Vehicle steering system

What is claimed is: 1. A vehicle steering system comprising: a rack housing having a gear rack movably supported therein; a pinion housing attached to the rack housing and having a pinion connected to a steering shaft and engaged to the gear rack, the gear rack movable in a translational manner relative to the rack housing in response to a steering input command received by the pinion; a first bracket connected to a first end portion of the gear rack and a second bracket connected to a second end portion of the gear rack, the first and second brackets being movable with the translational movement of the gear rack, each of the first and second brackets extending inwardly toward the opposite end portions of the gear rack; a first tie rod having an end portion pivotally connected to the first bracket and a second tie rod having an end portion pivotally connected to the second bracket, each of the first and second tie rods configured to steer a motive member in response to translational movement of the gear rack, the pinion housing together with the pinion being located between the respective end portions of the first and second tie rods; and a travel limit element attached to and offset in a vehicle length direction from the rack housing, the translational movement of the gear rack being controlled by engagement of each of the first bracket and the second bracket with the travel limit element, wherein the travel limit element is spaced from an outer surface of the rack housing, and includes a sleeve slidably receiving an elongated shaft, a first end portion of the shaft secured to the first bracket and a second end portion of the shaft secured to the second bracket, the pivotal connection of each of the first and second tie rods to the respective first and second brackets is forward in the vehicle length direction from a longitudinal axis of the shaft of the travel limit element. 2. The steering system of claim 1 , wherein the shaft moves together with the translational movement of the gear rack. 3. The steering system of claim 1 , wherein each of the first and second brackets moves together with the translational movement of the gear rack. 4. The steering system of claim 1 , wherein the pinion housing together with the pinion is located between the respective end portions of the first and second tie rods and offset from a center of the gear rack. 5. The steering system of claim 1 , wherein only one of the first end portion and the second end portion of the gear rack is supported in the rack housing by a single bushing positioned within the rack housing. 6. The steering system of claim 1 , wherein the pivotal connection of the first tie rod to the first bracket is aligned with a first end of the rack housing and the pivotal connection of the second tie rod to the second bracket is aligned with a second end of the rack housing. 7. The steering system of claim 1 , wherein the pivotal connection of each of the first and second tie rods is offset outwardly from the gear rack. 8. The steering system of claim 1 , wherein the sleeve is centrally located on the rack housing. 9. The steering system of claim 8 , wherein the sleeve defines a first face and a second face opposite the first face, the first bracket having a first bracket face and the second bracket having a second bracket face, the first bracket face engaging the first face of the sleeve to stop the translational movement of the gear rack in a first direction and the second bracket face engaging the second face of the sleeve to stop the translational movement of the gear rack in a second opposite direction. 10. The steering system of claim 1 , wherein the longitudinal axis of the shaft is spaced from and parallel to a longitudinal axis of the gear rack. 11. The steering system of claim 10 , wherein the sleeve and the shaft are supported substantially beneath the gear rack. 12. A vehicle steering system comprising: a rack housing having a gear rack movably supported therein; a pinion housing attached to the rack housing and having a pinion connected to a steering shaft and engaged to the gear rack, the gear rack movable in a translational manner relative to the rack housing in response to a steering input command received by the pinion; a first bracket connected to a first end portion of the gear rack and a second bracket connected to a second end portion of the gear rack, each of the first and second brackets movable with the gear rack; a first tie rod having an end portion directly pivotally connected to an outer surface of the first bracket and a second tie rod having an end portion directly pivotally connected to an outer surface of the second bracket; and a travel limit element centrally fixed to the rack housing, a translational movement of the gear rack being controlled by engagement of each of the first bracket and the second bracket with the travel limit element, wherein a distance between the pivotal connection of the first tie rod to the first bracket and the pivotal connection of the second tie rod to the second bracket is less than a distance between the first and second end portions of the gear rack, wherein the vehicle steering system is a front steering system and the first and second tie rods are configured to be coupled to front motive members to steer the front motive members based upon actuation of the steering shaft. 13. The steering system of claim 12 , wherein the pinion housing together with the pinion is located between the respective end portions of the first and second tie rods and offset from a center of the gear rack. 14. The steering system of claim 12 , wherein an end portion of each of the first bracket and the second bracket is located outwardly from the gear rack, the first bracket end portion extending toward the second end portion of the gear rack, and the second bracket end portion extending toward the first end portion of the gear rack. 15. The steering system of claim 14 , wherein the travel limit element includes a sleeve slidably receiving an elongated shaft, a first end portion of the shaft secured to the first bracket and a second end portion of the shaft secured to the second bracket, and the sleeve defines a first face and a second face opposite the first face, the first bracket engaging the first face to stop the translational movement of the gear rack in a first direction and the second bracket engaging the second face to stop the translational movement of the gear rack in a second opposite direction. 16. The steering system of claim 15 , wherein a stroke of the gear rack is confined between the pivotal connections of the first and second tie rods to the respective first and second brackets and is defined by a distance between each of the first and second brackets and the sleeve.