JPWO2021119446A5 - - Google Patents

Description

The expandable band system may be configured to assist in biasing the temple arms toward each other. The expandable band system may be flexible and generally biased towards a retracted configuration to conform to the user's head to provide a uniform retention force. The expandable band system may be configured to resist hyperextension and extreme deflection of the temple arm.
The present invention provides, for example, the following.
(Item 1)
A spatial computing headset,
an optical system assembly;
a pair of temple arms movably coupled to the optics assembly;
an expandable band system for assisting in securing the spatial computing headset to a user's head, the expandable band system spanning between the rear ends of the temple arms;
a pair of sheath assemblies;
an inner band assembly movably coupled to and spanning the sheath assembly, the inner band assembly being coupled to the pair of sheath assemblies and moving the pair of sheath assemblies together toward a retracted configuration; an inner band assembly including a pair of biasing mechanisms configured to move the
with expandable band system and
Equipped with
the expandable band system is movable between the retracted configuration in which the pair of sheath assemblies are juxtaposed and an expanded configuration in which the pair of sheath assemblies are separated; set.
(Item 2)
2. The spatial computing headset of item 1, wherein the expandable band system is configured to assist in biasing the temple arms toward each other.
(Item 3)
The spatial computer of item 1, wherein the expandable band system is flexible and biased towards the retracted configuration to conform to the user's head and provide a uniform retention force. headset.
(Item 4)
2. The spatial computing headset of item 1, wherein the expandable band system is configured to resist hyperextension and significant deflection of the temple arm.
(Item 5)
Item 1, wherein each biasing mechanism includes a fixed end and a floating end disposed opposite the fixed end, the fixed end being fixedly secured to one of the pair of sheath assemblies. spatial computing headset.
(Item 6)
Each biasing mechanism includes an extended compression spring and a flexible filament extending through the extended compression spring, the flexible filament including a spring stop located at a floating end of the biasing mechanism. , the spatial computing headset according to item 5.
(Item 7)
7. The spatial computing headset of item 6, wherein the inner band assembly further includes a band-like enclosure surrounding an extension compression spring of the biasing mechanism.
(Item 8)
the band-like enclosure is configured to be slidably received within and slidably extend from the sheath assembly as the system moves from the retracted configuration to the expanded configuration; Spatial computing headset according to item 7.
(Item 9)
The band-like enclosure includes separate compression springs for each extension compression spring to help prevent the extension compression springs from buckling as the system moves from the retracted configuration to the expanded configuration. 8. The spatial computing headset of item 7, comprising a passageway.
(Item 10)
8. The spatial computing headset of item 7, wherein a central portion of the band-like enclosure is exposed as the system moves from the retracted configuration to the expanded configuration.
(Item 11)
8. The space of item 7, wherein the band-like enclosure is configured to withdraw and simultaneously compress each of the extension compression springs from the sheath assembly as the system moves from the retracted configuration to the expanded configuration. computing headset.
(Item 12)
8. The space of item 7, wherein a braking device is provided between at least one of the sheath assemblies and the band-like enclosure of the inner band assembly to resist movement of the band-like enclosure relative to the sheath assembly. computing headset.
(Item 13)
Item 7, wherein a user-operable locking device is provided between at least one of the sheath assemblies and the band-like enclosure of the inner band assembly to prevent movement of the band-like enclosure relative to the sheath assembly. Spatial computing headset as described in.
(Item 14)
8. The spatial computing headset of item 7, wherein each sheath assembly comprises a flexible band-like form factor.
(Item 15)
Each sheath assembly includes a cage structure comprising a plurality of cage elements, the cage structure at least partially enclosing individual ends of the band-like enclosure of the inner band assembly when the system is in the retracted configuration. 15. The spatial computing headset of item 14, comprising:
(Item 16)
For each sheath assembly, a plurality of cage elements are spaced apart along the length of the sheath assembly to allow said sheath assembly to flex and assume different curvature profiles. computing headset.
(Item 17)
Each sheath assembly includes an internal guiding structure, the internal guiding structure and the plurality of cage elements defining a band receiving passageway, the band receiving passageway configured to store the band-like enclosure of the inner band assembly. 15. The spatial computing headset of item 14, comprising:
(Item 18)
Each sheath assembly includes an inner pad for engaging the user's body and an outer cover, the inner pad and the outer cover having an enclosure for storing the inner guide structure and the plurality of cage elements. 18. The spatial computing headset of item 17, defining.
(Item 19)
The spatial computer of any one of items 1-18, wherein the sheath assembly and the inner band assembly define a flexible and stretchable band-like structure that is conformal to the contours of the user's body. headset.
(Item 20)
An expandable band system for assisting in securing a wearable device to a user, the system comprising:
a pair of sheath assemblies;
an inner band assembly movably coupled to and spanning the sheath assembly, wherein the inner band assembly is coupled to the sheath assembly for biasing the sheath assembly together toward a retracted configuration; an inner band assembly including a pair of coupled biasing mechanisms;
Equipped with
The expandable band system is movable between the retracted configuration in which the sheath assemblies are relatively closer together and an expanded configuration in which the sheath assemblies are relatively further apart.
(Item 21)
21. The system of item 20, wherein each biasing mechanism includes a fixed end and a floating end opposite the fixed end, the fixed end being fixedly affixed to a respective one of the sheath assemblies.
(Item 22)
Each biasing mechanism includes an extended compression spring and a flexible filament extending through the extended compression spring, the flexible filament including a spring stop at the floating end of the biasing mechanism, item 21 system described in.
(Item 23)
23. The system of item 22, wherein the inner band assembly further includes a band-like enclosure surrounding an extension compression spring of the biasing mechanism.
(Item 24)
Item 23, wherein the band-like enclosure is slidably received within the sheath assembly for slidably extending from the sheath assembly as the system moves from the retracted configuration to the expanded configuration. system described in.
(Item 25)
The band-like enclosure includes separate compression springs for each extension compression spring to help prevent the extension compression springs from buckling as the system moves from the retracted configuration to the expanded configuration. 24. The system of item 23, comprising a passageway.
(Item 26)
24. The system of item 23, wherein a central portion of the banded enclosure is exposed as the system moves from the retracted configuration to the expanded configuration.
(Item 27)
24. The system of item 23, wherein the band-like enclosure is configured to pull and simultaneously compress each of the extension compression springs from the sheath assembly as the system moves from the retracted configuration to the expanded configuration. .
(Item 28)
24. The system of item 23, wherein a braking device is provided between at least one of the sheath assemblies and the band-like enclosure of the inner band assembly to resist movement of the band-like enclosure relative to the sheath assembly. .
(Item 29)
Item 23, wherein a user-operable locking device is provided between at least one of the sheath assemblies and the band-like enclosure of the inner band assembly to prevent movement of the band-like enclosure relative to the sheath assembly. system described in.
(Item 30)
24. The system of item 23, wherein each sheath assembly comprises a flexible band-like form factor.
(Item 31)
Each sheath assembly includes a plurality of cage elements that collectively define a cage structure that at least partially surrounds a respective end of the banded enclosure of the inner band assembly when the system is in the retracted configuration. The system of item 30, comprising:
(Item 32)
The system of item 30, wherein for each sheath assembly, a plurality of cage elements are spaced apart along the length of the sheath assembly to allow the sheath assembly to flex and assume different curvature profiles. .
(Item 33)
Each sheath assembly includes an internal guiding structure, the internal guiding structure and the plurality of cage elements collectively defining a band-receiving passageway for accommodating the band-like enclosure of the inner band assembly. The system described.
(Item 34)
Each sheath assembly includes an inner pad for engaging the user's body and an outer cover, the inner pad and the outer cover collectively housing the inner guide structure and the plurality of cage elements. The system of item 33, defining an enclosure for.
(Item 35)
Any one of the preceding items, wherein the sheath assembly and the inner band assembly collectively define a flexible and stretchable band-like structure that is conformal to the contours of the user's body. system.
(Item 36)
A spatial computing headset comprising an expandable band system according to any one of items 20-35.

Claims (16)

A spatial computing headset,
an optical system assembly;
a pair of temple arms movably coupled to the optics assembly;
an expandable band system for assisting in securing the spatial computing headset to a user's head, the expandable band system spanning between the rear ends of the temple arms;
a pair of sheath assemblies;
an inner band assembly movably coupled to the pair of sheath assemblies and spanning between the pair of sheath assemblies , the inner band assembly including a pair of biasing mechanisms; an expandable band system comprising: an inner band assembly coupled to the pair of sheath assemblies and configured to move the pair of sheath assemblies together toward a retracted configuration;
the expandable band system is movable between the retracted configuration in which the pair of sheath assemblies are juxtaposed and the expanded configuration in which the pair of sheath assemblies are separated ;
each biasing mechanism includes a fixed end and a floating end disposed opposite the fixed end, the fixed end fixedly affixed to one of the pair of sheath assemblies;
Each biasing mechanism includes an extended compression spring and a flexible filament extending through the extended compression spring, the flexible filament having a spring stop disposed at the floating end of the biasing mechanism. including,
The inner band assembly further includes a band-like enclosure surrounding the extension compression spring of the biasing mechanism . The spatial computing headset of claim 1, wherein the expandable band system is configured to assist in biasing the temple arms toward each other . 2. The expandable band system of claim 1, wherein the expandable band system is flexible and biased toward the retracted configuration to conform to the head of the user and provide a uniform retention force. Spatial computing headset. The spatial computing headset of claim 1, wherein the expandable band system is configured to resist hyperextension and significant deflection of the temple arm. the band-like enclosure is configured to be slidably received within and slidably extend from the sheath assembly as the system moves from the retracted configuration to the expanded configuration; The spatial computing headset of claim 1 . The band-like enclosure includes separate compression springs for each extension compression spring to help prevent the extension compression springs from buckling as the system moves from the retracted configuration to the expanded configuration. The spatial computing headset of claim 1 , including a passageway. The spatial computing headset of claim 1 , wherein a central portion of the band-like enclosure is exposed as the system moves from the retracted configuration to the expanded configuration. 2. The band-like enclosure is configured to pull and simultaneously compress each of the extension compression springs from the sheath assembly as the system moves from the retracted configuration to the expanded configuration. Spatial computing headset. 2. The braking device of claim 1 , wherein a braking device is provided between at least one of the sheath assemblies and the band enclosure of the inner band assembly to resist movement of the band enclosure relative to the sheath assembly. Spatial computing headset. 5. A user-operable locking device is provided between at least one of the sheath assemblies and the band-like enclosure of the inner band assembly to prevent movement of the band-like enclosure relative to the sheath assembly. 1. The spatial computing headset according to 1 . The spatial computing headset of claim 1 , wherein each sheath assembly comprises a flexible band-like form factor. Each sheath assembly includes a cage structure comprising a plurality of cage elements, the cage structure at least partially enclosing individual ends of the band-like enclosure of the inner band assembly when the system is in the retracted configuration. 12. The spatial computing headset of claim 11, surrounding the spatial computing headset of claim 11 . 12. For each sheath assembly, a plurality of cage elements are spaced apart along the length of the sheath assembly to enable the sheath assembly to flex and assume different curvature profiles. Spatial computing headset. Each sheath assembly includes an internal guiding structure, the internal guiding structure and a plurality of cage elements defining a band receiving passageway adapted to store the banded enclosure of the inner band assembly. 12. The spatial computing headset of claim 11 , configured to. Each sheath assembly includes an inner pad for engaging the user's body and an outer cover, the inner pad and the outer cover having an enclosure for storing the inner guide structure and the plurality of cage elements. 15. The spatial computing headset of claim 14 defining. The spatial computing headset of claim 1 , wherein the sheath assembly and the inner band assembly define a flexible and stretchable band-like structure that is conformal to the contour of the user's body.