invention in primarily directed.
SUMMARY OF THE INVENTIONImplementations of an electronic headset are provided. In some implementations, the electronic headset may be configured to be worn on the head of a user. In some implementations, the electronic headset may be configured so that two earcups can be removably and/or rotatably coupled to a headband thereof. In some implementation, the electronic headset may be configured to power attached electronic earcups (e.g., the earcups of a Peltor ComTac series headset) and/or other electrically powered accessories (e.g., a light, a global positioning system (GPS), a thermal imager, a night vision device (NVD), etc.) conductively coupled thereto.
In some implementations, an electronic headset may comprise a headband having a mounting bracket on each end thereof, two earcup mounting hubs, and an electronic circuitry comprising a power source. In some implementations, each earcup mounting hub may be configured to removably and/or rotatably couple to a mounting bracket positioned on each end of the headband. In this way, each earcup may be removably and/or rotatably secured to the headband of an electronic headset. In some implementations, each earcup mounting hub may be configured to conductively interface with a mounting bracket when coupled thereto. In this way, the electronic earcups may be powered by the electronic headset.
In some implementations, a curved bridle may extend between the first mounting bracket and the second mounting bracket. In some implementations, one or more wires may be secured on and/or supported by the curved bridle. In some implementations, the one or more wires may be configured to conductively connect the first mounting bracket and the second mounting bracket to, at least, the power source of the electronic headset.
In some implementations, each earcup mounting hub may further comprise an accessory mount that includes a mounting interface thereon configured to receive therein a portion of an accessory adaptor (e.g., a MIL-STD-1913 rail piece) to which an accessory (e.g., a light, a global positioning system (GPS), etc.) may be attached. In some implementations, an accessory may be configured to secure directly to a mounting interface without an accessory adaptor. The general features and advantages of the mounting interface and compatible accessory adapters are described in U.S. Pat. No. 9,488,446, filed on Aug. 12, 2014, entitled “MULTIPLE ACCESSORY GUN MOUNT”, by Trent Zimmer, which is also owned by the present applicant and is hereby expressly incorporated by reference as if fully set forth herein.
In some implementations, the power source (e.g., a battery pack) of the electronic circuit may be conductively connected to the first earcup and/or the second earcup via the conductive interface that exist between a coupled mounting bracket and mounting hub. In some implementations, an electrically powered accessory (e.g., a light, a global positioning system (GPS), a thermal imager, a night vision device (NVD), etc.) may be conductively connected to the power source via a power socket(s) of an earcup mounting hub. In some implementations, the power source may also be configured to act as a junction and provide one or more additional power sockets to which electrically powered accessories may be conductively coupled.
In some implementations, the housing of the first power source may be configured to mount on, or be permanently affixed to, the headband of the electronic headset.
In some implementations, the electronic circuit may further comprise a second power source (e.g., a battery pack). In this way, additional power may be provided to any electrically powered accessories conductively connected to the electronic headset. In some implementations, the second power source may be connected to the electronic circuit of an electronic headset via a suitably configured electronic cable. In this way, the second power source may be remotely positioned relative to the electronic headset (e.g., carried in the pocket of a user).
In some implementations, the mounting brackets of an electronic headset may be configured for use with a helmet, instead of a headband. In some implementations, each mounting bracket may be secured to a suitable interface (e.g., a rail system) positioned on each side of the helmet. In some implementations, each mounting bracket may include a back plate configured to be received within the rail channel of a helmet rail system. In some implementations, the back plate may be adjustably secured to the rear side of a mounting bracket. In this way, the back plate may be used to clamp a mounting bracket to the rail channel of a helmet rail system.
These and other aspects, features, and advantages of the invention will be understood with reference to the drawing figures and detailed description herein, and will be realized by means of the various elements and combinations particularly pointed out in the appended claims. It is to be understood that both the foregoing general description and the following brief description of the drawings and the detailed description of the invention are exemplary and explanatory of preferred implementations of the invention, and are not restrictive of the invention, as claimed.
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In some implementations, the recessed interior groove 124 of a pocket 122 of a mounting bracket 120a, 120b may be configured to match the contour of the circular flange 134 of the mounting hub 130a, 130b. In this way, the circular flange 134 may be able to freely rotate within the pocket 122.
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In some implementations, as the circular flange 134 of a mounting hub 130a, 130b is being inserted into the pocket 122 of a mounting bracket 120a, 120b, the ramp 128 may gradually compress the spring-loaded pin 136 into the cylindrical shaft 132 of the mounting hub 130a, 130b (not shown). In some implementations, when the circular flange 134 of the mounting hub 130a, 130b has been seated in the pocket 122 of a mounting bracket 120a, 120b, the spring-loaded pin 136 is placed into alignment with, and extends into, a cylindrical bore 123 that extends through the mounting bracket 120a, 120b (see, e.g.,
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In some implementations, each adjustment knob 140a, 140b may be configured to move the associated wire form 106a, 106b and earcup 104a,104b between, at least, a first position and a second position of use. In some implementations, the first position of use positions an earcup 104a,104b away from the ear of the user. In some implementations, the second position of use positions an earcup 104a,104b to abut and seal to a user's head around the ear. In some implementations, each adjustment knob 140a, 140b may include a camming surface thereon configured to interact with the spring biased wire form 106a, 106b of a mounting hub 130a, 130b. In this way, an adjustment knob 140a, 140b may be used to gradually move an earcup 104a,104b between the first position and the second position of use.
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In some implementations, the spring-loaded pin 136 may comprise a cylindrical body having an annular chamfer about the protruding end (see, e.g.,
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In some implementations, a mounting hub 130a, 130b may not include an accessory mount 150a, 150b thereon.
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In some implementations, each earcup 104a, 104b may be configured to include an electronic sound dampening device mounted thereon (not shown, but well known to those of ordinary skill in the art). An example sound dampening device may include a microphone positioned on an outer surface of an earcup 104a, 104b. The microphone may be configured to pick up ambient sounds from around the user and transmit the ambient sounds to a sound compression or suppression circuit mounted inside an earcup 104a, 104b that filters out or suppresses sounds above a predetermined decibel level. Sounds lower than the set level are then transmitted to earphones inside the earcups 104 so that the user of the electronic headset 100 can hear non-damaging sounds in the surrounding environment (e.g., people talking nearby). An example sound circuit can be adjusted by a volume switch or knob mounted to an earcup 104a, 104b and conductively coupled to the sound dampening device. In some implementations, the sound dampening device may be conductively coupled to the electronic circuit 160 via the conductive interface that exists between a coupled mounting bracket 120a, 120b and mounting hub 130a, 130b.
In some implementations, the housing of the first power source 162 may be configured to mount on, or be permanently affixed to, the headband 110 of the electronic headset 100.
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In some implementations, the housing of the second power source 164 may be configured to mount on, or be permanently affixed to, the headband 110 of the electronic headset 100. In some implementations, the second power source 164 may be connected to the electronic circuit 160 of an electronic headset 100 via a suitably configured electronic cable. In this way, the second power source may be remotely positioned relative to the electronic headset 100 (e.g., carried in the pocket of a wearer, positioned on a helmet, etc.).
Although not shown in the drawings, it will be understood that suitable wiring connects the electrical components (e.g., the first power source 162, the earcups 104, the power socket(s) 144, and/or the second power source 164) of the electronic headsets 100, 200 disclosed herein.
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In some implementations, the back plate 221 may be adjustably secured to the rear side of a mounting bracket 220a, 220b. In this way, the back plate 221 may be used to clamp a mounting bracket 220a, 220b to the rail channel of a helmet rail system 290.
In some implementations, the mounting brackets 120, 220 and the earcup mounting hubs 130 may be manufactured from an impact resistant polymer. In some implementations, the mounting brackets 120, 220 and the earcup mounting hubs 130 may be manufactured from an aluminum alloy. In some implementations, the mounting brackets 120, 220 and the earcup mounting hubs 130 may be manufactured from any material, or combination of materials, known to those of ordinary skill in the art.
Reference throughout this specification to “an embodiment” or “implementation” or words of similar import means that a particular described feature, structure, or characteristic is included in at least one embodiment of the present invention. Thus, the phrase “in some implementations” or a phrase of similar import in various places throughout this specification does not necessarily refer to the same embodiment.
Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings.
The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the above description, numerous specific details are provided for a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that embodiments of the invention can be practiced without one or more of the specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations may not be shown or described in detail.
While operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results.
Claims
1. An electronic headset configured to position an earcup over each ear of a wearer, the electronic headset comprising:
- a headband having a first end and a second end, the headband is configured to fit on the crown of the wearer's head;
- a power source, the power source is secured to the headband;
- a first mounting bracket and a second mounting bracket, the first mounting bracket is positioned on the first end of the headband and the second mounting bracket is positioned on the second end of the headband, the first mounting bracket and the second mounting bracket are conductively connected to the power source; and
- a first earcup mounting hub and a second earcup mounting hub, the first earcup mounting hub is conductively coupled to the first mounting bracket and the second earcup mounting hub is conductively coupled to the second mounting bracket;
- wherein the first earcup mounting hub comprises a wire form configured to secure a first earcup thereto and the second earcup mounting hub comprises a wire form configured to secure a second earcup thereto.
2. The electronic headset of claim 1, wherein the first earcup mounting hub is configured to removably couple to the first mounting bracket and the second earcup mounting hub is configured to removably couple to the second mounting bracket.
3. The electronic headset of claim 2, wherein the first mounting bracket and the second mounting bracket each comprise a pocket; wherein the first earcup mounting hub and the second earcup mounting hub each comprise a shaft that extends from a backside thereof, each shaft includes a circular flange radially extending from a distal end thereof; and wherein the pocket of the first mounting bracket is configured to removably receive therein the circular flange of the first earcup mounting hub and the pocket of the second mounting bracket is configured to removably receive therein the circular flange of the second earcup mounting hub.
4. The electronic headset of claim 3, wherein the pocket of each mounting bracket further comprises an electrical contact therein and each earcup mounting hub further comprises an electrical contact on a face of the circular flange thereof; and wherein the electrical contact of the first mounting bracket and the second mounting bracket is configured to conductively interface with the electrical contact of the first earcup mounting hub and the second earcup mounting hub, respectively, when coupled together.
5. The electronic headset of claim 4, wherein the electrical contact in the pocket of each mounting bracket is a split construction slip ring contact and the electrical contact on the face of the circular flange of each earcup mounting hub is at least one spring pin contact.
6. The electronic headset of claim 3, wherein the first earcup mounting hub and the second earcup mounting hub each further comprise a spring-loaded pin that extends from the shaft thereof; wherein the first mounting bracket and the second mounting bracket each further comprise a cylindrical bore in the pocket thereof; and wherein the spring-loaded pin of the first earcup mounting hub and the second earcup mounting hub is configured to extend into the cylindrical bore of the first mounting bracket and the second mounting bracket, respectively, when placed into alignment therewith.
7. The electronic headset of claim 6, wherein the pocket of each mounting bracket further comprises an electrical contact that is positioned about the cylindrical bore and each earcup mounting hub further comprises an electrical contact on a face of the circular flange that is positioned about the spring-loaded pin extending from the shaft thereof; and wherein the electrical contact of the first mounting bracket and the second mounting bracket is configured to conductively interface with the electrical contact of the first earcup mounting hub and the second earcup mounting hub, respectively, when coupled together.
8. The electronic headset of claim 7, wherein the electrical contact in the pocket of each mounting bracket is a split construction slip ring contact and the electrical contact on the face of the circular flange of each earcup mounting hub is at least one spring pin contact.
9. The electronic headset of claim 1, further comprising a curved bridle that extends between the first mounting bracket and the second mounting bracket, at least one wire conductively connecting the power source to the first mounting bracket and the second mounting bracket is supported by the curved bridle.
10. The electronic headset of claim 4, further comprising a curved bridle that extends between the first mounting bracket and the second mounting bracket, at least one wire conductively connecting the power source to the first mounting bracket and the second mounting bracket is supported by the curved bridle.
11. The electronic headset of claim 7, further comprising a curved bridle that extends between the first mounting bracket and the second mounting bracket, at least one wire conductively connecting the power source to the first mounting bracket and the second mounting bracket is supported by the curved bridle.
12. The electronic headset of claim 1, wherein each earcup mounting hub further comprises at least one power socket that is configured to power a conductively connected electrically powered accessory, the at least one power socket is conductively connected to the power source.
13. The electronic headset of claim 12, wherein the power source comprises at least one power socket that is configured to power a conductively connected electrically powered accessory.
14. The electronic headset of claim 4, wherein each earcup mounting hub further comprises at least one power socket that is configured to power a conductively connected electrically powered accessory, the at least one power socket of each earcup mounting hub is conductively connected to the electrical contact on the face of the circular flange.
15. The electronic headset of claim 7, wherein each earcup mounting hub further comprises at least one power socket that is configured to power a conductively connected electrically powered accessory, the at least one power socket of each earcup mounting hub is conductively connected to the electrical contact on the face of the circular flange.
16. The electronic headset of claim 1, wherein the power source comprises at least one power socket that is configured to power a conductively connected electrically powered accessory.
17. An electronic headset configured for use with a helmet and to position an earcup over each ear of a wearer, the electronic headset comprising:
- a power source, the power source is secured to the helmet;
- a first mounting bracket and a second mounting bracket, the first mounting bracket is configured to secure to an interface positioned on a first side of the helmet and the second mounting bracket is configured to secure to an interface positioned on a second side of the helmet, the first mounting bracket and the second mounting bracket are conductively connected to the power source; and
- a first earcup mounting hub and a second earcup mounting hub, the first earcup mounting hub is conductively coupled to the first mounting bracket and the second earcup mounting hub is conductively coupled to the second mounting bracket;
- wherein the first earcup mounting hub comprises a wire form configured to secure a first earcup thereto and the second earcup mounting hub comprises a wire form configured to secure a second earcup thereto.
18. The electronic headset of claim 17, wherein the first mounting bracket includes a back plate configured to be received within a channel of the interface positioned on the first side of the helmet and the second mounting bracket includes a back plate configured to be received within a channel of the interface positioned on the second side of the helmet.
19. The electronic headset of claim 17, wherein the first earcup mounting hub is configured to removably couple to the first mounting bracket and the second earcup mounting hub is configured to removably couple to the second mounting bracket.
20. The electronic headset of claim 19, wherein the first mounting bracket and the second mounting bracket each comprise a pocket; wherein the first earcup mounting hub and the second earcup mounting hub each comprise a shaft that extends from a backside thereof, each shaft includes a circular flange radially extending from a distal end thereof; and wherein the pocket of the first mounting bracket is configured to removably receive therein the circular flange of the first earcup mounting hub and the pocket of the second mounting bracket is configured to removably receive therein the circular flange of the second earcup mounting hub.
21. The electronic headset of claim 20, wherein the pocket of each mounting bracket further comprises an electrical contact therein and each earcup mounting hub further comprises an electrical contact on a face of the circular flange thereof; and wherein the electrical contact of the first mounting bracket and the second mounting bracket is configured to conductively interface with the electrical contact of the first earcup mounting hub and the second earcup mounting hub, respectively, when coupled together.
22. The electronic headset of claim 21, wherein the electrical contact in the pocket of each mounting bracket is a split construction slip ring contact and the electrical contact on the face of the circular flange of each earcup mounting hub is at least one spring pin contact.
23. The electronic headset of claim 20, wherein the first earcup mounting hub and the second earcup mounting hub each further comprise a spring-loaded pin that extends from the shaft thereof; wherein the first mounting bracket and the second mounting bracket each further comprise a cylindrical bore in the pocket thereof; and wherein the spring-loaded pin of the first earcup mounting hub and the second earcup mounting hub is configured to extend into the cylindrical bore of the first mounting bracket and the second mounting bracket, respectively, when placed into alignment therewith.
24. The electronic headset of claim 23, wherein the pocket of each mounting bracket further comprises an electrical contact that is positioned about the cylindrical bore and each earcup mounting hub further comprises an electrical contact on a face of the circular flange that is positioned about the spring-loaded pin extending from the shaft thereof; and wherein the electrical contact of the first mounting bracket and the second mounting bracket is configured to conductively interface with the electrical contact of the first earcup mounting hub and the second earcup mounting hub, respectively, when coupled together.
25. The electronic headset of claim 24, wherein the electrical contact in the pocket of each mounting bracket is a split construction slip ring contact and the electrical contact on the face of the circular flange of each earcup mounting hub is at least one spring pin contact.
26. The electronic headset of claim 17, further comprising a curved bridle that extends between the first mounting bracket and the second mounting bracket, at least one wire conductively connecting the power source to the first mounting bracket and the second mounting bracket is supported by the curved bridle.
27. The electronic headset of claim 17, wherein each earcup mounting hub further comprises at least one power socket that is configured to power a conductively connected electrically powered accessory, the at least one power socket is conductively connected to the power source.
28. The electronic headset of claim 17, wherein the power source comprises at least one power socket that is configured to power a conductively connected electrically powered accessory.
Type: Application
Filed: Nov 14, 2017
Publication Date: May 17, 2018
Inventor: Trent Zimmer (Houma, LA)
Application Number: 15/813,056