Steering rack wear compensator assembly

Having thus described the invention, it is claimed: 1. A wear compensator assembly for exerting a predetermined biasing force on a rack and a pinion shaft of a steering gear assembly, comprising: a cam member having a seating surface that engages a rack shoe seating surface disposed between the cam member and the rack, and a protrusion formed integrally with the cam member and projecting outwardly from the seating surface; an adjuster plug having an opening that partially receives a portion of the cam member, the protrusion extending beyond the adjuster plug and into and not engaging the rack shoe; and a biasing member seated against and disposed between the seating surface of the cam member and the rack shoe seating surface, the biasing member having an aperture that receives the protrusion, the biasing member configured to be compressed by a predetermined amount between the seating surface and the rack shoe seating surface and exert the predetermined biasing force. 2. The wear compensator assembly of claim 1 , wherein the biasing member has specific load displacement characteristics, and wherein the specific load displacement characteristics include a compliance range that represents a target load that the biasing member exerts during operation of the steering gear assembly. 3. The wear compensator assembly of claim 1 , wherein the biasing member has specific load displacement characteristics, and the specific load displacement characteristics include a displacement requirement region that represents a target amount of compression the biasing member experiences based on the biasing member being assembled to the steering gear assembly. 4. The wear compensator assembly of claim 1 , wherein the biasing member is seated at about 300 Newtons, and wherein the biasing member is substantially completely compressed at about 1000 Newtons. 5. The wear compensator assembly of claim 1 , wherein the adjuster plug includes at least one adjuster plug camming surface that is engaged with at least one camming surface of the cam member. 6. The wear compensator assembly of claim 5 , further comprising a housing, wherein the adjuster plug is threadingly engaged with the housing. 7. The wear compensator assembly of claim 6 , wherein the adjuster plug is mechanically staked to the housing. 8. The wear compensator assembly of claim 5 , further comprising an O-ring, wherein the adjuster plug include a recess for receiving the O-ring. 9. A steering gear assembly, comprising: a rack; a pinion shaft; a rack shoe having a rack shoe seating surface, the rack shoe seated against the rack; a wear compensator assembly configured for exerting a predetermined biasing force on the rack and the pinion shaft, comprising: a cam member having a cam seating surface and a protrusion integrally formed with the cam member and projecting outwardly from the cam seating surface and received within and not engaging the rack shoe, the cam member defining a first recess, an adjuster plug having an opening that surrounds the cam member, the adjuster plug defining a second recess, a torsion biasing member having a first end received within the first recess and having a second end received within the second recess, the torsion biasing member selectively urges the cam member towards the rack shoe; and a biasing member having an aperture that receives the protrusion, the biasing member compressed by a predetermined amount between the cam seating surface of the cam member and the rack shoe seating surface, the biasing member configured to exert the predetermined biasing force on the rack shoe. 10. The steering gear assembly of claim 9 , wherein the biasing member has specific load displacement characteristics, and wherein the specific load displacement characteristics include a compliance range that represents a target load that the biasing member exerts during operation of the steering gear assembly. 11. The steering gear assembly of claim 9 , wherein the biasing member has specific load displacement characteristics, and the specific load displacement characteristics include a displacement requirement region that represents a target amount of compression the biasing member experiences based on the biasing member being assembled to the steering gear assembly. 12. The steering gear assembly of claim 9 , wherein the biasing member is seated at about 300 Newtons, and wherein the biasing member is substantially completely compressed at about 1000 Newtons. 13. The steering gear assembly of claim 9 , wherein the adjuster plug includes at least one adjuster plug camming surface that is engaged with at least one camming surface of the cam member. 14. The steering gear assembly of claim 13 , further comprising a housing, wherein the adjuster plug is threadingly engaged with the housing. 15. The steering gear assembly of claim 14 , wherein the adjuster plug is mechanically staked to the housing. 16. The steering gear assembly of claim 15 , further comprising an O-ring, wherein the adjuster plug include a recess for receiving the O-ring. 17. The steering gear assembly of claim 9 , wherein the biasing member includes an opening and the cam member includes a protrusion projecting outwardly from the seating surface, wherein the opening of the biasing member is received by the protrusion. 18. A steering gear assembly, comprising: a rack; a pinion shaft; a rack shoe having a rack shoe seating surface, the rack shoe seated against the rack; a wear compensator assembly configured for exerting a predetermined biasing force on the rack and the pinion shaft, comprising: a cam member having a cam seating surface, a protrusion integrally formed with the cam member and projecting outwardly from the cam seating surface, a first recess, a first cavity disposed about and concentric with the first recess, and at least one camming surface that includes a first inclined surface, a first step surface, and a first trailing edge; an adjuster plug having an opening that surrounds the cam member, a second recess proximately aligned with the first recess, a second cavity disposed about and concentric with the second recess, and at least one adjuster plug camming surface that includes a second inclined surface, a second step surface, and a second trailing edge, the first step surface abuts the second trailing edge and the second step surface abuts the first trailing edge; a torsion biasing member received within the first cavity and the second cavity, the torsion biasing member having a first end received within the first recess and having a second end received within the second recess; and a biasing member having an aperture that receives the protrusion, the biasing member compressed by a predetermined amount between the cam seating surface of the cam member and the rack shoe seating surface, the biasing member configured to exert the predetermined biasing force on the rack shoe. 19. The steering gear assembly of claim 18 , wherein the biasing member has specific load displacement characteristics, and the specific load displacement characteristics include a compliance range that represents a target load that the biasing member exerts during operation of the steering gear assembly.