Spring-loaded cable attachement

What is claimed is: 1. A vehicle, comprising: a transmission having an outer manual lever including a lever pin; a shifter cable; and an attachment assembly adapted to secure the shifter cable to the lever pin, wherein the attachment assembly includes an outer frame, an inner frame disposed at least partially within the outer frame and adjustable in an axial direction relative to the outer frame, wherein the inner frame includes a spring extending within the inner frame, and wherein the inner frame defines a retention block including a retention wall, and an attachment block disposed at least partially within the inner frame in engagement with the spring, wherein the attachment block includes a flexible arm that defines a protruding latch, and wherein the attachment block is axially displaceable relative to the inner frame between a disengaged configuration and an engaged configuration; wherein the flexible arm defines a lower contact surface adapted to engage the lever pin of the outer manual lever, and wherein in the disengaged configuration, the spring biases the flexible arm into contact with the retention block such that the latch is disposed at a first side of the retention wall, and wherein in the engaged configuration, the attachment block is axially displaced in a direction of the retention block such that the latch is disposed at a second side of the retention wall opposite the first side. 2. The vehicle of claim 1 , wherein engagement of the lever pin with the lower contact surface effects displacement of the flexible arm in a direction orthogonal to the axial direction. 3. The vehicle of claim 1 , wherein the attachment block includes a bottom wall defining a retention slot, and wherein in the engaged configuration, at least a portion of the lever pin engages the retention slot. 4. The vehicle of claim 3 , wherein the retention slot is a U-shaped retention slot, and wherein in the engaged configuration, the U-shaped retention slot is adapted to engage at least 25% of an outer perimeter of a cross-section of a neck portion of the lever pin. 5. The vehicle of claim 4 , wherein the lever pin includes a head portion having a greater diameter than the neck portion, and wherein in the engaged configuration, the head portion is disposed between the bottom wall of the attachment block and the flexible arm of the attachment block. 6. The vehicle of claim 1 , wherein the retention block defines an engagement wall, and wherein a head portion of the lever pin engages the engagement wall in the engaged configuration. 7. The vehicle of claim 6 , wherein the engagement wall defines a geometry complementary to a geometry of the head portion of the lever pin. 8. A method for securing a transmission shifter cable, comprising: at an attachment assembly, axially displacing an inner frame relative to an outer frame; contacting an attachment block disposed within the inner frame with a transmission lever to deflect an attachment block arm; and in response, axially displacing the attachment block from a first axial position to a second axial position to engage the transmission lever and to lock the inner frame to the outer frame, wherein contacting the attachment block includes contacting a lower contact surface of a flexible arm of the attachment block with a head portion of a pin of the transmission lever to deflect the flexible arm in a first direction orthogonal to the axial displacement of the attachment block. 9. The method of claim 8 , wherein axially displacing the inner frame includes displacing at least one protrusion disposed on at least one arm of the inner frame relative to at least one depression formed in an inner wall of the outer frame. 10. The method of claim 9 , wherein axially displacing the attachment block to the second axial position engages the attachment block with the at least one arm to lock the inner frame to the outer frame. 11. The method of claim 8 , wherein in response to axially displacing the attachment block to the second axial position, the flexible arm is adapted to retract in a second direction opposite the first direction. 12. The method of claim 8 , wherein axially displacing the attachment block includes, at a spring disposed between the inner frame and the attachment block, biasing the attachment block to axially displace the attachment block. 13. A transmission cable attachment, comprising: an outer frame including a retention block defining a retention wall; an inner frame at least partially within and axially-movable relative to the outer frame; and an attachment block at least partially within and axially-movable relative to the inner frame to engage the retention wall with a latch of a flexible arm of the attachment block to inhibit axial movement of the inner frame relative to the outer frame. 14. The transmission cable attachment of claim 13 , wherein the inner frame further includes a guide pin extending from an inner wall of the inner frame, and wherein the attachment assembly further includes a spring disposed about the guide pin between the inner wall and the attachment block to bias the attachment block in an axial direction. 15. The transmission cable attachment of claim 14 , wherein the attachment block includes an aperture disposed through a rear wall of the attachment block, and wherein the guide pin is disposed through the aperture. 16. The transmission cable attachment of claim 13 , wherein the attachment block includes at least one side rail, wherein an inner wall of the inner frame includes at least one side guide, and wherein the at least one side guide is adapted to receive the at least one side rail to permit movement of the attachment block in an axial direction. 17. The transmission cable attachment of claim 13 , wherein the inner frame includes at least one arm having at least one protrusion extending therefrom, wherein the outer frame includes at least one inner wall defining at least one depression formed therein, and wherein the at least one depression is adapted to receive the at least one protrusion.