Methods and apparatus for aligning vehicle components

What is claimed is: 1. An indicator assembly for indicating an orientation between a vehicle seat back and a seat bottom, the indicator assembly comprising: an outer plate assembly that defines a bottom surface configured to be supported by the seat bottom, and a back surface that faces the seat back when the bottom surface is supported by the seat bottom, the back surface defining a plane that intersects a plane defined by the bottom surface; a movable plate that is movably supported by the outer plate assembly; a biasing device that applies a biasing force to bias the movable plate toward the seat back when the bottom surface of the outer plate assembly is supported by the seat bottom to thereby define a projecting portion of the movable plate that projects from the back surface of the outer plate assembly toward the seat back, the biasing device also enabling the movable plate to move upon application of a force greater than the biasing force in a direction opposite from the biasing force to reduce a size of the projecting portion that projects from the back surface of the outer plate assembly; and an indicator that communicates with the movable plate to indicate a relative orientation between the seat back and the seat bottom based on the size of the projecting portion that projects from the back surface of the outer plate assembly. 2. The indicator assembly according to claim 1 , wherein the outer plate assembly includes a pair of outer plates disposed at opposite sides of the movable plate, such that a section of the movable plate other than the projecting portion is disposed between the pair of outer plates. 3. The indicator assembly according to claim 2 , further including a pivot bolt that connects the pair of outer plates, and that extends through a pivot aperture that is defined in the movable plate and configured to enable the movable plate to be rotatable about the pivot bolt. 4. The indicator assembly according to claim 3 , wherein the movable plate defines an arcuate channel that is spaced from the pivot aperture, and further including a slide bolt that connects the pair of outer plates and that extends through the arcuate channel, such that the slide bolt is movable along the arcuate channel as the movable plate rotates about the pivot bolt. 5. The indicator assembly according to claim 4 , wherein the biasing device includes a torsion spring disposed within a recess defined in the movable plate, the torsion spring also being configured to communicate with at least one of the outer plates to provide the biasing force to the movable plate. 6. The indicator assembly according to claim 5 , further including sleeves disposed between the pair of outer plates to maintain a minimum distance between the outer plates, with the movable plate being disposed at approximately a midpoint between the outer plates. 7. The indicator assembly according to claim 2 , wherein the pair of outer plates are substantially identical. 8. The indicator assembly according to claim 2 , wherein the indicator includes an aperture that is defined in at least one of the pair of outer plates. 9. The indicator assembly according to claim 8 , wherein the indicator includes a visually identifiable design defined on at least one exterior surface of the movable plate, the visually identifiable design being disposed so as to be viewable through the aperture defined in the least one of the pair of outer plates when the movable plate moves a certain distance opposite to the biasing force of the biasing device. 10. The indicator assembly according to claim 2 , wherein the movable plate and the pair of outer plates are configured to enable the entire movable plate to be disposed between the pair of outer plates upon application of a force to the movable plate that is sufficiently greater than and opposite to the biasing force. 11. A method of manufacturing an indicator assembly for indicating an orientation between a vehicle seat back and a seat bottom, the method comprising: configuring an outer plate assembly to define a bottom surface that can be supported by the seat bottom, and a back surface to face the seat back when the bottom surface is supported by the seat bottom, such that the back surface defines a plane that intersects a plane defined by the bottom surface; supporting a movable plate with the outer plate assembly to enable movement of the movable plate; configuring a biasing device to apply a biasing force to bias the movable plate toward the seat back when the bottom surface of the outer plate assembly is supported by the seat bottom to thereby define a projecting portion of the movable plate that projects from the back surface of the outer plate assembly toward the seat back; disposing the movable plate so as to be movable upon application of a force greater than the biasing force in a direction opposite from the biasing force to reduce a size of the projecting portion that projects from the back surface of the outer plate assembly; and disposing an indicator so as to indicate a relative orientation between the seat back and the seat bottom based on the size of the projecting portion that projects from the back surface of the outer plate assembly. 12. The method according to claim 11 , further including configuring the outer plate assembly to include a pair of outer plates disposed at opposite sides of the movable plate, and disposing a section of the movable plate other than the projecting portion between the pair of outer plates. 13. The method according to claim 12 , further including connecting the pair of outer plates with a pivot bolt that extends through a pivot aperture defined in the movable plate, and that is configured to enable the movable plate to be rotatable about the pivot bolt. 14. The method according to claim 13 , further including configuring the movable plate to define an arcuate channel that is spaced from the pivot aperture, and connecting the pair of outer plates with a slide bolt that extends through the arcuate channel, such that the slide bolt is movable along the arcuate channel as the movable plate rotates about the pivot bolt. 15. The method according to claim 14 , further including configuring the biasing device to include a torsion spring disposed within a recess defined in the movable plate, and configuring the torsion spring to communicate with at least one of the outer plates to provide the biasing force to the movable plate. 16. The method according to claim 15 , further including disposing sleeves between the pair of outer plates to maintain a minimum distance between the outer plates, with the movable plate being disposed at approximately a midpoint between the outer plates. 17. The method according to claim 12 , further including configuring the pair of outer plates to be substantially identical. 18. The method according to claim 12 , further including configuring the indicator to include an aperture that is defined in at least one of the pair of outer plates, and a visually identifiable design defined on at least one exterior surface of the movable plate, the visually identifiable design being disposed so as to be viewable through the aperture defined in the least one of the pair of outer plates when the movable plate moves a certain distance opposite to the biasing force of the biasing device. 19. The method according to claim 12 , further including configuring the movable plate and the pair of outer plates to enable the entire movable plate to be disposed between the pair of outer plates upon application of a force to