Interlock arrangement for attaching a lens barrel to a lens carrier

What is claimed is: 1. A device, comprising: a lens barrel to hold one or more lens elements that define an optical axis; a lens carrier that attaches to the lens barrel at least partially via an interlock arrangement that restricts movement of the lens barrel relative to the lens carrier along at least the optical axis; wherein the interlock arrangement includes: a groove defined by the lens barrel or the lens carrier; a protrusion that extends from the lens barrel or the lens carrier to at least partially into the groove; an adhesive that at least partially fills gaps within the interlock arrangement between the lens barrel and the lens carrier; and a discrete recess defined in a surface of the lens barrel or the lens carrier, wherein the discrete recess is positioned proximate the groove and the protrusion such that the discrete recess provides an inlet for the adhesive to be introduced to the gaps within the interlock arrangement between surfaces of the groove and the protrusion. 2. The device of claim 1 , wherein the adhesive includes: at least a first portion that is in compression between the lens barrel and the lens carrier when force is applied to the lens barrel in a first direction that is parallel to the optical axis; and at least a second portion that is in compression between the lens barrel and the lens carrier when force is applied to the lens barrel in a second direction that is opposite the first direction. 3. The device of claim 1 , wherein the interlock arrangement forms a channel between the lens barrel and the lens carrier that is sized such that, when the adhesive is introduced via the discrete recess, the adhesive traverses the channel via capillary effect to at least partially fill the gaps within the interlock arrangement between the lens barrel and the lens carrier. 4. The device of claim 1 , wherein the groove is an L-shaped groove formed circumferentially along an outer periphery of the lens barrel or an inner periphery of the lens carrier. 5. The device of claim 1 , wherein the protrusion extends towards the groove in a direction that is orthogonal to the optical axis. 6. The device of claim 1 , wherein: the groove is a first groove; the protrusion is a first protrusion; the interlock arrangement further comprises: a second groove defined by the lens barrel or the lens carrier, wherein the second groove is opposite the first groove with respect to the lens barrel; and a second protrusion that extends from the lens barrel or the lens carrier to at least partially into the second groove, wherein the second protrusion is opposite the first protrusion with respect to the lens barrel. 7. The device of claim 1 , wherein: the device is a mobile multifunction device; and the device further comprises: a display; a camera module, including: the lens barrel; the lens carrier; the interlock arrangement; an image sensor configured to capture light passing through the one or more lens elements and convert the captured light into image signals; and a lens actuator to move the lens carrier relative to the image sensor; and one or more processors to: cause the lens actuator to move the lens carrier relative to the image sensor; and cause the display to present an image based at least in part on one or more of the image signals from the image sensor. 8. A camera module, comprising: one or more lens elements that define an optical axis; and a lens barrel that holds the one or more lens elements; a lens carrier; and an interlock arrangement to attach the lens barrel to the lens carrier, wherein the interlock arrangement includes: one or more grooves defined by at least one of the lens barrel or the lens carrier; one or more protrusions extending from at least one of the lens barrel or the lens carrier, wherein each respective protrusion of the one or more protrusions extends at least partially into a respective groove of the one or more grooves; an adhesive that at least partially fills gaps within the interlock arrangement between the lens barrel and the lens carrier, wherein one or more portions of the adhesive are in compression when force is applied to the lens barrel in directions parallel to the optical axis; and one or more discrete recesses defined in a surface of the lens barrel or the lens carrier, wherein a discrete recess of the one or more discrete recesses is positioned proximate a corresponding groove and protrusion such that the discrete recess provides an inlet for the adhesive to be introduced to the gaps within the interlock arrangement between surfaces of the groove and protrusion. 9. The camera module of claim 8 , wherein the interlock arrangement forms one or more channels between the lens barrel and the lens carrier that are sized such that, when the adhesive is introduced via the one or more discrete recesses, the adhesive traverses the one or more channels via capillary effect to at least partially fill the gaps within the interlock arrangement between the lens barrel and the lens carrier. 10. The camera module of claim 8 , wherein the adhesive includes: at least a first portion that is in compression between the lens barrel and the lens carrier when force is applied to the lens barrel in a first direction that is parallel to the optical axis; and at least a second portion that is in compression between the lens barrel and the lens carrier when force is applied to the lens barrel in a second direction that is opposite the first direction. 11. The camera module of claim 8 , wherein: the one or more grooves include a first groove defined by the lens carrier; the one or more protrusions include a first protrusion that extends from the lens barrel to at least partially into the first groove; and the discrete recess comprises: a first discrete recess defined by the lens barrel and located proximate the first protrusion, wherein the first discrete recess provides a first inlet for the adhesive to be introduced to gaps within the interlock arrangement between surfaces of the first groove and the first protrusion. 12. The camera module of claim 11 , wherein: the one or more grooves further include a second groove defined by the lens carrier; the one or more protrusions further include a second protrusion that extends from the lens barrel to at least partially into the second groove, the second protrusion opposite the first protrusion with respect to the lens barrel; and the one or more discrete recesses further comprise: a second discrete recess defined by the lens barrel and located proximate the second protrusion, wherein the second discrete recess provides a second inlet for the adhesive to be introduced to gaps within the interlock arrangement between surfaces of the second groove and the second protrusion. 13. The camera module of claim 8 , wherein: the one or more grooves include a first groove defined by the lens barrel; the one or more protrusions include a first protrusion that extends from the lens carrier to at least partially into the first groove; and the lens barrel comprises a shoulder that extends along a plane orthogonal to the optical axis; the discrete recess comprises: a first discrete recess defined by the shoulder and located proximate the first groove, wherein the first discrete recess provides a first inlet for the adhesive to be introduced to gaps within the interlock arrangement between surfaces of the first groove and the first protrusion. 14. The camera module of claim 13 , wherein: the one or more grooves further include a second groove defined by the lens barrel; the one or more protrusions furt